From ad0df4c7ff87d1790a5ed906ea341d60e0a09c56 Mon Sep 17 00:00:00 2001 From: =?UTF-8?q?Herv=C3=A9=20BREDIN?= Date: Tue, 25 Oct 2022 15:15:24 +0200 Subject: [PATCH 001/112] feat: add support for {min|max}_clusters to AgglomerativeClustering (#1113) --- pyannote/audio/pipelines/clustering.py | 102 ++++++++++++++++--------- 1 file changed, 68 insertions(+), 34 deletions(-) diff --git a/pyannote/audio/pipelines/clustering.py b/pyannote/audio/pipelines/clustering.py index 53dc0ab23..07fbc1eaa 100644 --- a/pyannote/audio/pipelines/clustering.py +++ b/pyannote/audio/pipelines/clustering.py @@ -451,70 +451,104 @@ def cluster( """ num_embeddings, _ = embeddings.shape + + # linkage function will complain when there is just one embedding to cluster if num_embeddings == 1: return np.zeros((1,), dtype=np.uint8) + # centroid, median, and Ward method only support "euclidean" metric + # therefore we unit-normalize embeddings to somehow make them "euclidean" if self.metric == "cosine" and self.method in ["centroid", "median", "ward"]: - # unit-normalize embeddings to somehow make them "euclidean" with np.errstate(divide="ignore", invalid="ignore"): embeddings /= np.linalg.norm(embeddings, axis=-1, keepdims=True) dendrogram: np.ndarray = linkage( embeddings, method=self.method, metric="euclidean" ) + # other methods work just fine with any metric else: dendrogram: np.ndarray = linkage( embeddings, method=self.method, metric=self.metric ) - if num_clusters is None: + # apply the predefined threshold + clusters = fcluster(dendrogram, self.threshold, criterion="distance") - 1 - # FIXME: revise this to account for "min_cluster_size" as there is no longer - # a direct correlation between iteration index and final number of clusters - - # FIXME: revise the assumption that threshold is increasing monotonically - # as this is not the case for centroid linkage, for instance... + # split clusters into two categories based on their number of items: + # large clusters vs. small clusters + cluster_unique, cluster_counts = np.unique( + clusters, + return_counts=True, + ) + large_clusters = cluster_unique[cluster_counts >= self.min_cluster_size] + num_large_clusters = len(large_clusters) - max_threshold: float = ( - dendrogram[-min_clusters, 2] - if min_clusters < num_embeddings - else -np.inf - ) - min_threshold: float = ( - dendrogram[-max_clusters, 2] - if max_clusters < num_embeddings - else -np.inf - ) + # force num_clusters to min_clusters in case the actual number is too small + if num_large_clusters < min_clusters: + num_clusters = min_clusters - threshold = min(max(self.threshold, min_threshold), max_threshold) + # force num_clusters to max_clusters in case the actual number is too large + elif num_large_clusters > max_clusters: + num_clusters = max_clusters else: + num_clusters = num_large_clusters - threshold = ( - dendrogram[-num_clusters, 2] - if num_clusters < num_embeddings - else -np.inf - ) + # re-run the clustering with the newly defined target num_clusters + # and go as far as possible in the merging process. - clusters = fcluster(dendrogram, threshold, criterion="distance") - 1 + # switch stopping criterion from "inter-cluster distance" stopping to "iteration index" + _dendrogram = np.copy(dendrogram) + _dendrogram[:, 2] = np.arange(num_embeddings - 1) - # split clusters into two categories based on their number of items: - # large clusters vs. small clusters - cluster_unique, cluster_counts = np.unique( - clusters, - return_counts=True, - ) + best_iteration = num_embeddings - 1 + best_num_large_clusters = 1 - large_clusters = cluster_unique[cluster_counts >= self.min_cluster_size] - if large_clusters.size == 0: + # traverse the dendrogram in reverse order (from one big cluster to plenty of small clusters) + for iteration in range(num_embeddings - 2, 0, -1): + + # only consider iterations that might have resulted in changing the number of large clusters + new_cluster_size = _dendrogram[iteration, 3] + if new_cluster_size < self.min_cluster_size: + continue + + # estimate number of large clusters at considered iteration + clusters = fcluster(_dendrogram, iteration, criterion="distance") - 1 + cluster_unique, cluster_counts = np.unique(clusters, return_counts=True) + large_clusters = cluster_unique[cluster_counts >= self.min_cluster_size] + num_large_clusters = len(large_clusters) + + # keep track of iteration that leads to the number of large clusters + # as close as possible to the target number of clusters + if abs(num_large_clusters - num_clusters) < abs( + best_num_large_clusters - num_clusters + ): + best_iteration = iteration + best_num_large_clusters = num_large_clusters + + # stop traversing the dendrogram as soon as we found a good candidate + if num_large_clusters == num_clusters: + break + + # re-apply best iteration in case we did not find a perfect candidate + if best_num_large_clusters != num_clusters: + clusters = fcluster(_dendrogram, best_iteration, criterion="distance") - 1 + cluster_unique, cluster_counts = np.unique(clusters, return_counts=True) + large_clusters = cluster_unique[cluster_counts >= self.min_cluster_size] + num_large_clusters = len(large_clusters) + print( + f"Found only {num_large_clusters} clusters. Using a smaller value than {self.min_cluster_size} for `min_cluster_size` might help." + ) + + if num_large_clusters == 0: clusters[:] = 0 return clusters small_clusters = cluster_unique[cluster_counts < self.min_cluster_size] - if small_clusters.size == 0: + if len(small_clusters) == 0: return clusters - # re-assign each small cluster to the most similar large cluster + # re-assign each small cluster to the most similar large cluster based on their respective centroids large_centroids = np.vstack( [ np.mean(embeddings[clusters == large_k], axis=0) From 0dd2842d176098b0f0dbe9324cc8e12941ace1fa Mon Sep 17 00:00:00 2001 From: =?UTF-8?q?Herv=C3=A9=20BREDIN?= Date: Tue, 25 Oct 2022 15:22:53 +0200 Subject: [PATCH 002/112] setup: switch to latest hugginface_hub API (#1114) Fixes #1065 --- pyannote/audio/core/model.py | 36 +++++++++++++++++++++++---------- pyannote/audio/core/pipeline.py | 22 +++++++++++++------- requirements.txt | 2 +- 3 files changed, 41 insertions(+), 19 deletions(-) diff --git a/pyannote/audio/core/model.py b/pyannote/audio/core/model.py index ddf4b2795..c12edb26e 100644 --- a/pyannote/audio/core/model.py +++ b/pyannote/audio/core/model.py @@ -33,7 +33,7 @@ import torch import torch.nn as nn import torch.optim -from huggingface_hub import cached_download, hf_hub_url +from huggingface_hub import hf_hub_download from pyannote.core import SlidingWindow from pytorch_lightning.utilities.cloud_io import load as pl_load from pytorch_lightning.utilities.model_summary import ModelSummary @@ -777,15 +777,21 @@ def from_pretrained( model_id = checkpoint revision = None - url = hf_hub_url( - model_id, filename=HF_PYTORCH_WEIGHTS_NAME, revision=revision - ) - path_for_pl = cached_download( - url=url, + path_for_pl = hf_hub_download( + model_id, + HF_PYTORCH_WEIGHTS_NAME, + repo_type="model", + revision=revision, library_name="pyannote", library_version=__version__, cache_dir=cache_dir, + # force_download=False, + # proxies=None, + # etag_timeout=10, + # resume_download=False, use_auth_token=use_auth_token, + # local_files_only=False, + # legacy_cache_layout=False, ) # HACK Huggingface download counters rely on config.yaml @@ -793,16 +799,24 @@ def from_pretrained( # HACK do not use it. Fails silently in case model does not # HACK have a config.yaml file. try: - config_url = hf_hub_url( - model_id, filename=HF_LIGHTNING_CONFIG_NAME, revision=revision - ) - _ = cached_download( - url=config_url, + + _ = hf_hub_download( + model_id, + HF_LIGHTNING_CONFIG_NAME, + repo_type="model", + revision=revision, library_name="pyannote", library_version=__version__, cache_dir=cache_dir, + # force_download=False, + # proxies=None, + # etag_timeout=10, + # resume_download=False, use_auth_token=use_auth_token, + # local_files_only=False, + # legacy_cache_layout=False, ) + except Exception: pass diff --git a/pyannote/audio/core/pipeline.py b/pyannote/audio/core/pipeline.py index 90daf297c..6d19453eb 100644 --- a/pyannote/audio/core/pipeline.py +++ b/pyannote/audio/core/pipeline.py @@ -28,14 +28,14 @@ from typing import Callable, List, Optional, Text, Union import yaml -from huggingface_hub import cached_download, hf_hub_url +from huggingface_hub import hf_hub_download +from pyannote.core.utils.helper import get_class_by_name +from pyannote.database import FileFinder, ProtocolFile +from pyannote.pipeline import Pipeline as _Pipeline from pyannote.audio import Audio, __version__ from pyannote.audio.core.io import AudioFile from pyannote.audio.core.model import CACHE_DIR -from pyannote.core.utils.helper import get_class_by_name -from pyannote.database import FileFinder, ProtocolFile -from pyannote.pipeline import Pipeline as _Pipeline PIPELINE_PARAMS_NAME = "config.yaml" @@ -77,14 +77,22 @@ def from_pretrained( else: model_id = checkpoint_path revision = None - url = hf_hub_url(model_id, filename=PIPELINE_PARAMS_NAME, revision=revision) - config_yml = cached_download( - url=url, + config_yml = hf_hub_download( + model_id, + PIPELINE_PARAMS_NAME, + repo_type="model", + revision=revision, library_name="pyannote", library_version=__version__, cache_dir=cache_dir, + # force_download=False, + # proxies=None, + # etag_timeout=10, + # resume_download=False, use_auth_token=use_auth_token, + # local_files_only=False, + # legacy_cache_layout=False, ) with open(config_yml, "r") as fp: diff --git a/requirements.txt b/requirements.txt index 28eeae31a..5c991ead4 100644 --- a/requirements.txt +++ b/requirements.txt @@ -2,7 +2,7 @@ asteroid-filterbanks >=0.4,<0.5 backports.cached_property einops >=0.3,<0.4.0 hmmlearn >=0.2.7,<0.3 -huggingface_hub >= 0.7,<0.11 +huggingface_hub >= 0.8.1 networkx >= 2.6,<3.0 omegaconf >=2.1,<3.0 pyannote.core >=4.4,<5.0 From a463e5cf47e5acceadec01fa97f390deb7437552 Mon Sep 17 00:00:00 2001 From: =?UTF-8?q?Herv=C3=A9=20BREDIN?= Date: Thu, 27 Oct 2022 09:21:50 +0200 Subject: [PATCH 003/112] * fix: prioritize threshold value when looking for best iteration (#1115) --- pyannote/audio/pipelines/clustering.py | 95 ++++++++++++++------------ 1 file changed, 51 insertions(+), 44 deletions(-) diff --git a/pyannote/audio/pipelines/clustering.py b/pyannote/audio/pipelines/clustering.py index 07fbc1eaa..ffb51b483 100644 --- a/pyannote/audio/pipelines/clustering.py +++ b/pyannote/audio/pipelines/clustering.py @@ -452,6 +452,12 @@ def cluster( num_embeddings, _ = embeddings.shape + # heuristic to reduce self.min_cluster_size when num_embeddings is very small + # (0.1 value is kind of arbitrary, though) + min_cluster_size = min( + self.min_cluster_size, max(1, round(0.1 * num_embeddings)) + ) + # linkage function will complain when there is just one embedding to cluster if num_embeddings == 1: return np.zeros((1,), dtype=np.uint8) @@ -480,7 +486,7 @@ def cluster( clusters, return_counts=True, ) - large_clusters = cluster_unique[cluster_counts >= self.min_cluster_size] + large_clusters = cluster_unique[cluster_counts >= min_cluster_size] num_large_clusters = len(large_clusters) # force num_clusters to min_clusters in case the actual number is too small @@ -491,60 +497,61 @@ def cluster( elif num_large_clusters > max_clusters: num_clusters = max_clusters - else: - num_clusters = num_large_clusters - - # re-run the clustering with the newly defined target num_clusters - # and go as far as possible in the merging process. - - # switch stopping criterion from "inter-cluster distance" stopping to "iteration index" - _dendrogram = np.copy(dendrogram) - _dendrogram[:, 2] = np.arange(num_embeddings - 1) + if num_clusters is not None: - best_iteration = num_embeddings - 1 - best_num_large_clusters = 1 + # switch stopping criterion from "inter-cluster distance" stopping to "iteration index" + _dendrogram = np.copy(dendrogram) + _dendrogram[:, 2] = np.arange(num_embeddings - 1) - # traverse the dendrogram in reverse order (from one big cluster to plenty of small clusters) - for iteration in range(num_embeddings - 2, 0, -1): + best_iteration = num_embeddings - 1 + best_num_large_clusters = 1 - # only consider iterations that might have resulted in changing the number of large clusters - new_cluster_size = _dendrogram[iteration, 3] - if new_cluster_size < self.min_cluster_size: - continue + # traverse the dendrogram by going further and further away + # from the "optimal" threshold - # estimate number of large clusters at considered iteration - clusters = fcluster(_dendrogram, iteration, criterion="distance") - 1 - cluster_unique, cluster_counts = np.unique(clusters, return_counts=True) - large_clusters = cluster_unique[cluster_counts >= self.min_cluster_size] - num_large_clusters = len(large_clusters) + for iteration in np.argsort(np.abs(dendrogram[:, 2] - self.threshold)): - # keep track of iteration that leads to the number of large clusters - # as close as possible to the target number of clusters - if abs(num_large_clusters - num_clusters) < abs( - best_num_large_clusters - num_clusters - ): - best_iteration = iteration - best_num_large_clusters = num_large_clusters - - # stop traversing the dendrogram as soon as we found a good candidate - if num_large_clusters == num_clusters: - break + # only consider iterations that might have resulted + # in changing the number of (large) clusters + new_cluster_size = _dendrogram[iteration, 3] + if new_cluster_size < min_cluster_size: + continue - # re-apply best iteration in case we did not find a perfect candidate - if best_num_large_clusters != num_clusters: - clusters = fcluster(_dendrogram, best_iteration, criterion="distance") - 1 - cluster_unique, cluster_counts = np.unique(clusters, return_counts=True) - large_clusters = cluster_unique[cluster_counts >= self.min_cluster_size] - num_large_clusters = len(large_clusters) - print( - f"Found only {num_large_clusters} clusters. Using a smaller value than {self.min_cluster_size} for `min_cluster_size` might help." - ) + # estimate number of large clusters at considered iteration + clusters = fcluster(_dendrogram, iteration, criterion="distance") - 1 + cluster_unique, cluster_counts = np.unique(clusters, return_counts=True) + large_clusters = cluster_unique[cluster_counts >= min_cluster_size] + num_large_clusters = len(large_clusters) + + # keep track of iteration that leads to the number of large clusters + # as close as possible to the target number of clusters. + if abs(num_large_clusters - num_clusters) < abs( + best_num_large_clusters - num_clusters + ): + best_iteration = iteration + best_num_large_clusters = num_large_clusters + + # stop traversing the dendrogram as soon as we found a good candidate + if num_large_clusters == num_clusters: + break + + # re-apply best iteration in case we did not find a perfect candidate + if best_num_large_clusters != num_clusters: + clusters = ( + fcluster(_dendrogram, best_iteration, criterion="distance") - 1 + ) + cluster_unique, cluster_counts = np.unique(clusters, return_counts=True) + large_clusters = cluster_unique[cluster_counts >= min_cluster_size] + num_large_clusters = len(large_clusters) + print( + f"Found only {num_large_clusters} clusters. Using a smaller value than {min_cluster_size} for `min_cluster_size` might help." + ) if num_large_clusters == 0: clusters[:] = 0 return clusters - small_clusters = cluster_unique[cluster_counts < self.min_cluster_size] + small_clusters = cluster_unique[cluster_counts < min_cluster_size] if len(small_clusters) == 0: return clusters From f700d6ea8dedd42e7c822c3b44b46a952e62a585 Mon Sep 17 00:00:00 2001 From: =?UTF-8?q?Herv=C3=A9=20BREDIN?= Date: Thu, 27 Oct 2022 21:21:17 +0200 Subject: [PATCH 004/112] feat: add support for private and gated hf.co models (#1064) --- README.md | 11 +- pyannote/audio/core/model.py | 53 +- pyannote/audio/core/pipeline.py | 54 +- pyannote/audio/interactive/pipeline/recipe.py | 2 +- pyannote/audio/pipelines/multilabel.py | 39 +- .../pipelines/overlapped_speech_detection.py | 17 +- pyannote/audio/pipelines/resegmentation.py | 9 +- pyannote/audio/pipelines/segmentation.py | 26 +- .../audio/pipelines/speaker_diarization.py | 11 +- .../audio/pipelines/speaker_verification.py | 46 +- pyannote/audio/pipelines/utils/getter.py | 14 +- .../pipelines/voice_activity_detection.py | 23 +- tutorials/applying_a_model.ipynb | 123 +- tutorials/applying_a_pipeline.ipynb | 113 +- tutorials/intro.ipynb | 3304 +++++++++-------- tutorials/training_a_model.ipynb | 118 +- 16 files changed, 2254 insertions(+), 1709 deletions(-) diff --git a/README.md b/README.md index fc779a2c9..035a03e93 100644 --- a/README.md +++ b/README.md @@ -11,14 +11,17 @@ ```python -# instantiate pretrained speaker diarization pipeline +# 1. visit hf.co/pyannote/speaker-diarization and accept user conditions (only if requested) +# 2. visit hf.co/settings/tokens to create an access token (only if you had to go through 1.) +# 3. instantiate pretrained speaker diarization pipeline from pyannote.audio import Pipeline -pipeline = Pipeline.from_pretrained("pyannote/speaker-diarization") +pipeline = Pipeline.from_pretrained("pyannote/speaker-diarization", + use_auth_token="ACCESS_TOKEN_GOES_HERE") -# apply pretrained pipeline +# 4. apply pretrained pipeline diarization = pipeline("audio.wav") -# print the result +# 5. print the result for turn, _, speaker in diarization.itertracks(yield_label=True): print(f"start={turn.start:.1f}s stop={turn.end:.1f}s speaker_{speaker}") # start=0.2s stop=1.5s speaker_A diff --git a/pyannote/audio/core/model.py b/pyannote/audio/core/model.py index c12edb26e..2a49360b9 100644 --- a/pyannote/audio/core/model.py +++ b/pyannote/audio/core/model.py @@ -34,6 +34,7 @@ import torch.nn as nn import torch.optim from huggingface_hub import hf_hub_download +from huggingface_hub.utils import RepositoryNotFoundError from pyannote.core import SlidingWindow from pytorch_lightning.utilities.cloud_io import load as pl_load from pytorch_lightning.utilities.model_summary import ModelSummary @@ -415,6 +416,10 @@ def on_save_checkpoint(self, checkpoint): @staticmethod def check_version(library: Text, theirs: Text, mine: Text): + + theirs = ".".join(theirs.split(".")[:3]) + mine = ".".join(mine.split(".")[:3]) + theirs = VersionInfo.parse(theirs) mine = VersionInfo.parse(mine) if theirs.major != mine.major: @@ -777,22 +782,38 @@ def from_pretrained( model_id = checkpoint revision = None - path_for_pl = hf_hub_download( - model_id, - HF_PYTORCH_WEIGHTS_NAME, - repo_type="model", - revision=revision, - library_name="pyannote", - library_version=__version__, - cache_dir=cache_dir, - # force_download=False, - # proxies=None, - # etag_timeout=10, - # resume_download=False, - use_auth_token=use_auth_token, - # local_files_only=False, - # legacy_cache_layout=False, - ) + try: + path_for_pl = hf_hub_download( + model_id, + HF_PYTORCH_WEIGHTS_NAME, + repo_type="model", + revision=revision, + library_name="pyannote", + library_version=__version__, + cache_dir=cache_dir, + # force_download=False, + # proxies=None, + # etag_timeout=10, + # resume_download=False, + use_auth_token=use_auth_token, + # local_files_only=False, + # legacy_cache_layout=False, + ) + except RepositoryNotFoundError: + print( + f""" +Could not download '{model_id}' model. +It might be because the model is private or gated so make +sure to authenticate. Visit https://hf.co/settings/tokens to +create your access token and retry with: + + >>> Model.from_pretrained('{model_id}', + ... use_auth_token=YOUR_AUTH_TOKEN) + +If this still does not work, it might be because the model is gated: +visit https://hf.co/{model_id} to accept the user conditions.""" + ) + return None # HACK Huggingface download counters rely on config.yaml # HACK Therefore we download config.yaml even though we diff --git a/pyannote/audio/core/pipeline.py b/pyannote/audio/core/pipeline.py index 6d19453eb..1c28e52f5 100644 --- a/pyannote/audio/core/pipeline.py +++ b/pyannote/audio/core/pipeline.py @@ -29,6 +29,7 @@ import yaml from huggingface_hub import hf_hub_download +from huggingface_hub.utils import RepositoryNotFoundError from pyannote.core.utils.helper import get_class_by_name from pyannote.database import FileFinder, ProtocolFile from pyannote.pipeline import Pipeline as _Pipeline @@ -78,22 +79,39 @@ def from_pretrained( model_id = checkpoint_path revision = None - config_yml = hf_hub_download( - model_id, - PIPELINE_PARAMS_NAME, - repo_type="model", - revision=revision, - library_name="pyannote", - library_version=__version__, - cache_dir=cache_dir, - # force_download=False, - # proxies=None, - # etag_timeout=10, - # resume_download=False, - use_auth_token=use_auth_token, - # local_files_only=False, - # legacy_cache_layout=False, - ) + try: + config_yml = hf_hub_download( + model_id, + PIPELINE_PARAMS_NAME, + repo_type="model", + revision=revision, + library_name="pyannote", + library_version=__version__, + cache_dir=cache_dir, + # force_download=False, + # proxies=None, + # etag_timeout=10, + # resume_download=False, + use_auth_token=use_auth_token, + # local_files_only=False, + # legacy_cache_layout=False, + ) + + except RepositoryNotFoundError: + print( + f""" +Could not download '{model_id}' pipeline. +It might be because the pipeline is private or gated so make +sure to authenticate. Visit https://hf.co/settings/tokens to +create your access token and retry with: + + >>> Pipeline.from_pretrained('{model_id}', + ... use_auth_token=YOUR_AUTH_TOKEN) + +If this still does not work, it might be because the pipeline is gated: +visit https://hf.co/{model_id} to accept the user conditions.""" + ) + return None with open(config_yml, "r") as fp: config = yaml.load(fp, Loader=yaml.SafeLoader) @@ -103,7 +121,9 @@ def from_pretrained( Klass = get_class_by_name( pipeline_name, default_module_name="pyannote.pipeline.blocks" ) - pipeline = Klass(**config["pipeline"].get("params", {})) + params = config["pipeline"].get("params", {}) + params.setdefault("use_auth_token", use_auth_token) + pipeline = Klass(**params) # freeze parameters if "freeze" in config: diff --git a/pyannote/audio/interactive/pipeline/recipe.py b/pyannote/audio/interactive/pipeline/recipe.py index 271a678f7..df9cc06b7 100644 --- a/pyannote/audio/interactive/pipeline/recipe.py +++ b/pyannote/audio/interactive/pipeline/recipe.py @@ -175,7 +175,7 @@ def pipeline( beep: bool = False, ) -> Dict[str, Any]: - pipeline = Pipeline.from_pretrained(pipeline) + pipeline = Pipeline.from_pretrained(pipeline, use_auth_token=True) classes = pipeline.classes() if isinstance(classes, Iterator): diff --git a/pyannote/audio/pipelines/multilabel.py b/pyannote/audio/pipelines/multilabel.py index 16990df6d..0f6e3211d 100644 --- a/pyannote/audio/pipelines/multilabel.py +++ b/pyannote/audio/pipelines/multilabel.py @@ -25,7 +25,7 @@ # Hervé BREDIN - http://herve.niderb.fr -from typing import Callable, Optional, Union +from typing import Callable, Optional, Text, Union from pyannote.core import Annotation, SlidingWindowFeature from pyannote.metrics.identification import IdentificationErrorRate @@ -53,6 +53,10 @@ class MultiLabelSegmentation(Pipeline): Defaults to optimizing identification error rate. share_min_duration : bool, optional If True, `min_duration_on` and `min_duration_off` are shared among labels. + use_auth_token : str, optional + When loading private huggingface.co models, set `use_auth_token` + to True or to a string containing your hugginface.co authentication + token that can be obtained by running `huggingface-cli login` inference_kwargs : dict, optional Keywords arguments passed to Inference. @@ -70,11 +74,12 @@ class MultiLabelSegmentation(Pipeline): """ def __init__( - self, - segmentation: PipelineModel = None, - fscore: bool = False, - share_min_duration: bool = False, - **inference_kwargs, + self, + segmentation: PipelineModel = None, + fscore: bool = False, + share_min_duration: bool = False, + use_auth_token: Union[Text, None] = None, + **inference_kwargs, ): super().__init__() @@ -87,9 +92,9 @@ def __init__( self.segmentation = segmentation self.fscore = fscore self.share_min_duration = share_min_duration - + # load model and send it to GPU (when available and not already on GPU) - model = get_model(segmentation) + model = get_model(segmentation, use_auth_token=use_auth_token) if model.device.type == "cpu": (segmentation_device,) = get_devices(needs=1) model.to(segmentation_device) @@ -134,12 +139,16 @@ def initialize(self): label: Binarize( onset=self.thresholds[label]["onset"], offset=self.thresholds[label]["offset"], - min_duration_on=(self.thresholds[label]["min_duration_on"] - if not self.share_min_duration - else self.min_duration_on), # noqa - min_duration_off=(self.thresholds[label]["min_duration_off"] - if not self.share_min_duration - else self.min_duration_off) , # noqa + min_duration_on=( + self.thresholds[label]["min_duration_on"] + if not self.share_min_duration + else self.min_duration_on + ), # noqa + min_duration_off=( + self.thresholds[label]["min_duration_off"] + if not self.share_min_duration + else self.min_duration_off + ), # noqa ) for label in self._classes } @@ -185,7 +194,7 @@ def apply(self, file: AudioFile, hook: Optional[Callable] = None) -> Annotation: for i, label in enumerate(self._classes): # extract raw segmentation of current label label_segmentation = SlidingWindowFeature( - segmentations.data[:, i: i + 1], segmentations.sliding_window + segmentations.data[:, i : i + 1], segmentations.sliding_window ) # obtain hard segments label_annotation: Annotation = self._binarize[label](label_segmentation) diff --git a/pyannote/audio/pipelines/overlapped_speech_detection.py b/pyannote/audio/pipelines/overlapped_speech_detection.py index 6d8a8e7f9..2d07a76c7 100644 --- a/pyannote/audio/pipelines/overlapped_speech_detection.py +++ b/pyannote/audio/pipelines/overlapped_speech_detection.py @@ -22,19 +22,19 @@ """Overlapped speech detection pipelines""" -from typing import Optional, Callable +from typing import Callable, Optional, Text, Union import numpy as np +from pyannote.core import Annotation, SlidingWindowFeature, Timeline +from pyannote.database import get_annotated +from pyannote.metrics.detection import DetectionPrecisionRecallFMeasure +from pyannote.pipeline.parameter import Uniform from pyannote.audio import Inference from pyannote.audio.core.io import AudioFile from pyannote.audio.core.pipeline import Pipeline from pyannote.audio.pipelines.utils import PipelineModel, get_devices, get_model from pyannote.audio.utils.signal import Binarize -from pyannote.core import Annotation, Timeline, SlidingWindowFeature -from pyannote.database import get_annotated -from pyannote.metrics.detection import DetectionPrecisionRecallFMeasure -from pyannote.pipeline.parameter import Uniform def to_overlap(annotation: Annotation) -> Annotation: @@ -95,6 +95,10 @@ class OverlappedSpeechDetection(Pipeline): recall : float, optional Optimize precision at target recall Defaults to optimize precision/recall fscore + use_auth_token : str, optional + When loading private huggingface.co models, set `use_auth_token` + to True or to a string containing your hugginface.co authentication + token that can be obtained by running `huggingface-cli login` inference_kwargs : dict, optional Keywords arguments passed to Inference. @@ -113,6 +117,7 @@ def __init__( segmentation: PipelineModel = "pyannote/segmentation", precision: Optional[float] = None, recall: Optional[float] = None, + use_auth_token: Union[Text, None] = None, **inference_kwargs, ): super().__init__() @@ -120,7 +125,7 @@ def __init__( self.segmentation = segmentation # load model and send it to GPU (when available and not already on GPU) - model = get_model(segmentation) + model = get_model(segmentation, use_auth_token=use_auth_token) if model.device.type == "cpu": (segmentation_device,) = get_devices(needs=1) model.to(segmentation_device) diff --git a/pyannote/audio/pipelines/resegmentation.py b/pyannote/audio/pipelines/resegmentation.py index 659a18fe5..7e3969a2a 100644 --- a/pyannote/audio/pipelines/resegmentation.py +++ b/pyannote/audio/pipelines/resegmentation.py @@ -22,7 +22,7 @@ """Resegmentation pipeline""" -from typing import Callable, Optional, Text +from typing import Callable, Optional, Text, Union import numpy as np from pyannote.core import Annotation, Segment, SlidingWindowFeature @@ -66,6 +66,10 @@ class Resegmentation(SpeakerDiarizationMixin, Pipeline): Optimize for a variant of diarization error rate. Defaults to {"collar": 0.0, "skip_overlap": False}. This is used in `get_metric` when instantiating the metric: GreedyDiarizationErrorRate(**der_variant). + use_auth_token : str, optional + When loading private huggingface.co models, set `use_auth_token` + to True or to a string containing your hugginface.co authentication + token that can be obtained by running `huggingface-cli login` Hyper-parameters ---------------- @@ -82,6 +86,7 @@ def __init__( segmentation: PipelineModel = "pyannote/segmentation", diarization: Text = "diarization", der_variant: dict = None, + use_auth_token: Union[Text, None] = None, ): super().__init__() @@ -89,7 +94,7 @@ def __init__( self.segmentation = segmentation self.diarization = diarization - model: Model = get_model(segmentation) + model: Model = get_model(segmentation, use_auth_token=use_auth_token) (device,) = get_devices(needs=1) model.to(device) self._segmentation = Inference(model) diff --git a/pyannote/audio/pipelines/segmentation.py b/pyannote/audio/pipelines/segmentation.py index 31ff1848b..34eb207c9 100644 --- a/pyannote/audio/pipelines/segmentation.py +++ b/pyannote/audio/pipelines/segmentation.py @@ -22,29 +22,30 @@ """Speaker segmentation pipeline""" -from typing import Callable, Optional import math -import numpy as np +from typing import Callable, Optional, Text, Union + import networkx as nx +import numpy as np from pyannote.core import SlidingWindowFeature from pyannote.pipeline.parameter import Uniform -from pyannote.audio.core.pipeline import Pipeline from pyannote.audio.core.inference import Inference -from pyannote.audio.core.model import Model from pyannote.audio.core.io import AudioFile +from pyannote.audio.core.model import Model +from pyannote.audio.core.pipeline import Pipeline from pyannote.audio.pipelines.utils import ( PipelineModel, SpeakerDiarizationMixin, get_devices, get_model, ) -from pyannote.audio.utils.signal import binarize from pyannote.audio.utils.metric import ( DiscreteDiarizationErrorRate, SlidingDiarizationErrorRate, ) from pyannote.audio.utils.permutation import mae_cost_func, permutate +from pyannote.audio.utils.signal import binarize class SpeakerSegmentation(SpeakerDiarizationMixin, Pipeline): @@ -59,6 +60,10 @@ class SpeakerSegmentation(SpeakerDiarizationMixin, Pipeline): Skip final conversion to pyannote.core.Annotation. Defaults to False. skip_stitching : bool, optional Skip stitching step. Defaults to False + use_auth_token : str, optional + When loading private huggingface.co models, set `use_auth_token` + to True or to a string containing your hugginface.co authentication + token that can be obtained by running `huggingface-cli login` Hyper-parameters ---------------- @@ -80,6 +85,7 @@ def __init__( segmentation: PipelineModel = "pyannote/segmentation", skip_conversion: bool = False, skip_stitching: bool = False, + use_auth_token: Union[Text, None] = None, ): super().__init__() @@ -87,7 +93,7 @@ def __init__( self.skip_stitching = skip_stitching self.skip_conversion = skip_conversion - model: Model = get_model(segmentation) + model: Model = get_model(segmentation, use_auth_token=use_auth_token) (device,) = get_devices(needs=1) model.to(device) self._segmentation = Inference(model) @@ -126,7 +132,10 @@ def default_parameters(self): if not (self.skip_stitching or self.skip_conversion): parameters.update( - {"min_duration_on": 0.0, "min_duration_off": 0.0,} + { + "min_duration_on": 0.0, + "min_duration_off": 0.0, + } ) return parameters @@ -140,7 +149,7 @@ def get_stitching_graph( segmentations: SlidingWindowFeature, onset: float = 0.5 ) -> nx.Graph: """Build stitching graph - + Parameters ---------- segmentations : (num_chunks, num_frames, local_num_speakers)-shaped SlidingWindowFeature @@ -349,4 +358,3 @@ def get_metric(self): ) return SlidingDiarizationErrorRate(window=2.0 * self._segmentation.duration) - diff --git a/pyannote/audio/pipelines/speaker_diarization.py b/pyannote/audio/pipelines/speaker_diarization.py index d93116bd6..348e1cf11 100644 --- a/pyannote/audio/pipelines/speaker_diarization.py +++ b/pyannote/audio/pipelines/speaker_diarization.py @@ -24,7 +24,7 @@ import itertools import math -from typing import Callable, Optional +from typing import Callable, Optional, Text, Union import numpy as np import torch @@ -86,6 +86,10 @@ class SpeakerDiarization(SpeakerDiarizationMixin, Pipeline): Optimize for a variant of diarization error rate. Defaults to {"collar": 0.0, "skip_overlap": False}. This is used in `get_metric` when instantiating the metric: GreedyDiarizationErrorRate(**der_variant). + use_auth_token : str, optional + When loading private huggingface.co models, set `use_auth_token` + to True or to a string containing your hugginface.co authentication + token that can be obtained by running `huggingface-cli login` Usage ----- @@ -112,12 +116,13 @@ def __init__( embedding_batch_size: int = 32, segmentation_batch_size: int = 32, der_variant: dict = None, + use_auth_token: Union[Text, None] = None, ): super().__init__() self.segmentation_model = segmentation - model: Model = get_model(segmentation) + model: Model = get_model(segmentation, use_auth_token=use_auth_token) self.segmentation_batch_size = segmentation_batch_size self.segmentation_duration = ( @@ -156,7 +161,7 @@ def __init__( else: self._embedding = PretrainedSpeakerEmbedding( - self.embedding, device=emb_device + self.embedding, device=emb_device, use_auth_token=use_auth_token ) self._audio = Audio(sample_rate=self._embedding.sample_rate, mono=True) metric = self._embedding.metric diff --git a/pyannote/audio/pipelines/speaker_verification.py b/pyannote/audio/pipelines/speaker_verification.py index bbbf1f17e..1ebd40fdc 100644 --- a/pyannote/audio/pipelines/speaker_verification.py +++ b/pyannote/audio/pipelines/speaker_verification.py @@ -27,7 +27,7 @@ except ImportError: from backports.cached_property import cached_property -from typing import Text +from typing import Text, Union import numpy as np import torch @@ -202,6 +202,10 @@ class SpeechBrainPretrainedSpeakerEmbedding: Name of SpeechBrain model device : torch.device, optional Device + use_auth_token : str, optional + When loading private huggingface.co models, set `use_auth_token` + to True or to a string containing your hugginface.co authentication + token that can be obtained by running `huggingface-cli login` Usage ----- @@ -222,6 +226,7 @@ def __init__( self, embedding: Text = "speechbrain/spkrec-ecapa-voxceleb", device: torch.device = None, + use_auth_token: Union[Text, None] = None, ): if not SPEECHBRAIN_IS_AVAILABLE: @@ -238,6 +243,7 @@ def __init__( source=self.embedding, savedir=f"{CACHE_DIR}/speechbrain", run_opts={"device": self.device}, + use_auth_token=use_auth_token, ) @cached_property @@ -352,6 +358,10 @@ class PyannoteAudioPretrainedSpeakerEmbedding: pyannote.audio model device : torch.device, optional Device + use_auth_token : str, optional + When loading private huggingface.co models, set `use_auth_token` + to True or to a string containing your hugginface.co authentication + token that can be obtained by running `huggingface-cli login` Usage ----- @@ -372,12 +382,13 @@ def __init__( self, embedding: PipelineModel = "pyannote/embedding", device: torch.device = None, + use_auth_token: Union[Text, None] = None, ): super().__init__() self.embedding = embedding self.device = device - self.model_: Model = get_model(self.embedding) + self.model_: Model = get_model(self.embedding, use_auth_token=use_auth_token) self.model_.eval() self.model_.to(self.device) @@ -412,7 +423,11 @@ def __call__( return embeddings.cpu().numpy() -def PretrainedSpeakerEmbedding(embedding: PipelineModel, device: torch.device = None): +def PretrainedSpeakerEmbedding( + embedding: PipelineModel, + device: torch.device = None, + use_auth_token: Union[Text, None] = None, +): """Pretrained speaker embedding Parameters @@ -422,6 +437,10 @@ def PretrainedSpeakerEmbedding(embedding: PipelineModel, device: torch.device = or a pyannote.audio model. device : torch.device, optional Device + use_auth_token : str, optional + When loading private huggingface.co models, set `use_auth_token` + to True or to a string containing your hugginface.co authentication + token that can be obtained by running `huggingface-cli login` Usage ----- @@ -441,13 +460,17 @@ def PretrainedSpeakerEmbedding(embedding: PipelineModel, device: torch.device = """ if isinstance(embedding, str) and "speechbrain" in embedding: - return SpeechBrainPretrainedSpeakerEmbedding(embedding, device=device) + return SpeechBrainPretrainedSpeakerEmbedding( + embedding, device=device, use_auth_token=use_auth_token + ) elif isinstance(embedding, str) and "nvidia" in embedding: return NeMoPretrainedSpeakerEmbedding(embedding, device=device) else: - return PyannoteAudioPretrainedSpeakerEmbedding(embedding, device=device) + return PyannoteAudioPretrainedSpeakerEmbedding( + embedding, device=device, use_auth_token=use_auth_token + ) class SpeakerEmbedding(Pipeline): @@ -465,6 +488,10 @@ class SpeakerEmbedding(Pipeline): Pretrained segmentation (or voice activity detection) model. See pyannote.audio.pipelines.utils.get_model for supported format. Defaults to no voice activity detection. + use_auth_token : str, optional + When loading private huggingface.co models, set `use_auth_token` + to True or to a string containing your hugginface.co authentication + token that can be obtained by running `huggingface-cli login` Usage ----- @@ -480,18 +507,23 @@ def __init__( self, embedding: PipelineModel = "pyannote/embedding", segmentation: PipelineModel = None, + use_auth_token: Union[Text, None] = None, ): super().__init__() self.embedding = embedding self.segmentation = segmentation - self.embedding_model_: Model = get_model(embedding) + self.embedding_model_: Model = get_model( + embedding, use_auth_token=use_auth_token + ) if self.segmentation is None: models = [self.embedding_model_] else: - segmentation_model: Model = get_model(self.segmentation) + segmentation_model: Model = get_model( + self.segmentation, use_auth_token=use_auth_token + ) models = [self.embedding_model_, segmentation_model] # send models to GPU (when GPUs are available and model is not already on GPU) diff --git a/pyannote/audio/pipelines/utils/getter.py b/pyannote/audio/pipelines/utils/getter.py index 3550e4854..4c589ad05 100644 --- a/pyannote/audio/pipelines/utils/getter.py +++ b/pyannote/audio/pipelines/utils/getter.py @@ -32,7 +32,10 @@ PipelineModel = Union[Model, Text, Mapping] -def get_model(model: PipelineModel) -> Model: +def get_model( + model: PipelineModel, + use_auth_token: Union[Text, None] = None, +) -> Model: """Load pretrained model and set it into `eval` mode. Parameter @@ -42,6 +45,10 @@ def get_model(model: PipelineModel) -> Model: When `str`, assumes that this is either the path to a checkpoint or the name of a pretrained model on Huggingface.co and loads with `Model.from_pretrained(model)` When `dict`, loads with `Model.from_pretrained(**model)`. + use_auth_token : str, optional + When loading a private or gated huggingface.co pipeline, set `use_auth_token` + to True or to a string containing your hugginface.co authentication + token that can be obtained by visiting https://hf.co/settings/tokens Returns ------- @@ -65,9 +72,12 @@ def get_model(model: PipelineModel) -> Model: pass elif isinstance(model, Text): - model = Model.from_pretrained(model, strict=False) + model = Model.from_pretrained( + model, use_auth_token=use_auth_token, strict=False + ) elif isinstance(model, Mapping): + model.setdefault("use_auth_token", use_auth_token) model = Model.from_pretrained(**model) else: diff --git a/pyannote/audio/pipelines/voice_activity_detection.py b/pyannote/audio/pipelines/voice_activity_detection.py index b14eab69c..b146758ae 100644 --- a/pyannote/audio/pipelines/voice_activity_detection.py +++ b/pyannote/audio/pipelines/voice_activity_detection.py @@ -25,9 +25,16 @@ import tempfile from copy import deepcopy from types import MethodType -from typing import Optional, Union, Callable +from typing import Callable, Optional, Text, Union import numpy as np +from pyannote.core import Annotation, SlidingWindowFeature +from pyannote.database.protocol import SpeakerDiarizationProtocol +from pyannote.metrics.detection import ( + DetectionErrorRate, + DetectionPrecisionRecallFMeasure, +) +from pyannote.pipeline.parameter import Categorical, Integer, LogUniform, Uniform from pytorch_lightning import Trainer from torch.optim import SGD from torch_audiomentations.core.transforms_interface import BaseWaveformTransform @@ -47,13 +54,6 @@ ) from pyannote.audio.tasks import VoiceActivityDetection as VoiceActivityDetectionTask from pyannote.audio.utils.signal import Binarize -from pyannote.core import Annotation, SlidingWindowFeature -from pyannote.database.protocol import SpeakerDiarizationProtocol -from pyannote.metrics.detection import ( - DetectionErrorRate, - DetectionPrecisionRecallFMeasure, -) -from pyannote.pipeline.parameter import Categorical, Integer, LogUniform, Uniform class OracleVoiceActivityDetection(Pipeline): @@ -90,6 +90,10 @@ class VoiceActivityDetection(Pipeline): fscore : bool, optional Optimize (precision/recall) fscore. Defaults to optimizing detection error rate. + use_auth_token : str, optional + When loading private huggingface.co models, set `use_auth_token` + to True or to a string containing your hugginface.co authentication + token that can be obtained by running `huggingface-cli login` inference_kwargs : dict, optional Keywords arguments passed to Inference. @@ -107,6 +111,7 @@ def __init__( self, segmentation: PipelineModel = "pyannote/segmentation", fscore: bool = False, + use_auth_token: Union[Text, None] = None, **inference_kwargs, ): super().__init__() @@ -115,7 +120,7 @@ def __init__( self.fscore = fscore # load model and send it to GPU (when available and not already on GPU) - model = get_model(segmentation) + model = get_model(segmentation, use_auth_token=use_auth_token) if model.device.type == "cpu": (segmentation_device,) = get_devices(needs=1) model.to(segmentation_device) diff --git a/tutorials/applying_a_model.ipynb b/tutorials/applying_a_model.ipynb index 3c10d82f5..2319ab064 100644 --- a/tutorials/applying_a_model.ipynb +++ b/tutorials/applying_a_model.ipynb @@ -2,7 +2,7 @@ "cells": [ { "cell_type": "code", - "execution_count": 1, + "execution_count": null, "metadata": {}, "outputs": [], "source": [ @@ -23,28 +23,28 @@ }, { "cell_type": "code", - "execution_count": 2, + "execution_count": null, "metadata": {}, "outputs": [], "source": [ "# clone pyannote-audio Github repository and update ROOT_DIR accordingly\n", - "ROOT_DIR = \"/Users/bredin/Development/pyannote/pyannote-audio\"\n", + "ROOT_DIR = \"/Users/hbredin/Development/pyannote/pyannote-audio\"\n", "AUDIO_FILE = f\"{ROOT_DIR}/tutorials/assets/sample.wav\"" ] }, { "cell_type": "code", - "execution_count": 3, + "execution_count": null, "metadata": {}, "outputs": [ { "data": { - "image/png": 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"text/plain": [ - "" + "" ] }, - "execution_count": 3, + "execution_count": null, "metadata": {}, "output_type": "execute_result" } @@ -67,18 +67,19 @@ }, { "cell_type": "code", - "execution_count": 4, + "execution_count": null, "metadata": {}, "outputs": [ { "data": { "text/plain": [ - "['pyannote/TestModelForContinuousIntegration',\n", + "['pyannote/segmentation',\n", " 'pyannote/embedding',\n", - " 'pyannote/segmentation']" + " 'pyannote/TestModelForContinuousIntegration',\n", + " 'pyannote/Segmentation-PyanNet-DIHARD']" ] }, - "execution_count": 4, + "execution_count": null, "metadata": {}, "output_type": "execute_result" } @@ -93,28 +94,43 @@ "cell_type": "markdown", "metadata": {}, "source": [ - "Let's load the speaker segmentation model..." + "To load the speaker segmentation model, \n", + "\n", + "* accept the user conditions on [hf.co/pyannote/segmentation](https://hf.co/pyannote/segmentation).\n", + "* login using `notebook_login` below" ] }, { "cell_type": "code", - "execution_count": 5, + "execution_count": null, "metadata": {}, "outputs": [ { - "name": "stderr", + "name": "stdout", "output_type": "stream", "text": [ - "/Users/bredin/miniconda3/envs/pyannote/lib/python3.8/site-packages/pytorch_lightning/core/memory.py:16: LightningDeprecationWarning: `pytorch_lightning.core.memory.get_memory_profile` and `pytorch_lightning.core.memory.get_gpu_memory_map` have been moved to `pytorch_lightning.utilities.memory` since v1.5 and will be removed in v1.7.\n", - " rank_zero_deprecation(\n", - "/Users/bredin/miniconda3/envs/pyannote/lib/python3.8/site-packages/pytorch_lightning/core/memory.py:25: LightningDeprecationWarning: `pytorch_lightning.core.memory.LayerSummary` and `pytorch_lightning.core.memory.ModelSummary` have been moved to `pytorch_lightning.utilities.model_summary` since v1.5 and will be removed in v1.7.\n", - " rank_zero_deprecation(\n" + "Login successful\n", + "Your token has been saved to /Users/hbredin/.huggingface/token\n", + "\u001b[1m\u001b[31mAuthenticated through git-credential store but this isn't the helper defined on your machine.\n", + "You might have to re-authenticate when pushing to the Hugging Face Hub. Run the following command in your terminal in case you want to set this credential helper as the default\n", + "\n", + "git config --global credential.helper store\u001b[0m\n" ] } ], + "source": [ + "from huggingface_hub import notebook_login\n", + "notebook_login()" + ] + }, + { + "cell_type": "code", + "execution_count": null, + "metadata": {}, + "outputs": [], "source": [ "from pyannote.audio import Model\n", - "model = Model.from_pretrained(\"pyannote/segmentation\")" + "model = Model.from_pretrained(\"pyannote/segmentation\", use_auth_token=True)" ] }, { @@ -126,7 +142,7 @@ }, { "cell_type": "code", - "execution_count": 6, + "execution_count": null, "metadata": {}, "outputs": [ { @@ -137,16 +153,16 @@ "0 | sincnet | SincNet | 42.6 K | [3, 1, 32000] | [3, 60, 115] \n", "1 | lstm | LSTM | 1.4 M | [3, 115, 60] | [[3, 115, 256], [[8, 3, 128], [8, 3, 128]]]\n", "2 | linear | ModuleList | 49.4 K | ? | ? \n", - "3 | classifier | Linear | 516 | [3, 115, 128] | [3, 115, 4] \n", - "4 | activation | Sigmoid | 0 | [3, 115, 4] | [3, 115, 4] \n", + "3 | classifier | Linear | 387 | [3, 115, 128] | [3, 115, 3] \n", + "4 | activation | Sigmoid | 0 | [3, 115, 3] | [3, 115, 3] \n", "--------------------------------------------------------------------------------------------------------\n", "1.5 M Trainable params\n", "0 Non-trainable params\n", "1.5 M Total params\n", - "5.892 Total estimated model params size (MB)" + "5.891 Total estimated model params size (MB)" ] }, - "execution_count": 6, + "execution_count": null, "metadata": {}, "output_type": "execute_result" } @@ -164,16 +180,16 @@ }, { "cell_type": "code", - "execution_count": 7, + "execution_count": null, "metadata": {}, "outputs": [ { "data": { "text/plain": [ - "Specifications(problem=, resolution=, duration=5.0, warm_up=(0.0, 0.0), classes=['speaker#1', 'speaker#2', 'speaker#3', 'speaker#4'], permutation_invariant=True)" + "Specifications(problem=, resolution=, duration=5.0, warm_up=(0.0, 0.0), classes=['speaker#1', 'speaker#2', 'speaker#3'], permutation_invariant=True)" ] }, - "execution_count": 7, + "execution_count": null, "metadata": {}, "output_type": "execute_result" } @@ -190,7 +206,7 @@ "... which can be understood like that:\n", "\n", "* `duration = 5.0`: the model ingests 5s-long audio chunks\n", - "* `Resolution.FRAME` and `len(classes) == 4`: the model output a sequence of frame-wise 4-dimensoinal scores\n", + "* `Resolution.FRAME` and `len(classes) == 3`: the model output a sequence of frame-wise 3-dimensoinal scores\n", "* `Problem.MULTI_LABEL_CLASSIFICATION` for each frame, more than one speaker can be active at once" ] }, @@ -203,17 +219,17 @@ }, { "cell_type": "code", - "execution_count": 8, + "execution_count": null, "metadata": {}, "outputs": [ { "data": { - "image/png": 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", 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"text/plain": [ - "" + "" ] }, - "execution_count": 8, + "execution_count": null, "metadata": {}, "output_type": "execute_result" } @@ -229,21 +245,21 @@ "cell_type": "markdown", "metadata": {}, "source": [ - "For each of the 11 positions of the 5s window, the model outputs a 4-dimensional vector every 16ms (293 frames for 5 seconds), corresponding to the probabilities that each of (up to) 4 speakers is active. " + "For each of the 11 positions of the 5s window, the model outputs a 3-dimensional vector every 16ms (293 frames for 5 seconds), corresponding to the probabilities that each of (up to) 3 speakers is active. " ] }, { "cell_type": "code", - "execution_count": 9, + "execution_count": null, "metadata": {}, "outputs": [ { "data": { "text/plain": [ - "(11, 293, 4)" + "(11, 293, 3)" ] }, - "execution_count": 9, + "execution_count": null, "metadata": {}, "output_type": "execute_result" } @@ -263,7 +279,7 @@ }, { "cell_type": "code", - "execution_count": 10, + "execution_count": null, "metadata": {}, "outputs": [ { @@ -289,17 +305,17 @@ }, { "cell_type": "code", - "execution_count": 11, + "execution_count": null, "metadata": {}, "outputs": [ { "data": { - "image/png": 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m87I7O4+Z/DjuxCedzAl4AiwuXcyO9h1TjldERGQmUDJHRHIq3tCI3dZG8IQN09Zm1Jvsom9FsnOL7pnK6eomWFENHLmNeKY09SW/hE2uZ041OM7QhKciUlhSQ6D2dO4ZWma3tmFVHRl6O5XJj1M21mxky+EtWRlmKiIiMt2UzBGRnOq8/X8BCJ166rS1GfUlH81oYZ3Q2z09FIXnELACGe+Zk7oTzaQmQB78wqahViKFKZXMGX473ERrK57KqqHfpzL5ccoZ88+gP9HPiy0vTj5YERGRGULJHBHJGScapfNXv6bkr96Ef9myaWs34k0+mgXUM8d1HJyeHqzSMhaWLMxaz5yaoskkc5Jf2DQJskhhKg+UUxmoHErmuPE4dmfn0L4Bpjb5ccqp807FNEyeaHxiyjGLiIjkmpI5IpIzpt/Pkjt+S83nPjet7fb7B5/09U1ru7nk9PSA62KWlrCoZFHGb0+emutiTmhO2tum7mJmK5kjUrCWVyzn1Y5kMifR3gGui6c6mczZ17WPne07OXHOiVNqo9RXyoaqDfy58c9TjldERCTXlMwRkZzy1tTgnTdvWtuMelziFjjd3dPabi7Zg6/VKi1jaflSDnQfIG5nrmdSU38T4UAYv+Ufv/BRjvTM0TArkUK1vHw5e7r24LgOidYW4Mi+4XvPfQ+/5efdq9895XbOmH8GL7e+TFe0a8p1iYiI5JKSOSJScKJOjP6Agd1VQMmcwddqlZWyonwFCTfB3q69Gau/qa9pUvPlAJjFxRh+v4ZZiRSwlRUrGUgM0NDTgD04f5ZVWcnzzc/zwIEHeN/691EZrBynlvGdMf8MXFyeOvTUlOsSERHJJSVzRKTgxOwY/UFzqLdKIXB6Uj1zSllZsRJI3uo3U5r6myY1Xw6AYRh4KiuVzBEpYKn90q6OXSRakj1zrKoqvvPsd6gMVHL12qsz0s76qvUUeYt4+vDTGalPREQkV5TMEZGCE3fiDIQs7K7OXIcybVI9c8zSUhaXLcZretnVsStj9Tf1T75nDoB3/nziDQ0Zi0dE8suy8mUYGOzq2JXcF5gmDwxs5bnm5/jY6z5GyBvKSDse08Oa8Bp2tO/ISH0iIiK5omSOiBScmB0jEvTgFNIwq+7k/BBWaSle08uy8mUZS+YMJAboinYxt2jupOvwLakjtn9/RuIRkfwT9ASZXzyffd37iNXXY9ZU8+WnvsIJ1Sdw2YrLMtrW6vBqdnfsxnbsjNYrIiIynZTMEZGCE7NjRIs8hTXMqvvIMCuAFeUr2N2emWFWzf3NAFPqmeOrW4Ld3o7dpUlJRQrVopJFHOw+SPxgPfGaMAknwUdP/Che05vRdlaFVzGQGOBAT2bv6iciIjKdlMwRkYITsSPEQr6CSubY3T3g8WCEkkMVVlaspHmgmfZI+5TrbupL3pZ8SsmcJUsA1DtHpIDVltRyoOcA8fp6+qqLAZhfPD/j7awOrwZgZ/vOjNctIiIyXZTMEZGC09TXhFVaitPTg2sXRjd7u7sLq7QUwzAA2DR3EwB/OvCnKde9v3s/AAtKFky6Dv+ypQBEdmVuHh8RyS+LShcR7e0i0dJCRzjZG2de0byMt7OsbBke08Mr7a9kvG4REZHpomSOiBQU13U51HcIf7gKXLdgeuc43d1YJSVDv6+tXMuysmXcs++eKde9vW07Zf4y5hdN/gq6t7YWs7iYyPbtU45HRPLTwpKF1CU7+nFgrkU4ECboCWa8Ha/lZVnZMl7pUDJHRETyl5I5IlJQumPd9Cf6CVYnJ+u129pyHNH0sLu6McvKhn43DINNczexvW07jutMqe5tbdtYV7luqNfPZBimSWDtWiVzRArYnOAclh52AdhRHctKr5yUVeFVGmYlIiJ5TckcESkoh/oOAVA2bzEAidYCSeZ0dw9NfpyyOryavngf9T31k663O9bN7o7drKtcN9UQCaxfT3T7DpyBgSnXJSL5pypYRV2TS7yimBfdgywpW5K1tlaHV9M60ErrQGvW2hAREckmJXNEpKA09jYCEJ6fnKMl0VYYJ/J2WxtWuGLEstWVyUlAd7TvmHS9TzQ+ge3a/OXCv5xSfABFr389bjxO/5YtU65LRPJPZbCS0n7oK/XR3N/MqopVWWtLkyCLiEi+UzJHRArK3q69ANQuXg+A3Tr7kzmu65Joa8NTWTVi+bKyZQDs69o36Xpv33U74UCYDVUbphxnaOMpGD4ffY89NuW6RCT/+CwfxQmLdjPZO29leGXW2lpZkax7KslsERGRXFIyR0QKyq6OXcwrmkdp1QLwegtimJXT14cbjeKpqhyxPOAJUBOq4UD3gUnV+2jDozx56Ek+fMKHsUxrynGawSChjRvpffzxKdclIvmpKGHRYUYwMFgbXpu1dsr8ZSwsXsj2Ns3TJSIi+UnJHBEpKLs7drOiYgWGYeCprCRRABMgp3ofWZWVx6xbXLqYAz3pJ3Mc1+E/t/4nC4sXcsWqK6YcY0rRmWcSe3UP8UOHMlaniOSPUMwg4oOT5pxEeaA8q22tq1rHttZtWW1DREQkW5TMEZGC0RnpZH/X/qF5GJLJnNk/zCqVsDp6mBVAbUntpHrmPHTgIXa07+Cjr/soXtM75RhTiv/yDQD0PvxwxuoUkfwRjEHER0aTxGNZX7mexr5GTYIsIiJ5SckcESkYd++7m4Sb4MK6CwGwqiqxW2b/SXxqKNnRw6wA6krr6Ih20BHpSKvOO169g5pQDRcvuTgjMab4li3Du3gRPQ/8KaP1ikh+CMUMLtlwBRcvzey+ZTQn15wMwJYmTbouIiL5R8kcESkYd7x6B2vCa1gVTvXMqSqIYVaJ1hZg9GFWayrXAKQ1b0RfvI8nGp/g/MXnZ2SunOEMw6D0r/6Kvj//mXhDQ0brFpGZzXUc3IEBQqXH7quyYW3lWoq9xTx16KlpaU9ERCSTlMwRkYKws30nO9p3cOnyS4eWeaqqSLS347puDiPLvujOXZilpXiqq49Zt7YyOcHoy60vT7i+R+ofIebEOG/xeRmLcbiKK64Aw6D1xh9lpX4RmZmc/uRdrMyiomlpz2N6OH3e6Ww+uBnbsaelTRERkUxRMkdECsIdr96Bx/SMGBbkqaqEeBynqyuHkWXfwMsvEVy/DsMwjllX4ithSdkSnmt+bsL13bf/PqqCVbyu+nWZDHOId/58wu99L52/+Q3tv/zlrE+2iUiS09cHTF8yB+DCJRfSMtDCM03PTFubIiIimaBkjojMenE7zl177+KNtW8ccXeU1LCjROvsnTfHiUSI7tpNYP2GMcu8sfaNPH3o6QnNm1PfU8/DBx/mkqWXZHyI1XDVn/k0RX/5Bpq+9s+0/Pt3s9aOiMwcuUjmnL3wbMKBMP/98n9PW5siIiKZoGSOiMwItmPzwGsPsK0t87eJfaT+ETqiHbxl+VtGLPdUJYcdpSYIno36n9kCiQShjaeMWebNS99Mwk3w/ee/f9xeMK7r8u0t38YyLK5cc2U2wh1i+v3U/vCHlL/97bTdeCOdd9yR1fZEJPeOJHNC09ZmwBPg/evezxONT/B88/PT1q6IiMhUKZkjIjm1r2sfn/jTJ7jmj9fwmYc/w3vueg+P1j+a0TZu3n4zNaEazph/xojl3nlzAYjt35fR9maSvscew/D5CG3aNGaZFRUruGrtVfx656+57s/XEUlEjinjui7//OQ/88CBB/jo6z5KTVFNNsMGwDBN5v7TPxLatImm628g0dKS9TZFJHeGkjmh6euZA8nboIcDYb7z7Hc0rFNERPKGkjkikjORRITPbv4sm+s388zhZ7hoyUUsKV/Clx77Ek19TRlp47GGx3iu+Tnev/79eEzPiHXe2lo88+fR9/jjGWlrpnEiEbr+8AeKzjgDMxg8btnPbvws12y4htt3385lv7uMR+ofIWpH+c+t/8k/Pv6PvPee93Lbrtv4wPoP8MH1H5ymVwCG18vcr12HG43S9C/fmLZ2RWT62d3J+cus0pJpbTfkDfHJkz7Jc83Pcfe+u6e1bRERkcnyjF9ERCQ7fJaPi5ZcxPKTlrM6vJq5RXPZ27WXd/7hnXzlia/wg/N+MOqkvRPV0NvAV5/4KnWldbx95duPWW8YBsVnvoHuP/wBZ2Bg3IRHvum49VbstjbC73//uGVNw+RTJ3+K0+adxg1P3cDH//RxvKaXuBPHb/mpLanlS6d9iXeseseU/k0mw79kCZUfuZbW//hP/KtXU/mhD2KYuhYhMtvEGxsB8MybN+1tX77icm7fdTvf3vJtzlp4FsW+4mmPQUREJB06GxaRnDENkw9t+BBn157N3KLkkKelZUv5m5P/hscbH+c7z35nUreLjSQi3LztZq74/RX0xfv4f2f9P3yWb9SypRdfjNPfT/d9903ptcw0iZYWWv7z+xSfcw5Fp5064e1Om3cat19yO3+/8e+5fMXl/OSCn7DlPVv47aW/5Z2r3zntiZyUqmuvpeT882n5t3/jtfe8l+i+2Ts0TqRQxRsbMUMhrPLy8QtnmGmYfOn0L9E60MoPX/jhtLcvIiKSLvXMEZEZ552r3smezj3897b/5v7X7uf8xedz8pyTOWnOSSPuRpUykBigsbeRgz0HeerQU9y19y46oh2cMf8M/uHUf6CurG7MtkKnbsK3dCltP7qJsosvxvB6s/jKpk/rD2/EjcWo+fzn0t7Wa3m5at1VWYhq8gyPhwXf+y5dv/sdTV//F/a95TKq/+ZvCF99FYaVvbtqSf7q37KF4Iknzpq/6UIQb2zEu2B+zpLG66vWc/mKy7l1x62cX3c+J1afmJM4ZGaL7d+Pr64u12GIiGCkM9Hbxo0b3S1btmQxHBGRIx547QFu23Ubzxx+hrgTB6AmlJx413EdbNcm4STojnUPbeMzfbxh4Ru4cs2VbJo79qS/w/U8+CD1H/s44auvpuYfvpD5FzLNonv3sffSSym/7DLmfe26XIeTcfHmZg5/9Tp6H3yQ4rPOYu5Xv4I3B8MyJsqJxXB6evBUVuY6lIIRb2jg1QvfhK+2ljmf/VuKzz4bw6PrVzPd3ssuxztnDrU35q5nTFe0i3f+4Z20R9r5wqlf4NLll2Ia6sguSX1PP82B972fymuuofpTn9TFBJmVuu68k9CmTTP63Gq2MgzjWdd1N064vJI5IjLTRe0o21q38Vzzc+zr2odpmFiGlfwxLaqCVSwsXsiCkgWsKF9ByJv+bW0P3/B1Om65herP/i2V739/3n7xix04wIFrrsHp7mHJHXfgrZmT65CywnVdOm79Jc3f/CaYJuH3vpfgiSdgBINYpaV458/HCodzdoU/xe7tpfHzXyC2Zw9L7vgtZiCQ03gKheu69D70EM3f+jaxvXsxQiGC69fjX70K/4oVBFauxL98OWbR9N41ScZmd3Wx++w3Uv62tzH3S1/MaSyH+w7zhUe/wLNNz7KqYhVnLjiTZeXLWFq+lCWlSyZ1jJHZwYlGabr+ejpv+198dXWUXX45Jeefh3/JklyHJpIRAy+8wP53X0n5297GvOu+mutwCo6SOSIik+AmEjR89u/oue8+zOJiAqtX41+7hsCatQTWrsW/pA7DN/q8O7nmui6Rl16i687f03nbbRg+H7U33kjo5JNyHVrWxeobaPm3b9N9z71w1PHMCATwLliAd8F8PHPm4KmswvB6sUpL8NXV4aurw/AHMEwDjk76jHJsPOZ4Ocrh041GiB04SOy1/Qw8/wK9Dz6I09dHzT9+mfCVV0715Uqa3ESCngceoP+ZLQy8+CLRV1/FHRgYWu9duBDfolqMQBAz4Me7YCG+usVYFWE84QqscBgrHMYsKsp5YjCfOQMDJFpbSbS04gz0YxUXYwQCGF4vTv8Asb176LrrLvo2P8KS391BYNWqXIeM7djcve9ubtl+C7s7d5NwEkPrFhQvYGnZUurK6ghYyQStz/IRDoSpCFRQ4a+gIlCBz/ThMT2YhklntJPDfYd5qfUlOqOdQ3W5rouLi2VYlPhKmFs0lyJvEQFPgKAVJOAJEPKGKPIUEfKGKPYV47f8APTGeumMdrKwZOH0vjlC97330v7zmxnYuhUA3/JllJx7HiXnnUtg3TpN0i95J37oEJ233Ub7Lb/ALBPcvEgAACAASURBVC5m6e/uwCotzXVYBSeryZyTTjnJffqZp/EYHp3UyKyTcBJ0RbuoDGooxLSyE2CYMANOfFzHoffBB+l9/HGi23cQ2bkTNxIZWm+GQpjlZVjl5VhlZVhl5ZjBIIbXi+HzDf4kn5s+X3KuDsMABpMFx0sYDH9uGJjBQPILZiiIGUg+B3B6urG7e7B7urE7OrDbO+jfsoXozp0YPh8l55/PnM/9Pd6amiy+UzNPoqWFREsLTn8/dlcX8YZG4g0NxBsbiDU0kGhpwW7vADv9CbUny6qspPjMM6l473sIrloG3tl1t7R85DoO8fp6ort3J3927SLe0IgTi+H29xNrbIR4/JjtDK8XqyKZ3PGEK7AqwiOem0UhDJ8fw+9L/r36fBgeT7KHn8eD4fEeSRoO/8EYfDh2eXK3Mdo2Yy0/qi7XBddN7lpcZ+j35DJ3xO+4Lq7jAhNZlqzL6R/A6esb8yfR0kysvoF4QwN2W9v4/zheL9Uf/xhVH/lIpv65MybuxDnYc5C9nXvZ07mHPV172Nu5l9e6XxsaAmy7E9u3mIZJma8MFxcDY+h82nZt+mJ9JNzEODVAbUktxd5idnfs5owFZ/D9c78/+RcnUxJvbKTnTw/S86c/0f/MM2DbmCUleBcuxDtnDmZZKVZpWfL8IRRMnjOkju3Dnw8e55PH/gCm3w+WlUwKWRYYhr57SdrcRAK7pwenpwe7uwentwe7a/D8sbMTu6MDp7+PeEMDfU8+Ba5L8VlnUfPlL+NbuCDX4RekrCZz1oSC7s9W1QHgDtufuMlzjqwzJh7qjKfXMnOd+NgT+Iorch1GwWi9bglVbjsAcSwczMGfY/cq7jHLjKPWj1f+2GXHfnyPrHcdSPSYxDss7F4DJ27gRA2cmIEbG3xMAA64toHrJJ+P2EFmmeF18ZQ5BOviBBbHsbyj/0GOFpExWteS4yw//rs1fh1jtzeWqdVxdNnU4c6JQrzbQ7zXwnWMsZoarNQ9dtEYMRok85LeYhtfSQIr4GAYYOLSYM5jwT+9Mmrsknm93R34/23ZiGWpv/0jjyOXg4FrQ2LAxI4a2FFr8NHEiZrYkcG//2hyvRM1ceP6cjUaw+NiBlysImfwx8UKOpgBF9MDTiK5z8QGLPCU2niKHYwJTD+Szjs+9r5s6uWPjiMOdFomXaZBh2XSZRnEDYMEYBtQYjtU2w7LYwlCYzRjA+2WScSAiGkwYBiDj9BnmvQbBt2Wwas+DwOGwYpYgjp3GVd8+o9pvU6ZvFdfeIzK377rmOUuyWNLtNFDvM3E7jNxIkfOF9wEUz83SJ1wD+Z7J7TJZJvM9nZT/e6Qie8eY9SRVtVZjCMzdRz/H8TwuMn9tc8luDBO0dIYnmIHDzYvL3gHm675jwwEJ+lIN5mT1qQQ8YBJw/LkOGF38FOTOjl2h5ZkjwvHfCan0ubxPt7uBMpMuSWdA07I8LdpKsfB8TY1XYOgaeHOgB4iheTFxVdDpBsTG8N1MN3k4/CTane0tMwxieijv3SPv3cwjh6WM0o6iGrGKTPKescF2wHbxUhdfx1t2A4jM+GpV2m4LiQcjISTfIwnHwHwe3D9Hly/lXy0Rvu8jv5pHy25NXbZwbXH7HPTqWOU5WOcWbpj1DL19kYtmromPmocx9YxtffTxcApqkLXuKaPx+vnzzVXDk/NAsP/fgd/d1P7l6P2Ba47ynajfDpsB2MgfuRv1R58TLjgOBjOsP0BDD9pGswVDmtnZJNDy4xh24yoY2iZO/o6Btswhj1J5S6P+n3oM24cteFRv7vDyrkeE9dngdfC9Vm4XgvXZ4LXOtK7KA2j/z2NUTaLPRTSiWOs1+jjmENHcj8A7Eqzat/gT9mwVSenPo4eMKtzPyStkITKqtlZee5RS4f93c1PPoz6ybAdiNsYqeN73MaIOxhxG+yjjvsJJ1ntYI84wxlsx2HUYcAT/kJ0TLkJbjiRYqOWGevoPtbisctOPtV6/MWjl51otmzsiieZX5lcHGPU65rJ/fTQeaMveQ7pBDy4AS94Rv/O4xgWwcWvTyNQyRXNmSMiIiIiIiIikkPp9sxRFwQRERERERERkTyiZI6IiIiIiIiISB5RMkdEREREREREJI8omSMiIiIiIiIikkeUzBERERERERERySNK5oiIiIiIiIiI5BElc0RERERERERE8oiSOSIiIiIiIiIiecRwXXfihQ2jB9iZvXBEZoQqoDXXQYhkkT7jUgj0OZdCoM+5FAJ9zqUQVAFFrutWT3QDT5oN7HRdd2Oa24jkFcMwtuhzLrOZPuNSCPQ5l0Kgz7kUAn3OpRAMfs7r0tlGw6xERERERERERPKIkjkiIiIiIiIiInkk3WTOj7IShcjMos+5zHb6jEsh0OdcCoE+51II9DmXQpD25zytCZBFRERERERERCS3NMxKRERERERERCSPKJkjIiIiIiIiIpJHlMwREREREREREckjSuaIiIiIiIiIiOQRJXNERERERERERPKIkjkiIiIiIiIiInlEyRwRERERERERkTyiZI6IiIiIiIiISB5RMkdEREREREREJI940ilcVVXl1tXVZSkUEREREREREZHC8+yzz7a6rls90fJpJXPq6urYsmVL+lGJiIiIiIiIiMioDMN4LZ3yGmYlIiIiIiIiIpJHlMwREREREREREckjSuaIiIiIiIiIiOQRJXNERERERERERPKIkjkiIiIiIiIiInlEyRwRERERERERkTyiZI6IiIiIiIiISB7x5DoAEZlZ+uP93Lv/Xlr6W0i4CRLOkZ+4EyfhJAh4ApT6SllZsZKza8/GY2pXkk8OXXcd8YYGAMxQEWYoBKYBjguOA66DO/TcxXUdcBnndxccl4Nhlyf/ooJ9xQP0RLtZ1G5y4rZ+7ESc+08yaC9yiSQiRO0otmvjui4ODq7rjnyOOyJmA+PIc8MYffmw5yOfprft8DJjxTBT4hiznjGWpxv/mDFMYtvh6yzDwjRMTMPEMi38tsnbnoCVrV6MeAI3Hse17VRFqQowDBMjEMDw+zD9AYyAH8PjxY1GcaIR3GgMNxLBtW38K1Yw98tfGjV+ybxYfT0Nn/lb3Hgc7AR4vBg+L6bXh+Eb/PH7B597scrKKX/b2/AvXTKh+g/3HebZpmc52HOQlv4Wmgea6Yh00BXtIu7EcVwHx3WG9iNHP58x3PGLTKej97UzgWVanLXwLK7/i+vH3Acdzenvp+W732Vg2zbcSBRME8M0RzximRimdewywwTLwjANXNcF28F17OSjnUjud3xeDG/yp+T88yk577wsvwuS8qtXfsXPtv0s+TeNm/x7dpOf3eGfX9dNPj/6M51aPnzd0ONo27jHLztaGykTPQame55wvO2P9zcylXOnSW0/WM5wXIoGXCyPF4/Xj+X1M7/N5V2PG4SDlZihEN6aOfhXrcK1bfqeeIKBF17AHYjgRqNHjv+ZYBhDP8aw55hm8ryC4b8bQ+caR8oZR8oM384wYCLlGF73yBjMoiJKzj+fssveMuF93dH0DUxEhjT1NfG+e99HfW/90DKP4cEyLTymB5/pw2N6iCQi9MR7ADh30bl85+zvTHonJNPPbm3F7ugE1yVe34DT359MxpjmkYOMZY08oA0dvMwRBz1j2EErkYhS/vguLroTmmv8FPXZFPUmhtpd9UeLR96zgcbTVuG3/HgMT/KgjzH0xR7ANMwRJwcjTtZGOXE72lhlJrJ8RD3HKTMT4phQPSOeZiGGCcR2dBypL9eO62C7No7rsP6Pe1h4bzO7azxEfSYJC/zeAJXBKuaEqo+cXNsJnK4u3EjkSPImHh+W3Alg+nxgWSTaWkd9LZIdhseDVVGO4fVhmCZuIoEbi+HGYjh9fTgdHUO/u7EYibY2uu68k6W/vxNPRcWY9bquy40v3siNL9xIwk3uTyr8FVSFqggHwswtmovf8o/YjxiGgcng4+D+ZCYdo8ZKsEpSU38Td+65k3MWncO5i86d0DbtN99C+89vJnjSSVjhisGLE3bywoRtJ5Mz8TiOYyfX2fZg4mZw3eAyDAM8VjLpY1nJpI/rJhPMiWSiObB2bZbfARlubtFcTqk5BWDE33Pq72i0JMNo644pY4xddqyLN8dLYhzvGDiV84Tx1o3VxlTOnY7X5vFiMeM2p92ylbqn67ESxybRe4LQNKeacsdP9+EmiMcBsCoqCG3ahFVWmjyGeDOXonAHLzbiuiMvQKYuSpK8mMio5RhcPrwcQxczwU3uY4a2TyYcj65r1HKuQ3TvHnq/+BBOTzfhq6+e1OtTMkdEhtz44o0c7j/MTRfcxCk1pwx92R5N3Inzk5d+wvef/z6P1D/CWbVnTXO0MlkL/+M/slLvQwce4vr/+yTf8byLumdfxTt3HsETT6TojWfj9vVz6Itf5PwfP0/xvkrm/fPn8ITDWYlD8svASy9zcMtH6T5xOX/8+Fp8lg+AbW3b2N2xm5PmVPKts77FnNCcHEcqx+OdO5dFP/rRhMsPvLyN/W97G53/+79UXXPNmOV+8nLyOHPRkov4wPoPUFdWh9/yZyJkmaESToKTbzmZHW07JpzM6b7nHoInn0zdL2/NcnQy3c6uPZuza8/OdRgyAS3/9V+0PvE7yq+4Av/y5YCLG0/gJhJ0x7r4cdWL3B97nveufS9//7rPENu/HwDfsmXJxGmBcR2H+o99nOZ/+w7F55yDr7Y27TqUzBERACKJCL/f83suXXYpp887fdzyXtPLBzd8kF/s+AV377tbyRzhxdYXaQ97WfnuzxLwBI5Zv+hn/03bT39K2w9+SNO/fIMF/++bOYhSZgrXdWn+1rdo/9nP8VRVse6fvsHGdetGrL9zz53c8NQNfOJPn+DWi27Fa3lzGLFkUnD9OvyrVtH3yKNjJnO6ol38+KUfc07tOXzjDd+YUb1rJHs8poeKQAUdkY4JlXdjMaI7d1L1iU9kOTIRGYvrurT//GaKzz2XeV+77pj1VcC3geufvJ5btt/C21a8jaUrVkx7nDOJYZrMve6r7P2rizj8tX+m9kc3pl1H4aXARGRUzzU9R8SOTPgqGCQTOufUnsOj9Y+O2W1TCsfO9p0sLV86aiIHwAwEqP7Yxwh/4AN0//73DDz//DRHKDNJ9x/uov0nP6XszRez9Pd3EhyWyIFkt/ZLl1/KDWfewI72Hdyx544cRSrZUvyGM+nfuhUnFht1/a6OXfTF+7hi1RVK5BSYCn8FHdGJJXPs3l4ArPLybIYkIsdhd3bidHVRdOqm45b72Os+ht/y84sdv5imyGY2b00N1X/zKfoefZSBLVvS3l7JHBEB4LHGx/CZPjbO3ZjWduur1tMT7+FQ36EsRSb5Yn/3fpaUjT+ZadWHr8FTXU3TN/5VScAC5UQiNH/rWwQ2bGDe17+OVVo6ZtnzFp3HhqoN3LL9Fn1eZhnvokWQSGC3jj6/USQRAaDYVzydYckMUBGooD3SPqGyTk9yDj+rRJ8TkVyJNzQC4Jk//7jlwoEwFyy+gHv33UvMPjaR39zfzBMNT0z47382qLjySmpvuongxvS+g4GSOSIy6ImGJ9g4dyNBTzCt7VZWrASSvTKkcMXsGA29DdSV1o1b1iwqoupTn2Tg+efpe+zx7AcnM073PfeSaGpizt9+BsOyjlvWMAzesvwt7Ovax66OXdMUoUwHT1U1AIkxkjlROwpAwBq9t5/MXukkc+yeZM8cs6QkmyGJyHHEG5N3SfWOk8wBuHjpxfTEe3i0/tERyzcf3Mybf/tmrn3gWs7+9dl86sFPsa9rX1binUkMj4fiN5w5qR6oSuaICE19Tezp2sMZ889Ie9sVFcnxrvqSVdgO9hzEcR3qyuomVL780kuxysvp/L/bsxuYzEhdv/0tviVLCJ0+/vxcAOctPg8Dg4cOPpTlyGQ6eaqPn8yJ2MmeOZrwuPCEA+EJz5nj9CZ75pjF6pkjkiupnjm+BQvGLXvavNMIB8Lcte+uoWXPNz/PZzd/liVlS/jBeT/gQxs+xFOHnuLy313Ob3b+Jmtx5zslc0SEvV17AVhbmf7tNou8RVQHq2nsa8x0WJJHDvYcBGBRyaIJlTd8PkredCG9mx/BTSTG30BmDTeRYODFFylK4ypUOBBmZcVKtjSlP55cZi5PdRUAiZbRkznh7/yKC551xpyHS2avcCBMV7SLhDP+8cHu7gbAUs8ckZyJH2rECIUwy8rGLesxPVxYdyGbD26mN9ZLT6yHz27+LDWhGn5w3g84c8GZfOrkT3HX5Xdx+vzTuf7J69ndsXsaXkX+UTJHRIbmu5lfPH7XyNFUBato7m/OZEiSZ1oGWgDSun106OSTcfv7ie7Zk62wZAaK7tmDG4kQ3LAhre02zd3EC80vELfjWYpMppsnHAYg0doy6vrip3aw7oB73GFWrm3T/otb2fNXF9H4+S8Q2aVeorNBub8cF5euaNe4ZR0NsxLJObujE084POGLNBcvvZiYE+OBAw9w3/77aO5v5oYzbyAcCA+VqQpW8S9n/gsBT4Cbt9+crdDzmpI5IkJjbyOmYab1RXy4OaE5tA6MfmVVCkNrfysGBpXByglvEzzhBAAGXnghW2HJDBR5eRsAgXXr09pu49yNROwIL7e9nI2wJAcMnw+rvHzUYVau62L1RfDHwO8Ze5jV4euvp+n663FjMbrvv5/973gnPQ8+mM2wZRqkJr3uT/SPWzY1zEo9c0Ryx+7qxJpAr5yUE6pOYFHJIm7fdTs723cS8oQ4ofqEY8qVB8q5YPEF/Om1PxF3dDHnaErmiAiNvY3MCc3Ba3ontb165kjLQAsVgYq0PkPexYsxi4uJvqLJswtJrP4gmCa+RbVpbXfKnFMAeObwM9kIS3LEU1016t2s3P5+TNshEHfHnDOn8/bb6fyfXxH+4AdY9sAfWX7/ffiXLaP+45+g+d//HScazXb4kiWpmzH0x8dP5gxNgKw5c0RyxunqTiuZYxgG71r9Lp5veZ47Xr2DFRUrMI3RUxNn155NT7yHrU1bMxXurKFkjojQ2NfI/KLJDbGCZM+c9ki7MuYFrGWgJa1eOZA8kHsX1Sa/3EvBSBw6jGfOHAyPJ63tygPlrKxYqWTOLGNVVY06Z05qHpRQzBjzBL/9Zz8nsH49c/72bzEMA091NYtvuZmyyy6j7Yc3sv/tVxB99dWsxi/ZEfKEABhIDIxb1unpwQyFxr0znohkj93VhVlWmtY2b1n+FkKeEBE7MnRDldGcPi95s4StzUrmHE3JHBGhM9I5YoxquqpDyTuStA20ZSokyTOt/a1UB6vT3s5Xu4j4ASVzCkn80CG88+ZNattTak7hhZYXlDieRTxV1aMOs7K7k0NnAvHR51+I7t1LdPduyv76r0d8iTeDQeZ//QZqf3Qj8fp69l12ueblykMhbzKZM5FhVnZvj+bLEckxu6srrZ45kBxO+eETPsyKihVcsvSS45arK61jR/uOqYY56yiZIyL0J/qHTpwmI/UlvqV/9EksZfZrGWihKliV9na+2oXEGxpwbTsLUclMFD98CO+8uZPa9pSaUxhIDPBK2ysZjkpyxVNVRaK1Fdd1Ryx3upMT3wbHyNv13HcfACUXXjDq+uK//EuW/Pb/wDRp++lPMxewTIuhnjnx8XvmuJEoZkB3PBPJFdd1sbu7scrK0972gxs+yP/99f9xcs3Jxy23JryG7W3bJxvirKVkjojQn+inyFs06e1TPXNSdzSSwuK4Dm0DbZPqmeOtXYQbj5NoaspCZDLTuK6bHGY1hZ45AM82PZvJsCSHPFVVuJEITl/fiOWpYVb+mHvMNq7r0n33PQRPPhlvTc2YdfsWL6bk/PPpfXjzMckimdlSyZyJ9Mxx43EM3+Tm/BORqXP6+sC2sUrTG2aVjjWVazjUd4iOSEfW2shHSuaICP3x/qETp8mYE0zeBUs9cwpTZ7SThJsYSuqlw1e7EIDYwfpMhyUzkN3ZiRuLHfcL+PFUBauoK61TMmcW8VQne/QlWkYeP+yuZDLHF3OPScQMPP/80BCr8YRO3YTd1kZs3/7MBCzTIuid+ATIbjwOXiVzRHLF6Ur2pLTK0xtmlY61lWsBNNTqKErmiBS4uB0n7sSnNMwqHAhjGqZ65hSo1G3pJzPMylubvKNRXJMgFwS7I3lFzaqY/Bxdp9ScwrNNzxKzY5kKS3LIUzVGMmdwmJXpghuJjFjX/tOfYpaUUHbJm8etP7RxEwADzykBmE/S7pmjZI5IztipZE6ac+akY3V4NYCGWh1FyRyRApc6UZpKzxzLtKgMVCqZU6Ba+5PJnEkNs5o3DyyLmCZBLgh2ezsAVrhi0nWcv/h8euI9PFL/SKbCkhxKDbmL1zeMWO4MToAM4PQnj1OJlhbqP/MZev74AOGrr8YsGn94sK9uMUYoRGTnrgxGLdkW8AQwMCaWzInFlMwRyaFUMsfM4jCrMn8ZC4oXKJlzFCVzRApcqgvzVHrmQHLenOb+5kyEJHkmlcSbTDLH8Hjwzp9P/KCSOYUg0ZZM5ngq07uN/XCnzTuN6mA1d+65M1NhSQ75amsxvN5jbiGemjMHkskcN5Hg4LUfofehh6n8yLVUfviaCdVvmCb+5cuJ7lIyJ5+YhknAE5jwMCslc0RyJzUsdjITIKdjbeVaXmnXDRCGUzJHpMBlomcOJL/Ip4bbSGFJJXOqQukPs4Lkl7mYkjkFwe4Y7JkzhWFWHtPDRUsu4tH6R2mPtGcqNMkRw+PBt3Qp0Vd3j1ieGmYFyWRO31NPEdm+nXnXfZU5n/40ps834Tb8K1cQ3bVLkyDnmZAnxEBiAnezUjJHJKfsaZgzB5J3tDrYc5CeWM/4hQuEkjkiBS5TPXMqg5W0DbRlIiTJM60DrRR7iwl6gpPa3ltbq545BSIxOMzKUzG1q3eXrbiMhJvgf3f9bybCkhzzL19O7NU9I5Y5XcN65vT1033PPZhFRZS86U3p179sOXZHB3Zn55RjlekT8obSmDNn4sk9EcmsVPI9m3ezguQdrQD1zhlGyRyRAteXSN4Odqo9cyoDlXREOnBcJxNhSR5p6W+Z1OTHKb5Ftdidndg9utIy29ntHZglJRhp9KoYzbLyZfzF/L/gf175H02EPAv4Vywn3tg44vbkdk8P/f7k80RrC/1/fpKiM87A9PvTrt+7cAEA8YbGjMQr0yPkCWmYlUgecLq6MHw+jEAgq+2kJkHe0aY7WqUomSNS4DLVMyccCJNwE3RHu8cvLLNK60DrpG5LnuJdOHhHK/XOmfXs9vYpTX483FVrr6J1oJV79t2Tkfokd/zLlwMQ3XOkd06iq5MdtQaOx6L77nuINzQQ2rRpUvX7Fi4EIF5fP/VgZdoUeYvoi/eNW86NxzF8SuaI5Ird1YVVVoZhGFltpypYxZzQHN2efBglc0QKXKbmzKkMJic01RwWhadlYOo9cwBiB/VFa7ZLdLTjmcJ8OcO9fv7rWV6+nJu336y5UPLcUDJn95FJkONdnXQWQXRVLT333gtAaNPGSdXvTSVzGrSPySdF3iJ6473jllPPHJHcsru6McuyO8QqZW14re5oNYySOSIFLpM9cwDaIpo3p5C4rpvsmTOJO1mleGsXARDbty9TYckMZbd3YIUzk8wxDIOr1l7Fro5dPHnoyYzUKbnhra3F8PuJ7DhytdXt7qEvAMYZRxI4/tWrJ1W/VVKCWVZGTD1z8kqxr5jemJI5IjNdsmdOdu9klXLinBPZ27WXpr6maWlvplMyR6TApe4UMdnJa1MqA8meOUrmFJa+eB8DiYEpJXOs4iK8tbUjvsjJ7JTJYVYAFy+9mMpAJT9+6cfqnZPHDMsidPpp9D74IK7r4kSjGLE4fQGD0ne+A7O4mOpP/82UuvD7FiwgXt+Qwagl20q8JWn0zNEEyCK5Ynd3Y5Vl905WKWctPAuARxoemZb2Zjolc0QKXCqZE/BMbdKycHCwZ47uaFVQpnpb8pTAmjVEXlEyZzZzXZdER0fGhlkB+Cwf1554LU8ffpqbXrqJzQc3s/ngZiV28lDphW8i3thIy/e+h92ZvDNKbwDmVC9m5ZN/pvLaa6dUv3fhQs2Zk2eKfcUTugWxeuaI5Jbd1oY1xbtUTtTy8uUsKF7A5oObp6W9mc6T6wBEJLeidhSP6cFrTu1EqNxfjmmYSuYUmMN9hwGoCdVMqZ7AmtX03H8/dm8vVnFxJkKTGcbp7oZEAqsyc8kcgCtWXsFTh57iP7b+BwAGBqfNO43l5cv5u41/h2VaGW1PsqPskjfTv2ULbT/4Ib0PPQxAe4WHYm9xRibV9C5cSO/DD+M6Doapa5n5oMRXQtyJE7Wj+K2x72KmZI5I7ri2TaKtDU/15Htop8MwDM5aeBa3776dgcTAlEcW5DsdzfLEYw2P8ZOXfkJ3THcKksyKJCIEranvCE3DpMJfoQmQC0wqmTOvaN6U6vGvWQNA9JVXphyTzEyJ9uS+wZOhOXNSLNPi22d9m38/+9/53hu/x7LyZTx56Ema+5uzfmcNyRzD62XeDddT/va3D+0H6peXZ+zf0LtwAW4sRqKlNSP1SfYVe5OJ/eP1znEdBxIJJXNEcsTu6ADbnrZkDsBZtWcRtaM8deipaWtzplLPnBnsvv33cd/++xhIDPBYw2MAbK7fzM/f9HOdoErGDCQG8HvGvuKVjnAwrDlzCkxjXyOmYVJTNNWeOWsBiGzfQWjj5O5YIzOb3dEBgJXBYVYplmlx7uJzAdhQvYG79t7FFauuwDR0zSqfGIZBzT9+GSca4eHEdkLFmfv38w27o5W3Zk7G6pXsKfYlkzm9sd4x75joJhIASuaI5EiiJTncfjqTOZtqNlHkLeLhgw9zdu3Z09buTKSznBmsdaCVJxqfYFf7Lj7+uo/z+U2fZ2vzVp46rCykZE7EjhCwpjZfTkploFI9cwpMY28j1cHqKQ/T88ypWpY1vgAAIABJREFUxqqs1CTIs5g92DMnkxMgj6YqWMXV664u+K7X+cr0+VjwzW/y0JvmUurL3K1uj9yeXJMg54sSbwnAcSdBdmNxQMkckVzJRTLHa3k5c8GZPHTwIeJOfNranYmUzJnBrlxzJY+98zH++PY/8pETP8LbV72d6mA1N714U65Dk1kkkohMefLjlHAgrDlzCsyhvkNTHmIFySvywfXrGdi6NQNRyUyUrWFWMjt1R7szm8xZsABAkyDnkVTPnOMOs4rHACVzRHIl0dwMgKd6ens8XrL0Etoj7TxW/9i0tjvTKJkzw3lMz1A3cb/l571r38vTh59mX9e+HEcms0UkEcnYFezKoHrmFBLXddnbuZdFpYsyUl/o1FOJ7d9PfPDEQGYXu31wmJWSOTIB3bFuSv2ZS+aYfj+e6mpiSubkjdScOcftmRNXzxyRXIofOgyGgad6anc1TdcZC86gMlDJ7/b8blrbzYaXWl7ik3/6JK91v5b2tkrm5JmLllwEwP37789xJDJbROzM9swZSAzQH+/PSH0yszX1N9EWaWNt5dqM1Bc6dRMA/c88k5H6ZGaxO9oxQyFMf2bm6JLZrTuW2Z45kLo9uYZZ5YtwIJn4bR84zkUiJXNEciqyfTu+pUun/djuNb1cvPRiNh/cTOtAfk9s/2rnqzxc//Ck5vlTMifP1BTVcELVCTzS8EiuQ5FZIpLI3Jw5qdtTp+5wJLPbttZtAKyvWp+R+gJr1mAWFSmZM0sl2jvUK0cmxHEdemO9lPhKMlqvd+FC4gcPZrROyZ7KYCUe08OhvkNjlhnqmeNTMkckFyIvv0xw/bqctP2OVe/Adm1+sf0XOWk/Uw73HcbAGPoelQ4lc/LQafNOY1vrNvV+kIzI5Jw5i0sXA3Cg50BG6pOZ7c+H/kzACrCqYlVG6jM8HoInn0z/00rmzEZ2e7uSOTIhPbEeXNyM98zxL1tGvLERu6sro/VKdpiGydzQ3Iklc9QzR2TaDbzwAon/z959x8dRXQ0f/92Z2apereJeMK4YMJ2YYjAQQiekQiCFJxUCIYG05yWBkAeSkE4SSIEECCQh1BAcsAGbGttgMAYbd1tyUS+rrTNz3z9WkiVLtopXu5J1vnyW2Z25c+esPDO7c/bOvbW1+GfPycj2x+eO58wJZ/Lw+ocP2LfWcLerbRfFgWK8pnfA60oyZwSaXzYfRzu8UfNGpkMRh4BUjmY1PifZd8r2FknmHOps1+bZbc+yYOyClCUDAbJOOpH45s3ENku/YIcau6FBOj8W/dIUawIgz5eX0noD844AIPL2mpTWK4ZOeXb5AVv7SjJHiPRzIxF2/+A2tl1+BVZ5OXnnn5exWD4959OEEiHuXXtvxmI4WLvadlGePbjBRCSZMwLNK5mHZVis2C2/XouDF7EjKbsYz/PlkePNkZY5o8CK3StoiDZw9qSzU1pv7jkfBMOg+fGR36Gd6E5a5oj+2ti4EYDJeZNTWq9/9mxQisjq1SmtVwyd8qxyaZkjxDASXrWKLRddTOP995N3wflMvP8vmHmpTbwPxKyiWZwz6RzufededrSOzNtod7ftHvTIsJLMGYGCniBziuewcvfKTIciDgExJ5ayZI5Siom5E9nYtLFf5UPxEH9//+84rpOS7Yv0Wbx1MUEryAcqP5DSej1jSsk+7TSaHnoIt60tpXWLzNGum2yZUyTJHNG3dY3rMJTBtIJpKa3XzM7GP3s2oZeWp7ReMXQqsivYE95D1I72ulySOUKkT2zjRrZ/+jNo22b8H/9A+S234KmszHRYfO3or2EaJt9c/s0R1w1Jwk1QHaqmIrtiUOtLMmeEOqbsGNbWryUU3/9wjUL0RWud0g6QAeaVzmNN7RpiTqzPsj9/4+fc8uotbGjakLLti6GXcBI8t/05Tht/WkpvsepQ/D9X4zQ3U3vXXSmvW2SGXVsHiQSeisF9WRGjy7r6dUzMnUjACqS87uzTTiX69hrs2tqU1y1Sb2bhTFzt8l7De70u1/E4IMkcIdKh5s6fYvj9TPzrg2SdcEKmw+k0JmsMPzj5B6ypW8MNL96A1jrTIfXb+43vk3ATgx4ZVpI5I9SxZcdKvznioNmujaOdlH5hPrbsWOJunDdr3jxgud1tu/nb+3/jo4d/lMMLD0/Z9kXfInaE2vDgL2Re3fUqzbFmzpl4Tgqj2iswdy55l15Cw733EX2v9y/wYmRJ7EwOBy3JHNEXx3VYVbOKuSVzh6T+3LPOAq3lVs4RYk5JsmPVt2vf7nV5R2fWRm5qO8sWQnQX27KF0PPPU/CJT2CVlGQ6nB7OnHAmX5//dZZXL+epzU9lOpx+e6f2HQDmFA+uE2lJ5oxQR5Qcgdfw8vqu1zMdihjBwnayKaLP9KWszmPLjiXPl8fv1/z+gJnxxzc+jqtdrph5Rcq2LfqmtebCxy7kxyt/POg6Fm9dTI43hxMrTkxhZN2NueEGzIICdn7zW7jtv7yKkSuxcycAVvng7gkXo8fa+rW0xls5qeKkIanfN2UKwWOOoeH+B3AjkSHZhkid4kAxY7PHsnJP710L2LV1AFjFxekMS4hRp+HPf0Z5PBR8/GOZDmW/Pj7j48wpnsOPV/6YlnhLpsPpl5V7VlLkL6IiS26zGlX8lp95pfOkE2RxUOqj9QAUBlLXj0XQE+TL877M67te5663er9NxtUuj218jOPKjmNsztiUbVv0TSnF8RXHs6xqGXFn4EmSmBNjyfYlLBy/EI85dM3azfx8ym/5PrF166j75a+GbDsiPTqSOZ6KzN9bL4a3pduXYiqT48uPH7JtlFx7Dfbu3ey5/fYR1Rx/tDqh4gRW7F5Bwk30WGbX14NpYubnZyAyIUYHu7GR5kcfI/f884Z14tRQBt89/rs0xZr46aqfZjqcPkXtKMuqlnHa+NNQSg2qDknmjGDHlB3DuoZ1NEWbMh2KGKE6hvssC5altN6PTP8IF069kN++9Vseef+RHsuXVS2jKlTFBVMvSOl2Rf8sHL+QUCI0qJZ9L1W/RFuibchuseoq57TTyLvwQhruu4/Enj1Dvj0xdOJbt2Lm5WFmZ2U6FDGMOa7Dv7b8i5MqTyLfP3QX58H58yn67GdoeuhhGu67b8i2M5KFV6xg57e+TcOf/4J2MjtIwYkVJ9KWaGPVnlU9ltn1dViFhShDLmmEGCqNf7kfHY1S9KlPZTqUPs0omsGnZn6Kf7z/D57c9GSmwzmgV3a+QtgOc+aEMwddh5z5RrATK05Eo3l+x/OZDkWMUB3JnPLs1N76oJTif4//X06qPInvvfo9ntn6TLdt3vLqLUzOm8xZE89K6XZF/xxffjxZniyWbF8y4HUf3/g4Bb4Cji0/dggi66n4y18Crdn1ne/ihKTD95FIuy5ty5YTPH7oWlqIQ8PLO19md9tuzpty3pBvq+T668lZtIia2++g6ZGePzqMZq1Ll7Ltyqtoeeop9tx2G9Vf/SpOS+ZuWTip8iRyvbn84/1/9Fjm1NVjDuOWAkKMdIldu6i/915yzjoL37TUjjA4VL5y1FeYP2Y+33v1ezy/ffheJ/9n23/I8+VxTNkxg65Dkjkj2JziOUzMncg/3v+HNBMWg7K7bTcKRWmwNOV1e0wPPz31pxxZeiTfXPZN7lhxB7956zd85KmPEEqEuGPBHXhNb8q3K/rmNb0sqFzAs9ueHdA9xesa1vHCjhe4bPplWIY1hBHu5R07ltIbb6Rt+XK2XnIp8aqqtGxXpE5k1Srs2lqyTzs106GIYe7h9Q9THChm4biFQ74tZRhU3P5/ZJ1wAru+/R1qfnIn2raHfLvDXWJPDTtvvAn/4Ycz7ZVXGPOtb9L63BI2nX0OzY8/npHvmwErwIVTL2TJtiU9Ou+36+uxiorSHpNIL+26mQ5hVNJas+vb3wGg9IavZTia/vMYHu489U4m503mmuev4YYXb2B7y3ZcPXz2o6rWKp7d+iyLJizCYwy+2wJJ5gxjkTVraPzb33Cj0V6XK6W4fOblvF33Nou3Lk5zdOJQsLttN8WB4oM6iRxIwArwq4W/4qxJZ/Hgew9y1+q7mJw3mQc++ADTC6cPyTZF/1w5+0pa463cuOxGNjVtOmDZmBPjyU1P8qUlX6I4UMwnZnwiTVEmFX7yE0y4/y/YTU1s/djHCK9cKQnsEUK7LrU//wVmYSG5ixZlOhwxjFW1VrG8ajmXTLtkSPvj6soIBBj3u9+Sf9ll1N9zD1sv+0hn/06j1Z7bbkPH41T+5MeY2VkUXnEFE//xd7zjx7Pzxpuovu56nFBb2uO6bPpl2NrmnjX3dM5zmppI7NghyZxDXPMTT7D1ox/b7/WQGDpNDz9M2yuvMObrN+AdNy7T4QxIgb+A+z94P1+a9yWe3/485z56Lif/9WRuePEGHt/4OHva9mTsu2R9pJ6vLP0KpmFy9dyrD6ouNZA3MX/+fL1yZe+9yYvU2/N/t9Nw772YBQXkX3IxOWecgX/u3G73BduuzeVPX86m5k388AM/5PRxpw+6AyUx+nz0qY/iM33cd87Q9xkQToRxtEOON2fItyX656F1D3HHijtIuAnmlczjqDFHMatoFkWBIhqiDaxvWM/6xvW8secNWuItTM6bzO0Lbs/YUPKxTZvY/rnPYe/chXfyZPLOP4+8iy7GMyb1LcvEwdOuy54f3EbjAw9Qdsv3KfjwhzMdkhhiMSc26NERv/HiN1i6YylPXfQUZVmp7cetL1prWp95hp3f/g46kSDvgvMp+vRn8E2elNY4Mq3lP/+h+pprKbnuOor/p/sFhnYc6v/wR2p/9jO8kyYx9hc/xzdlSlrj+7///h8PvPcAiyYs4qTKkyi7+18U/Pu/TLjvXoJHH53WWET6hJa/xI7PfY6cs8+m4ge3YmRJ32vpEH7jTbZ/+tMEjzqKcX/4/Yi+vtzdtpsl25fwfuP7LK9aTm0k2cIvYAXwm37KssqYWTSTI0uP5KjSoxibM3bI3m9rvJUrn7mS7S3b+fXCX/fotkAptUprPb+/9UkyZxjTWhNesYKG+/5M6IUXwHEwi4vJOe1Ucj/4QYLHH49SippwDV987ousb1zP3JK5XDz1Ys6ceCa53txMvwUxjO0K7WLRI4v46lFf5TNzPoPT2opdW0vtL38JriZw5DyU5UFHI7jxOEYw2P7IAtchum49bS+9RLyqisLLL6f4i1/A8KVuiHORHg3RBh7d8CiLty5mQ+MGbL33NgNDGUzMncjs4tmcN+U8ji07FkNltkGn29ZG8xNP0PL0vwmvWAGmSfYpp5B/ycX4Z87EKi1FmWZGYxSQqK5m960/IPT88xReeSWlN35jRH8RFH3b07aH8x47j5MrT+b08adTnlVO0AoSc2LsaN3BluYtbG3ZStgOA5Dvy+eM8WewoWkDu0K7eHTjo3zxiC/yhXlfyNh7iFdV0/DHP9L0yCPoeJycM84g+/TTCcydg3fixEP63JLYU8OW88/HM3YsEx/6K8rTe+uottdeo/q663FDIbIXLiT33A+SvWBBWj7/bdfm7rfv5r619xFOtHHXXQ7GYVOZ+rvf4zN9Q9ppNkDEjvDwuoc5pvwYZhXNGtJtie7qf/97an5yJ9aYMeRddCG555yDb9o0+VwZIq3PPcfOb30bq6CACQ/cP6xHsBoorTXrGtbxRs0bVIeqidnJz6h36t+hNd4KQGV2JXOK51CZXUllTmVyml1JabCUgBUY9LYbog3c8OINvLnnTX59xq85seLEHmUkmXOIcpqbCS1bTuvSJbQtW47b1oZ3yhQKPv4x8j70IdzsII9seIT737ufbS3b8Bgejig5gtnFs5lROIOK7ArKssoo8BfgNbxy8hvlEk6Cm5bfxJLtS3ji9Afh+z+jbdlyAFQwCFqjI5ED1qG8Xvxz5mDm5hJ6/nm8kydTdvP/I3jMMf3evxI1NTQ/9jhFn/us7JPp9PTXwY5C4eTkI6cCfNnETC8bIrsJocnxFzA5f/L+P7ScRLIOOw52BBIRiLc3vfflJB9d+9VRBlh+sHyQon/r+NatND3yT5oefRSnri450+PBU16Op7ICT2Ul3spKPGPH4qmsxFNZiVlQkLwgMwzZ51JAa43T0EB8yxbiW7cS27KF6LvvEv7vCpTHQ+l1X6Xgiivkbz0K7G7bzR/f+SPPbnuWukhdj+WmMhmXM66zdebGpo1E7OTnjKEMLpx6If97/P9iGplPmNj19TT8+S80PvQQbnMzkPxs9B9+OP6ZM/FNm4aZn4+Zm4ORk9s+zcHMyUFZ6elPLBW01tg1tYRff426X99FoqaGSY880meLpERNDfW/u5uWf/8bp6EBIzub7FNPxTf9MLzjxmOVlmKVlmAVF2P4/ehEAjcSwWlpwWlswmnaz6O5OXk+qaoiePTRFH/xC/gOO6wzUaRtm/iWLbS+8gr1Tz6G+846fvUhg2VzDIJWkNs+cBtlwTLea3iPhJvAcR18lo9cby4FvgIK/AV4DA+mMkElR09ztIPt2jja6fW1rW2qQ9W8W/8uy6qW0RBt4H/m/g9fPvLL6fgnEl2EV6yg7re/o+3VV8F1sUpKCJ5wPL7Jk/GUl2OVlWPm5qB8fgy/D+X3Y/iS00M5EXswtNa4ra0kqqqIrF1L9J21RN58k9j77+ObPp1xd/0aT2VlpsNMC1e7bGraxKo9q3hl5ytsbNrIrtCubj9yAuR4cxgTHENJoISSYAl+04/X9OIzffhMX+dzQxmEEiGaY83sDO1ka8tWtrZsBeD7J35/vx39SzLnEPL2f/6Mve6ZLnPavwzbLsamRqw1tZg1yV+4tN9EBzxoyyBqaZq8Ds2WS5vh4BrgquRDtz8MpTBQGMpAKVAoDJJTBRh6cF+8NaC0Rrc/1ySfo5KvaZ+39x2pzqmi/RpP732N6vK8S7lue22XUA+0N+/3LfU2Xx+gSI9lvW9VHTCYA2y+n8u6l9Hdi+h9i+/9q9towsomgWZy3E/FThsVsbHnlqIDHuzDi9B+CxIuaA2mAaYC20UlXEg4oEHn+cA0UFpjbGvG+8I2jFAc7bfQOV601aUFh9Z07hQkn6uEi2qKgqEo/v1vKT1xwQH+YCKV1v7kXMa2vUOe27TfMgk8JAwvjvJgY2ErD1opfG4UnxvGrwd377qLwlZeYkaAkJlHm5FH3PDhKAsHE1Dtx6pCdzkCNAqtFHuPuI7lClyNsasNozWBak1gtMYxOqaR/XdoqjtOOkZyqrs8T77ueL63nO76uuO50R6T0X3ZvvV3zku+ofZ3sW9QvRzk+zuX7FN27zmnxwmgz3UHFI+rUQkHFXdRMRsV39uhoDYUbr4Pe0Iu8VnF6GxvtzoNXAztJB84nc/NLs875is66t37b538POn6uv252ru/dCyL5Ixn7uf/dIA/gkilul3b2PaPb+FqTZURJmTYxHDwakWJazHG9WDpvf9qdSrOdjPMKaEa8uwQBiYJM0DMCBIzs0gYfrxOmJiZTYunf78K7+/zeNC0RjVGMfe0YdSGMerCGLVhlL3/TjS1x0D7TPBayall9Iyq80tN13PGPtP2crrr6/bjUe3zeQq9ve6+TDku2C4k3GT8jouKOp3vxc3zETt9Am7FAG6FdjVGdSvWhgbMbc0Y4Z7nW636+D4EaJ+J9llovwl+Cx2wMDc0olyNNkDn+JL/FqE4qv1P7xb42HlEHr+bH6VC+9lghqkyh65PlWzXZLqTxVnxEmZN/whzF35syLYlulvzwiNE3nmq87Vqi2Nta8Lc0YxZ3YIRTvRZhzZU8li0DDDbp1aXqWns/QyH7scoXeepXj4o97vVA77sWfwABXosOnDdCsDVnQ/V8Vx3mZdwUW2Jbucz7TNxS4LYk/KxZ5Ykv//3P6he9f+Ksr/19fM8388cx4Hqc9E0KJs6I06dEafRsJMPZdNoJGgxHOK4JJQmgcbu5WTn1YpC10OF62Ws4+PEeB6VbkdLRo3SbvvnosuYS+5gzPjpA0rmjJyfD0ah1p3rmdzwGtD9QFBoKAF9GjgNYNeYOCEbHYujHfA5kBcC7SR3z4QGB3BQe6+p278IaJ38kN178ZSk991o1/n7LOr1EFDJJWrfWftdgc5sS+e2+3EM7u8Lwr7z95eM6TH/QImhAyzbX6LoQDmxrnUcsFw/l+37b9PtC9Q+n0WW1gQ0+GnDzHMJHG/jKdmSLBBpf/Slscu2sxX6bIhtN7HrbNxojK6J7PZr8G4P5QNzrItvgoNdMaYfGxSp8tuKW6lqDONzwpQ51eQ7DfjdCD43gl+HCegoAR3Bk0zp4NE2FjYGmqjhI2wGaFNZRPGRUB7ieIkqH1GSH05ZOkKQMEbnqAEaAxcvcXw6jpc4AR0l120h32nBq5vxY2PiAF0v0bsmfjVKd71c3yfVk6dReR1nsb3LtQ1uGNwQOG0KHVed5z404NL+WnUmHLsto8trTXtGfN957es5+7zuUr7bOvs5ppU6wOLeDuZeXvY5v9dlXTM5vay47ywFyq9R2WB4NUYOmDkuZo5GBUEZUaAZ7B2wT77QxcDBxFEmDkb7v7pJomN+58OLq4z2f/Ou6buu+4DbfjrpmHbfb5p15oZSHo0iba2Mq38ZF4OxJI/65GFktB8Ce18DjMWgAoMNVNJAHhYOfjtGFhGyCROgiVb85LCDybzT61cC3euOPrgfow6otP0BaBfciEInQMcVbvt072uFjoPumMYP8GWqI9/S9VzSMX+f1526Xmx2/WzvcRHafapMjTIB/97nytN+7OZrrOIISjVB/cD+NASBI5IPNwFuSOFGFG40OcUBTJLb84LyaZRXY/hAeXVyXi9377qHg11nYDcYuG0OKDAqNWaui1WiMbOjFNPMr9sHOIwoeCHLwqthVszB54KJJqYUrYai2Uw+HMBp/5uYGkzA1Lp9SpepxtJgaCh0NCWORtEM7GRTzpED/COJgxGqfpfpdc92n9lxTB6d/Jx3wgo3bKBthbbbr4GSFz+dz7vOcx0FTnvZuOr2+d39dxHV5fneaedx28+P5H4XGMjpq6+yBiil239Qaj/OFMnj0QICGqMMjIDGDLpYBRojW4MKATXQvKHPEPqbPu/9XD34cv2Viu2WdSt3YC6QUBBXyevuoAvJcXu7Jpq7d7LvYLR/ozFoaxt45/LSMkcIIYQQQgghhBAigwZ6m5UMTS6EEEIIIYQQQggxgkgyRwghhBBCCCGEEGIEkWSOEEIIIYQQQgghxAgiyRwhhBBCCCGEEEKIEUSSOUIIIYQQQgghhBAjiCRzhBBCCCGEEEIIIUYQSeYIIYQQQgghhBBCjCCSzBFCCCGEEEIIIYQYQZTWuv+FlWoF1g9dOEIMC8VAXaaDEGKIyX4uDnWyj4vRQPZzMRrIfi5Gg2IgS2td0t8VrAFuYL3Wev4A1xFiRFFKrZT9XBzqZD8XhzrZx8VoIPu5GA1kPxejQft+PnEg68htVkIIIYQQQgghhBAjiCRzhBBCCCGEEEIIIUaQgSZz7h6SKIQYXmQ/F6OB7OfiUCf7uBgNZD8Xo4Hs52I0GPB+PqAOkIUQQgghhBBCCCFEZsltVkIIIYQQQgghhBAjiCRzhBBCCCGEEEIIIUYQSeYIIYQQQgghhBBCjCCSzBFCCCGEEEIIIYQYQSSZI4QQQgghhBBCCDGCSDJHCCGEEEIIIYQQYgSRZI4QQgghhBBCCCHECCLJHCGEEEIIIYQQQogRRJI5QgghhBBCCCGEECOINZDCxcXFeuLEiUMUihBCCCGEEEIIIcTos2rVqjqtdUl/yw8omTNx4kRWrlw58KiEEEIIIYQQQgghRK+UUtsGUl5usxJCCCGEEEIIIYQYQSSZI4QQQgghhBBCCDGCSDJHCCGEEEIIIYQQYgSRZI4QQgghhBBCCCHECCLJHCGEEEIIIYQQQogRRJI5QgghhBBCCCGEECOIJHOEEEIIIYQQQgghRhAr0wEIIcS+XO2ytXkrNZEaXNfFxcVUJpZhJR/K6nxuGiYe5en+2vCQ7clGKTXoGLTjkNi5E6epCW3b4Lpox9n/1HHBddD7m9rO3tdKoQwFhgmmgTJMMBTKNMEwUaYBykhOO8sYYBjJMl2WJaddlhkmZn4envLy5GsxLNT+4pe40Sg4Dlq7mQ6nX1S3fc/cZ5/bu5927sNmxz7Y+35qFhRglZVhZGURe38DDevXsHvn++wqNnh7Xh6OdvYfy0EcywOhtU7LdgZDk7rYUv0+O2Kblj+NK2ZdkdK6xf7FNm+h8cEHky86/k27/dvufa57W96taG/r9+FAx2Vfx+x+FivDQAUC5J1/Af7ph/U7lI2NG1lWvYwsKwuf5cN2bWzXxtEOrnY7H11fa61x2ftco3s8d7WLRifLDvLcPZjzl9rfH2gYbGcwBhqbqUxKAiWcUHEC0wqmDVFUQox8kswRQgwrr+16je+89B32hPccVD0ew0NxoJjiQDETcidweOHhfGDsB5icN7lbOe041P/xj7S99DJuWxvaddDxOIntO9Dx+EHFkEnK58M7cSK+6YeRdfwJ5J61CCMrK9NhjVqNDz2EGw53JuX6vNDJNK3RrgsdCcuO5ymW0/4IjDFxTQOlNaEsk8Zcg9oii83jvWyc4OkjVJ3SZE8qL25SfqGUwupSHZtSatAXu2Jw7Lpamp98svN1579o1+Oht+f7Xd4x6XvfOGBysa980IESRo6D09ZG018fYvK//41nTGmfsdSGa7ly8ZU0x5r7LNsbhcJQBkopDNqnytg7H4VS7Y8BHjeDScIOJtk6qGTvoFZJT2wJJ0HcjWMog3vPvpcjS48ccB1CjAZqICeM+fPn65UrVw5hOEKI0WxD4wY+/q+PU5ldyadmfYpxOeOwjGTO2dVu5y9ttrZJuInkr26ug63tzmUJN0HCSdAQa6A+Uk9NuIbNTZupidQAcPbEs7ntA7fhMTzU3X0PLU8+SWzDBvyzZmFpATYBAAAgAElEQVQWFaIME+Wx8Iwbj3fSRKzi4r0tZqwurQ66tITptcWCaSYv3DumltX5Gki20HDdbi18kq02dHLquKD3bQWk97bu6bIsuXxvSyCnoZ7Yps3EN28m8s47OPX1GHl5FHz0oxT/z9UYwWCG/oXFSNeR1Nk77dgnnQPvy46N3diIvWsX8eYmvrf7j9SVB7lp4S0UP7gEd8NmIHlRZTc0kNi1C6euDoCiq6+m9PrrMvm2hRBpFNu0ic3nfojSG2+k6Kor+yz/9OanuXH5jfzprD8xIXcCcTe+tzWvsjAMAwMDQyUfpjL3Jm+U9DgxHGmt2dW2iyv+fQU53hz+dt7f8BgHTuwLcShQSq3SWs/vb3lpmSOEGDZ++N8fErAC/P6s31McKE5p3TXhGh5a9xD3rLmHEytO5Bw9i9o778Q/ezZlt3yfgg9/OKXbGy601kTeXE3DffdRf/fdhJYvY8K992Lm5mY6NDECdd7uN4h1fe3T9+rf48WnfswPT/o68yrmww29f2dxmpvZc/sd1N99Nzmnn0Zg3rxBxy2EGDl8U6bgmzmD1iXP9SuZ0xxPtsiZnD+ZQn/hEEcn0kEpRUV2Bd8+7ttc8/w1PLTuIS6feXmmwxJi2JF0tBBiWGiMNrJi9wo+PuPjKU/kAJQGS/nKkV+hPKuc53c8T8u/ngbTZNzdvztkEzmQ/EIUPOpIxv78Z4y969fE3t/Arm9/e1j3DSIObRubNgIwo3DGAcuZeXmUfftbGLm51N93XzpCE0IME4G5c4m9v6Ffn1VNsSYAcr3yI8Wh5rTxp3HzCTdz0dSLMh2KEMOSJHOEEAfFCYVSUs9/d/8XgBMqTkhJfb1RSrFg7AJe2/Ua8Z3VeMrLsQpHz694OaedRul11xFevRp7z8H1SSTEYG1s2ohlWIzPHd9nWSMri7wLLiD03JKUnWuEEMOfb8pU3JYW7NraPsu2xFrI9mR33pYtDi2XHHYJ2d7sTIchxLAkyRwhxKA4TU1su/Iq3p9/DFXXfjXZV8ZBWFu3Fo/hYVbRrBRF2Lvjyo8jYkdobq1F+X19r3CIKbzqSiY/8QSesrJMhyJGqU1Nm5iYO7Hf/R/kfvAcdCJBaOnSIY5MCDFc+KZOASC+aVOfZZtiTeT58oY6JCGEGHYkmSOE6JXWmr+u+yt/Xvtn4k73UZ10IkHVtV8lsmoVWSeeSOvixYRXrTqo7dVEaigNlg75L2sdIyI0tdZheEdfMkcZBlZBQabDEKPYnvAeKrMr+10+cMQRGLm5hFfIAAxCjBbeycmRJ+Nbt/ZZtjnWLMkcIcSoJMkcIUQPWmvuXHUnt71+Gz9a+SOufObKzvvWdSJB9Te+Qfj11ym75fuU3/YDoH+/nh1IXbhuSPrK2VdxoJiJuRMJtTWgfKMvmSNEptVFBnasK8MgMHcukbffHsKohBDDiVVcDIaBXVvXZ9nmeDN5XknmCCFGH0nmCCF6+NeWf3Hv2nv5yPSP8IUjvsCaujXURerQWrPzxhtp/fczlH7jG+RfeCHWmDGoYJDY5i0Htc2OljnpcPSYo4m2tYLXm5btCSGSHNehIdpAUaBoQOsF5s4ltmEDblvbEEUmhBhOlGliFhZi1/UjmSMtc4QQo5Qkc4QQ3fxhzR/45vJvckTJEdx07E3MK00OB7yleQv1v/sdLU//m5KvXU/Rp68Ckp0K+yZNIr7l4JI56WqZA8lkjpGwiRh2WrYnhEhqjDXianfAx7pv+nRwXeLbtg1RZEKI4cYqKpJkjhBCHIAkc4QQnbTW/OyNnwFw28m3YRkWk/OS963XL1lM7c9/Qe5551H02c92W887ceJBXWRF7SitiVZKAiWDD34AxuaMxetA3JLhuYVIp/pIPcCAkzneiROB/vWfIYQ4NFjFxf1K5oQTYYKeYBoiEkKI4UWSOUKITjEnBsC1R13bOWxwabCUsoiPyp/8Hf+MGZTf8n2UUt3Ws4qLcOrrB73dukjyy1q6Wub4TB8eGxxLToFCpNNgj3Xv+HEAxCSZI8SokUzmHHhocq01cTeOz5Q+8IQQo49cyQghOoUSIQByPDmd8wxlMK8xF08kwZhvfRPD7++xnllQiBsO48Zig9pua7wVIG3NpP2mH48NtkdOgUKkU0cyp8g/sD5zjEAAq7ychNxmJcSoYZUU49TWdQ7A0JuEmwDAa0gfeEKI0UeuZIQQnTqSKtne7G7zi+PJL0nWmDG9rme2D3XtNDUNarsdSaQsT9ag1h8ov+XHa4Ntqb4LCyFSpjnWDEC+P3/A63rHjye+bXuqQxJCDFNmcTE6kcBtadlvmY4WxV5TkjlCiNFHkjlCiE6heHvLHG9Ot/mFUQvYm7TZl1mQvDBzGhoGtd22RHKEmmxPdh8lU8Nn+vA4kJBkjhBp1RxvxlDGoI51T2UliZ07hyAqIcRwZBUn+9GzD3Abd9yJA5LMEUKMTpLMEUJ0ak20t8zZ50IrL2pgm2Bk9d5yxiosBMBpbBzUdjPRMsdjSzJHiHRrjjWT683FUAP/+uEZW4ldU4Mbjw9BZEKI4cYqTvatZdfuvxPkjmSO9JkjhBiNJJkjhOjU0TJn39uscsKaUED16Pi4Q0eLHbthcMmctnhbr9sdKl5tYrkQt9KyOSFEu5ZYy6D7xvJWVgJgS+scIUYFq6Q9mXOATpDjbjKZ4zE8aYlJCCGGE0nmCCE6dbSQ2bdlTlbYpTmgcVyn1/U6+8wZZMucNjuZzElXyxzTdgEZmlyIdGuON5PnHVwyx9OezIlXVacyJCHEMNXRMsc5wPDkHX3mSMscIcRoJMkcIUSn/XWA7A8laA2qzmTPvsy85MXZoDtAjocwlIHf7DlS1lDoGHUrZkoyR4h0aoo1DbplTkcyJ1EtyRwhRgMjNxfl8WAfIJmTcNpHs5I+c4QQo5Akc4QQnTr7rrG6t5DxtcZoDewdiWZfyjRRfj9uODyo7bYl2sjyZO33Nq5U053JHDct2xNCJDXHmgedzLFKS8GyJJkjxBDTWrOhcUPnsN+ZopTCLC7Grtn/bVYympUQYjSTZI4QolMoHiLLk4VpmN3mWw0tNGXBZ//zWd6ufbvXdY1gEDcyuGROKBFK20hWIMkcITLlYPrMUaaJp7xckjlCDLE7V93JxU9czK2v3ZrpULCKiw88mlV7nzleQ5I5QojRR5I5QohOTbGmHv1ZOK2tGOEoTkkBLfEWrnzmStbUrumxrhEIoCORQW23o2VOunTcZhU1eu8DSAiRerZr05poHXSfOZAc0UqSOUIMHa01/9r8LwD+ueGfbGzcmNF4rOLiA95mJaNZCSFGM0nmCCE6NUQbKAoUdZuX2LULgKvP/BbPXPwMxYFivvvyd3t0hmwEAwd1m1V6W+Ykv/xFpWWOEGnT0SdXri930HV4KiWZI8RQ2t66ndpILV858it4DA+PbHgko/EkW+b0ncyR26yEEKORJHOEEJ3qI/UU+bsnc+zduwHwlFeQ78/n+vnXs6l5E89tf65bORUI4oYPomWON30tc3Q82TInIi1zhEibjj63BnubFYB37Fjs2tpBJ46FEAe2umY1AKePO52F4xfy5OYnO/ulyQSzuAinvgHt9P55LckcIcRoJskcIUQn3/Y9zF3b1m1eYldHMqcMgEUTFlGRVcE/N/yzWzkjEMAd5G1WoUSoR6fLQ8mNRAFoMzPbuaMQo0lzvD2ZcxC3WXknTgIgvnVrKkISQuzjvYb3CFgBJuVN4pLDLqE51sxz257re8UhYhUXg+viNDb2ulyGJhdCjGaSzBFCAOBql2v/UMfJd72KG412zk/s2A6WhVVSAoChDM6bch6v7nyVusjeps/JDpAH2TIn3tZjOPSh5IaTCauQJS1zhEiXjpY5+b78QdfhnZRM5sS2bElJTEKI7t6rf4/DCw/HNEyOLTuWsdljM3qrlVWc/O6xv35zOkbckpY5QojRSJI5QgggOcqMt72hSnTN3g6Ow6tX4581E2VZnfPOmHAGGs1L1S91zjMCAfQgb30IJULp7QC5Pc6QZadtm0KMdim5zWrCeFCK+GZJ5giRaq52WdewjsMLDweSP95cctglrNi9gm0t2zISk1VSDIBd2/vw5DI0uRBiNJNkjhACgPpoPTuS35kIr3oDADceJ/r2GoJHHd2t7PSC6ZQGS1lWtaxzngoO7jYrV7uE7XB6O0Buj7NOh9Bap227QoxmLfEW4OCSOYbfj2fcOKLr16UqLCFEu91tuwnbYabmT+2cd8GUCzCVmbHWOd4JEwCIbdzU6/LOPnNkaHIhxCgkyRwhBJAcltxtPyNE3303OX1nLToeJ3j0Ud3KKqVYMHYBL1e/zI7WHXz+2c8T8zCoZE44kWwlk4mWOXt0E1ta5Bd+IdKhOdaMQh104jZ49NFEVq5CuzIanRCptLl5MwCT8yZ3zisJlnDK2FN4fOPjJJz09zNnFRVhjRnT+b1kX9IBshBiNJNkjhACSI4oFWwfsKLjV+/IG6sACBx1VI/yp4w9hbAd5nuvfo+Xd77Mqpa1uJHIgFu6hBIhIM3JnLZw8lYND7y689W0bVeI0aw51kyONwfTMA+qnuAxx+A0NRHbsDFFkQkhADY3JZM5U/KndJt/6WGX0hBt4IWqFzIQFfhnzNh/MseNYxkWhpJLGiHE6CNnPiEEAK3x1s5kTmL7DpxQG6EXl+GdNAmrsLBH+ePKj8Nn+nh91+sAVNl1YNvoxMB+uWtLJDsjTudtVm44jBEIUJkzjtd2vZa27Q4Hr+58lVtfu7Wz/xIh0qUp1nRQt1h1yDrpRABCL7540HUJIfba3LyZAl8BBf6CbvNPrDiR8qxy/vH+PzISV/CY+cQ3bSK2qeetVjEnJiNZCSFGLUnmCCGAvS1zzGlTQGs2nXkm4RUryL/ssl7LB6wAx5Yd2/m6VrcCDLgT5Iy0zAmHUcEgx1ccz4rdK7Dd0dMR8qMbHmXx1sUEPcFMhyJGmcZoY4+LxMHwjBmDf/ZsWpdkbrhkIQ5Fm5s3Mzl/co/5pmFy0dSLeHXnq1SHqtMeV96FF4LHQ+NDD/dYFrWjkswRQoxakswRQgDQFmnGn4CcRWdS+OlPYwSDlN54I4VXfmq/63z+iM8zt3gu0wqmETKTLXIG2m9OZ8uctA5NHsYIBjmh/ATaEm2sqVvT90qHgC3NW3h+x/MsmrAIj+HJdDhilGmMNVLo69nKbzByzlhI9K23SdTUpKQ+IUY7rTWbmjZ16y+nq4umXYRSin9u+GeaI0v2m5N71lk0P/oobltbt2XVoWrKs8rTHpMQQgwHkswRQgAQbW4EwJtbwJhvfJ2pS56j6KorUUrtd525JXN54NwHuGrWVUTa+x7c94tWXzqSOWltmROJYASDHFd+HAo1KvrNcbXL9S9cT9AT5JMzP5npcMQo1BBtSEnLHIDs008HILT0+ZTUJ8RoVx+tpyXest9kTllWGSdVnMRjGx7LSGvWwk9+AjcUouHPf+42f1vLNsbnjk97PEIIMRxIMkcIAUCsJZnMMXNyBrxucaCYsD/53GlpHdC6oXgmbrNqwwgGyfPlMbt49qhI5izdvpSNTRu56dibmJQ3KdPhiFFGa01jtJF8f35K6vNNm4Zn3Dhaly5JSX1CjHYbm5Idivd2m1WHDx/2YWoiNSzZnv7jLjBvHjlnnkndPb/Hrq0FkiNZ7WrbxYTcCWmPRwghhgNJ5gghALBbWwAwcgZ+u1NJoISwL9mCxw0NLJnTEk9uN8c78CTSYHXcZgVwfPnxrKlbQ2t8YHGPJDEnxm/f+i0TcyeyaMKiTIcjRqG2RBsJN5Gy26yUUuQsXEj41ddwQqGU1CnEaPZufXK0qJmFM/dbZsHYBYzPGc99a+8b8MiVqVB6w9fQ4TBN/3wUgA1NG3C1y/gcaZkjhBidJJkjhADAaWoCwMwd+GgzJcES2gbZMqc+Uo/X8JLjSV8yR7ePZgXJUToc7fDyzpfTtv10+8nKn7C+cT3XHnXtQQ8LLcRgNEaTLf9SdZsVQM5Zi9CJBK2L/5OyOoUYrdbWraUyu/KAredMw+TymZezpm4Nb9S8kcbokrwTJmAUFvD228/y4xU/5ovPfZEcb063wRiEEGI0kWSOEAIA1Zz8ddsqLhrwurneXKycXGDgLXPqo/UUBYoO2DdPqjmhts6WOUeUHsH4nPHc8d87eLPmzbTFkC6udlm8dTFnTzybMyackelwxCjVEGsAUpvMCcybh3fSJJr+mf4OWYU41KytX8vs4tl9lrtg6gUU+Aq4Z809aYiqp9bCAHs2r+W+d+9jbvFc7ll0D2OyxmQkFiGEyDRJ5gghALCakskcs3Dgt0EopZg54RgAnJaWAa1bF6mjOFA84G0OlhuPY+/Zg6eyAgCP4eGOU+7AMiy+tORLbG/ZnrZY0mFN3Roaog2cOu7UTIciRrH6SD0ARf6BJ4v3RylF/iUXE1m1itiWLSmrV4jRpjHaSHWomllFs/osG7ACXDHrCl6ufpl36t5JQ3TdhQr9FLdolnx4Cb9c+Mt+xSyEEIcqSeYIIQAwm0O4Csy8gd9mBXDSpFOxDXhx3b8HtF59pD6lF3h9SWzbBq6Ld9LeTh5nFc3iD4v+gKlMrnrmKrY0HzoXhi/ueBFTmZxceXKmQxGjWG042WFpSbAkpfXmnn8+mCbN7X1oCCEGbm39WoB+tcwB+Oj0j5LrzeWnq36Kq92hDK2HxnyL4lZFSSC15xIhhBiJJJkjhCDhJjCbQiRyAyhjcKeF86deQCxoUV87sJYtdZE6igLpS+Z0/ILvndR9RKdxueP4w1l/wNY2V/z7CrY2b01bTEPphaoXOLL0SPJ8g0vSCZEKNZEaDGVQ6E9NB8gdPKWlZC9YQPNjj6Ht9A+XLMShYE3dGhSKGYUz+lU+25vNdUdfx393/5eblt3UOSplOtTmaPxx3dnPnxBCjGaSzBFCUN1aTU5YQ37uoOswlIGRnY1qi/R7ZCjHdWiMNab1NqvYuvUAeCdO7LHssILD+Ms5f0Gj+e7L383IaB2ptKlpExsaN7Bw/MJMhyJGubpIHUX+IizDSnndeRdeiF1bS3jFipTXLcRo8NrO15hRNINsb/9Hs7xk2iVcc+Q1PLP1GRb+fSG/evNXrG9YT8JJDGGksK0o2RIo9t57Q7odIYQYCSSZI4Rge+t2cts0nqKDS6qYubkEo/T7NqXqUDWudinPKj+o7faHdl0ib79N40MPETz+eMzsrF7Ljc8dz9eO/hqra1fzzNZnhjyuofT0lqcxlMHZk87OdChilKsJ16T8FqsO2acsQAWDtDw9sFs8hRDQGm/lrdq3OKnipAGtp5Tic3M/xwMffICTK0/md2//jkufvJRzHz2XxVsXE3NiQxLv26URtILw6tVDUr8QQowkkswRootwIsy79e9mOoy0296ynYI2CJQeXFLFX1hCfljzfuP7/Srf8beeWTTzoLbbl3hVFVs/9jG2XvYR3EiEkmuuOWD586ecz6yiWdz62q39fi/Djdaapzc/zXFlx6W15ZMQvakN11IaKB2Sug2/n5zTTqP1P/9BJ4a2VYAQh5rXd72Oox1OqhxYMqfDnJI5/OTUn/DEhU/www/8kKAV5IYXb2DRPxZx1+q7Ojs/3x+tNTEnhtaaDY0buPede3ly05M0x5qB5Peym5bfxCkPn8KXl3yZrU4NocoCGu9/gPo/3TuomIUQ4lCR+vbOQoxg31z+TdbUreHJi54ky9N7y41D0abadRzZDNmTpx1UPfmz5jF+xSp+v/l5Lj3s0j7Lr61fi9fwMjV/6kFt90BCL73MzhtuQLsuZTffTM6iM7H6GLHLNEx+tOBHfOqZT/GRpz7C5TMu58tHfhmv6R2yOFNt1Z5VVIWquHru1ZkORYxytmtTFapiXum8IdtG7gfPoeVf/6J1yRJyz5aWaEL018s7XybLk8XckrkHVc+kvElMypvEWRPO4tVdr/L39X/nN2/9hnvW3MP8MfM5rvw4ivxFFAeKcbXLluYtrK5dzZs1b9IYbSRgBQjb4c76Lj3sUr4070vcuOxGVu5ZycLxC1lds5pcby76xs/j/dMz1Nx+OzlnLMQ7btzB/hmEEGJEkmSOEF18ds5n+fjTH+fut+/muqOvy3Q4aVPz/tsYGnxdRngajMCcOVgOVL31MlUnVTE2Z+x+y25p3sLTm59mbslcPKanc77Wmui77+IpK8Mq2tsxsl1fT2zjJiJvvkHrkqXE3n8fw+/HLC7Gd9g0ArPn4J89G/+smRjBINH33qPp4b/R9Pe/45s6lbG/+iXeCRP6/V7G5Y7joQ89xC/f/CV/Wvsnnt32LJ+c+UkumXYJfss/uD9QGt3/3v3k+fLkFiuRcW/VvkVboo3jyo8bsm1kL1iAb/p0dn//FnxTp+KbOnQJYiEOFW2JNhZvXczJlSfjMTx9r9APHtPDgrELWDB2AZubN/PohkdZVrWMn7/x8x5lx2aP5aSKkxiTNYaoHWVawTSOKTuG216/jac3P83W5q2srl3NzSfczEXTLuq2bmzqyWw+54O0vfQS3o99LCWxCyHESKMG0sHn/Pnz9cqVK4cwHCEy77svf5enNj/FYxc8xoTc/l/8j1QJJ8GX/vdornskwcRH/kFg1qzB11VdzcaFZ/DwQh/rz5nBXWfcRYG/AK011aFq1tavZUvzFl7Y8UJnq5x7z76XOSVzSOzcSdvr/yW0dCmtzz6LkZ1N0Wc+jfIHaH32WSJvvgnt5yv/EXMJHnkUOh4jUVND7N33SOzcmQxCKTBNsG2Ux0P+ZZdResPXMAKBQb+v5VXLufvtu1ldu5qgFeRTsz7FKWNPYWbRTJRSg653qOxo2cG5j57LZ+Z8hmuPujbT4YhR7uZXbubxTY+z/CPLB9TB6kDFtmxh2xVXgIZxv/olgXlD1xJIiJFuV2gXP1r5I57d9iwPfPCBg26Z05dQPERTrIm6SB2mMinPLt/vLcDv1b/HZU9dBsB1R1/Hp2d/ukcZrTWbzjgT3+GHM+7XvxrS2IUQIl2UUqu01vP7XV6SOUJ0Vxep47xHz2Nm0Ux+e+ZvU/Zr1XC1ZPsSXvneV7jkFTh85QqMrIO7vWzrRz9Ga91Orrq8BZ83yJySOayrX0d9dO998zMKZ3Du5HM5Z9I5lAZLiVdVs+Xii3FbWsA0yf/wpSSqd9K2fDkAvsMPJ+fMMwgeeSS+adOwSnp2pGo3NBB95x0i77yDjkTxTpxIzsLTMfPzD+r9dLVi9woefO9Bntv+HAATcidwybRLOHPCmVRmVw6LxE7EjnD1f67m3fp3efripxmTNSbTIQlga/NWxueOx1Cjq6u6Z7Y8wzeWfYNPzPgENx5745BvL7Z5Mzs+dzWJmhrGfP0GCi6/fFgcl0IMha3NW7n19Vv54ck/xFAGm5s3s6lpE9tatuEzfUzJn8JhBYcxOX8yHsOD1pq3at/ir+v+yuKtiwG49qhruWr2VRl+Jz39ZvVvaIo18Y1jvoFpmL2W2XXzzbQ88SSHvfYqyjtyboMW/RfbsoWaO35EybXX4D/88EyHI8SQk2SOEAdB2zbKsnhs42N89+XvMn/MfG456ZYD3i40kiXcBFc8fQWf+dFaplTOYdKDDxx0nS3PPkv1V65BnbuQ+87ysD66jekF05lXMo/ZJbOZlDuJoCfYbZ3q66+ndenzjPvd7/BPP6wzAZPYuRMMA09Z2UHHlUobGjewtn4tj254lDdq3gCgyF/ESZUnMaNwBhNyJ3BYwWFoNKXB0rRdwG9v2c7Nr97Myt0r+cmpP+HMCWemZbviwGJOjDP/fiZe08tRY45i0YRFnFBxwiHdL1fCSfDguge5c9WdHFl6JHctvKvHcT9UnOZmdn7zW4SWLiXrlAWMufFGfJMP7hZSIYaj9Q3rufzflxNzYrja7ZwfsAIk3AS2awNgKYsCfwFhO0xboo2gFeTSwy7l8pmXU5Y1vD5fB6L1ueeo+vJXqPzpneSec06mwxEp1vzEE+z89ncwvF7Kf3Cr9IcmRgVJ5ghxEGp++jMib7xB0dWfY2lJLbeu+j9iTozTx53OWZPOYl7JPMYExxwSv/RWtVZxx39vx316KV/6l8uY73yHwk9+IiV11/7il9TddRdGTg7BY4/FU1GBEQhgBAMYgQAqEMAIBFGWSWLnLmp+9COKv/hFSq75Skq2n06bmzezYtcKVtWs4qXql2iNt3Zb7jE8BKwAlmFRmV2J3/JjKQulFFmeLIJWkKAniGVYyYey8BgeTMMk4SaIO3HiTpyoEyWcCNMUa8JxHXyWD5/pI+EkaI43UxOuoTpUjd/08/9O/H98aPKHMvQXEfuyXZvntj/H4i2LeaPmDRqiDViGxZziOYzLGUdFdgWV2ZVUZldSnlVOabB0RHW2DdAca6Y6VE1VaxXv1L3DM1ufYVfbLk4deyq3L7g9bYmcDlprGv/8Z2p/8UvcaJSchQvJ+sDJ+KZO3Xs+CgRQnkO75aU49L1Z8yZLty+lLKuMSXmTmJI3hdJgKba22dGyg/WN69nQuIG6SB0BK8Cs4lksHL/wkEgm63icLR/9KIkdOyj58pewxpTR9vLLKI8XIytr7yMYxMzPwyouxiouxiwpwZCWPMOSdl3imzbR9NhjNPzxTwSPPZbKn/wYq1hG5RSjgyRzhDgIm39xB7EHH4GmFvB6sIvz2ZPjstnfQovHJuqFhNfEZ/nxWl4MM3nRbZgWpunBap8aholSCgMDQymUMjCUgUH7c5LJIL1vTmh/SSKtk2t0Hq4apTtea1w0aI3rasBFa518dPznahxt48Si2NEIkbYWfE1tTK/SlDUBh02C6z+L9lg9tru/eHrM6vJ/ADZuQy1bAVt3QFMrxOIo1+2xHoCeUIH+2mfA7+tWv+qotaPafebT/r417X+ffWPoFqrqNum6Bp3/Hqp72W619bKsvXzX8FrdMLsSdWyI78CHl/5mw/gAAAxDSURBVDqniYgbo9VpI+RGcHFxtYsGojpOxI0R1TEc7eJoBwcX3WWrJiYeZeJTXnyGlywjgKVM4q5NQicwlUG2ESDHCDLVU8FxgcMpMoLJd6gd0C6GG8dw4phOFMOJYjgxJl5yC6bZe9N1kXrrlj+Kdm1sXNZFd7A6spH3Y1XUJppocFq6/ZsD5BhBCq08fIYXj7LwKguPsjCViaVMTExMZSSfKxOL5HylFIqe55H9pZ/3LavRuNrFwcXRLm7H+aRzafKZqzVNTis1iUZq7Qba3GhnHSYmMwIT+VD+BzgiMG1gyW+l9nsaHJSWEDy9FF5fjWpu7bFYmyb4vMmHt33q94LHAx4LLAssEywL5bGS84P+ZFlDtZ+z1d7niu7zaJ9vtL+pHvO6LFOq+yNV+vU1rx+F+lHEWzGWKRen5kcB0beW+hqq173e/qrLWaTjg6/LZ3XXc4zS3T9D0e2fF7jtz13ARenkg/aHomt9ye8zmr3HgVZd9m865hntJ6Auy7ued7rt66qzdrTTuf3kI/l5prSDcpKfaYYbw1O9gcifXiLe0v79xedJ9psXi4PT+3cOAAK+vce4aSaPc6U6/x5ouj9Hg2EkH6aRXMdon5pG9+cdywyVjMF1k1PdPnWdvfMNA7yevecfn7f9PbSfezrq66zb6Pwb646/X8d3kd7OJfu+7jhHdXwX6uu41gd82fscrcHVKKf9fXadui44dvf5toNqC6PqG1HVu1HhWDLsIyeStbCcYGI37vFfpORI+ZFKHPokmSPEQVjx08s4umExoV1+IrVe4iETO2ySiJrYtoJE7xdKI41GE8/SZOclKKqMkD8pTDruBNIOuI7CtZOPjmyWN8dOy/ZHCqf9YQFD9WeJ3ViNLzB0ndGK7kL/r4xsFel1WQLYbVlUWya7LIsay2SPaVJrmkQMg7iCmFLElcJGkVCKhAJbKRIo7I7nKUwAWFpjak37ZcPeh04mUxVQ6LhU2jZjbZuxieS00rYZn7AJDuC7RTpoDYmQSazFwo6Ynecg3Xk+Mrq/dpLPtUv7NPncdRTalpPV/riVPmYtWZ3pMEaNd5Y/zuwlV2Q6jIxKaJMnneOZEqpmanQngZI4HV3suA7JYzuhcOIGdtTAiZjYUQM7ZnQ7trXT/Qcf1fELWpeciNag3f/f3v2GWFbXcRx/f+6dnVndNLUVWdSwpD+ohaUFGxYiFKWYFSIJgUJQDwqMnhQRtAVCiUUQZBQJRuUf0kqCLB8sZU/MP63tqmyZKLmsbmaWS7nrzv324J6ZuTM7M3tnd8e75877BcM953fOPfd7d3/3d879nu85N/1cUy/9REjzWD2oSpMP62+Ton9sE0gKOv3HhNnpqlAH5o6L+mNM6PUCvfYfbx5SinSK7mSx7vhpJl/7Csdv3M+G0/azbsM0/6gT2VUbeeld1/Hey68ddbTSqltpMsefJpcGbLzsy+z45yfnnarIzJkrqn9G4cB0/2xC1dwZll7Na6vpaYoeB3o9ehS9mqZHj+neTFXGwBedeV96auAkR3FQxUjSVKHMnGEp0j8ioJMOIXQ6/SqgZK4KqJMO3UzQWT9FpqZgch0TCS8Du4BnlvsSOLBs/lqLPCdLtDfbWXzJvCOnJZenM1MFs6BCZvZM32Dboq/A7D/uwv9fsuiymbZ5lUDzntf/crtw2bztL/q+Dq73OXiVOuTJ+UBz1rPbPHYGHvtVGqRDrztJdafoTaynuuup7hTnTLW/xL5Nnr78dnq96eaM+GxZ3ezYkipOoDgBeHPTntn1hjugn6nGW3L5vE/C0ut16CxbTVPLxHMAeHL5MJcUlo9/pAbDmp7un/WHgTP3g39LtQ8so3/met4y6LfN7GsOMQAMMYqwklWOxnbWb2zv/Vfa6MxzN7Ojc+vsfA32mdl97uJVMDOf8WqOIeh0+/sSMm9f0q+omdnHzMtq0GQ1muOk/tYy2z4w1tXc/GB1z2L727n30m1i6zSv352dnt2ndSbpdafY1OnyX2D79H4m9v2LzvTLc/HBvJgye2+hZr6pRpoZh2fjXrBsmM/HkYxeVQd/5FPNWLCwsmXm33vmBXuDMTNvXMmCcSez04MvtOzsEHLwNhZUKmWmyrGpMkqzbHZf0+myvzPJvu4k/+5OUd1JepMnUhPH0QXOOWn9iqOS1gIrcyRJkiRJkkZopZU51gpLkiRJkiS1iMkcSZIkSZKkFjGZI0mSJEmS1CImcyRJkiRJklrEZI4kSZIkSVKLmMyRJEmSJElqEZM5kiRJkiRJLWIyR5IkSZIkqUVSVcOvnLwE7Fy9cKRjwkbg+VEHIa0y+7nGnX1ca4H9XGuB/VxrwUZgQ1WdOuwTJlb4Ajur6sIVPkdqlSQP2s817uznGnf2ca0F9nOtBfZzrQVNPz9rJc/xMitJkiRJkqQWMZkjSZIkSZLUIitN5nx/VaKQji32c60F9nONO/u41gL7udYC+7nWghX38xXdAFmSJEmSJEmj5WVWkiRJkiRJLTJ0MifJB5PsTPJEki+uZlDSKCR5Ksn2JNuSPDjqeKSjIcnNSfYk2THQdkqSe5P8tXk8eZQxSkdqiX6+JcmuZkzfluTSUcYoHakkZybZmuSxJI8mua5pd0zXWFimjzuea2wkWZ/kj0keafr5V5v2NyS5v8m33J5k8pDbGuYyqyRd4C/A+4FngAeAq6vqsSN7K9KxI8lTwIVV9fyoY5GOliTvA/YCP6qq85q2G4AXqurrTXL+5Kr6wijjlI7EEv18C7C3qm4cZWzS0ZJkE7Cpqh5OcgLwEPAR4Foc0zUGlunjV+F4rjGRJMCGqtqbZB3wB+A64PPAXVV1W5LvAY9U1U3LbWvYypx3A09U1ZNVtR+4Dbji8N+CJOnVUFW/B15Y0HwFcEszfQv9AyWptZbo59JYqardVfVwM/0S8DhwOo7pGhPL9HFpbFTf3mZ2XfNXwCXAz5r2ocbyYZM5pwN/H5h/Bj9YGj8F/DbJQ0k+NepgpFV0WlXtbqafBU4bZTDSKvpskj83l2F56YnGRpKzgHcA9+OYrjG0oI+D47nGSJJukm3AHuBe4G/Ai1V1oFllqHyLN0CW5lxUVe8EPgR8pinbl8Za9a+19WcNNY5uAs4Gzgd2A98cbTjS0ZHkNcCdwOeq6j+DyxzTNQ4W6eOO5xorVTVdVecDZ9C/Cuqth7OdYZM5u4AzB+bPaNqksVFVu5rHPcDP6X+wpHH0XHNd+sz16XtGHI901FXVc83BUg/4AY7pGgPN/RXuBH5SVXc1zY7pGhuL9XHHc42rqnoR2ApsBk5KMtEsGirfMmwy5wHgTc0dlieBjwN3H0a80jEpyYbmRmsk2QB8ANix/LOk1robuKaZvgb45QhjkVbFzJfbxkdxTFfLNTfN/CHweFV9a2CRY7rGwlJ93PFc4yTJqUlOaqaPo/8jU4/TT+pc2aw21Fg+1K9ZNS90KfBtoAvcXFXXrzx06diU5I30q3EAJoCf2sc1DpLcClwMbASeA74C/AK4A3g98DRwVVV581i11hL9/GL6JfkFPAV8euC+IlLrJLkIuA/YDvSa5i/Rv6eIY7pab5k+fjWO5xoTSd5O/wbHXfrFNXdU1dea76O3AacAfwI+UVX7lt3WsMkcSZIkSZIkjZ43QJYkSZIkSWoRkzmSJEmSJEktYjJHkiRJkiSpRUzmSJIkSZIktYjJHEmSJEmSpBYxmSNJko55SV6XZFvz92ySXc303iTfHXV8kiRJryZ/mlySJLVKki3A3qq6cdSxSJIkjYKVOZIkqbWSXJzkV830liS3JLkvydNJPpbkhiTbk9yTZF2z3gVJfpfkoSS/SbJptO9CkiRpZUzmSJKkcXI2cAnwYeDHwNaqehvwP+CyJqHzHeDKqroAuBm4flTBSpIkHY6JUQcgSZJ0FP26ql5Jsh3oAvc07duBs4C3AOcB9yahWWf3COKUJEk6bCZzJEnSONkHUFW9JK/U3M0Be/SPewI8WlWbRxWgJEnSkfIyK0mStJbsBE5Nshkgybok5444JkmSpBUxmSNJktaMqtoPXAl8I8kjwDbgPaONSpIkaWX8aXJJkiRJkqQWsTJHkiRJkiSpRUzmSJIkSZIktYjJHEmSJEmSpBYxmSNJkiRJktQiJnMkSZIkSZJaxGSOJEmSJElSi5jMkSRJkiRJahGTOZIkSZIkSS3yf02yZDWfkF+aAAAAAElFTkSuQmCC", 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"text/plain": [ - "" + "" ] }, - "execution_count": 11, + "execution_count": null, "metadata": {}, "output_type": "execute_result" } @@ -320,17 +336,17 @@ }, { "cell_type": "code", - "execution_count": 12, + "execution_count": null, "metadata": {}, "outputs": [ { "data": { - "image/png": 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"text/plain": [ - "" + "" ] }, - "execution_count": 12, + "execution_count": null, "metadata": {}, "output_type": "execute_result" } @@ -343,25 +359,10 @@ } ], "metadata": { - "interpreter": { - "hash": "41379f2c2a4eb17f5ac9a1f5014f4b793a0ead0b6469d8877f81a91eb030f53e" - }, "kernelspec": { - "display_name": "Python 3.8.2 64-bit ('pyannote': conda)", + "display_name": "Python 3 (ipykernel)", "language": "python", "name": "python3" - }, - "language_info": { - "codemirror_mode": { - "name": "ipython", - "version": 3 - }, - "file_extension": ".py", - "mimetype": "text/x-python", - "name": "python", - "nbconvert_exporter": "python", - "pygments_lexer": "ipython3", - "version": "3.8.2" } }, "nbformat": 4, diff --git a/tutorials/applying_a_pipeline.ipynb b/tutorials/applying_a_pipeline.ipynb index e3e8b063e..e436c7327 100644 --- a/tutorials/applying_a_pipeline.ipynb +++ b/tutorials/applying_a_pipeline.ipynb @@ -24,18 +24,20 @@ }, { "cell_type": "code", - "execution_count": 1, + "execution_count": null, "metadata": {}, "outputs": [ { "data": { "text/plain": [ - "['pyannote/overlapped-speech-detection',\n", - " 'pyannote/speaker-diarization',\n", - " 'pyannote/voice-activity-detection']" + "['pyannote/speaker-diarization',\n", + " 'pyannote/speaker-segmentation',\n", + " 'pyannote/voice-activity-detection',\n", + " 'pyannote/overlapped-speech-detection',\n", + " 'philschmid/pyannote-speaker-diarization-endpoint']" ] }, - "execution_count": 1, + "execution_count": null, "metadata": {}, "output_type": "execute_result" } @@ -50,17 +52,43 @@ "cell_type": "markdown", "metadata": {}, "source": [ - "Let's load the speaker diarization pipeline..." + "To load the speaker diarization pipeline,\n", + "\n", + "* accept the user conditions on [hf.co/pyannote/speaker-diarization](https://hf.co/pyannote/speaker-diarization).\n", + "* login using `notebook_login` below" ] }, { "cell_type": "code", - "execution_count": 10, + "execution_count": null, + "metadata": {}, + "outputs": [ + { + "name": "stdout", + "output_type": "stream", + "text": [ + "Login successful\n", + "Your token has been saved to /Users/hbredin/.huggingface/token\n", + "\u001b[1m\u001b[31mAuthenticated through git-credential store but this isn't the helper defined on your machine.\n", + "You might have to re-authenticate when pushing to the Hugging Face Hub. Run the following command in your terminal in case you want to set this credential helper as the default\n", + "\n", + "git config --global credential.helper store\u001b[0m\n" + ] + } + ], + "source": [ + "from huggingface_hub import notebook_login\n", + "notebook_login()" + ] + }, + { + "cell_type": "code", + "execution_count": null, "metadata": {}, "outputs": [], "source": [ "from pyannote.audio import Pipeline\n", - "pipeline = Pipeline.from_pretrained(\"pyannote/speaker-diarization\")" + "pipeline = Pipeline.from_pretrained(\"pyannote/speaker-diarization@develop\", use_auth_token=True)" ] }, { @@ -82,11 +110,11 @@ }, { "cell_type": "code", - "execution_count": 3, + "execution_count": null, "metadata": {}, "outputs": [], "source": [ - "ROOT_DIR = \"/Users/bredin/Development/pyannote/pyannote-audio\"\n", + "ROOT_DIR = \"/Users/hbredin/Development/pyannote/pyannote-audio\"\n", "AUDIO_FILE = f\"{ROOT_DIR}/tutorials/assets/sample.wav\"\n", "dia = pipeline(AUDIO_FILE)" ] @@ -102,7 +130,7 @@ }, { "cell_type": "code", - "execution_count": 4, + "execution_count": null, "metadata": {}, "outputs": [], "source": [ @@ -119,23 +147,21 @@ }, { "cell_type": "code", - "execution_count": 5, + "execution_count": null, "metadata": {}, "outputs": [ { "name": "stdout", "output_type": "stream", "text": [ - " 6.7 7.1 SPEAKER_01\n", - " 7.5 8.2 SPEAKER_00\n", - " 8.2 10.0 SPEAKER_01\n", - " 9.9 11.0 SPEAKER_00\n", - "10.6 14.7 SPEAKER_01\n", - "14.3 17.9 SPEAKER_00\n", - "18.0 21.5 SPEAKER_01\n", - "18.1 18.6 SPEAKER_00\n", - "21.7 28.5 SPEAKER_00\n", - "27.8 29.7 SPEAKER_01\n" + " 6.7 7.1 SPEAKER_02\n", + " 6.9 8.3 SPEAKER_00\n", + " 8.3 14.8 SPEAKER_02\n", + " 9.8 11.0 SPEAKER_00\n", + "14.3 18.5 SPEAKER_01\n", + "17.9 21.5 SPEAKER_02\n", + "21.7 28.6 SPEAKER_01\n", + "27.8 29.5 SPEAKER_02\n" ] } ], @@ -153,17 +179,17 @@ }, { "cell_type": "code", - "execution_count": 6, + "execution_count": null, "metadata": {}, "outputs": [ { "data": { - "image/png": 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"text/plain": [ - "" + "" ] }, - "execution_count": 6, + "execution_count": null, "metadata": {}, "output_type": "execute_result" } @@ -184,17 +210,17 @@ }, { "cell_type": "code", - "execution_count": 7, + "execution_count": null, "metadata": {}, "outputs": [ { "data": { - "image/png": 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"text/plain": [ - "" + "" ] }, - "execution_count": 7, + "execution_count": null, "metadata": {}, "output_type": "execute_result" } @@ -219,7 +245,7 @@ }, { "cell_type": "code", - "execution_count": 8, + "execution_count": null, "metadata": {}, "outputs": [ { @@ -245,17 +271,17 @@ }, { "cell_type": "code", - "execution_count": 9, + "execution_count": null, "metadata": {}, "outputs": [ { "data": { - "image/png": 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"text/plain": [ - "" + "" ] }, - "execution_count": 9, + "execution_count": null, "metadata": {}, "output_type": "execute_result" } @@ -267,25 +293,10 @@ } ], "metadata": { - "interpreter": { - "hash": "41379f2c2a4eb17f5ac9a1f5014f4b793a0ead0b6469d8877f81a91eb030f53e" - }, "kernelspec": { - "display_name": "Python 3.8.2 64-bit ('pyannote': conda)", + "display_name": "Python 3 (ipykernel)", "language": "python", "name": "python3" - }, - "language_info": { - "codemirror_mode": { - "name": "ipython", - "version": 3 - }, - "file_extension": ".py", - "mimetype": "text/x-python", - "name": "python", - "nbconvert_exporter": "python", - "pygments_lexer": "ipython3", - "version": "3.8.2" } }, "nbformat": 4, diff --git a/tutorials/intro.ipynb b/tutorials/intro.ipynb index aaafe76d0..26bba3afb 100644 --- a/tutorials/intro.ipynb +++ b/tutorials/intro.ipynb @@ -1,457 +1,1057 @@ { - "nbformat": 4, - "nbformat_minor": 0, - "metadata": { - "colab": { - "name": "Introduction to pyannote.audio speaker diarization toolkit", - "provenance": [], - "collapsed_sections": [ - "xD7QfHCHEIgE", - "CKsR0OZqLj1d", - "numGt3msL39D" + "cells": [ + { + "cell_type": "markdown", + "metadata": { + "id": "view-in-github", + "colab_type": "text" + }, + "source": [ + "\"Open" + ] + }, + { + "cell_type": "markdown", + "metadata": { + "id": "9-KmdPlBYnp6" + }, + "source": [ + "\"Open" + ] + }, + { + "cell_type": "markdown", + "metadata": { + "id": "1Fs2d8otYnp7" + }, + "source": [ + "[`pyannote.audio`](https://github.com/pyannote/pyannote-audio) is an open-source toolkit written in Python for **speaker diarization**. \n", + "\n", + "Based on [`PyTorch`](https://pytorch.org) machine learning framework, it provides a set of trainable end-to-end neural building blocks that can be combined and jointly optimized to build speaker diarization pipelines. \n", + "\n", + "`pyannote.audio` also comes with pretrained [models](https://huggingface.co/models?other=pyannote-audio-model) and [pipelines](https://huggingface.co/models?other=pyannote-audio-pipeline) covering a wide range of domains for voice activity detection, speaker segmentation, overlapped speech detection, speaker embedding reaching state-of-the-art performance for most of them. \n", + "\n", + "**This notebook will teach you how to apply those pretrained pipelines on your own data.**\n", + "\n", + "Make sure you run it using a GPU (or it might otherwise be slow...)" + ] + }, + { + "cell_type": "markdown", + "metadata": { + "id": "tckHJKZnYnp7" + }, + "source": [ + "## Installation" + ] + }, + { + "cell_type": "code", + "execution_count": 5, + "metadata": { + "id": "ai082p4HYnp7", + "outputId": "42816e76-2ab7-4283-82e2-2a60ae199af5", + "colab": { + "base_uri": "https://localhost:8080/" + } + }, + "outputs": [ + { + "output_type": "stream", + "name": "stdout", + "text": [ + "\u001b[K / 15.0 MB 349 kB/s\n", + "\u001b[K |████████████████████████████████| 217 kB 25.8 MB/s \n", + "\u001b[K 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MB/s \n", + "\u001b[K |████████████████████████████████| 147 kB 60.6 MB/s \n", + "\u001b[K |████████████████████████████████| 112 kB 53.7 MB/s \n", + "\u001b[K |████████████████████████████████| 50 kB 6.0 MB/s \n", + "\u001b[?25h Building wheel for pyannote.audio (setup.py) ... \u001b[?25l\u001b[?25hdone\n", + " Building wheel for antlr4-python3-runtime (setup.py) ... \u001b[?25l\u001b[?25hdone\n", + " Building wheel for docopt (setup.py) ... \u001b[?25l\u001b[?25hdone\n", + " Building wheel for julius (setup.py) ... \u001b[?25l\u001b[?25hdone\n", + " Building wheel for pyperclip (setup.py) ... \u001b[?25l\u001b[?25hdone\n" + ] + } ], - "toc_visible": true, - "include_colab_link": true + "source": [ + "# for speechbrain\n", + "!pip install -qq torch==1.11.0 torchvision==0.12.0 torchaudio==0.11.0 torchtext==0.12.0\n", + "!pip install -qq speechbrain==0.5.12\n", + "\n", + "# pyannote.audio\n", + "!pip install -qq pyannote.audio\n", + "\n", + "# for visualization purposes\n", + "!pip install -qq moviepy ipython==7.34.0" + ] }, - "kernelspec": { - "name": "python3", - "display_name": "Python 3" + { + "cell_type": "markdown", + "metadata": { + "id": "qggK-7VBYnp8" + }, + "source": [ + "# Visualization with `pyannote.core`\n", + "\n", + "For the purpose of this notebook, we will download and use an audio file coming from the [AMI corpus](http://groups.inf.ed.ac.uk/ami/corpus/), which contains a conversation between 4 people in a meeting room." + ] }, - "accelerator": "GPU", - "widgets": { - "application/vnd.jupyter.widget-state+json": { - "5da54fdb45e1485badd323232321bc96": { - "model_module": "@jupyter-widgets/controls", - "model_name": "HBoxModel", - "model_module_version": "1.5.0", - "state": { - "_dom_classes": [], - "_model_module": "@jupyter-widgets/controls", - "_model_module_version": "1.5.0", - "_model_name": "HBoxModel", - "_view_count": null, - "_view_module": "@jupyter-widgets/controls", - "_view_module_version": "1.5.0", - "_view_name": "HBoxView", - "box_style": "", - "children": [ - "IPY_MODEL_e6f461cb90cc498da90a20f2a6c610e0", - "IPY_MODEL_3e8a884bd6c94a86a324cfa7b9580ea7", - "IPY_MODEL_0b03a220e59848dfafb6411b24c3b37f" + { + "cell_type": "code", + "execution_count": 6, + "metadata": { + "id": "uJWoQiJgYnp8" + }, + "outputs": [], + "source": [ + "!wget -q http://groups.inf.ed.ac.uk/ami/AMICorpusMirror/amicorpus/ES2004a/audio/ES2004a.Mix-Headset.wav\n", + "DEMO_FILE = {'uri': 'ES2004a.Mix-Headset', 'audio': 'ES2004a.Mix-Headset.wav'}" + ] + }, + { + "cell_type": "markdown", + "metadata": { + "id": "EPIapoCJYnp8" + }, + "source": [ + "Because AMI is a benchmarking dataset, it comes with manual annotations (a.k.a *groundtruth*). \n", + "Let us load and visualize the expected output of the speaker diarization pipeline.\n" + ] + }, + { + "cell_type": "code", + "execution_count": 7, + "metadata": { + "id": "Mmm0Q22JYnp8" + }, + "outputs": [], + "source": [ + "!wget -q 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+ }, + "metadata": {}, + "execution_count": 8 + } + ], + "source": [ + "# load groundtruth\n", + "from pyannote.database.util import load_rttm\n", + "_, groundtruth = load_rttm('ES2004a.rttm').popitem()\n", + "\n", + "# visualize groundtruth\n", + "groundtruth" + ] + }, + { + "cell_type": "markdown", + "metadata": { + "id": "p_R9T9Y5Ynp9" + }, + "source": [ + "For the rest of this notebook, we will only listen to and visualize a one-minute long excerpt of the file (but will process the whole file anyway)." + ] + }, + { + "cell_type": "code", + "execution_count": 9, + "metadata": { + "id": "bAHza4Y1Ynp-", + "outputId": "a24b6611-6fb4-43f9-e5c8-02e00a6479f1", + "colab": { + "base_uri": "https://localhost:8080/", + "height": 189 + } + }, + "outputs": [ + { + "output_type": "execute_result", + "data": { + "text/plain": [ + "" + ], + "image/png": "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\n" + }, + "metadata": {}, + "execution_count": 9 + } + ], + "source": [ + "from pyannote.core import Segment, notebook\n", + "# make notebook visualization zoom on 600s < t < 660s time range\n", + "EXCERPT = Segment(600, 660)\n", + "notebook.crop = EXCERPT\n", + "\n", + "# visualize excerpt groundtruth\n", + "groundtruth" + ] + }, + { + "cell_type": "markdown", + "metadata": { + "id": "L3FQXT5FYnp-" + }, + "source": [ + "This nice visualization is brought to you by [`pyannote.core`](http://pyannote.github.io/pyannote-core/) and basically indicates when each speaker speaks. " + ] + }, + { + "cell_type": "code", + "execution_count": 10, + "metadata": { + "id": "rDhZ3bXEYnp-", + "outputId": "e94fac2e-5370-419e-9f76-a85cda9702ae", + "colab": { + "base_uri": "https://localhost:8080/", + "height": 62 + } + }, + "outputs": [ + { + "output_type": "execute_result", + "data": { + "text/plain": [ + "" + ], + "text/html": [ + "\n", + " \n", + " " + ] + }, + "metadata": {}, + "execution_count": 10 + } + ], + "source": [ + "from pyannote.audio import Audio \n", + "from IPython.display import Audio as IPythonAudio\n", + "waveform, sr = Audio().crop(DEMO_FILE, EXCERPT)\n", + "IPythonAudio(waveform.flatten(), rate=sr)" + ] + }, + { + "cell_type": "markdown", + "metadata": { + "id": "hkzox7QIYnp_" + }, + "source": [ + "# Processing your own audio file (optional)\n", + "\n", + "In case you just want to go ahead with the demo file, skip this section entirely.\n", + "\n", + "In case you want to try processing your own audio file, proceed with running this section. It will offer you to upload an audio file (preferably a `wav` file but all formats supported by [`SoundFile`](https://pysoundfile.readthedocs.io/en/latest/) should work just fine)." + ] + }, + { + "cell_type": "markdown", + "metadata": { + "id": "3hmFmLzFYnp_" + }, + "source": [ + "## Upload audio file" + ] + }, + { + "cell_type": "code", + "execution_count": null, + "metadata": { + "id": "xC05jFO_Ynp_", + "outputId": "c5502632-56ae-4adb-8bdc-112deedc8893" + }, + "outputs": [ + { + "data": { + "text/html": [ + "\n", + " \n", + " \n", + " Upload widget is only available when the cell has been executed in the\n", + " current browser session. Please rerun this cell to enable.\n", + " \n", + " " + ], + "text/plain": [ + "" + ] + }, + "metadata": {}, + "output_type": "display_data" }, - "e0c6b8aff2ad4849b3dac392ee388112": { - "model_module": "@jupyter-widgets/base", - "model_name": "LayoutModel", - "model_module_version": "1.2.0", - "state": { - "_model_module": "@jupyter-widgets/base", - "_model_module_version": "1.2.0", - "_model_name": "LayoutModel", - "_view_count": null, - "_view_module": "@jupyter-widgets/base", - "_view_module_version": "1.2.0", - "_view_name": "LayoutView", - "align_content": null, - "align_items": null, - "align_self": null, - "border": null, - "bottom": null, - "display": null, - "flex": null, - "flex_flow": null, - "grid_area": null, - "grid_auto_columns": null, - "grid_auto_flow": null, - "grid_auto_rows": null, - "grid_column": null, - "grid_gap": null, - "grid_row": null, - "grid_template_areas": null, - "grid_template_columns": null, - "grid_template_rows": null, - "height": null, - "justify_content": null, - "justify_items": null, - "left": null, - "margin": null, - "max_height": null, - "max_width": null, - "min_height": null, - "min_width": null, - "object_fit": null, - "object_position": null, - "order": null, - "overflow": null, - "overflow_x": null, - "overflow_y": null, - "padding": null, - "right": null, - "top": null, - "visibility": null, - "width": null - } + { + "name": "stdout", + "output_type": "stream", + "text": [ + "Saving sample.wav to sample.wav\n" + ] }, - "8ddd76365cfd4408b8ca12309b183967": { - "model_module": "@jupyter-widgets/controls", - "model_name": "ProgressStyleModel", - "model_module_version": "1.5.0", - "state": { - "_model_module": "@jupyter-widgets/controls", - "_model_module_version": "1.5.0", - "_model_name": "ProgressStyleModel", - "_view_count": null, - "_view_module": "@jupyter-widgets/base", - "_view_module_version": "1.2.0", - "_view_name": "StyleView", - "bar_color": null, - "description_width": "" - } + { + "data": { + "text/html": [ + "\n", + " \n", + " " + ], + "text/plain": [ + "" + ] + }, + "execution_count": null, + "metadata": {}, + "output_type": "execute_result" + } + ], + "source": [ + "import google.colab\n", + "own_file, _ = google.colab.files.upload().popitem()\n", + "OWN_FILE = {'audio': own_file}\n", + "notebook.reset()\n", + "\n", + "# load audio waveform and play it\n", + "waveform, sample_rate = Audio()(OWN_FILE)\n", + "IPythonAudio(data=waveform.squeeze(), rate=sample_rate, autoplay=True)" + ] + }, + { + "cell_type": "markdown", + "metadata": { + "id": "ctw4nLaPYnp_" + }, + "source": [ + "Simply replace `DEMO_FILE` by `OWN_FILE` in the rest of the notebook.\n", + "\n", + "Note, however, that unless you provide a groundtruth annotation in the next cell, you will (obviously) not be able to visualize groundtruth annotation nor evaluate the performance of the diarization pipeline quantitatively" + ] + }, + { + "cell_type": "markdown", + "metadata": { + "id": "x9AQgDzFYnp_" + }, + "source": [ + "## Upload groundtruth (optional)\n", + "\n", + "The groundtruth file is expected to use the RTTM format, with one line per speech turn with the following convention:\n", + "\n", + "```\n", + "SPEAKER {file_name} 1 {start_time} {duration} {speaker_name} \n", + "```" + ] + }, + { + "cell_type": "code", + "execution_count": null, + "metadata": { + "id": "iZaFudpDYnp_", + "outputId": "981274fa-e654-4091-c838-91c81f921e5d" + }, + "outputs": [ + { + "data": { + "text/html": [ + "\n", + " \n", + " \n", + " Upload widget is only available when the cell has been executed in the\n", + " current browser session. Please rerun this cell to enable.\n", + " \n", + " " + ], + "text/plain": [ + "" + ] + }, + "metadata": {}, + "output_type": "display_data" }, - "df8dc69ca1cf4e57bfebf4762c0460f0": { - "model_module": "@jupyter-widgets/base", - "model_name": "LayoutModel", - "model_module_version": "1.2.0", - "state": { - "_model_module": "@jupyter-widgets/base", - "_model_module_version": "1.2.0", - "_model_name": "LayoutModel", - "_view_count": null, - "_view_module": "@jupyter-widgets/base", - "_view_module_version": "1.2.0", - "_view_name": "LayoutView", - "align_content": null, - "align_items": null, - "align_self": null, - "border": null, - "bottom": null, - "display": null, - "flex": null, - "flex_flow": null, - "grid_area": null, - "grid_auto_columns": null, - "grid_auto_flow": null, - "grid_auto_rows": null, - "grid_column": null, - "grid_gap": null, - "grid_row": null, - "grid_template_areas": null, - "grid_template_columns": null, - "grid_template_rows": null, - "height": null, - "justify_content": null, - "justify_items": null, - "left": null, - "margin": null, - "max_height": null, - "max_width": null, - "min_height": null, - "min_width": null, - "object_fit": null, - "object_position": null, - "order": null, - "overflow": null, - "overflow_x": null, - "overflow_y": null, - "padding": null, - "right": null, - "top": null, - "visibility": null, - "width": null - } + { + "name": "stdout", + "output_type": "stream", + "text": [ + "Saving sample.rttm to sample.rttm\n" + ] }, - "799487c4c6de471c827f120f1c11d9e2": { - "model_module": "@jupyter-widgets/controls", - "model_name": "DescriptionStyleModel", - "model_module_version": "1.5.0", - "state": { - "_model_module": "@jupyter-widgets/controls", - "_model_module_version": "1.5.0", - "_model_name": "DescriptionStyleModel", - "_view_count": null, - "_view_module": "@jupyter-widgets/base", - "_view_module_version": "1.2.0", - "_view_name": "StyleView", - "description_width": "" - } + { + "data": { + "image/png": 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AAGAw/w9yi/xWuRzNKQAAAABJRU5ErkJggg==\n", + "text/plain": [ + "" + ] + }, + "execution_count": null, + "metadata": {}, + "output_type": "execute_result" + } + ], + "source": [ + "groundtruth_rttm, _ = google.colab.files.upload().popitem()\n", + "groundtruths = load_rttm(groundtruth_rttm)\n", + "if OWN_FILE['audio'] in groundtruths:\n", + " groundtruth = groundtruths[OWN_FILE['audio']]\n", + "else:\n", + " _, groundtruth = groundtruths.popitem()\n", + "groundtruth" + ] + }, + { + "cell_type": "markdown", + "metadata": { + "id": "5MclWK2GYnp_" + }, + "source": [ + "# Speaker diarization with `pyannote.pipeline`\n", + "\n", + "We are about to run a full speaker diarization pipeline, that includes speaker segmentation, speaker embedding, and a final clustering step. **Brace yourself!**\n", + "\n", + "To load the speaker diarization pipeline, \n", + "\n", + "* accept the user conditions on [hf.co/pyannote/speaker-diarization](https://hf.co/pyannote/speaker-diarization).\n", + "* login using `notebook_login` below" + ] + }, + { + "cell_type": "code", + "execution_count": 11, + "metadata": { + "id": "r5u7VMb-YnqB", + "outputId": "433b4f1b-c6fb-4047-be4f-fbfde0d7aa68", + "colab": { + "base_uri": "https://localhost:8080/", + "height": 300, + "referenced_widgets": [ + "a7fd4da8fca94798b977d92ae4f3f2bf", + "cc5fdc26256248cf8dac00fbc314a3c7", + "a134ee5d26c54b04b7a34b5e7671e2cf", + "58e364b0131449659804831baa1fb421", + "7f150092f0984d65882e57c373cce7c4", + "7ee601dd1b8c4a9b9df7c0a0dce0ff3b", + "4e4de9bec49841bb8e77d176511da330", + "343a0bfe7363401b9c00602c547fc609", + "8ae65b22713547ac88aad90600f1ebb0", + "4a4b13ce55944ec985ac6eb3e302e473", + "36bfa883a7bf4306a60bd2f2e9d34c17", + "28a732468d2b43f7b0b66b81aed09305", + "a1e3a0a5f91b4a1282fab3f84918e684", + "775d04d911a347ce8993eac7ae7479d1" + ] + } + }, + "outputs": [ + { + "output_type": "stream", + "name": "stdout", + "text": [ + "Login successful\n", + "Your token has been saved to /root/.huggingface/token\n" + ] + } + ], + "source": [ + "from huggingface_hub import notebook_login\n", + "notebook_login()" + ] + }, + { + "cell_type": "code", + "execution_count": 12, + "metadata": { + "id": "lUq1UvoJYnqB", + "outputId": "36cd5a49-b762-4ec1-a1e0-0d9471a35b39", + "colab": { + "base_uri": "https://localhost:8080/", + "height": 273, + "referenced_widgets": [ + "bbbeab96755c4dbea662d7b821c7188f", + "29886bb25e6c444d89bd62fe0d3fc2aa", + "e7d91492ccba4a4fbd35b8b8652ce424", + "8007ece499c343438619420efb1c783d", + "d04b749f32524693a4aff3fc39565688", + "eaf64f20c7ba495480f91d21b54704ef", + "8e2b713e4b7d43658c75b254628f3a10", + "d145e071ff944867afdfcc8182125b40", + "976f00b9aeb04bc985657b018144269b", + "94eec654793d45f4891c7a43217b7e4c", + "6ce2a0b4a07f4acaa80fe11e064e05ed", + "f4ab2f4beedc469a82dc687330003453", + "45dd7efcbbdb49a8ba9e98cffc41447a", + "4653c869270b4a2cad98e970dfe3fc34", + "924ad861916442898392eaae6c44da56", + "796dde241ce44bbabc1403bef156f410", + "f40f7ddb7ebc4dac993b8f6fab2a698d", + "a8f4d54932f94730a8ba41e58253a9c9", + 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+ }, + "metadata": {}, + "execution_count": 13 + } + ], + "source": [ + "diarization" + ] + }, + { + "cell_type": "markdown", + "metadata": { + "id": "DLhErS6wYnqB" + }, + "source": [ + "# Evaluation with `pyannote.metrics`\n", + "\n", + "Because groundtruth is available, we can evaluate the quality of the diarization pipeline by computing the [diarization error rate](http://pyannote.github.io/pyannote-metrics/reference.html#diarization)." + ] + }, + { + "cell_type": "code", + "execution_count": 14, + "metadata": { + "id": "vNHQRTUIYnqB" + }, + "outputs": [], + "source": [ + "from pyannote.metrics.diarization import DiarizationErrorRate\n", + "metric = DiarizationErrorRate()\n", + "der = metric(groundtruth, diarization)" + ] + }, + { + "cell_type": "code", + "execution_count": 15, + "metadata": { + "id": "9d0vKQ0fYnqB", + "outputId": "74dc4b06-5d8d-4ffb-b764-c30fdb0dbb0a", + "colab": { + "base_uri": "https://localhost:8080/" + } + }, + "outputs": [ + { + "output_type": "stream", + "name": "stdout", + "text": [ + "diarization error rate = 40.2%\n" + ] + } + ], + "source": [ + "print(f'diarization error rate = {100 * der:.1f}%')" + ] + }, + { + "cell_type": "markdown", + "metadata": { + "id": "Xz5QJV9nYnqB" + }, + "source": [ + "This implementation of diarization error rate is brought to you by [`pyannote.metrics`](http://pyannote.github.io/pyannote-metrics/).\n", + "\n", + "It can also be used to improve visualization by find the optimal one-to-one mapping between groundtruth and hypothesized speakers." + ] + }, + { + "cell_type": "code", + "execution_count": 16, + "metadata": { + "id": "xMLf4mrYYnqB", + "outputId": "eecd6b38-4fb2-400a-d495-9ef739480e22", + "colab": { + "base_uri": "https://localhost:8080/", + "height": 189 + } + }, + "outputs": [ + { + "output_type": "execute_result", + "data": { + "text/plain": [ + "" + ], + "image/png": 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\n" + }, + "metadata": {}, + "execution_count": 16 + } + ], + "source": [ + "mapping = metric.optimal_mapping(groundtruth, diarization)\n", + "diarization.rename_labels(mapping=mapping)" + ] + }, + { + "cell_type": "code", + "execution_count": 17, + "metadata": { + "id": "Z0ewsLlQYnqB", + "outputId": "71dd0295-80b7-4909-d616-4dffcf81b40b", + "colab": { + "base_uri": "https://localhost:8080/", + "height": 189 + } + }, + "outputs": [ + { + "output_type": "execute_result", + "data": { + "text/plain": [ + "" + ], + "image/png": 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+ }, + "metadata": {}, + "execution_count": 17 + } + ], + "source": [ + "groundtruth" + ] + }, + { + "cell_type": "markdown", + "metadata": { + "id": "MxlrTbyPYnqB" + }, + "source": [ + "# Going further \n", + "\n", + "We have only scratched the surface in this introduction. \n", + "\n", + "More details can be found in the [`pyannote.audio` Github repository](https://github.com/pyannote/pyannote-audio).\n" + ] + } + ], + "metadata": { + "kernelspec": { + "display_name": "Python 3 (ipykernel)", + "language": "python", + "name": "python3" + }, + "widgets": { + "application/vnd.jupyter.widget-state+json": { + "a7fd4da8fca94798b977d92ae4f3f2bf": { + "model_module": "@jupyter-widgets/controls", + "model_name": "VBoxModel", + "model_module_version": "1.5.0", + "state": { + "_dom_classes": [], "_model_module": "@jupyter-widgets/controls", "_model_module_version": "1.5.0", - "_model_name": "HTMLModel", + "_model_name": "VBoxModel", "_view_count": null, "_view_module": 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"FloatProgressModel", + "_model_name": "HTMLModel", "_view_count": null, "_view_module": "@jupyter-widgets/controls", "_view_module_version": "1.5.0", - "_view_name": "ProgressView", - "bar_style": "success", + "_view_name": "HTMLView", "description": "", "description_tooltip": null, - "layout": "IPY_MODEL_b9fc636fcc6f4a2785999385cd340ab9", - "max": 17719103, - "min": 0, - "orientation": "horizontal", - "style": "IPY_MODEL_ebf9284b6e514698b8c7389c758f7520", - "value": 17719103 + "layout": "IPY_MODEL_4e4de9bec49841bb8e77d176511da330", + "placeholder": "​", + "style": "IPY_MODEL_343a0bfe7363401b9c00602c547fc609", + "value": "

Copy a token from your Hugging Face\ntokens page and paste it below.
Immediately click login after copying\nyour token or it might be stored in plain text in this notebook file.
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"style": "IPY_MODEL_a2aba4e8152c4fbda91bf59a42f25604", + "style": "IPY_MODEL_8e2b713e4b7d43658c75b254628f3a10", "value": "Downloading: 100%" } }, - "a950bac54c5742e79cd2de4fda29c2e0": { + "e7d91492ccba4a4fbd35b8b8652ce424": { "model_module": "@jupyter-widgets/controls", "model_name": "FloatProgressModel", "model_module_version": "1.5.0", @@ -763,15 +1378,15 @@ "bar_style": "success", "description": "", "description_tooltip": null, - "layout": "IPY_MODEL_69a8212dded54f79adf3f8b60b9eb000", - "max": 318, + "layout": "IPY_MODEL_d145e071ff944867afdfcc8182125b40", + "max": 500, "min": 0, "orientation": "horizontal", - "style": "IPY_MODEL_25142cfd61084c128fe39adad5016109", - "value": 318 + "style": "IPY_MODEL_976f00b9aeb04bc985657b018144269b", + "value": 500 } }, - "3f5459fa25654a76bfec64d1dcb542b6": { + "8007ece499c343438619420efb1c783d": { "model_module": "@jupyter-widgets/controls", "model_name": "HTMLModel", "model_module_version": "1.5.0", @@ -786,13 +1401,13 @@ "_view_name": "HTMLView", "description": "", "description_tooltip": null, - 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"layout": "IPY_MODEL_aa6ccf1390cc4139b7ba23ea7129b273", - "max": 1920, + "layout": "IPY_MODEL_9099bee7874f41dab13dbffc5479be5d", + "max": 17719103, "min": 0, "orientation": "horizontal", - "style": "IPY_MODEL_264cde3fae9d442abdb74b4d45288be3", - "value": 1920 + "style": "IPY_MODEL_e94e8546d7954a0987da477f3c3b20fd", + "value": 17719103 } }, - "def1205f95274d3db0fafc9c8dd1c913": { + "924ad861916442898392eaae6c44da56": { "model_module": "@jupyter-widgets/controls", "model_name": "HTMLModel", "model_module_version": "1.5.0", @@ -1128,13 +1743,13 @@ "_view_name": "HTMLView", "description": "", "description_tooltip": null, - "layout": "IPY_MODEL_2c28a61cfa474c7498a8381e74639530", + "layout": "IPY_MODEL_eb032a7f35bd4e4e9ca4328c5d0a52e6", "placeholder": "​", - "style": "IPY_MODEL_5895a4011e3143a1931566822a65fd50", - "value": " 1.92k/1.92k [00:00<00:00, 61.7kB/s]" + "style": "IPY_MODEL_49059590a13a4e6f94fff2689c5c06c3", + "value": " 17.7M/17.7M [00:00<00:00, 46.2MB/s]" } }, - "46a04e196f9e461bb43e541270022b8d": { + "796dde241ce44bbabc1403bef156f410": { "model_module": "@jupyter-widgets/base", "model_name": "LayoutModel", "model_module_version": "1.2.0", @@ -1186,7 +1801,7 @@ "width": null } }, - 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"b0b8bb8fe0bc47908273136304cf4870": { + "5333f14482954ab58224e858cd3144d3": { "model_module": "@jupyter-widgets/controls", "model_name": "DescriptionStyleModel", "model_module_version": "1.5.0", @@ -2755,908 +3370,699 @@ "_view_name": "StyleView", "description_width": "" } - } - } - } - }, - "cells": [ - { - "cell_type": "markdown", - "metadata": { - "id": "view-in-github", - "colab_type": "text" - }, - "source": [ - "\"Open" - ] - }, - { - "cell_type": "markdown", - "metadata": { - "id": "nxNf1l8Ye_U9" - }, - "source": [ - "[`pyannote.audio`](https://github.com/pyannote/pyannote-audio) is an open-source toolkit written in Python for **speaker diarization**. \n", - "\n", - "Based on [`PyTorch`](https://pytorch.org) machine learning framework, it provides a set of trainable end-to-end neural building blocks that can be combined and jointly optimized to build speaker diarization pipelines. \n", - "\n", - "`pyannote.audio` also comes with pretrained [models](https://huggingface.co/models?other=pyannote-audio-model) and [pipelines](https://huggingface.co/models?other=pyannote-audio-pipeline) covering a wide range of domains for voice activity detection, speaker segmentation, overlapped speech detection, speaker embedding reaching state-of-the-art performance for most of them. \n", - "\n", - "**This notebook will teach you how to apply those pretrained pipelines on your own data.**\n", - "\n", - "Make sure you run it using a GPU (or it might otherwise be slow...)" - ] - }, - { - "cell_type": "markdown", - "metadata": { - "id": "42nBTa_QgooG" - }, - "source": [ - "## Installation" - ] - }, - { - "cell_type": "code", - "metadata": { - "id": "vJGyKTQJqdzq", - "outputId": "28eabcb6-b64b-4e78-9dc0-a181797c3e84", - "colab": { - "base_uri": "https://localhost:8080/" - } - }, - "source": [ - "# for speechbrain\n", - "!pip install -qq torch==1.11.0 torchvision==0.12.0 torchaudio==0.11.0 torchtext==0.12.0\n", - "!pip install -qq speechbrain==0.5.12\n", - "\n", - "# pyannote.audio\n", - "!pip install -qq pyannote.audio\n", - "\n", - "# for visualization purposes\n", - "!pip install -qq moviepy ipython==7.34.0" - ], - "execution_count": 1, - "outputs": [ - { - "output_type": "stream", - "name": "stdout", - "text": [ - "\u001b[K |████████████████████████████████| 750.6 MB 12 kB/s \n", - 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"\u001b[K |████████████████████████████████| 94 kB 4.3 MB/s \n", - "\u001b[K |████████████████████████████████| 78 kB 8.5 MB/s \n", - "\u001b[K |████████████████████████████████| 112 kB 68.5 MB/s \n", - "\u001b[K |████████████████████████████████| 147 kB 73.3 MB/s \n", - "\u001b[K |████████████████████████████████| 49 kB 6.3 MB/s \n", - "\u001b[?25h Building wheel for antlr4-python3-runtime (setup.py) ... \u001b[?25l\u001b[?25hdone\n", - " Building wheel for julius (setup.py) ... \u001b[?25l\u001b[?25hdone\n", - " Building wheel for pyperclip (setup.py) ... \u001b[?25l\u001b[?25hdone\n", - "\u001b[K |████████████████████████████████| 793 kB 22.7 MB/s \n", - "\u001b[K |████████████████████████████████| 381 kB 72.2 MB/s \n", - "\u001b[31mERROR: pip's dependency resolver does not currently take into account all the packages that are installed. This behaviour is the source of the following dependency conflicts.\n", - "jupyter-console 5.2.0 requires prompt-toolkit<2.0.0,>=1.0.0, but you have prompt-toolkit 3.0.30 which is incompatible.\n", - "google-colab 1.0.0 requires ipython~=5.5.0, but you have ipython 7.34.0 which is incompatible.\u001b[0m\n", - "\u001b[?25h" - ] - } - ] - }, - { - "cell_type": "markdown", - "metadata": { - "id": "5pSYhjbMhTwT" - }, - "source": [ - "# Visualization with `pyannote.core`\n", - "\n", - "For the purpose of this notebook, we will download and use an audio file coming from the [AMI corpus](http://groups.inf.ed.ac.uk/ami/corpus/), which contains a conversation between 4 people in a meeting room." - ] - }, - { - "cell_type": "code", - "metadata": { - "id": "w7YuPI28qlwZ" - }, - "source": [ - "!wget -q http://groups.inf.ed.ac.uk/ami/AMICorpusMirror/amicorpus/ES2004a/audio/ES2004a.Mix-Headset.wav\n", - "DEMO_FILE = {'uri': 'ES2004a.Mix-Headset', 'audio': 'ES2004a.Mix-Headset.wav'}" - ], - "execution_count": 2, - "outputs": [] - }, - { - "cell_type": "markdown", - "metadata": { - "id": "W0_wwm3dj_bO" - }, - "source": [ - "Because AMI is a benchmarking dataset, it comes with manual annotations (a.k.a *groundtruth*). \n", - "Let us load and visualize the expected output of the speaker diarization pipeline.\n" - ] - }, - { - "cell_type": "code", - "metadata": { - "id": "1pra1iVnrp5D" - }, - "source": [ - "!wget -q https://raw.githubusercontent.com/pyannote/AMI-diarization-setup/main/only_words/rttms/test/ES2004a.rttm" - ], - "execution_count": 5, - "outputs": [] - }, - { - "cell_type": "code", - "metadata": { - "id": "aj1obYqhr3Qk", - "outputId": "2b1e6b24-c355-4edb-bf8f-46c1bd7f92d2", - "colab": { - "base_uri": "https://localhost:8080/", - "height": 118 - } - }, - "source": [ - "# load groundtruth\n", - "from pyannote.database.util import load_rttm\n", - "_, groundtruth = load_rttm('ES2004a.rttm').popitem()\n", - "\n", - "# visualize groundtruth\n", - "groundtruth" - ], - 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- }, - "metadata": {}, - "execution_count": 6 - } - ] - }, - { - "cell_type": "markdown", - "metadata": { - "id": "JDhKjfUBlsjH" - }, - "source": [ - "For the rest of this notebook, we will only listen to and visualize a one-minute long excerpt of the file (but will process the whole file anyway)." - ] - }, - { - "cell_type": "code", - "metadata": { - "id": "YAa_HoA9mnTZ", - "outputId": "6ff35b05-9b2c-49fa-bd4b-b674a44c7118", - "colab": { - "base_uri": "https://localhost:8080/", - "height": 117 - } - }, - "source": [ - "from pyannote.core import Segment, notebook\n", - "# make notebook visualization zoom on 600s < t < 660s time range\n", - "EXCERPT = Segment(600, 660)\n", - "notebook.crop = EXCERPT\n", - "\n", - "# visualize excerpt groundtruth\n", - "groundtruth" - ], - "execution_count": 7, - "outputs": [ - { - "output_type": "execute_result", - "data": { - "text/plain": [ - "" - ], - "image/png": "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\n" - }, - "metadata": {}, - "execution_count": 7 - } - ] - }, - { - "cell_type": "markdown", - "metadata": { - "id": "TpqTxB12F9Do" - }, - "source": [ - "This nice visualization is brought to you by [`pyannote.core`](http://pyannote.github.io/pyannote-core/) and basically indicates when each speaker speaks. " - ] - }, - { - "cell_type": "code", - "metadata": { - "id": "62flXtNIsA9q", - "outputId": "7fe6edc9-194b-45c5-d3fb-973bf0553282", - "colab": { - "base_uri": "https://localhost:8080/", - "height": 119 - } - }, - "source": [ - "from pyannote.audio import Audio \n", - "from IPython.display import Audio as IPythonAudio\n", - "waveform, sr = Audio().crop(DEMO_FILE, EXCERPT)\n", - "IPythonAudio(waveform.flatten(), rate=sr)" - ], - "execution_count": 8, - "outputs": [ - { - "output_type": "stream", - "name": "stderr", - "text": [ - "/usr/local/lib/python3.7/dist-packages/resampy/interpn.py:114: NumbaWarning: \u001b[1m\u001b[1mThe TBB threading layer requires TBB version 2019.5 or later i.e., TBB_INTERFACE_VERSION >= 11005. Found TBB_INTERFACE_VERSION = 9107. The TBB threading layer is disabled.\u001b[0m\u001b[0m\n", - " _resample_loop_p(x, t_out, interp_win, interp_delta, num_table, scale, y)\n" - ] + "layout": "IPY_MODEL_f5f78e586cd24028b83887ded99f43bc" + } }, - { - "output_type": "execute_result", - "data": { - "text/plain": [ - "" - ], - "text/html": [ - "\n", - " \n", - " " - ] - }, - "metadata": {}, - "execution_count": 8 - } - ] - }, - { - "cell_type": "markdown", - "metadata": { - "id": "xD7QfHCHEIgE" - }, - "source": [ - "# Processing your own audio file (optional)\n", - "\n", - "In case you just want to go ahead with the demo file, skip this section entirely.\n", - "\n", - "In case you want to try processing your own audio file, proceed with running this section. It will offer you to upload an audio file (preferably a `wav` file but all formats supported by [`SoundFile`](https://pysoundfile.readthedocs.io/en/latest/) should work just fine)." - ] - }, - { - "cell_type": "markdown", - "metadata": { - "id": "CKsR0OZqLj1d" - }, - "source": [ - "## Upload audio file" - ] - }, - { - "cell_type": "code", - "metadata": { - "id": "HQRCi0C7EHor", - "outputId": "79a008b1-6ae9-48bd-b57a-22af28d1341b", - "colab": { - "resources": { - "http://localhost:8080/nbextensions/google.colab/files.js": { - "data": 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Please rerun this cell to enable.\n", - " \n", - " " - ], - "text/plain": [ - "" - ] - }, - "metadata": {} + "f7dbef43a8c14f77bbcca6a02a02970b": { + "model_module": "@jupyter-widgets/controls", + "model_name": "HTMLModel", + "model_module_version": "1.5.0", + "state": { + "_dom_classes": [], + "_model_module": "@jupyter-widgets/controls", + "_model_module_version": "1.5.0", + "_model_name": "HTMLModel", + "_view_count": null, + "_view_module": "@jupyter-widgets/controls", + "_view_module_version": "1.5.0", + "_view_name": "HTMLView", + "description": "", + "description_tooltip": null, + "layout": "IPY_MODEL_bdbd0f99d45d4c86b6b5a69e11feec51", + "placeholder": "​", + "style": "IPY_MODEL_4db259c505014ab68783a3ff2a128afe", + "value": "Downloading: 100%" + } + }, + "543a7cfb2e4b49d39cd35f63d49a7386": { + "model_module": "@jupyter-widgets/controls", + "model_name": "FloatProgressModel", + "model_module_version": "1.5.0", + "state": { + "_dom_classes": [], + "_model_module": 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"description_width": "" + } }, - { - "output_type": "execute_result", - "data": { - "text/html": [ - "\n", - " \n", - " " - ], - "text/plain": [ - "" - ] - }, - "metadata": {}, - "execution_count": 7 - } - ] - }, - { - "cell_type": "markdown", - "metadata": { - "id": "dLDSdzCuI0ED" - }, - "source": [ - "Simply replace `DEMO_FILE` by `OWN_FILE` in the rest of the notebook.\n", - "\n", - "Note, however, that unless you provide a groundtruth annotation in the next cell, you will (obviously) not be able to visualize groundtruth annotation nor evaluate the performance of the diarization pipeline quantitatively" - ] - }, - { - "cell_type": "markdown", - "metadata": { - "id": "numGt3msL39D" - }, - "source": [ - "## Upload groundtruth (optional)\n", - "\n", - "The groundtruth file is expected to use the RTTM format, with one line per speech turn with the following convention:\n", - "\n", - "```\n", - "SPEAKER {file_name} 1 {start_time} {duration} {speaker_name} \n", - "```" - ] - }, - { - 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has been executed in the\n", - " current browser session. Please rerun this cell to enable.\n", - " \n", - " " + "7e432a87cb0d4571bdc52cfcaae702b7": { + "model_module": "@jupyter-widgets/controls", + "model_name": "DescriptionStyleModel", + "model_module_version": "1.5.0", + "state": { + "_model_module": "@jupyter-widgets/controls", + "_model_module_version": "1.5.0", + "_model_name": "DescriptionStyleModel", + "_view_count": null, + "_view_module": "@jupyter-widgets/base", + "_view_module_version": "1.2.0", + "_view_name": "StyleView", + "description_width": "" + } + }, + "a88fb04c89834c48b922f6ff14632c87": { + "model_module": "@jupyter-widgets/controls", + "model_name": "HBoxModel", + "model_module_version": "1.5.0", + "state": { + "_dom_classes": [], + "_model_module": "@jupyter-widgets/controls", + "_model_module_version": "1.5.0", + "_model_name": "HBoxModel", + "_view_count": null, + "_view_module": "@jupyter-widgets/controls", + "_view_module_version": "1.5.0", + "_view_name": "HBoxView", + "box_style": "", + "children": [ + 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- "text/plain": [ - "" - ] - }, - "metadata": {}, - "execution_count": 8 - } - ] - }, - { - "cell_type": "markdown", - "metadata": { - "id": "ByXlUaTfneEB" - }, - "source": [ - "# Speaker diarization with `pyannote.pipeline`\n", - "\n", - "We are about to run a full speaker diarization pipeline, that includes speaker segmentation, speaker embedding, and a final clustering step. **Brace yourself!**" - ] - }, - { - "cell_type": "code", - "metadata": { - "id": "go1wJBYJnsIx", - "outputId": "2c496b59-b574-4f30-80df-059b5ccb71f7", - "colab": { - "base_uri": "https://localhost:8080/", - "height": 273, - "referenced_widgets": [ - "5da54fdb45e1485badd323232321bc96", - "e6f461cb90cc498da90a20f2a6c610e0", - "3e8a884bd6c94a86a324cfa7b9580ea7", - "0b03a220e59848dfafb6411b24c3b37f", - "001a4d8dd8954706802b3add70f34d4b", - "b950f7fe8ea34776bde01ed2f4244f5f", - "f7b175bb312c4f43809c97f98e6e84a3", - "e0c6b8aff2ad4849b3dac392ee388112", - "8ddd76365cfd4408b8ca12309b183967", - "df8dc69ca1cf4e57bfebf4762c0460f0", - "799487c4c6de471c827f120f1c11d9e2", - "9d713ac6d10949fb8d277286d969ad3b", - "e2be4344fe8e4a36be35513041ea74a3", - "2ed58d60a46d4f8491de7ad61d7cc589", - "4ea0432a604e4ac197999debb131c557", - "21cd4080794342dbb3209df737d4f835", - "5cdd23be0a804fd192b6ccaddcb52964", - "889aca71e695487d9cd31c2dae585a64", - "b9fc636fcc6f4a2785999385cd340ab9", - "ebf9284b6e514698b8c7389c758f7520", - "5749dba1be9b4eaaad17928a90ea411c", - "f0f3451d91bf4c5a9a8e20623a7b528d", - "0f8ee54b3031408da0281f7aa98eff25", - "ff89e65846414100b84b1f9cf8b70fd9", - "a950bac54c5742e79cd2de4fda29c2e0", - "3f5459fa25654a76bfec64d1dcb542b6", - "fa10eb9e43fd43a49934cdb4301aefff", - "547cbb166dba40d1b626bd204ff3cf96", - "a2aba4e8152c4fbda91bf59a42f25604", - "69a8212dded54f79adf3f8b60b9eb000", - "25142cfd61084c128fe39adad5016109", - "7e64327fa6e948edae034c8d52bb96b4", - "32895abb57a7426aa089230aa49cfff2", - "747aa6596d1a4b04a6f77e38179776ad", - "e65942656e2347eba0a3fe3ae872159b", - 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"f89679f445424ec1ba2203fb8f7753de", - "735b5f02606d4c0288f70469a8ab2902", - "0308a7a44b8b4a9cae7bda21fbad99f5", - "967a5451e89049b4ac4688338495b50e", - "bb655ffda271431892bba5ebab9fd93b", - "f7626a7dae2a421ba31a578746be491d", - "97d03beea7cb4e479e1ee67edfa5f883", - "00751b0ca24b47c1b7d337a5b17fc6c1", - "9fc668b6710c449e898d4b8401fe974c", - "d0ea1fb45fe24bc3b549acc4e05860cd", - "c15d7b4b314b4fb1beb5e8b001114392", - "6f73694403ae46538b7280ab31657ebc", - "f33d2ce982144ced87a7a834fe83bdb8", - "7693042eb27e4994b86ed1afb293be56", - "fd6ccdba0a2746419e744035e1096bf2", - "2dc0b625a4ff4a60abc4fa3c6671c9ab", - "0552df02d084406da5b7c51e18fd2cb0", - "f61c385e5fa542a98652a434ad4cd324", - "923af70854ad4651bd2d2a8556ab59f6", - "170805a3d7ec457aaacd4d9a0acd09d0", - "14713e02e5734e46bfb9f9f815699e39", - "bea9fb28848d4c3da10df4fec3dfdb6b", - "a296598d7d3040e8b8b4dab4f7819e91", - "ab878626da504834b827f1762bcd2c20", - "f5a6de62a96340f4ab3094f08e8d54ef", - "af1e4e3e52304c51a46eab4b989a3f0b", - "b0b8bb8fe0bc47908273136304cf4870" - ] - } - }, - "source": [ - "from pyannote.audio import Pipeline\n", - "pipeline = Pipeline.from_pretrained('pyannote/speaker-diarization')\n", - "diarization = pipeline(DEMO_FILE)" - ], - "execution_count": 9, - "outputs": [ - { - "output_type": "display_data", - "data": { - "text/plain": [ - "Downloading: 0%| | 0.00/598 [00:00" - ], - "image/png": 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\n" - }, - "metadata": {}, - "execution_count": 10 - } - ] - }, - { - "cell_type": "markdown", - "metadata": { - "id": "smAd5ofBqWWB" - }, - "source": [ - "# Evaluation with `pyannote.metrics`\n", - "\n", - "Because groundtruth is available, we can evaluate the quality of the diarization pipeline by computing the [diarization error rate](http://pyannote.github.io/pyannote-metrics/reference.html#diarization)." - ] - }, - { - "cell_type": "code", - "metadata": { - "id": "z0Ore3eGpNyy" - }, - "source": [ - "from pyannote.metrics.diarization import DiarizationErrorRate\n", - "metric = DiarizationErrorRate()\n", - "der = metric(groundtruth, diarization)" - ], - "execution_count": 11, - "outputs": [] - }, - { - "cell_type": "code", - "metadata": { - "id": "e0F8IUaqYFU8", - "outputId": "4de50c4e-640a-46d2-d412-c7242cccb263", - "colab": { - "base_uri": "https://localhost:8080/" - } - }, - "source": [ - "print(f'diarization error rate = {100 * der:.1f}%')" - ], - "execution_count": 12, - "outputs": [ - { - "output_type": "stream", - "name": "stdout", - "text": [ - "diarization error rate = 18.4%\n" - ] - } - ] - }, - { - "cell_type": "markdown", - "metadata": { - "id": "2w0Xp_ElrYTa" - }, - "source": [ - "This implementation of diarization error rate is brought to you by [`pyannote.metrics`](http://pyannote.github.io/pyannote-metrics/).\n", - "\n", - "It can also be used to improve visualization by find the optimal one-to-one mapping between groundtruth and hypothesized speakers." - ] - }, - { - "cell_type": "code", - "metadata": { - "id": "WPF5JG3Ppt9K", - "outputId": "7963cc1e-b26a-4fde-cdb0-d72057975dd4", - "colab": { - "base_uri": "https://localhost:8080/", - "height": 117 - } - }, - "source": [ - "mapping = metric.optimal_mapping(groundtruth, diarization)\n", - "diarization.rename_labels(mapping=mapping)" - ], - "execution_count": 13, - "outputs": [ - { - "output_type": "execute_result", - "data": { - "text/plain": [ - "" - ], - "image/png": 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\n" - }, - "metadata": {}, - "execution_count": 13 - } - ] - }, - { - "cell_type": "code", - "metadata": { - "id": "DKk6ePLWp4eB", - "outputId": "e0a18bd2-ebbb-49b1-f2c9-73196177b799", - "colab": { - "base_uri": "https://localhost:8080/", - "height": 117 - } - }, - "source": [ - "groundtruth" - ], - "execution_count": 14, - "outputs": [ - { - "output_type": "execute_result", - "data": { - "text/plain": [ - "" - ], - "image/png": 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\n" - }, - "metadata": {}, - "execution_count": 14 + "19d13680d11f48d6938e52743c7f4275": { + "model_module": "@jupyter-widgets/controls", + "model_name": "DescriptionStyleModel", + "model_module_version": "1.5.0", + "state": { + "_model_module": "@jupyter-widgets/controls", + "_model_module_version": "1.5.0", + "_model_name": "DescriptionStyleModel", + "_view_count": null, + "_view_module": "@jupyter-widgets/base", + "_view_module_version": "1.2.0", + "_view_name": "StyleView", + "description_width": "" + } } - ] + } }, - { - "cell_type": "markdown", - "metadata": { - "id": "q4Rjo1aasVS1" - }, - "source": [ - "# Going further \n", - "\n", - "We have only scratched the surface in this introduction. \n", - "\n", - "More details can be found in the [`pyannote.audio` Github repository](https://github.com/pyannote/pyannote-audio).\n" - ] + "colab": { + "provenance": [], + "include_colab_link": true }, - { - "cell_type": "code", - "source": [ - "" - ], - "metadata": { - "id": "wFK33Y6Dfkw3" - }, - "execution_count": null, - "outputs": [] - } - ] + "accelerator": "GPU" + }, + "nbformat": 4, + "nbformat_minor": 0 } \ No newline at end of file diff --git a/tutorials/training_a_model.ipynb b/tutorials/training_a_model.ipynb index 871ab1d1c..167a48c9a 100644 --- a/tutorials/training_a_model.ipynb +++ b/tutorials/training_a_model.ipynb @@ -2,7 +2,7 @@ "cells": [ { "cell_type": "code", - "execution_count": 17, + "execution_count": null, "metadata": {}, "outputs": [], "source": [ @@ -35,7 +35,7 @@ }, { "cell_type": "code", - "execution_count": 3, + "execution_count": null, "metadata": {}, "outputs": [], "source": [ @@ -64,7 +64,7 @@ }, { "cell_type": "code", - "execution_count": 5, + "execution_count": null, "metadata": {}, "outputs": [], "source": [ @@ -84,7 +84,7 @@ }, { "cell_type": "code", - "execution_count": 6, + "execution_count": null, "metadata": {}, "outputs": [], "source": [ @@ -101,7 +101,7 @@ }, { "cell_type": "code", - "execution_count": 7, + "execution_count": null, "metadata": {}, "outputs": [ { @@ -202,7 +202,7 @@ }, { "cell_type": "code", - "execution_count": 8, + "execution_count": null, "metadata": {}, "outputs": [], "source": [ @@ -220,17 +220,17 @@ }, { "cell_type": "code", - "execution_count": 18, + "execution_count": null, "metadata": {}, "outputs": [ { "data": { "image/png": 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", "text/plain": [ - "" + "" ] }, - "execution_count": 18, + "execution_count": null, "metadata": {}, "output_type": "execute_result" } @@ -252,7 +252,7 @@ }, { "cell_type": "code", - "execution_count": 19, + "execution_count": null, "metadata": {}, "outputs": [ { @@ -262,7 +262,7 @@ ", , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , ])>" ] }, - "execution_count": 19, + "execution_count": null, "metadata": {}, "output_type": "execute_result" } @@ -280,17 +280,32 @@ "\n", "Speaker diarization is the task of partitioning a given audio stream of recording into according to the speaker identity.\n", "\n", - "[`pyannote/segmentation`](https://hf.co/pyannote/segmentation) is a model that was pretrained to perform speaker diarization, but only locally, on 5s-long audio chunks. " + "[`pyannote/segmentation`](https://hf.co/pyannote/segmentation) is a model that was pretrained to perform speaker diarization, but only locally, on 5s-long audio chunks. \n", + "\n", + "To load the speaker segmentation model, \n", + "\n", + "* accept the user conditions on [hf.co/pyannote/segmentation](https://hf.co/pyannote/segmentation).\n", + "* login using `notebook_login` below" ] }, { "cell_type": "code", - "execution_count": 20, + "execution_count": null, + "metadata": {}, + "outputs": [], + "source": [ + "from huggingface_hub import notebook_login\n", + "notebook_login()" + ] + }, + { + "cell_type": "code", + "execution_count": null, "metadata": {}, "outputs": [], "source": [ "from pyannote.audio import Model\n", - "pretrained = Model.from_pretrained(\"pyannote/segmentation\")" + "pretrained = Model.from_pretrained(\"pyannote/segmentation\", use_auth_token=True)" ] }, { @@ -302,17 +317,17 @@ }, { "cell_type": "code", - "execution_count": 23, + "execution_count": null, "metadata": {}, "outputs": [ { "data": { "image/png": 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", "text/plain": [ - "" + "" ] }, - "execution_count": 23, + "execution_count": null, "metadata": {}, "output_type": "execute_result" } @@ -331,17 +346,17 @@ }, { "cell_type": "code", - "execution_count": 22, + "execution_count": null, "metadata": {}, "outputs": [ { "data": { "image/png": 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", "text/plain": [ - "" + "" ] }, - "execution_count": 22, + "execution_count": null, "metadata": {}, "output_type": "execute_result" } @@ -359,7 +374,7 @@ }, { "cell_type": "code", - "execution_count": 24, + "execution_count": null, "metadata": {}, "outputs": [], "source": [ @@ -376,7 +391,7 @@ }, { "cell_type": "code", - "execution_count": 15, + "execution_count": null, "metadata": {}, "outputs": [], "source": [ @@ -409,7 +424,7 @@ }, { "cell_type": "code", - "execution_count": 16, + "execution_count": null, "metadata": {}, "outputs": [ { @@ -434,7 +449,7 @@ }, { "cell_type": "code", - "execution_count": 29, + "execution_count": null, "metadata": {}, "outputs": [], "source": [ @@ -452,7 +467,7 @@ }, { "cell_type": "code", - "execution_count": 30, + "execution_count": null, "metadata": {}, "outputs": [ { @@ -543,7 +558,7 @@ }, { "cell_type": "code", - "execution_count": 19, + "execution_count": null, "metadata": {}, "outputs": [ { @@ -575,38 +590,39 @@ }, { "cell_type": "code", - "execution_count": 37, + "execution_count": null, "metadata": {}, "outputs": [ { "data": { "image/png": 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", "text/plain": [ - "" + "" ] }, - "execution_count": 37, + "execution_count": null, "metadata": {}, "output_type": "execute_result" } ], "source": [ - "Inference('pyannote/segmentation', step=2.5)(test_file)" + "\n", + "Inference('pyannote/segmentation', use_auth_token=True, step=2.5)(test_file)" ] }, { "cell_type": "code", - "execution_count": 38, + "execution_count": null, "metadata": {}, "outputs": [ { "data": { "image/png": "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", "text/plain": [ - "" + "" ] }, - "execution_count": 38, + "execution_count": null, "metadata": {}, "output_type": "execute_result" } @@ -625,14 +641,14 @@ }, { "cell_type": "code", - "execution_count": 39, + "execution_count": null, "metadata": {}, "outputs": [], "source": [ "from pyannote.audio.tasks import OverlappedSpeechDetection\n", "osd_task = OverlappedSpeechDetection(ami, duration=2.0)\n", "\n", - "osd_model = Model.from_pretrained(\"pyannote/segmentation\")\n", + "osd_model = Model.from_pretrained(\"pyannote/segmentation\", use_auth_token=True)\n", "osd_model.task = osd_task" ] }, @@ -645,7 +661,7 @@ }, { "cell_type": "code", - "execution_count": 40, + "execution_count": null, "metadata": {}, "outputs": [ { @@ -669,7 +685,7 @@ " 'lstm']" ] }, - "execution_count": 40, + "execution_count": null, "metadata": {}, "output_type": "execute_result" } @@ -687,7 +703,7 @@ }, { "cell_type": "code", - "execution_count": 41, + "execution_count": null, "metadata": {}, "outputs": [ { @@ -778,17 +794,17 @@ }, { "cell_type": "code", - "execution_count": 46, + "execution_count": null, "metadata": {}, "outputs": [ { "data": { "image/png": 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"text/plain": [ - "" + "" ] }, - "execution_count": 46, + "execution_count": null, "metadata": {}, "output_type": "execute_result" } @@ -800,17 +816,17 @@ }, { "cell_type": "code", - "execution_count": 44, + "execution_count": null, "metadata": {}, "outputs": [ { "data": { "image/png": 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"text/plain": [ - "" + "" ] }, - "execution_count": 44, + "execution_count": null, "metadata": {}, "output_type": "execute_result" } @@ -860,21 +876,9 @@ ], "metadata": { "kernelspec": { - "display_name": "Python 3", + "display_name": "Python 3 (ipykernel)", "language": "python", "name": "python3" - }, - "language_info": { - "codemirror_mode": { - "name": "ipython", - "version": 3 - }, - "file_extension": ".py", - "mimetype": "text/x-python", - "name": "python", - "nbconvert_exporter": "python", - "pygments_lexer": "ipython3", - "version": "3.8.0" } }, "nbformat": 4, From cca33169bb646332d274d81b8469832c81b7cd08 Mon Sep 17 00:00:00 2001 From: =?UTF-8?q?Herv=C3=A9=20BREDIN?= Date: Thu, 27 Oct 2022 21:52:19 +0200 Subject: [PATCH 005/112] doc: update changelog --- CHANGELOG.md | 75 ++++++++++++++++++++++++++++++++++++++++ README.md | 1 + doc/source/changelog.rst | 15 +++++++- 3 files changed, 90 insertions(+), 1 deletion(-) create mode 100644 CHANGELOG.md diff --git a/CHANGELOG.md b/CHANGELOG.md new file mode 100644 index 000000000..eaba738a5 --- /dev/null +++ b/CHANGELOG.md @@ -0,0 +1,75 @@ +# Changelog + +## Version 2.1 (2022-11-xx) + + - BREAKING(pipeline): rewrite speaker diarization pipeline + - feat(pipeline): add option to optimize for DER variant + - feat(clustering): add support for NeMo speaker embedding + - feat(clustering): add FINCH clustering + - feat(clustering): add min_cluster_size hparams to AgglomerativeClustering + - feat(hub): add support for private/gated models + - setup(hub): switch to latest hugginface_hub API + - fix(pipeline): fix support for missing reference in Resegmentation pipeline + - fix(clustering) fix corner case where HMM.fit finds too little states + +## Version 2.0.1 (2022-07-20) + + - BREAKING: complete rewrite + - feat: much better performance + - feat: Python-first API + - feat: pretrained pipelines (and models) on Huggingface model hub + - feat: multi-GPU training with pytorch-lightning + - feat: data augmentation with torch-audiomentations + - feat: Prodigy recipe for model-assisted audio annotation + +## Version 1.1.2 (2021-01-28) + + - fix: make sure master branch is used to load pretrained models (#599) + +## Version 1.1 (2020-11-08) + + - last release before complete rewriting + +## Version 1.0.1 (2018--07-19) + + - fix: fix regression in Precomputed.__call__ (#110, #105) + +## Version 1.0 (2018-07-03) + + - chore: switch from keras to pytorch (with tensorboard support) + - improve: faster & better traning (`AutoLR`, advanced learning rate schedulers, improved batch generators) + - feat: add tunable speaker diarization pipeline (with its own tutorial) + - chore: drop support for Python 2 (use Python 3.6 or later) + +## Version 0.3.1 (2017-07-06) + + - feat: add python 3 support + - chore: rewrite neural speaker embedding using autograd + - feat: add new embedding architectures + - feat: add new embedding losses + - chore: switch to Keras 2 + - doc: add tutorial for (MFCC) feature extraction + - doc: add tutorial for (LSTM-based) speech activity detection + - doc: add tutorial for (LSTM-based) speaker change detection + - doc: add tutorial for (TristouNet) neural speaker embedding + +## Version 0.2.1 (2017-03-28) + + - feat: add LSTM-based speech activity detection + - feat: add LSTM-based speaker change detection + - improve: refactor LSTM-based speaker embedding + - feat: add librosa basic support + - feat: add SMORMS3 optimizer + +## Version 0.1.4 (2016-09-26) + + - feat: add 'covariance_type' option to BIC segmentation + +## Version 0.1.3 (2016-09-23) + + - chore: rename sequence generator in preparation of the release of + TristouNet reproducible research package. + +## Version 0.1.2 (2016-09-22) + + - first public version diff --git a/README.md b/README.md index 035a03e93..8608d53e3 100644 --- a/README.md +++ b/README.md @@ -59,6 +59,7 @@ pip install pyannote.audio ## Documentation +- [Changelog](CHANGELOG.md) - Models - Available tasks explained - [Applying a pretrained model](tutorials/applying_a_model.ipynb) diff --git a/doc/source/changelog.rst b/doc/source/changelog.rst index be69c3f54..c6a3ff50e 100644 --- a/doc/source/changelog.rst +++ b/doc/source/changelog.rst @@ -2,9 +2,22 @@ Changelog ######### -Version 2.0.1 (2022-07-20) +Version 2.1 (2022-11-xx) ~~~~~~~~~~~~~~~~~~~~~~~~ + - BREAKING(pipeline): rewrite speaker diarization pipeline + - feat(pipeline): add option to optimize for DER variant + - feat(clustering): add support for NeMo speaker embedding + - feat(clustering): add FINCH clustering + - feat(clustering): add min_cluster_size hparams to AgglomerativeClustering + - feat(hub): add support for private/gated models + - setup(hub): switch to latest hugginface_hub API + - fix(pipeline): fix support for missing reference in Resegmentation pipeline + - fix(clustering) fix corner case where HMM.fit finds too little states + +Version 2.0.1 (2022-07-20) +~~~~~~~~~~~~~~~~~~~~~~~~~~ + - BREAKING: complete rewrite - feat: much better performance - feat: Python-first API From b7343ccc0428fb63e71adee108c99996811f23a0 Mon Sep 17 00:00:00 2001 From: =?UTF-8?q?Herv=C3=A9=20BREDIN?= Date: Thu, 27 Oct 2022 21:52:32 +0200 Subject: [PATCH 006/112] doc: update README --- README.md | 35 +++++++++++++++++++++-------------- 1 file changed, 21 insertions(+), 14 deletions(-) diff --git a/README.md b/README.md index 8608d53e3..15f2a9fe6 100644 --- a/README.md +++ b/README.md @@ -24,13 +24,13 @@ diarization = pipeline("audio.wav") # 5. print the result for turn, _, speaker in diarization.itertracks(yield_label=True): print(f"start={turn.start:.1f}s stop={turn.end:.1f}s speaker_{speaker}") -# start=0.2s stop=1.5s speaker_A -# start=1.8s stop=3.9s speaker_B -# start=4.2s stop=5.7s speaker_A +# start=0.2s stop=1.5s speaker_0 +# start=1.8s stop=3.9s speaker_1 +# start=4.2s stop=5.7s speaker_0 # ... ``` -## What's new in `pyannote.audio` 2.0 +## What's new in `pyannote.audio` 2.x? For version 2.x of `pyannote.audio`, [I](https://herve.niderb.fr) decided to rewrite almost everything from scratch. Highlights of this release are: @@ -54,7 +54,7 @@ conda activate pyannote # (see https://pytorch.org/get-started/previous-versions/#v1110) conda install pytorch==1.11.0 torchvision==0.12.0 torchaudio==0.11.0 -c pytorch -pip install pyannote.audio +pip install -qq https://github.com/pyannote/pyannote-audio/archive/develop.zip ``` ## Documentation @@ -73,6 +73,9 @@ pip install pyannote.audio - [Adding a new task](tutorials/add_your_own_task.ipynb) - Adding a new pipeline - Sharing pretrained models and pipelines +- Blog + - 2022-10-23 > ["One speaker segmentation model to rule them all"](https://herve.niderb.fr/fastpages/2022/10/23/One-speaker-segmentation-model-to-rule-them-all) + - 2021-08-05 > ["Streaming voice activity detection with pyannote.audio"](https://herve.niderb.fr/fastpages/2021/08/05/Streaming-voice-activity-detection-with-pyannote.html) - Miscellaneous - [Training with `pyannote-audio-train` command line tool](tutorials/training_with_cli.md) - [Annotating your own data with Prodigy](tutorials/prodigy.md) @@ -98,15 +101,19 @@ pip install pyannote.audio ## Benchmark -Out of the box, `pyannote.audio` default speaker diarization pipeline is expected to be much better (and faster) in v2.0 than in v1.1.: - -| Dataset | DER% with v1.1 | DER% with v2.0 | Relative improvement | -| ----------- | -------------- | -------------- | -------------------- | -| AMI | 29.7% | 18.2% | 38% | -| DIHARD | 29.2% | 21.0% | 28% | -| VoxConverse | 21.5% | 12.6% | 41% | - -A more detailed benchmark is available [here](https://hf.co/pyannote/speaker-diarization). +Out of the box, `pyannote.audio` default speaker diarization [pipeline](https://hf.co/pyannote/speaker-diarization) is expected to be much better (and faster) in v2.x than in v1.1. Those numbers are diarization error rates (in %) + +| Dataset \ Version | v1.1 | v2.0 | v2.1 (finetuned) | +| ---------------------- | ---- | ---- | ---------------- | +| AISHELL-4 | - | 14.6 | 14.1 (14.5) | +| AliMeeting (channel 1) | - | - | 27.4 (23.8) | +| AMI (IHM) | 29.7 | 18.2 | 18.9 (18.5) | +| AMI (SDM) | - | 29.0 | 27.1 (22.2) | +| CALLHOME (part2) | - | 30.2 | 32.4 (29.3) | +| DIHARD 3 (full) | 29.2 | 21.0 | 26.9 (21.9) | +| VoxConverse (v0.3) | 21.5 | 12.6 | 11.2 (10.7) | +| REPERE (phase2) | - | 12.6 | 8.2 ( 8.3) | +| This American Life | - | - | 20.8 (15.2) | ## Citations From fc559465dd5e6f6bcd1f565a0bda60c38b17acc3 Mon Sep 17 00:00:00 2001 From: =?UTF-8?q?Herv=C3=A9=20BREDIN?= Date: Thu, 27 Oct 2022 21:52:44 +0200 Subject: [PATCH 007/112] setup: bump version --- version.txt | 2 +- 1 file changed, 1 insertion(+), 1 deletion(-) diff --git a/version.txt b/version.txt index 38f77a65b..7ec1d6db4 100644 --- a/version.txt +++ b/version.txt @@ -1 +1 @@ -2.0.1 +2.1.0 From 6d9d98c0035a825384b0e4ae3760e786850bc523 Mon Sep 17 00:00:00 2001 From: =?UTF-8?q?Herv=C3=A9=20BREDIN?= Date: Thu, 27 Oct 2022 21:53:26 +0200 Subject: [PATCH 008/112] setup: fix version number --- version.txt | 2 +- 1 file changed, 1 insertion(+), 1 deletion(-) diff --git a/version.txt b/version.txt index 7ec1d6db4..879b416e6 100644 --- a/version.txt +++ b/version.txt @@ -1 +1 @@ -2.1.0 +2.1 From 82a07add2ea220a6f00636b06626a74b9324c2d0 Mon Sep 17 00:00:00 2001 From: =?UTF-8?q?Herv=C3=A9=20BREDIN?= Date: Thu, 27 Oct 2022 22:01:38 +0200 Subject: [PATCH 009/112] git: update version number --- CHANGELOG.md | 2 +- README.md | 22 +++++++++++----------- version.txt | 2 +- 3 files changed, 13 insertions(+), 13 deletions(-) diff --git a/CHANGELOG.md b/CHANGELOG.md index eaba738a5..0169d74c8 100644 --- a/CHANGELOG.md +++ b/CHANGELOG.md @@ -1,6 +1,6 @@ # Changelog -## Version 2.1 (2022-11-xx) +## Version 2.1.1 (2022-10-27) - BREAKING(pipeline): rewrite speaker diarization pipeline - feat(pipeline): add option to optimize for DER variant diff --git a/README.md b/README.md index 15f2a9fe6..388dfb4b5 100644 --- a/README.md +++ b/README.md @@ -103,17 +103,17 @@ pip install -qq https://github.com/pyannote/pyannote-audio/archive/develop.zip Out of the box, `pyannote.audio` default speaker diarization [pipeline](https://hf.co/pyannote/speaker-diarization) is expected to be much better (and faster) in v2.x than in v1.1. Those numbers are diarization error rates (in %) -| Dataset \ Version | v1.1 | v2.0 | v2.1 (finetuned) | -| ---------------------- | ---- | ---- | ---------------- | -| AISHELL-4 | - | 14.6 | 14.1 (14.5) | -| AliMeeting (channel 1) | - | - | 27.4 (23.8) | -| AMI (IHM) | 29.7 | 18.2 | 18.9 (18.5) | -| AMI (SDM) | - | 29.0 | 27.1 (22.2) | -| CALLHOME (part2) | - | 30.2 | 32.4 (29.3) | -| DIHARD 3 (full) | 29.2 | 21.0 | 26.9 (21.9) | -| VoxConverse (v0.3) | 21.5 | 12.6 | 11.2 (10.7) | -| REPERE (phase2) | - | 12.6 | 8.2 ( 8.3) | -| This American Life | - | - | 20.8 (15.2) | +| Dataset \ Version | v1.1 | v2.0 | v2.1.1 (finetuned) | +| ---------------------- | ---- | ---- | ------------------ | +| AISHELL-4 | - | 14.6 | 14.1 (14.5) | +| AliMeeting (channel 1) | - | - | 27.4 (23.8) | +| AMI (IHM) | 29.7 | 18.2 | 18.9 (18.5) | +| AMI (SDM) | - | 29.0 | 27.1 (22.2) | +| CALLHOME (part2) | - | 30.2 | 32.4 (29.3) | +| DIHARD 3 (full) | 29.2 | 21.0 | 26.9 (21.9) | +| VoxConverse (v0.3) | 21.5 | 12.6 | 11.2 (10.7) | +| REPERE (phase2) | - | 12.6 | 8.2 ( 8.3) | +| This American Life | - | - | 20.8 (15.2) | ## Citations diff --git a/version.txt b/version.txt index 879b416e6..3e3c2f1e5 100644 --- a/version.txt +++ b/version.txt @@ -1 +1 @@ -2.1 +2.1.1 From d992509ff82e01ae1fcc311c0ec3b3ecb8893b3c Mon Sep 17 00:00:00 2001 From: =?UTF-8?q?Herv=C3=A9=20BREDIN?= Date: Thu, 27 Oct 2022 22:04:37 +0200 Subject: [PATCH 010/112] Update README.md --- README.md | 2 +- 1 file changed, 1 insertion(+), 1 deletion(-) diff --git a/README.md b/README.md index 388dfb4b5..1f1340cdd 100644 --- a/README.md +++ b/README.md @@ -54,7 +54,7 @@ conda activate pyannote # (see https://pytorch.org/get-started/previous-versions/#v1110) conda install pytorch==1.11.0 torchvision==0.12.0 torchaudio==0.11.0 -c pytorch -pip install -qq https://github.com/pyannote/pyannote-audio/archive/develop.zip +pip install pyannote.audio ``` ## Documentation From 378f7fbe36cd7de46eab991da9c60370addc842b Mon Sep 17 00:00:00 2001 From: =?UTF-8?q?Herv=C3=A9=20BREDIN?= Date: Thu, 27 Oct 2022 22:29:57 +0200 Subject: [PATCH 011/112] =?UTF-8?q?Cr=C3=A9=C3=A9=20avec=20Colaboratory?= MIME-Version: 1.0 Content-Type: text/plain; charset=UTF-8 Content-Transfer-Encoding: 8bit --- tutorials/intro.ipynb | 778 +++++++++++++++++++++--------------------- 1 file changed, 396 insertions(+), 382 deletions(-) diff --git a/tutorials/intro.ipynb b/tutorials/intro.ipynb index 26bba3afb..3f9489aae 100644 --- a/tutorials/intro.ipynb +++ b/tutorials/intro.ipynb @@ -7,7 +7,7 @@ "colab_type": "text" }, "source": [ - "\"Open" + "\"Open" ] }, { @@ -47,10 +47,10 @@ }, { "cell_type": "code", - "execution_count": 5, + "execution_count": 1, "metadata": { "id": "ai082p4HYnp7", - "outputId": "42816e76-2ab7-4283-82e2-2a60ae199af5", + "outputId": "bb673846-8b58-4743-cea2-6c6270632d7f", "colab": { "base_uri": "https://localhost:8080/" } @@ -60,31 +60,45 @@ "output_type": "stream", "name": "stdout", "text": [ - "\u001b[K / 15.0 MB 349 kB/s\n", - "\u001b[K |████████████████████████████████| 217 kB 25.8 MB/s \n", - "\u001b[K |████████████████████████████████| 79 kB 8.4 MB/s \n", - "\u001b[K |████████████████████████████████| 60 kB 6.9 MB/s \n", - "\u001b[K |████████████████████████████████| 41 kB 461 kB/s \n", - "\u001b[K |████████████████████████████████| 51 kB 165 kB/s \n", - "\u001b[K |████████████████████████████████| 585 kB 43.1 MB/s \n", - "\u001b[K |████████████████████████████████| 111 kB 63.2 MB/s \n", - "\u001b[K |████████████████████████████████| 47 kB 5.4 MB/s \n", - "\u001b[K |████████████████████████████████| 529 kB 64.4 MB/s \n", - "\u001b[K |████████████████████████████████| 117 kB 71.1 MB/s \n", - "\u001b[K |████████████████████████████████| 130 kB 67.2 MB/s \n", - "\u001b[K |████████████████████████████████| 348 kB 63.5 MB/s \n", - "\u001b[K |████████████████████████████████| 209 kB 70.7 MB/s \n", - "\u001b[K |████████████████████████████████| 81 kB 11.5 MB/s \n", + "\u001b[K |████████████████████████████████| 750.6 MB 10 kB/s \n", + "\u001b[K |████████████████████████████████| 21.0 MB 1.3 MB/s \n", + "\u001b[K |████████████████████████████████| 2.9 MB 55.5 MB/s \n", + "\u001b[K |████████████████████████████████| 10.4 MB 46.0 MB/s \n", + "\u001b[K |████████████████████████████████| 496 kB 25.8 MB/s \n", + "\u001b[K |████████████████████████████████| 1.3 MB 60.6 MB/s \n", + "\u001b[K |████████████████████████████████| 163 kB 70.7 MB/s \n", + "\u001b[K |████████████████████████████████| 109 kB 74.9 MB/s \n", + "\u001b[K |████████████████████████████████| 500 kB 62.8 MB/s \n", + "\u001b[?25h Building wheel for hyperpyyaml (setup.py) ... \u001b[?25l\u001b[?25hdone\n", + "\u001b[K |████████████████████████████████| 390 kB 37.8 MB/s \n", + "\u001b[K |████████████████████████████████| 217 kB 67.2 MB/s \n", + "\u001b[K |████████████████████████████████| 111 kB 75.6 MB/s \n", + "\u001b[K |████████████████████████████████| 529 kB 61.5 MB/s \n", + "\u001b[K |████████████████████████████████| 41 kB 494 kB/s \n", + "\u001b[K |████████████████████████████████| 47 kB 5.5 MB/s \n", + "\u001b[K |████████████████████████████████| 585 kB 62.0 MB/s \n", + "\u001b[K |████████████████████████████████| 60 kB 8.4 MB/s \n", + "\u001b[K |████████████████████████████████| 51 kB 186 kB/s \n", + "\u001b[K |████████████████████████████████| 79 kB 9.3 MB/s \n", + "\u001b[K |████████████████████████████████| 117 kB 78.4 MB/s \n", + "\u001b[K |████████████████████████████████| 130 kB 73.0 MB/s \n", + "\u001b[K |████████████████████████████████| 348 kB 67.7 MB/s \n", + "\u001b[K |████████████████████████████████| 81 kB 10.6 MB/s \n", + "\u001b[K |████████████████████████████████| 209 kB 76.6 MB/s \n", "\u001b[K |████████████████████████████████| 78 kB 8.1 MB/s \n", "\u001b[K |████████████████████████████████| 59 kB 6.9 MB/s \n", - "\u001b[K |████████████████████████████████| 147 kB 60.6 MB/s \n", - "\u001b[K |████████████████████████████████| 112 kB 53.7 MB/s \n", - "\u001b[K |████████████████████████████████| 50 kB 6.0 MB/s \n", - "\u001b[?25h Building wheel for pyannote.audio (setup.py) ... \u001b[?25l\u001b[?25hdone\n", - " Building wheel for antlr4-python3-runtime (setup.py) ... \u001b[?25l\u001b[?25hdone\n", + "\u001b[K |████████████████████████████████| 112 kB 71.5 MB/s \n", + "\u001b[K |████████████████████████████████| 50 kB 7.0 MB/s \n", + "\u001b[K |████████████████████████████████| 147 kB 60.0 MB/s \n", + "\u001b[?25h Building wheel for antlr4-python3-runtime (setup.py) ... \u001b[?25l\u001b[?25hdone\n", " Building wheel for docopt (setup.py) ... \u001b[?25l\u001b[?25hdone\n", " Building wheel for julius (setup.py) ... \u001b[?25l\u001b[?25hdone\n", - " Building wheel for pyperclip (setup.py) ... \u001b[?25l\u001b[?25hdone\n" + " Building wheel for pyperclip (setup.py) ... \u001b[?25l\u001b[?25hdone\n", + "\u001b[K |████████████████████████████████| 793 kB 34.5 MB/s \n", + "\u001b[K |████████████████████████████████| 1.6 MB 56.2 MB/s \n", + "\u001b[31mERROR: pip's dependency resolver does not currently take into account all the packages that are installed. This behaviour is the source of the following dependency conflicts.\n", + "google-colab 1.0.0 requires ipython~=7.9.0, but you have ipython 7.34.0 which is incompatible.\u001b[0m\n", + "\u001b[?25h" ] } ], @@ -97,7 +111,7 @@ "!pip install -qq pyannote.audio\n", "\n", "# for visualization purposes\n", - "!pip install -qq moviepy ipython==7.34.0" + "!pip install -qq ipython==7.34.0" ] }, { @@ -113,7 +127,7 @@ }, { "cell_type": "code", - "execution_count": 6, + "execution_count": 1, "metadata": { "id": "uJWoQiJgYnp8" }, @@ -135,7 +149,7 @@ }, { "cell_type": "code", - "execution_count": 7, + "execution_count": 2, "metadata": { "id": "Mmm0Q22JYnp8" }, @@ -146,13 +160,13 @@ }, { "cell_type": "code", - "execution_count": 8, + "execution_count": 3, "metadata": { "id": "ToqCwl_FYnp9", - "outputId": "f1487da9-785d-4967-dad1-a2a7f5ef5e9f", + "outputId": "a1d9631f-b198-44d1-ff6d-ec304125a9f4", "colab": { "base_uri": "https://localhost:8080/", - "height": 189 + "height": 233 } }, "outputs": [ @@ -160,12 +174,12 @@ "output_type": "execute_result", "data": { "text/plain": [ - "" + "" ], - "image/png": 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}, "metadata": {}, - "execution_count": 8 + "execution_count": 3 } ], "source": [ @@ -188,13 +202,13 @@ }, { "cell_type": "code", - "execution_count": 9, + "execution_count": 4, "metadata": { "id": "bAHza4Y1Ynp-", - "outputId": "a24b6611-6fb4-43f9-e5c8-02e00a6479f1", + "outputId": "c4cc2369-bfe4-4ac2-bb71-37602e7c7a8a", "colab": { "base_uri": "https://localhost:8080/", - "height": 189 + "height": 230 } }, "outputs": [ @@ -202,12 +216,12 @@ "output_type": "execute_result", "data": { "text/plain": [ - "" + "" ], - "image/png": 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}, "metadata": {}, - "execution_count": 9 + "execution_count": 4 } ], "source": [ @@ -231,10 +245,10 @@ }, { "cell_type": "code", - "execution_count": 10, + "execution_count": 5, "metadata": { "id": "rDhZ3bXEYnp-", - "outputId": "e94fac2e-5370-419e-9f76-a85cda9702ae", + "outputId": "a82efe4e-2f9c-48bd-94fb-c62af3a3cb43", "colab": { "base_uri": "https://localhost:8080/", "height": 62 @@ -257,7 +271,7 @@ ] }, "metadata": {}, - "execution_count": 10 + "execution_count": 5 } ], "source": [ @@ -453,28 +467,28 @@ }, { "cell_type": "code", - "execution_count": 11, + "execution_count": 6, "metadata": { "id": "r5u7VMb-YnqB", - "outputId": "433b4f1b-c6fb-4047-be4f-fbfde0d7aa68", + "outputId": "c714a997-d4f8-417a-e5ad-0a4924333859", "colab": { "base_uri": "https://localhost:8080/", - "height": 300, + "height": 301, "referenced_widgets": [ - "a7fd4da8fca94798b977d92ae4f3f2bf", - "cc5fdc26256248cf8dac00fbc314a3c7", - "a134ee5d26c54b04b7a34b5e7671e2cf", - "58e364b0131449659804831baa1fb421", - 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"c53a1cf68fcd4388abf1f0379891089a" ] } }, @@ -604,7 +618,7 @@ "application/vnd.jupyter.widget-view+json": { "version_major": 2, "version_minor": 0, - "model_id": "bbbeab96755c4dbea662d7b821c7188f" + "model_id": "183c55d5d3ce4058ae338c81344547c5" } }, "metadata": {} @@ -618,7 +632,7 @@ "application/vnd.jupyter.widget-view+json": { "version_major": 2, "version_minor": 0, - "model_id": "f4ab2f4beedc469a82dc687330003453" + "model_id": "d12f07e25bf5422facc38c3463700994" } }, "metadata": {} @@ -632,7 +646,7 @@ "application/vnd.jupyter.widget-view+json": { "version_major": 2, "version_minor": 0, - "model_id": "b2a14badcc0548f0a056605f456c14ab" + "model_id": "c3358d32ac814ea6bc5714402c5bc62d" } }, "metadata": {} @@ -646,7 +660,7 @@ "application/vnd.jupyter.widget-view+json": { "version_major": 2, "version_minor": 0, - "model_id": "56b7159b3a4c49e69c5130ad14860bd5" + "model_id": "404f7ce06a01470fbb0b747981d00e84" } }, "metadata": {} @@ -660,7 +674,7 @@ "application/vnd.jupyter.widget-view+json": { "version_major": 2, "version_minor": 0, - "model_id": "78d4e56cedd24c158e32f8c4ca061e75" + "model_id": "8011d68253ac4080a637659ef3383dc4" } }, "metadata": {} @@ -674,7 +688,7 @@ "application/vnd.jupyter.widget-view+json": { "version_major": 2, "version_minor": 0, - "model_id": "3f152784ff7947668e1eb4d890c31043" + "model_id": "28004251b0e44a6c9dfa7ce1b30dcb18" } }, "metadata": {} @@ -688,7 +702,7 @@ "application/vnd.jupyter.widget-view+json": { "version_major": 2, "version_minor": 0, - "model_id": "275133746d524f099c8ec736f157a1bd" + "model_id": "d182e37b4a404158bee8446fc2728bd9" } }, "metadata": {} @@ -702,7 +716,7 @@ "application/vnd.jupyter.widget-view+json": { "version_major": 2, "version_minor": 0, - "model_id": "a88fb04c89834c48b922f6ff14632c87" + "model_id": "41eb32a6fef141ff9cc3ce6e4d771822" } }, "metadata": {} @@ -725,13 +739,13 @@ }, { "cell_type": "code", - "execution_count": 13, + "execution_count": 8, "metadata": { "id": "DPosdyGrYnqB", - "outputId": "d0f7cd67-edab-4748-dfb4-24a12eaa7f89", + "outputId": "45a2315e-6841-4de4-e54e-1f3da7cf2d46", "colab": { "base_uri": "https://localhost:8080/", - "height": 190 + "height": 230 } }, "outputs": [ @@ -739,12 +753,12 @@ "output_type": "execute_result", "data": { "text/plain": [ - "" + "" ], - "image/png": 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}, "metadata": {}, - "execution_count": 13 + "execution_count": 8 } ], "source": [ @@ -764,7 +778,7 @@ }, { "cell_type": "code", - "execution_count": 14, + "execution_count": 9, "metadata": { "id": "vNHQRTUIYnqB" }, @@ -777,10 +791,10 @@ }, { "cell_type": "code", - "execution_count": 15, + "execution_count": 10, "metadata": { "id": "9d0vKQ0fYnqB", - "outputId": "74dc4b06-5d8d-4ffb-b764-c30fdb0dbb0a", + "outputId": "9a664753-cd84-4211-9153-d33e929bb252", "colab": { "base_uri": "https://localhost:8080/" } @@ -790,7 +804,7 @@ "output_type": "stream", "name": "stdout", "text": [ - "diarization error rate = 40.2%\n" + "diarization error rate = 19.2%\n" ] } ], @@ -811,13 +825,13 @@ }, { "cell_type": "code", - "execution_count": 16, + "execution_count": 11, "metadata": { "id": "xMLf4mrYYnqB", - "outputId": "eecd6b38-4fb2-400a-d495-9ef739480e22", + "outputId": "ed08bcc8-24c6-439c-a244-3a673ff480b0", "colab": { "base_uri": "https://localhost:8080/", - "height": 189 + "height": 230 } }, "outputs": [ @@ -825,12 +839,12 @@ "output_type": "execute_result", "data": { "text/plain": [ - "" + "" ], - "image/png": 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}, "metadata": {}, - "execution_count": 16 + "execution_count": 11 } ], "source": [ @@ -840,13 +854,13 @@ }, { "cell_type": "code", - "execution_count": 17, + "execution_count": 12, "metadata": { "id": "Z0ewsLlQYnqB", - "outputId": "71dd0295-80b7-4909-d616-4dffcf81b40b", + "outputId": "8a8cd040-ee1d-48f7-d4be-eef9e08e9e55", "colab": { "base_uri": "https://localhost:8080/", - "height": 189 + "height": 230 } }, "outputs": [ @@ -854,12 +868,12 @@ "output_type": "execute_result", "data": { "text/plain": [ - "" + "" ], - "image/png": 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}, "metadata": {}, - "execution_count": 17 + "execution_count": 12 } ], "source": [ @@ -888,7 +902,7 @@ }, "widgets": { "application/vnd.jupyter.widget-state+json": { - "a7fd4da8fca94798b977d92ae4f3f2bf": { + "c8731777ce834e58a76a295076200cfc": { "model_module": "@jupyter-widgets/controls", "model_name": "VBoxModel", "model_module_version": "1.5.0", @@ -903,15 +917,15 @@ "_view_name": "VBoxView", "box_style": "", "children": [ - "IPY_MODEL_cc5fdc26256248cf8dac00fbc314a3c7", - "IPY_MODEL_a134ee5d26c54b04b7a34b5e7671e2cf", - "IPY_MODEL_58e364b0131449659804831baa1fb421", - "IPY_MODEL_7f150092f0984d65882e57c373cce7c4" + "IPY_MODEL_859b12a6d95b4c6f987791ca848122b9", + "IPY_MODEL_94756148d2e94a93ae233baba20af683", + "IPY_MODEL_ba18cded436e486da34882d821d8f1eb", + "IPY_MODEL_99898e6ee64a46bd832af112e79b58b7" ], - "layout": "IPY_MODEL_7ee601dd1b8c4a9b9df7c0a0dce0ff3b" + "layout": "IPY_MODEL_79184c8c2a6f4b7493bb7f6983f18a09" } }, - "cc5fdc26256248cf8dac00fbc314a3c7": { + "859b12a6d95b4c6f987791ca848122b9": { "model_module": "@jupyter-widgets/controls", "model_name": "HTMLModel", "model_module_version": "1.5.0", @@ -926,13 +940,13 @@ "_view_name": "HTMLView", "description": "", "description_tooltip": null, - "layout": "IPY_MODEL_4e4de9bec49841bb8e77d176511da330", + "layout": "IPY_MODEL_ea95ffd922c0455d957120f034e541f8", "placeholder": "​", - "style": "IPY_MODEL_343a0bfe7363401b9c00602c547fc609", + "style": "IPY_MODEL_13525aa369a9410a83343952ab511f3c", "value": "

Copy a token from your Hugging Face\ntokens page and paste it below.
Immediately click login after copying\nyour token or it might be stored in plain text in this notebook file.
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" } }, - "7ee601dd1b8c4a9b9df7c0a0dce0ff3b": { + "79184c8c2a6f4b7493bb7f6983f18a09": { "model_module": "@jupyter-widgets/base", "model_name": "LayoutModel", "model_module_version": "1.2.0", @@ -1050,7 +1064,7 @@ "width": "50%" } }, - "4e4de9bec49841bb8e77d176511da330": { + "ea95ffd922c0455d957120f034e541f8": { "model_module": "@jupyter-widgets/base", "model_name": "LayoutModel", "model_module_version": "1.2.0", @@ -1102,7 +1116,7 @@ "width": null } }, - "343a0bfe7363401b9c00602c547fc609": { + "13525aa369a9410a83343952ab511f3c": { "model_module": "@jupyter-widgets/controls", "model_name": "DescriptionStyleModel", "model_module_version": "1.5.0", @@ -1117,7 +1131,7 @@ "description_width": "" } }, - "8ae65b22713547ac88aad90600f1ebb0": { + "b2be65e192384c948fb8987d4cfca505": { "model_module": "@jupyter-widgets/base", "model_name": "LayoutModel", "model_module_version": "1.2.0", @@ -1169,7 +1183,7 @@ "width": null } }, - "4a4b13ce55944ec985ac6eb3e302e473": { + "333b42ca7aa44788b1c22724eb11bcc3": { "model_module": "@jupyter-widgets/controls", "model_name": "DescriptionStyleModel", "model_module_version": "1.5.0", @@ -1184,7 +1198,7 @@ "description_width": "" } }, - 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"layout": "IPY_MODEL_1697e1466f514b89b6fae0edf8f48bd7", + "layout": "IPY_MODEL_d33fba0d78fb41f983c55f5cd2a0a740", "placeholder": "​", - "style": "IPY_MODEL_9aa6ef23552e4b91ad9ca6c897c17579", + "style": "IPY_MODEL_fd47487fc8734594823f8afa00c4239d", "value": "Downloading: 100%" } }, - "c7250d3a8d044265a1c3d098585a0117": { + "32accb0adfa24c62a75c15c8ec88df8c": { "model_module": "@jupyter-widgets/controls", "model_name": "FloatProgressModel", "model_module_version": "1.5.0", @@ -3772,15 +3786,15 @@ "bar_style": "success", "description": "", "description_tooltip": null, - "layout": "IPY_MODEL_a260382718bd4998a96013e8643f7589", + "layout": "IPY_MODEL_23d4e25ec6c541818d5927b69576d278", "max": 128619, "min": 0, "orientation": "horizontal", - "style": "IPY_MODEL_44cd14b01a854294b283129db1e6beab", + "style": "IPY_MODEL_54d9456703324160aced03ee5fef2943", "value": 128619 } }, - "cf5c362276004feab43dce3cc80ea945": { + "bf299285318b4a04a88569cc581ecd75": { "model_module": "@jupyter-widgets/controls", "model_name": "HTMLModel", "model_module_version": "1.5.0", @@ -3795,13 +3809,13 @@ "_view_name": "HTMLView", "description": "", "description_tooltip": null, - "layout": "IPY_MODEL_80ca456de9084ef18dc13c369f127486", + "layout": "IPY_MODEL_bacfb50c001047c4824a05c9f2ee2e40", "placeholder": "​", - "style": "IPY_MODEL_19d13680d11f48d6938e52743c7f4275", - "value": " 129k/129k [00:00<00:00, 249kB/s]" + "style": "IPY_MODEL_c53a1cf68fcd4388abf1f0379891089a", + "value": " 129k/129k [00:00<00:00, 155kB/s]" } }, - "9a8a9f130bf544949914b972e1cb302f": { + "ac2950d08fc145ba9eb9cf5824b1ee18": { "model_module": "@jupyter-widgets/base", "model_name": "LayoutModel", "model_module_version": "1.2.0", @@ -3853,7 +3867,7 @@ "width": null } }, - "1697e1466f514b89b6fae0edf8f48bd7": { + "d33fba0d78fb41f983c55f5cd2a0a740": { "model_module": "@jupyter-widgets/base", "model_name": "LayoutModel", "model_module_version": "1.2.0", @@ -3905,7 +3919,7 @@ "width": null } }, - "9aa6ef23552e4b91ad9ca6c897c17579": { + "fd47487fc8734594823f8afa00c4239d": { "model_module": "@jupyter-widgets/controls", "model_name": "DescriptionStyleModel", "model_module_version": "1.5.0", @@ -3920,7 +3934,7 @@ "description_width": "" } }, - "a260382718bd4998a96013e8643f7589": { + "23d4e25ec6c541818d5927b69576d278": { "model_module": "@jupyter-widgets/base", "model_name": "LayoutModel", "model_module_version": "1.2.0", @@ -3972,7 +3986,7 @@ "width": null } }, - "44cd14b01a854294b283129db1e6beab": { + "54d9456703324160aced03ee5fef2943": { "model_module": "@jupyter-widgets/controls", "model_name": "ProgressStyleModel", "model_module_version": "1.5.0", @@ -3988,7 +4002,7 @@ "description_width": "" } }, - "80ca456de9084ef18dc13c369f127486": { + "bacfb50c001047c4824a05c9f2ee2e40": { "model_module": "@jupyter-widgets/base", "model_name": "LayoutModel", "model_module_version": "1.2.0", @@ -4040,7 +4054,7 @@ "width": null } }, - "19d13680d11f48d6938e52743c7f4275": { + "c53a1cf68fcd4388abf1f0379891089a": { "model_module": "@jupyter-widgets/controls", "model_name": "DescriptionStyleModel", "model_module_version": "1.5.0", From 8b5ed07299f04ffafa3b6604d633a10c8289cba2 Mon Sep 17 00:00:00 2001 From: Rhenan Date: Sat, 29 Oct 2022 01:54:53 -0400 Subject: [PATCH 012/112] doc: add hf.co/pyannote/segmentation to readme (#1127) --- README.md | 2 +- 1 file changed, 1 insertion(+), 1 deletion(-) diff --git a/README.md b/README.md index 1f1340cdd..1824144e8 100644 --- a/README.md +++ b/README.md @@ -11,7 +11,7 @@ ```python -# 1. visit hf.co/pyannote/speaker-diarization and accept user conditions (only if requested) +# 1. visit hf.co/pyannote/speaker-diarization and hf.co/pyannote/segmentation and accept user conditions (only if requested) # 2. visit hf.co/settings/tokens to create an access token (only if you had to go through 1.) # 3. instantiate pretrained speaker diarization pipeline from pyannote.audio import Pipeline From 85bc1012082d59e1e1d3d685fa95a00872514c50 Mon Sep 17 00:00:00 2001 From: Atai Barkai Date: Wed, 9 Nov 2022 01:53:56 -0800 Subject: [PATCH 013/112] setup: add support for soundfile 0.11 (#1140) Fixes #1069 #1096 Related to #347 --- requirements.txt | 2 +- 1 file changed, 1 insertion(+), 1 deletion(-) diff --git a/requirements.txt b/requirements.txt index 5c991ead4..48b585c20 100644 --- a/requirements.txt +++ b/requirements.txt @@ -13,7 +13,7 @@ pytorch_lightning >=1.5.4,<1.7 pytorch_metric_learning >=1.0.0,<2.0 semver >=2.10.2,<3.0 singledispatchmethod -soundfile >=0.10.2,<0.11 +soundfile >=0.10.2,<0.12 speechbrain >=0.5.12,<0.6 torch >=1.9 torch_audiomentations >= 0.11.0 From d966b518b0d6383c827a5e9a978516652f871a27 Mon Sep 17 00:00:00 2001 From: Yoyoma22 <74927546+Yoyoma22@users.noreply.github.com> Date: Mon, 14 Nov 2022 04:43:08 -0500 Subject: [PATCH 014/112] fix(setup): use utf-8 encoding MIME-Version: 1.0 Content-Type: text/plain; charset=UTF-8 Content-Transfer-Encoding: 8bit Fixes #1142 Co-authored-by: Andre.Bonin Co-authored-by: Hervé BREDIN --- setup.py | 8 ++++---- 1 file changed, 4 insertions(+), 4 deletions(-) diff --git a/setup.py b/setup.py index 2069c946a..3fa457d60 100644 --- a/setup.py +++ b/setup.py @@ -5,10 +5,10 @@ from pkg_resources import VersionConflict, require from setuptools import find_packages, setup -with open("README.md") as f: +with open("README.md", mode="r", encoding="utf-8") as f: long_description = f.read() -with open("requirements.txt") as f: +with open("requirements.txt", mode="r", encoding="utf-8") as f: requirements = f.read().splitlines() try: @@ -21,7 +21,7 @@ ROOT_DIR = Path(__file__).parent.resolve() # Creating the version file -with open("version.txt") as f: +with open("version.txt", mode="r", encoding="utf-8") as f: version = f.read() version = version.strip() @@ -35,7 +35,7 @@ version_path = ROOT_DIR / "pyannote" / "audio" / "version.py" -with open(version_path, "w") as f: +with open(version_path, mode="w", encoding="utf-8") as f: f.write("__version__ = '{}'\n".format(version)) if __name__ == "__main__": From 789b8d476639d7218ac0f203090cab1735872b07 Mon Sep 17 00:00:00 2001 From: =?UTF-8?q?Herv=C3=A9=20BREDIN?= Date: Mon, 28 Nov 2022 09:26:06 +0100 Subject: [PATCH 015/112] Update stale.yml --- .github/stale.yml | 4 ++-- 1 file changed, 2 insertions(+), 2 deletions(-) diff --git a/.github/stale.yml b/.github/stale.yml index dc90e5a1c..3cb76e884 100644 --- a/.github/stale.yml +++ b/.github/stale.yml @@ -1,7 +1,7 @@ # Number of days of inactivity before an issue becomes stale -daysUntilStale: 60 +daysUntilStale: 180 # Number of days of inactivity before a stale issue is closed -daysUntilClose: 7 +daysUntilClose: 30 # Issues with these labels will never be considered stale exemptLabels: - pinned From a1e99ee55036b79900f0b24b6e907edef43bab33 Mon Sep 17 00:00:00 2001 From: =?UTF-8?q?Herv=C3=A9=20BREDIN?= Date: Tue, 29 Nov 2022 18:14:49 +0100 Subject: [PATCH 016/112] doc: describe offline use (#1169) * related bugs: #1119 #1128 #1130 * related discussions: #1123 #1103 #1126 #1121 --- FAQ.md | 25 ++++ README.md | 17 +-- tutorials/applying_a_model.ipynb | 163 +++++++++++++++------- tutorials/applying_a_pipeline.ipynb | 186 +++++++++++++++++++------ tutorials/assets/download-model.png | Bin 0 -> 482731 bytes tutorials/assets/download-pipeline.png | Bin 0 -> 385069 bytes 6 files changed, 284 insertions(+), 107 deletions(-) create mode 100644 FAQ.md create mode 100644 tutorials/assets/download-model.png create mode 100644 tutorials/assets/download-pipeline.png diff --git a/FAQ.md b/FAQ.md new file mode 100644 index 000000000..a2d3e95ba --- /dev/null +++ b/FAQ.md @@ -0,0 +1,25 @@ +# Frequently asked questions + +## How does one capitalize and pronounce the name of this awesome library? + +📝 Written in lower case: `pyannote.audio` (or `pyannote` if you are lazy). Not `PyAnnote` nor `PyAnnotate` (*sic*). +📢 [Pronounced](https://www.howtopronounce.com/french/pianote) like the french verb *pianoter*. *pi* like in **pi**ano, not *py* like in **py**thon. +🎹 *pianoter* means *to play the piano* (hence the logo 🤯). + +## Can I use gated models (and pipelines) offline? + +**Short answer**: yes, see [this tutorial](tutorials/applying_a_model.ipynb) for models and [that one](tutorials/applying_a_pipeline.ipynb) for pipelines. + +**Long answer**: gating models and pipelines allows [me](https://herve.niderb.fr) to know a bit more about `pyannote.audio` user base and eventually help me write grant proposals to make `pyannote.audio` even better. So, please fill gating forms as precisely as possible. + +For instance, before gating `pyannote/speaker-diarization`, I had no idea that so many people were relying on it in production. Hint: sponsors are more than welcome! Maintaining open source libraries is time consuming. + +That being said, this whole authentication process does not prevent you from using official `pyannote.audio` models offline (i.e. without going through the authentication process in every `docker run ...` or whatever you are using in production): see [this tutorial](tutorials/applying_a_model.ipynb) for models and [that one](tutorials/applying_a_pipeline.ipynb) for pipelines. + +## **[Pretrained pipelines](https://huggingface.co/models?other=pyannote-audio-pipeline) do not produce good results on my data. What can I do?** + +1. [Annotate](https://github.com/pyannote/pyannote-audio/blob/develop/tutorials/prodigy.md) dozens of conversations manually and separate them into development and test subsets in [`pyannote.database`](https://github.com/pyannote/pyannote-database#speaker-diarization). +2. [Optimize the hyper-parameters](https://github.com/pyannote/pyannote-audio/blob/develop/tutorials/voice_activity_detection.ipynb) of the pretained pipeline using the development set. If performance is still not good enough, go to step 3. +3. Annotate hundreds of conversations manually and set them up as training subset in `pyannote.database`. +4. [Fine-tune](https://github.com/pyannote/pyannote-audio/blob/develop/tutorials/training_a_model.ipynb) the models (on which the pipeline relies) using the training set. +5. [Optimize the hyper-parameters](https://github.com/pyannote/pyannote-audio/blob/develop/tutorials/voice_activity_detection.ipynb) of the pipeline using the fine-tuned models using the development set. If performance is still not good enough, go back to step 3. diff --git a/README.md b/README.md index 1824144e8..8c5a13d72 100644 --- a/README.md +++ b/README.md @@ -84,20 +84,9 @@ pip install pyannote.audio ## Frequently asked questions -#### How does one capitalize and pronounce the name of this awesome library? - -📝 Written in lower case: `pyannote.audio` (or `pyannote` if you are lazy). Not `PyAnnote` nor `PyAnnotate` (*sic*). -📢 [Pronounced](https://www.howtopronounce.com/french/pianote) like the french verb *pianoter*. *pi* like in **pi**ano, not *py* like in **py**thon. -🎹 *pianoter* means *to play the piano* (hence the logo 🤯). - -#### **[Pretrained pipelines](https://huggingface.co/models?other=pyannote-audio-pipeline) do not produce good results on my data. What can I do?** - -1. [Annotate](https://github.com/pyannote/pyannote-audio/blob/develop/tutorials/prodigy.md) dozens of conversations manually and separate them into development and test subsets in [`pyannote.database`](https://github.com/pyannote/pyannote-database#speaker-diarization). -2. [Optimize the hyper-parameters](https://github.com/pyannote/pyannote-audio/blob/develop/tutorials/voice_activity_detection.ipynb) of the pretained pipeline using the development set. If performance is still not good enough, go to step 3. -3. Annotate hundreds of conversations manually and set them up as training subset in `pyannote.database`. -4. [Fine-tune](https://github.com/pyannote/pyannote-audio/blob/develop/tutorials/training_a_model.ipynb) the models (on which the pipeline relies) using the training set. -5. [Optimize the hyper-parameters](https://github.com/pyannote/pyannote-audio/blob/develop/tutorials/voice_activity_detection.ipynb) of the pipeline using the fine-tuned models using the development set. If performance is still not good enough, go back to step 3. - +* [How does one capitalize and pronounce the name of this awesome library?](FAQ.md) +* [Can I use gated models (and pipelines) offline?](FAQ.md) +* [Pretrained pipelines do not produce good results on my data. What can I do?](FAQ.md) ## Benchmark diff --git a/tutorials/applying_a_model.ipynb b/tutorials/applying_a_model.ipynb index 2319ab064..e035d0654 100644 --- a/tutorials/applying_a_model.ipynb +++ b/tutorials/applying_a_model.ipynb @@ -2,7 +2,7 @@ "cells": [ { "cell_type": "code", - "execution_count": null, + "execution_count": 1, "metadata": {}, "outputs": [], "source": [ @@ -23,7 +23,7 @@ }, { "cell_type": "code", - "execution_count": null, + "execution_count": 2, "metadata": {}, "outputs": [], "source": [ @@ -34,17 +34,17 @@ }, { "cell_type": "code", - "execution_count": null, + "execution_count": 3, "metadata": {}, "outputs": [ { "data": { - "image/png": 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"text/plain": [ - "" + "" ] }, - "execution_count": null, + "execution_count": 3, "metadata": {}, "output_type": "execute_result" } @@ -62,24 +62,25 @@ "source": [ "## Loading models from 🤗 hub\n", "\n", - "Pretrained models are available on [🤗 Huggingface model hub](https://hf.co/models?other=pyannote-audio-model) and can be listed by looking for the [`pyannote-audio-model`](https://hf.co/models?other=pyannote-audio-model) tag." + "A bunch of pretrained models are available on [🤗 Huggingface model hub](https://hf.co/models?other=pyannote-audio-model) and can be listed by looking for the [`pyannote-audio-model`](https://hf.co/models?other=pyannote-audio-model) tag." ] }, { "cell_type": "code", - "execution_count": null, + "execution_count": 16, "metadata": {}, "outputs": [ { "data": { "text/plain": [ - "['pyannote/segmentation',\n", - " 'pyannote/embedding',\n", + "['pyannote/Segmentation-PyanNet-DIHARD',\n", " 'pyannote/TestModelForContinuousIntegration',\n", - " 'pyannote/Segmentation-PyanNet-DIHARD']" + " 'pyannote/embedding',\n", + " 'pyannote/segmentation',\n", + " 'pyannote/brouhaha']" ] }, - "execution_count": null, + "execution_count": 16, "metadata": {}, "output_type": "execute_result" } @@ -87,35 +88,36 @@ "source": [ "from huggingface_hub import HfApi\n", "available_models = [m.modelId for m in HfApi().list_models(filter=\"pyannote-audio-model\")]\n", - "available_models" + "list(filter(lambda p: p.startswith(\"pyannote/\"), available_models))" ] }, { "cell_type": "markdown", "metadata": {}, "source": [ - "To load the speaker segmentation model, \n", + "Official [pyannote.audio](https://github.com/pyannote/pyannote-audio) models (i.e. those under the [`pyannote` organization](https://hf.co/pyannote) umbrella) are open-source, but gated. It means that you have to first accept users conditions on their respective Huggingface page to access the pretrained weights and hyper-parameters. Despite this initial process, those models can perfectly be downloaded for later offline use: keep reading this tutorial until the end to learn how to do that.\n", "\n", - "* accept the user conditions on [hf.co/pyannote/segmentation](https://hf.co/pyannote/segmentation).\n", - "* login using `notebook_login` below" + "For instance, to load the speaker segmentation model used in this tutorial, you have to visit [hf.co/pyannote/segmentation](https://hf.co/pyannote/segmentation), accept the terms, and log in using `notebook_login` below:" ] }, { "cell_type": "code", - "execution_count": null, + "execution_count": 5, "metadata": {}, "outputs": [ { - "name": "stdout", - "output_type": "stream", - "text": [ - "Login successful\n", - "Your token has been saved to /Users/hbredin/.huggingface/token\n", - "\u001b[1m\u001b[31mAuthenticated through git-credential store but this isn't the helper defined on your machine.\n", - "You might have to re-authenticate when pushing to the Hugging Face Hub. Run the following command in your terminal in case you want to set this credential helper as the default\n", - "\n", - "git config --global credential.helper store\u001b[0m\n" - ] + "data": { + "application/vnd.jupyter.widget-view+json": { + "model_id": "1b7ac613e9e841c8903dc4932e183006", + "version_major": 2, + "version_minor": 0 + }, + "text/plain": [ + "VBox(children=(HTML(value='
, resolution=, duration=5.0, warm_up=(0.0, 0.0), classes=['speaker#1', 'speaker#2', 'speaker#3'], permutation_invariant=True)" ] }, - "execution_count": null, + "execution_count": 8, "metadata": {}, "output_type": "execute_result" } @@ -219,17 +228,17 @@ }, { "cell_type": "code", - "execution_count": null, + "execution_count": 9, "metadata": {}, "outputs": [ { "data": { - "image/png": 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"text/plain": [ - "" + "" ] }, - "execution_count": null, + "execution_count": 9, "metadata": {}, "output_type": "execute_result" } @@ -250,7 +259,7 @@ }, { "cell_type": "code", - "execution_count": null, + "execution_count": 10, "metadata": {}, "outputs": [ { @@ -259,7 +268,7 @@ "(11, 293, 3)" ] }, - "execution_count": null, + "execution_count": 10, "metadata": {}, "output_type": "execute_result" } @@ -279,7 +288,7 @@ }, { "cell_type": "code", - "execution_count": null, + "execution_count": 11, "metadata": {}, "outputs": [ { @@ -305,17 +314,17 @@ }, { "cell_type": "code", - "execution_count": null, + "execution_count": 12, "metadata": {}, "outputs": [ { "data": { - "image/png": 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"text/plain": [ - "" + "" ] }, - "execution_count": null, + "execution_count": 12, "metadata": {}, "output_type": "execute_result" } @@ -336,17 +345,17 @@ }, { "cell_type": "code", - "execution_count": null, + "execution_count": 13, "metadata": {}, "outputs": [ { "data": { - "image/png": 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"text/plain": [ - "" + "" ] }, - "execution_count": null, + "execution_count": 13, "metadata": {}, "output_type": "execute_result" } @@ -356,13 +365,71 @@ "output = inference.crop(AUDIO_FILE, Segment(10, 20))\n", "output" ] + }, + { + "cell_type": "markdown", + "metadata": {}, + "source": [ + "## Offline use\n", + "\n", + "Gating models allows [me](https://herve.niderb.fr) to know a bit more about `pyannote.audio` user base and eventually help me write grant proposals to make `pyannote.audio` even better. Please fill this form as precisely as possible. \n", + "\n", + "For instance, before gating `pyannote/segmentation`, I had no idea that so many people were relying on it in production. Hint: sponsors are more than welcome! maintaining open source libraries is time consuming.\n", + "\n", + "That being said: this whole authentication process does not prevent you from using official `pyannote.audio` models offline (i.e. without going through the authentication process in every `docker run ...` or whatever you are using in production).\n", + "\n", + "* Step 1: download the `pytorch_model.bin` model\n", + "\n", + "![](assets/download-model.png)\n", + "\n", + "* Step 2: load the model" + ] + }, + { + "cell_type": "code", + "execution_count": 14, + "metadata": {}, + "outputs": [], + "source": [ + "# look ma: no hands! \n", + "offline_model = Model.from_pretrained(\"pytorch_model.bin\")" + ] + }, + { + "cell_type": "code", + "execution_count": 15, + "metadata": {}, + "outputs": [], + "source": [ + "# just checking weights are the same...\n", + "import torch\n", + "for weights, offline_weights in zip(model.parameters(), offline_model.parameters()):\n", + " assert torch.equal(weights, offline_weights)" + ] } ], "metadata": { "kernelspec": { - "display_name": "Python 3 (ipykernel)", + "display_name": "Python 3.9.13 ('pyannote-mps')", "language": "python", "name": "python3" + }, + "language_info": { + "codemirror_mode": { + "name": "ipython", + "version": 3 + }, + "file_extension": ".py", + "mimetype": "text/x-python", + "name": "python", + "nbconvert_exporter": "python", + "pygments_lexer": "ipython3", + "version": "3.9.13" + }, + "vscode": { + "interpreter": { + "hash": "36a3a48a52702f18671693adf589423ec3f7db45d50f6ee539f1b0696bb58d43" + } } }, "nbformat": 4, diff --git a/tutorials/applying_a_pipeline.ipynb b/tutorials/applying_a_pipeline.ipynb index e436c7327..c1080071d 100644 --- a/tutorials/applying_a_pipeline.ipynb +++ b/tutorials/applying_a_pipeline.ipynb @@ -19,25 +19,24 @@ "source": [ "## Loading pipeline from 🤗 hub\n", "\n", - "Pretrained pipelines are available on [🤗 Huggingface model hub](https://hf.co/models?other=pyannote-audio-pipeline) and can be listed by looking for the [`pyannote-audio-pipeline`](https://hf.co/models?other=pyannote-audio-pipeline) tag." + "A bunch of pretrained pipelines are available on [🤗 Huggingface model hub](https://hf.co/models?other=pyannote-audio-pipeline) and can be listed by looking for the [`pyannote-audio-pipeline`](https://hf.co/models?other=pyannote-audio-pipeline) tag." ] }, { "cell_type": "code", - "execution_count": null, + "execution_count": 4, "metadata": {}, "outputs": [ { "data": { "text/plain": [ - "['pyannote/speaker-diarization',\n", + "['pyannote/overlapped-speech-detection',\n", + " 'pyannote/speaker-diarization',\n", " 'pyannote/speaker-segmentation',\n", - " 'pyannote/voice-activity-detection',\n", - " 'pyannote/overlapped-speech-detection',\n", - " 'philschmid/pyannote-speaker-diarization-endpoint']" + " 'pyannote/voice-activity-detection']" ] }, - "execution_count": null, + "execution_count": 4, "metadata": {}, "output_type": "execute_result" } @@ -45,35 +44,36 @@ "source": [ "from huggingface_hub import HfApi\n", "available_pipelines = [p.modelId for p in HfApi().list_models(filter=\"pyannote-audio-pipeline\")]\n", - "available_pipelines" + "list(filter(lambda p: p.startswith(\"pyannote/\"), available_pipelines))" ] }, { "cell_type": "markdown", "metadata": {}, "source": [ - "To load the speaker diarization pipeline,\n", + "Official [pyannote.audio](https://github.com/pyannote/pyannote-audio) pipelines (i.e. those under the [`pyannote` organization](https://hf.co/pyannote) umbrella) are open-source, but gated. It means that you have to first accept users conditions on their respective Huggingface page to access the pretrained weights and hyper-parameters. Despite this initial process, those pipelines can perfectly be downloaded for later offline use: keep reading this tutorial until the end to learn how to do that.\n", "\n", - "* accept the user conditions on [hf.co/pyannote/speaker-diarization](https://hf.co/pyannote/speaker-diarization).\n", - "* login using `notebook_login` below" + "For instance, to load the speaker diarization pipeline used in this tutorial, you have to visit [hf.co/pyannote/speaker-diarization](https://hf.co/pyannote/speaker-diarization), accept the terms, visit [hf.co/pyannote/segmentation](https://hf.co/pyannote/segmentation) (used internally by the speaker diarization pipeline), accept the terms, and log in using `notebook_login` below:" ] }, { "cell_type": "code", - "execution_count": null, + "execution_count": 2, "metadata": {}, "outputs": [ { - "name": "stdout", - "output_type": "stream", - "text": [ - "Login successful\n", - "Your token has been saved to /Users/hbredin/.huggingface/token\n", - "\u001b[1m\u001b[31mAuthenticated through git-credential store but this isn't the helper defined on your machine.\n", - "You might have to re-authenticate when pushing to the Hugging Face Hub. Run the following command in your terminal in case you want to set this credential helper as the default\n", - "\n", - "git config --global credential.helper store\u001b[0m\n" - ] + "data": { + "application/vnd.jupyter.widget-view+json": { + "model_id": "9466934e67254fe6a7ff67b727a3f3ab", + "version_major": 2, + "version_minor": 0 + }, + "text/plain": [ + "VBox(children=(HTML(value='
" + "" ] }, - "execution_count": null, + "execution_count": 9, "metadata": {}, "output_type": "execute_result" } @@ -210,17 +217,17 @@ }, { "cell_type": "code", - "execution_count": null, + "execution_count": 10, "metadata": {}, "outputs": [ { "data": { - "image/png": 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"text/plain": [ - "" + "" ] }, - "execution_count": null, + "execution_count": 10, "metadata": {}, "output_type": "execute_result" } @@ -245,7 +252,7 @@ }, { "cell_type": "code", - "execution_count": null, + "execution_count": 11, "metadata": {}, "outputs": [ { @@ -271,32 +278,121 @@ }, { "cell_type": "code", - "execution_count": null, + "execution_count": 12, "metadata": {}, "outputs": [ { "data": { - "image/png": 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"text/plain": [ - "" + "" ] }, - "execution_count": null, + "execution_count": 12, "metadata": {}, "output_type": "execute_result" } ], "source": [ - "vad = Pipeline.from_pretrained(\"pyannote/voice-activity-detection\")\n", + "vad = Pipeline.from_pretrained(\"pyannote/voice-activity-detection\", use_auth_token=True)\n", "vad(audio_in_memory)" ] + }, + { + "cell_type": "markdown", + "metadata": {}, + "source": [ + "## Offline use\n", + "\n", + "Gating models and pipelines allows [me](https://herve.niderb.fr) to know a bit more about `pyannote.audio` user base and eventually help me write grant proposals to make `pyannote.audio` even better. Please fill this form as precisely as possible. \n", + "\n", + "For instance, before gating `pyannote/speaker-diarization`, I had no idea that so many people were relying on it in production. Hint: sponsors are more than welcome! maintaining open source libraries is time consuming.\n", + "\n", + "That being said: this whole authentication process does not prevent you from using official `pyannote.audio` models and pipelines offline (i.e. without going through the authentication process in every `docker run ...` or whatever you are using in production).\n", + "\n", + "* Step 1: download `config.yaml` of [`pyannote/voice-activity-detection`](https://hf.co/pyannote/voice-activity-detection) pipeline\n", + "\n", + "![](assets/download-pipeline.png)\n", + "\n", + "* Step 2: download the `pytorch_model.bin` model\n", + "\n", + "![](assets/download-model.png)\n", + "\n", + "* Step 3: edit `config.yaml` to point to the local model\n", + "\n", + "```diff\n", + "pipeline:\n", + " name: pyannote.audio.pipelines.VoiceActivityDetection\n", + " params:\n", + "- segmentation: pyannote/segmentation@Interspeech2021\n", + "+ segmentation: pytorch_model.bin\n", + "\n", + "params:\n", + " min_duration_off: 0.09791355693027545\n", + " min_duration_on: 0.05537587440407595\n", + " offset: 0.4806866463041527\n", + " onset: 0.8104268538848918\n", + "```\n", + "\n", + "* Step 4: load the pipeline" + ] + }, + { + "cell_type": "code", + "execution_count": 21, + "metadata": {}, + "outputs": [ + { + "data": { + "image/png": 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zx$&Au_}k;NI0Qb7JJ;0dTt`E3et)f=#lZP*EPI4gJ;OPiwmwF$ZCZ2(B#dE0B+64f zZ)pz6w@VIq^poCkz2uHQ^@K#FCTmSJ9$pdRV%z4XNJMWZrHJP3S1W{J_E5TF0cgaSzfgT z+KxQna<6tT+}NGxCxQMDzYyzs%CeVX#^)v(Ba<#wIXn?E`>UkajjEL&VM|80fbwYIoqA%9+K#VDD_ZsgQ105PHbsF)%%SP)IxgM!d%DN5 z!%7c7+izZ+VD7ZSJ|A}y^1IpU?zN?frcl^Sl?e5pO9tikjtFuWowm5L9?Za6+Z!u+ zSV>9x*0dMZVeHrY`&WtP Date: Fri, 2 Dec 2022 14:55:36 +0100 Subject: [PATCH 017/112] feat: add pipeline adaptation tutorial --- tutorials/adapting_pretrained_pipeline.ipynb | 744 +++++++++++++++++++ 1 file changed, 744 insertions(+) create mode 100644 tutorials/adapting_pretrained_pipeline.ipynb diff --git a/tutorials/adapting_pretrained_pipeline.ipynb b/tutorials/adapting_pretrained_pipeline.ipynb new file mode 100644 index 000000000..325d939a9 --- /dev/null +++ b/tutorials/adapting_pretrained_pipeline.ipynb @@ -0,0 +1,744 @@ +{ + "nbformat": 4, + "nbformat_minor": 0, + "metadata": { + "colab": { + "provenance": [], + "toc_visible": true, + "authorship_tag": "ABX9TyMc87txSanOjHXPQP0Zpu9J", + "include_colab_link": true + }, + "kernelspec": { + "name": "python3", + "display_name": "Python 3" + }, + "language_info": { + "name": "python" + }, + "accelerator": "GPU", + "gpuClass": "standard" + }, + "cells": [ + { + "cell_type": "markdown", + "metadata": { + "id": "view-in-github", + "colab_type": "text" + }, + "source": [ + "\"Open" + ] + }, + { + "cell_type": "markdown", + "source": [ + "# Adapting pyannote.audio 2.1 pretrained speaker diarization pipeline to your own data\n", + "\n", + "> \"How I reached 1st place at Ego4D 2022, 1st place at Albayzin 2022, and 6th place at VoxSRC 2022 speaker diarization challenges\"\n", + "\n", + "[pyannote.audio](https://github.com/pyannote/pyannote-audio) is an open-source toolkit written in Python for speaker diarization. \n", + "\n", + "Version 2.1 introduces a major overhaul of the default speaker diarization pipeline, made of three main stages: speaker segmentation applied to a short sliding window, neural speaker embedding of each (local) speakers, and (global) agglomerative clustering.\n", + "\n", + "Despite its decent out-of-the-box performance, the default pipeline may suffer from the domain mismatch problem (common to most machine learning models) and not perform well on your own data. This tutorial will guide you through two recipes to adapt it to your own data and (hopefully) get better performance. Depending on the number and duration of labeled conversations, you may either focus on optimizing hyper-parameters or additionally fine-tune the internal speaker segmentation model." + ], + "metadata": { + "id": "npzkG4poB2BH" + } + }, + { + "cell_type": "markdown", + "source": [ + "⚠ Make sure that you switch to a GPU runtime (Runtime > Change runtime type). \n", + "If you don't, everything will be extremely slow." + ], + "metadata": { + "id": "pnaQ4JSLF8Ms" + } + }, + { + "cell_type": "markdown", + "source": [ + "## Installation\n", + "\n", + "Let's start by installing `pyannote.audio` 2.1.1 (and `rich` for pretty progress bars)." + ], + "metadata": { + "id": "CZjbjOBBDrdm" + } + }, + { + "cell_type": "code", + "execution_count": null, + "metadata": { + "id": "_kYxY82Jzz3s" + }, + "outputs": [], + "source": [ + "!pip install -qq pyannote.audio==2.1.1\n", + "!pip install -qq rich" + ] + }, + { + "cell_type": "markdown", + "source": [ + "⚠ Restart the runtime (Runtime > Restart runtime). \n", + "If you don't, `pyannote.database` will throw an error below." + ], + "metadata": { + "id": "ndQ10VIf2W1c" + } + }, + { + "cell_type": "markdown", + "source": [ + "## Data preparation\n", + "\n", + "First things first: we need data... Annotated data! Ideally, lots of annotated data! \n", + "\n", + "For the purpose of this tutorial, we will rely on the AMI-SDM (single distance microphone) corpus. \n" + ], + "metadata": { + "id": "lz-b8j6RD7H6" + } + }, + { + "cell_type": "code", + "source": [ + "# download AMI-SDM mini corpus\n", + "%cd /content/\n", + "!git clone https://github.com/pyannote/AMI-diarization-setup\n", + "%cd /content/AMI-diarization-setup/pyannote/\n", + "!bash download_ami_sdm_mini.sh" + ], + "metadata": { + "id": "uSQVKFDC0cOe" + }, + "execution_count": null, + "outputs": [] + }, + { + "cell_type": "code", + "source": [ + "!PYANNOTE_DATABASE_CONFIG=\"/content/AMI-diarization-setup/pyannote/database.yml\" pyannote-database info AMI-SDM.SpeakerDiarization.mini" + ], + "metadata": { + "colab": { + "base_uri": "https://localhost:8080/" + }, + "id": "wTKkOeMr2QUL", + "outputId": "d9cc39fd-4cc2-44fe-a922-533370221d31" + }, + "execution_count": 9, + "outputs": [ + { + "output_type": "stream", + "name": "stdout", + "text": [ + "\u001b[92m\u001b[1m\u001b[4mtrain\u001b[0m\n", + " 28 files\n", + " 8h46m annotated\n", + " 6h11m of speech (71%)\n", + " 112 speakers\n", + "\u001b[92m\u001b[1m\u001b[4mdevelopment\u001b[0m\n", + " 3 files\n", + " 0h56m annotated\n", + " 0h40m of speech (72%)\n", + " 12 speakers\n", + "\u001b[92m\u001b[1m\u001b[4mtest\u001b[0m\n", + " 3 files\n", + " 0h56m annotated\n", + " 0h39m of speech (70%)\n", + " 12 speakers\n" + ] + } + ] + }, + { + "cell_type": "markdown", + "source": [ + "Note that we use a \"mini\" version of AMI-SDM so that the tutorial can be run in half an hour but the full version is also available for you to get better results. \n", + "\n", + "If you want to try it, replace `download_ami_sdm_mini.sh` by `download_ami_sdm.sh` and `AMI-SDM.SpeakerDiarization.mini` by `AMI-SDM.SpeakerDiarization.only_words` and you are good to go! " + ], + "metadata": { + "id": "09LrQFIfp0zC" + } + }, + { + "cell_type": "code", + "source": [ + "import os\n", + "os.environ[\"PYANNOTE_DATABASE_CONFIG\"] = \"/content/AMI-diarization-setup/pyannote/database.yml\"\n", + "from pyannote.database import get_protocol, FileFinder\n", + "dataset = get_protocol(\"AMI-SDM.SpeakerDiarization.mini\", {\"audio\": FileFinder()})" + ], + "metadata": { + "id": "l6V8Exw41XBp" + }, + "execution_count": 10, + "outputs": [] + }, + { + "cell_type": "markdown", + "source": [ + "## Pretrained pipeline\n", + "\n", + "Let's start by running the pretrained pipeline on the test set and evaluate its performance.\n", + "\n", + "Official [pyannote.audio](https://github.com/pyannote/pyannote-audio) pipelines (i.e. those under the [`pyannote` organization](https://hf.co/pyannote) umbrella) are open-source, but gated. It means that you have to first accept users conditions on their respective Huggingface page to access the pretrained weights and hyper-parameters. \n", + "\n", + "To load the speaker diarization pipeline used in this tutorial, you have to \n", + "* visit [hf.co/pyannote/speaker-diarization](https://hf.co/pyannote/speaker-diarization) and accept the terms\n", + "* visit [hf.co/pyannote/segmentation](https://hf.co/pyannote/segmentation) (used internally by the speaker diarization pipeline)and accept the terms\n", + "* log in using `notebook_login`" + ], + "metadata": { + "id": "HivpZEgZEVAu" + } + }, + { + "cell_type": "code", + "source": [ + "from huggingface_hub import notebook_login\n", + "notebook_login()" + ], + "metadata": { + "id": "FbXEQUGXscTQ" + }, + "execution_count": null, + "outputs": [] + }, + { + "cell_type": "code", + "source": [ + "from pyannote.audio import Pipeline\n", + "pretrained_pipeline = Pipeline.from_pretrained(\"pyannote/speaker-diarization\", use_auth_token=True) " + ], + "metadata": { + "id": "l7eN_Y792Cxt" + }, + "execution_count": 11, + "outputs": [] + }, + { + "cell_type": "code", + "source": [ + "# this takes approximately 2min to run on Google Colab GPU\n", + "from pyannote.metrics.diarization import DiarizationErrorRate\n", + "metric = DiarizationErrorRate()\n", + "\n", + "for file in dataset.test():\n", + " # apply pretrained pipeline\n", + " file[\"pretrained pipeline\"] = pretrained_pipeline(file)\n", + "\n", + " # evaluate its performance\n", + " metric(file[\"annotation\"], file[\"pretrained pipeline\"], uem=file[\"annotated\"])\n", + "\n", + "print(f\"The pretrained pipeline reaches a Diarization Error Rate (DER) of {100 * abs(metric):.1f}% on {dataset.name} test set.\")" + ], + "metadata": { + "colab": { + "base_uri": "https://localhost:8080/" + }, + "id": "lDIIp7iaICUC", + "outputId": "b4880a85-692b-470d-f133-d95128bdecd9" + }, + "execution_count": 32, + "outputs": [ + { + "output_type": "stream", + "name": "stdout", + "text": [ + "The pretrained pipeline reaches a Diarization Error Rate (DER) of 32.5% on AMI-SDM.SpeakerDiarization.mini test set.\n" + ] + } + ] + }, + { + "cell_type": "code", + "source": [ + "file[\"annotation\"]" + ], + "metadata": { + "colab": { + "base_uri": "https://localhost:8080/", + "height": 147 + }, + "id": "r4UydYQkKsxW", + "outputId": "7069d8e5-7dc7-4701-bcd5-1663998cfd1d" + }, + "execution_count": 13, + "outputs": [ + { + "output_type": "execute_result", + "data": { + "text/plain": [ + "" + ], + "image/png": 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+ }, + "metadata": {}, + "execution_count": 13 + } + ] + }, + { + "cell_type": "code", + "source": [ + "file[\"pretrained pipeline\"]" + ], + "metadata": { + "colab": { + "base_uri": "https://localhost:8080/", + "height": 147 + }, + "id": "s4C7xMQlKwVX", + "outputId": "930c571f-069b-44ad-f87e-ce8d471176a6" + }, + "execution_count": 14, + "outputs": [ + { + "output_type": "execute_result", + "data": { + "text/plain": [ + "" + ], + "image/png": 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+ }, + "metadata": {}, + "execution_count": 14 + } + ] + }, + { + "cell_type": "markdown", + "source": [ + "## Fine-tuning the segmentation model\n", + "\n", + "When a sufficiently large training set of labeled conversations is available, fine-tuning the internal speaker segmentation model may lead to significant performance boost. \n", + "\n", + "Starting from the pretrained model..." + ], + "metadata": { + "id": "qrYuCLLUKALA" + } + }, + { + "cell_type": "code", + "source": [ + "from pyannote.audio import Model\n", + "model = Model.from_pretrained(\"pyannote/segmentation\", use_auth_token=True)" + ], + "metadata": { + "id": "jeUDgr4f55v6" + }, + "execution_count": 15, + "outputs": [] + }, + { + "cell_type": "markdown", + "source": [ + "... we prepare it for fine-tuning on the training dataset:" + ], + "metadata": { + "id": "SAyCf7ontua_" + } + }, + { + "cell_type": "code", + "source": [ + "from pyannote.audio.tasks import Segmentation\n", + "task = Segmentation(dataset, \n", + " duration=model.specifications.duration, \n", + " max_num_speakers=len(model.specifications.classes), \n", + " batch_size=32,\n", + " num_workers=2, \n", + " loss=\"bce\", \n", + " vad_loss=\"bce\")\n", + "model.task = task\n", + "model.setup(stage=\"fit\")" + ], + "metadata": { + "id": "Kk_a7ABQ6PPH" + }, + "execution_count": null, + "outputs": [] + }, + { + "cell_type": "markdown", + "source": [ + "The actual training is done with [`lightning`](https://github.com/Lightning-AI/lightning):" + ], + "metadata": { + "id": "TgobhVTKt9sH" + } + }, + { + "cell_type": "code", + "source": [ + "# this takes approximately 15min to run on Google Colab GPU\n", + "from types import MethodType\n", + "from torch.optim import Adam\n", + "from pytorch_lightning.callbacks import (\n", + " EarlyStopping,\n", + " ModelCheckpoint,\n", + " RichProgressBar,\n", + ")\n", + "\n", + "# we use Adam optimizer with 1e-4 learning rate\n", + "def configure_optimizers(self):\n", + " return Adam(self.parameters(), lr=1e-4)\n", + "\n", + "model.configure_optimizers = MethodType(configure_optimizers, model)\n", + "\n", + "# we monitor diarization error rate on the validation set\n", + "# and use to keep the best checkpoint and stop early\n", + "monitor, direction = task.val_monitor\n", + "checkpoint = ModelCheckpoint(\n", + " monitor=monitor,\n", + " mode=direction,\n", + " save_top_k=1,\n", + " every_n_epochs=1,\n", + " save_last=False,\n", + " save_weights_only=False,\n", + " filename=\"{epoch}\",\n", + " verbose=False,\n", + ")\n", + "early_stopping = EarlyStopping(\n", + " monitor=monitor,\n", + " mode=direction,\n", + " min_delta=0.0,\n", + " patience=10,\n", + " strict=True,\n", + " verbose=False,\n", + ")\n", + "\n", + "callbacks = [RichProgressBar(), checkpoint, early_stopping]\n", + "\n", + "# we train for at most 20 epochs (might be shorter in case of early stopping)\n", + "from pytorch_lightning import Trainer\n", + "trainer = Trainer(accelerator=\"gpu\", \n", + " callbacks=callbacks, \n", + " max_epochs=20,\n", + " gradient_clip_val=0.5)\n", + "trainer.fit(model)" + ], + "metadata": { + "id": "f_bVYrNo6TmI" + }, + "execution_count": null, + "outputs": [] + }, + { + "cell_type": "code", + "source": [ + "# save path to the best checkpoint for later use\n", + "finetuned_model = checkpoint.best_model_path\n", + "\n", + "# uncomment to download the checkpoint\n", + "#from google.colab import files\n", + "#files.download(finetuned_model)" + ], + "metadata": { + "id": "830LvZfdd3Rn" + }, + "execution_count": 20, + "outputs": [] + }, + { + "cell_type": "markdown", + "source": [ + "## Optimizing the pipeline hyper-parameters\n", + "\n", + "The pretrained `pyannote/speaker-diarization` pipeline relies on its own set of hyper-parameters adapted to the internal `pyannote/segmentation` pretrained model:" + ], + "metadata": { + "id": "2NVGAIMd-uPI" + } + }, + { + "cell_type": "code", + "source": [ + "pretrained_hyperparameters = pretrained_pipeline.parameters(instantiated=True)\n", + "pretrained_hyperparameters" + ], + "metadata": { + "colab": { + "base_uri": "https://localhost:8080/" + }, + "id": "8OUIBHP7-xk_", + "outputId": "20b3af76-d2d3-4bf9-eb58-2589f8e86939" + }, + "execution_count": 23, + "outputs": [ + { + "output_type": "execute_result", + "data": { + "text/plain": [ + "{'segmentation': {'min_duration_off': 0.5817029604921046,\n", + " 'threshold': 0.4442333667381752},\n", + " 'clustering': {'method': 'centroid',\n", + " 'min_cluster_size': 15,\n", + " 'threshold': 0.7153814381597874}}" + ] + }, + "metadata": {}, + "execution_count": 23 + } + ] + }, + { + "cell_type": "markdown", + "source": [ + "There is no reason the above hyper-parameters are optimal for the newly finetuned speaker segmentation model. Let's optimize them:\n", + "\n", + "* `segmentation.threshold` ($\\theta$ in the [technical report](https://huggingface.co/pyannote/speaker-diarization/resolve/main/technical_report_2.1.pdf), between 0 and 1) controls the aggressiveness of speaker activity detection (i.e. a higher value will result in less detected speech); \n", + "* `clustering.threshold` ($\\delta$ in the report, between 0 and 2) controls the number of speakers (i.e. a higher value will result in less speakers).\n", + "* `segmentation.min_duration_off` ($\\Delta$ in the report, in seconds) controls whether intra-speaker pauses are filled. This usually depends on the downstream application so it is better to first force it to zero (i.e. never fill intra-speaker pauses) during optimization.\n", + "* `clustering.centroid` is the linkage used by the agglomerative clustering step. `centroid` has been found to be slightly better than `average`. \n", + "* `clustering.min_cluster_size` controls what to do with small speaker clusters. Clusters smaller than that are assigned to the most similar large cluster. `15` is a good default value.\n", + "\n", + "We start by optimizing `segmentation.threshold` by assuming that the subsequent clustering step is perfect (cf. `OracleClustering`)." + ], + "metadata": { + "id": "y1rRE4NqJmb5" + } + }, + { + "cell_type": "code", + "source": [ + "# this takes approximately 5min to run on Google Colab GPU\n", + "from pyannote.audio.pipelines import SpeakerDiarization\n", + "from pyannote.pipeline import Optimizer\n", + "\n", + "pipeline = SpeakerDiarization(\n", + " segmentation=finetuned_model,\n", + " clustering=\"OracleClustering\", \n", + ")\n", + "# as reported in the technical report, min_duration_off can safely be set to 0.0\n", + "pipeline.freeze({\"segmentation\": {\"min_duration_off\": 0.0}})\n", + "\n", + "optimizer = Optimizer(pipeline)\n", + "dev_set = list(dataset.development())\n", + "\n", + "iterations = optimizer.tune_iter(dev_set, show_progress=False)\n", + "best_loss = 1.0\n", + "for i, iteration in enumerate(iterations):\n", + " print(f\"Best segmentation threshold so far: {iteration['params']['segmentation']['threshold']}\")\n", + " if i > 20: break # 50 iterations should give slightly better results" + ], + "metadata": { + "id": "FSWW7bIphgAI" + }, + "execution_count": null, + "outputs": [] + }, + { + "cell_type": "markdown", + "source": [ + "Then, we use the optimized value of `segmentation.threshold` and optimize `clustering.threshold`." + ], + "metadata": { + "id": "pAUx-1Pw3Uc9" + } + }, + { + "cell_type": "code", + "source": [ + "best_segmentation_threshold = optimizer.best_params[\"segmentation\"][\"threshold\"]" + ], + "metadata": { + "id": "CSzOWLL5Q29-" + }, + "execution_count": 26, + "outputs": [] + }, + { + "cell_type": "code", + "source": [ + "# this takes approximately 5min to run on Google Colab GPU\n", + "pipeline = SpeakerDiarization(\n", + " segmentation=finetuned_model,\n", + " embedding=pretrained_pipeline.embedding,\n", + " embedding_exclude_overlap=pretrained_pipeline.embedding_exclude_overlap,\n", + " clustering=pretrained_pipeline.klustering,\n", + ")\n", + "\n", + "pipeline.freeze({\n", + " \"segmentation\": {\n", + " \"threshold\": best_segmentation_threshold,\n", + " \"min_duration_off\": 0.0,\n", + " },\n", + " \"clustering\": {\n", + " \"method\": \"centroid\",\n", + " \"min_cluster_size\": 15,\n", + " },\n", + "})\n", + "\n", + "optimizer = Optimizer(pipeline)\n", + "iterations = optimizer.tune_iter(dev_set, show_progress=False)\n", + "best_loss = 1.0\n", + "for i, iteration in enumerate(iterations):\n", + " print(f\"Best clustering threshold so far: {iteration['params']['clustering']['threshold']}\")\n", + " if i > 20: break # 50 iterations should give slightly better results" + ], + "metadata": { + "id": "M_pQkyQ5RCjl" + }, + "execution_count": null, + "outputs": [] + }, + { + "cell_type": "markdown", + "source": [ + "Finally, we use the optimized values of `segmentation.threshold` and `clustering.threshold` to evaluate the performance of the finetuned pipeline:" + ], + "metadata": { + "id": "BDA2XT-wAzDO" + } + }, + { + "cell_type": "code", + "source": [ + "best_clustering_threshold = optimizer.best_params['clustering']['threshold']" + ], + "metadata": { + "id": "GBJv2j1U_5mj" + }, + "execution_count": 28, + "outputs": [] + }, + { + "cell_type": "code", + "source": [ + "# this takes approximately 2min to run on Google Colab GPU\n", + "finetuned_pipeline = SpeakerDiarization(\n", + " segmentation=finetuned_model,\n", + " embedding=pretrained_pipeline.embedding,\n", + " embedding_exclude_overlap=pretrained_pipeline.embedding_exclude_overlap,\n", + " clustering=pretrained_pipeline.klustering,\n", + ")\n", + "\n", + "finetuned_pipeline.instantiate({\n", + " \"segmentation\": {\n", + " \"threshold\": best_segmentation_threshold,\n", + " \"min_duration_off\": 0.0,\n", + " },\n", + " \"clustering\": {\n", + " \"method\": \"centroid\",\n", + " \"min_cluster_size\": 15,\n", + " \"threshold\": best_clustering_threshold,\n", + " },\n", + "})\n", + "\n", + "metric = DiarizationErrorRate()\n", + "\n", + "for file in dataset.test():\n", + " # apply finetuned pipeline\n", + " file[\"finetuned pipeline\"] = finetuned_pipeline(file)\n", + "\n", + " # evaluate its performance\n", + " metric(file[\"annotation\"], file[\"finetuned pipeline\"], uem=file[\"annotated\"])\n", + "\n", + "print(f\"The finetuned pipeline reaches a Diarization Error Rate (DER) of {100 * abs(metric):.1f}% on {dataset.name} test set.\")" + ], + "metadata": { + "colab": { + "base_uri": "https://localhost:8080/" + }, + "id": "ir1VUqNEimcN", + "outputId": "d8edfb16-8f97-4d84-d4d2-3066d8b7c791" + }, + "execution_count": 35, + "outputs": [ + { + "output_type": "stream", + "name": "stdout", + "text": [ + "The finetuned pipeline reaches a Diarization Error Rate (DER) of 26.6% on AMI-SDM.SpeakerDiarization.mini test set.\n" + ] + } + ] + }, + { + "cell_type": "code", + "source": [ + "file[\"finetuned pipeline\"]" + ], + "metadata": { + "colab": { + "base_uri": "https://localhost:8080/", + "height": 147 + }, + "id": "LFvNtdZTBDZh", + "outputId": "f72da25d-7df7-4d8f-97b1-b5ca0f2febe7" + }, + "execution_count": 37, + "outputs": [ + { + "output_type": "execute_result", + "data": { + "text/plain": [ + "" + ], + "image/png": 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+ }, + "metadata": {}, + "execution_count": 38 + } + ] + }, + { + "cell_type": "markdown", + "source": [ + "## Conclusion\n", + "\n", + "In just about half an hour (and 6 hours of training data), we managed to reduce the diarization error rate from 32.5% to 26.6%.\n", + "\n", + "[Yours truly](https://herve.niderb.fr) used this very recipe for their submissions to several speaker diarization benchmarks organized in 2022. I reached:\n", + "\n", + "* 6th place at [VoxSRC 2022](https://mm.kaist.ac.kr/datasets/voxceleb/voxsrc) speaker diarization challenge\n", + "* 1st place at [Ego4D 2022](https://ego4d-data.org/) audio-only speaker diarization challenge\n", + "* 1st place at [Albayzin 2022](http://catedrartve.unizar.es/albayzin2022results.html) speaker diarization challenge\n", + "\n", + "The [technical report](https://huggingface.co/pyannote/speaker-diarization/resolve/main/technical_report_2.1.pdf) contains a detailed description of the pipeline, as well as an extensive evaluation of its performance on multiple benchmarking datasets.\n", + "\n", + "For technical questions and bug reports, please check [pyannote.audio](https://github.com/pyannote/pyannote-audio) Github repository so that my (or anyone's) public answer benefits other people as well. \n", + "\n", + "For scientific consulting enquiries, please contact [me](herve@niderb.fr)." + ], + "metadata": { + "id": "muYEOZ36VJo5" + } + } + ] +} \ No newline at end of file From e469e066b7da846368351eaf0ba5f2ed7f3b5fde Mon Sep 17 00:00:00 2001 From: =?UTF-8?q?Herv=C3=A9=20BREDIN?= Date: Fri, 2 Dec 2022 14:58:52 +0100 Subject: [PATCH 018/112] doc: add link to adaptation tutorial --- README.md | 1 + 1 file changed, 1 insertion(+) diff --git a/README.md b/README.md index 8c5a13d72..40c195b88 100644 --- a/README.md +++ b/README.md @@ -67,6 +67,7 @@ pip install pyannote.audio - Pipelines - Available pipelines explained - [Applying a pretrained pipeline](tutorials/applying_a_pipeline.ipynb) + - [Adapting a pretrained pipeline to your own data](tutorials/adapting_pretrained_pipeline.ipynb) - [Training a pipeline](tutorials/voice_activity_detection.ipynb) - Contributing - [Adding a new model](tutorials/add_your_own_model.ipynb) From 840562795e0ff62c510129fd2e61c4441c62aa10 Mon Sep 17 00:00:00 2001 From: =?UTF-8?q?Herv=C3=A9=20BREDIN?= Date: Fri, 2 Dec 2022 15:14:08 +0100 Subject: [PATCH 019/112] doc: add "How I reached..." blog post --- README.md | 1 + 1 file changed, 1 insertion(+) diff --git a/README.md b/README.md index 40c195b88..7930683f0 100644 --- a/README.md +++ b/README.md @@ -75,6 +75,7 @@ pip install pyannote.audio - Adding a new pipeline - Sharing pretrained models and pipelines - Blog + - 2022-12-02 > ["How I reached 1st place at Ego4D 2022, 1st place at Albayzin 2022, and 6th place at VoxSRC 2022 speaker diarization challenges"](tutorials/adapting_pretrained_pipeline.ipynb) - 2022-10-23 > ["One speaker segmentation model to rule them all"](https://herve.niderb.fr/fastpages/2022/10/23/One-speaker-segmentation-model-to-rule-them-all) - 2021-08-05 > ["Streaming voice activity detection with pyannote.audio"](https://herve.niderb.fr/fastpages/2021/08/05/Streaming-voice-activity-detection-with-pyannote.html) - Miscellaneous From 23cb4d65174cd479161a0599d0f91f37ee41a462 Mon Sep 17 00:00:00 2001 From: =?UTF-8?q?Herv=C3=A9=20BREDIN?= Date: Fri, 2 Dec 2022 15:25:59 +0100 Subject: [PATCH 020/112] doc: update "bad result" FAQ --- FAQ.md | 10 +++++----- 1 file changed, 5 insertions(+), 5 deletions(-) diff --git a/FAQ.md b/FAQ.md index a2d3e95ba..700b63746 100644 --- a/FAQ.md +++ b/FAQ.md @@ -18,8 +18,8 @@ That being said, this whole authentication process does not prevent you from usi ## **[Pretrained pipelines](https://huggingface.co/models?other=pyannote-audio-pipeline) do not produce good results on my data. What can I do?** -1. [Annotate](https://github.com/pyannote/pyannote-audio/blob/develop/tutorials/prodigy.md) dozens of conversations manually and separate them into development and test subsets in [`pyannote.database`](https://github.com/pyannote/pyannote-database#speaker-diarization). -2. [Optimize the hyper-parameters](https://github.com/pyannote/pyannote-audio/blob/develop/tutorials/voice_activity_detection.ipynb) of the pretained pipeline using the development set. If performance is still not good enough, go to step 3. -3. Annotate hundreds of conversations manually and set them up as training subset in `pyannote.database`. -4. [Fine-tune](https://github.com/pyannote/pyannote-audio/blob/develop/tutorials/training_a_model.ipynb) the models (on which the pipeline relies) using the training set. -5. [Optimize the hyper-parameters](https://github.com/pyannote/pyannote-audio/blob/develop/tutorials/voice_activity_detection.ipynb) of the pipeline using the fine-tuned models using the development set. If performance is still not good enough, go back to step 3. +1. Manually annotate dozens of conversations as precisely as possible. +2. Separate them into train (80%), development (10%) and test (10%) subsets. +3. Format the data in [`pyannote.database`](https://github.com/pyannote/pyannote-database#speaker-diarization) format. +4. Follow [this recipe](https://github.com/pyannote/pyannote-audio/blob/develop/tutorials/adapting_pretrained_pipeline.ipynb). +5. Enjoy. From cab76ecf47debe7feeed985c9c998993c1fb5cf4 Mon Sep 17 00:00:00 2001 From: =?UTF-8?q?Herv=C3=A9=20BREDIN?= Date: Fri, 2 Dec 2022 15:26:42 +0100 Subject: [PATCH 021/112] Update FAQ.md --- FAQ.md | 2 +- 1 file changed, 1 insertion(+), 1 deletion(-) diff --git a/FAQ.md b/FAQ.md index 700b63746..3b50069a4 100644 --- a/FAQ.md +++ b/FAQ.md @@ -20,6 +20,6 @@ That being said, this whole authentication process does not prevent you from usi 1. Manually annotate dozens of conversations as precisely as possible. 2. Separate them into train (80%), development (10%) and test (10%) subsets. -3. Format the data in [`pyannote.database`](https://github.com/pyannote/pyannote-database#speaker-diarization) format. +3. Setup the data for use with [`pyannote.database`](https://github.com/pyannote/pyannote-database#speaker-diarization). 4. Follow [this recipe](https://github.com/pyannote/pyannote-audio/blob/develop/tutorials/adapting_pretrained_pipeline.ipynb). 5. Enjoy. From 09df8b9704019a97eee3270a22749c0e04f441c7 Mon Sep 17 00:00:00 2001 From: =?UTF-8?q?Herv=C3=A9=20BREDIN?= Date: Wed, 7 Dec 2022 12:57:02 +0100 Subject: [PATCH 022/112] fix: rewind IOBase after reading (#1180) Fixes #1179 --- pyannote/audio/core/io.py | 5 +++++ 1 file changed, 5 insertions(+) diff --git a/pyannote/audio/core/io.py b/pyannote/audio/core/io.py index 49175f531..34358c08f 100644 --- a/pyannote/audio/core/io.py +++ b/pyannote/audio/core/io.py @@ -277,6 +277,10 @@ def __call__(self, file: AudioFile) -> Tuple[Tensor, int]: elif "audio" in file: waveform, sample_rate = torchaudio.load(file["audio"]) + # rewind if needed + if isinstance(file["audio"], IOBase): + file["audio"].seek(0) + channel = file.get("channel", None) if channel is not None: @@ -384,6 +388,7 @@ def crop( data, _ = torchaudio.load( file["audio"], frame_offset=start_frame, num_frames=num_frames ) + # rewind if needed if isinstance(file["audio"], IOBase): file["audio"].seek(0) except RuntimeError: From 8217ae2442a64b49f37b7505e988be901ea1ccfd Mon Sep 17 00:00:00 2001 From: FrenchKrab <14005967+FrenchKrab@users.noreply.github.com> Date: Thu, 8 Dec 2022 13:00:04 +0100 Subject: [PATCH 023/112] setup: switch to torchmetrics 0.11 --- pyannote/audio/tasks/embedding/mixins.py | 5 +++-- pyannote/audio/tasks/segmentation/mixins.py | 14 ++++++++++++-- requirements.txt | 2 +- 3 files changed, 16 insertions(+), 5 deletions(-) diff --git a/pyannote/audio/tasks/embedding/mixins.py b/pyannote/audio/tasks/embedding/mixins.py index 0bff9d3d7..700008cb1 100644 --- a/pyannote/audio/tasks/embedding/mixins.py +++ b/pyannote/audio/tasks/embedding/mixins.py @@ -30,7 +30,8 @@ SpeakerDiarizationProtocol, SpeakerVerificationProtocol, ) -from torchmetrics import AUROC, Metric +from torchmetrics import Metric +from torchmetrics.classification import BinaryAUROC from tqdm import tqdm from pyannote.audio.core.task import Problem, Resolution, Specifications @@ -127,7 +128,7 @@ def setup(self, stage: Optional[str] = None): def default_metric( self, ) -> Union[Metric, Sequence[Metric], Dict[str, Metric]]: - return AUROC(compute_on_step=False) + return BinaryAUROC(compute_on_cpu=True) def train__iter__(self): """Iterate over training samples diff --git a/pyannote/audio/tasks/segmentation/mixins.py b/pyannote/audio/tasks/segmentation/mixins.py index ea1960ca3..b45d85d1f 100644 --- a/pyannote/audio/tasks/segmentation/mixins.py +++ b/pyannote/audio/tasks/segmentation/mixins.py @@ -31,7 +31,8 @@ import torch from pyannote.core import Segment, SlidingWindowFeature from torch.utils.data._utils.collate import default_collate -from torchmetrics import AUROC, Metric +from torchmetrics import Metric +from torchmetrics.classification import BinaryAUROC, MultilabelAUROC, MulticlassAUROC from pyannote.audio.core.io import AudioFile from pyannote.audio.core.task import Problem @@ -129,7 +130,16 @@ def default_metric( """Returns macro-average of the area under the ROC curve""" num_classes = len(self.specifications.classes) - return AUROC(num_classes, pos_label=1, average="macro", compute_on_step=False) + if self.specifications.problem == Problem.BINARY_CLASSIFICATION: + return BinaryAUROC(compute_on_cpu=True) + elif self.specifications.problem == Problem.MULTI_LABEL_CLASSIFICATION: + return MultilabelAUROC(num_classes, average="macro", compute_on_cpu=True) + elif self.specifications.problem == Problem.MONO_LABEL_CLASSIFICATION: + return MulticlassAUROC(num_classes, average="macro", compute_on_cpu=True) + else: + raise RuntimeError( + f"The {self.specifications.problem} problem type hasn't been given a default segmentation metric yet." + ) def adapt_y(self, one_hot_y: np.ndarray) -> np.ndarray: raise NotImplementedError( diff --git a/requirements.txt b/requirements.txt index 48b585c20..dd7cc43e9 100644 --- a/requirements.txt +++ b/requirements.txt @@ -18,5 +18,5 @@ speechbrain >=0.5.12,<0.6 torch >=1.9 torch_audiomentations >= 0.11.0 torchaudio >=0.10,<1.0 -torchmetrics >=0.6,<1.0 +torchmetrics >=0.11,<1.0 typing_extensions From 9cc8b75777409b9b6f6f4b8d58555c86352b55bc Mon Sep 17 00:00:00 2001 From: pajowu Date: Wed, 14 Dec 2022 22:50:53 +0100 Subject: [PATCH 024/112] BREAKING: add progress hook to pipelines MIME-Version: 1.0 Content-Type: text/plain; charset=UTF-8 Content-Transfer-Encoding: 8bit Co-authored-by: Hervé BREDIN --- notebook/inference.ipynb | 13 ---- pyannote/audio/cli/evaluate.py | 9 ++- pyannote/audio/core/inference.py | 69 +++++++++--------- pyannote/audio/core/pipeline.py | 14 +--- pyannote/audio/pipelines/multilabel.py | 19 +++-- .../pipelines/overlapped_speech_detection.py | 18 +++-- pyannote/audio/pipelines/resegmentation.py | 18 +++-- pyannote/audio/pipelines/segmentation.py | 29 +++++++- .../audio/pipelines/speaker_diarization.py | 35 ++++++--- pyannote/audio/pipelines/utils/hook.py | 71 ++++++++++++++++++- .../pipelines/voice_activity_detection.py | 19 +++-- .../audio/tasks/segmentation/segmentation.py | 6 +- pyannote/audio/utils/progress.py | 44 ------------ requirements.txt | 1 + setup.cfg | 1 - 15 files changed, 229 insertions(+), 137 deletions(-) delete mode 100644 pyannote/audio/utils/progress.py diff --git a/notebook/inference.ipynb b/notebook/inference.ipynb index 77e02a27c..b33e64282 100644 --- a/notebook/inference.ipynb +++ b/notebook/inference.ipynb @@ -104,19 +104,6 @@ "scores = inference.crop(dev_file, Segment(10, 15))" ] }, - { - "cell_type": "code", - "execution_count": null, - "metadata": {}, - "outputs": [], - "source": [ - "# inference with progress bar\n", - "inference = Inference(model, step=0.1, batch_size=32, progress_hook='Processing...')\n", - "scores = inference(dev_file)\n", - "inference = Inference(model, step=0.1, batch_size=1, progress_hook=True)\n", - "scores = inference.crop(dev_file, Segment(10, 15))" - ] - }, { "cell_type": "markdown", "metadata": {}, diff --git a/pyannote/audio/cli/evaluate.py b/pyannote/audio/cli/evaluate.py index 57f5c0149..a5ab682c5 100644 --- a/pyannote/audio/cli/evaluate.py +++ b/pyannote/audio/cli/evaluate.py @@ -53,14 +53,17 @@ def evaluate(cfg: DictConfig) -> Optional[float]: main_task = progress.add_task(protocol.name, total=len(files)) file_task = progress.add_task("Processing", total=1.0) - def progress_hook(completed: int, total: int): + def progress_hook(completed: int = None, total: int = None): progress.update(file_task, completed=completed / total) - inference = Inference(model, device=device, progress_hook=progress_hook) + inference = Inference(model, device=device) warm_up = cfg.warm_up / inference.duration def hypothesis(file: ProtocolFile): - return Inference.trim(binarize(inference(file)), warm_up=(warm_up, warm_up)) + return Inference.trim( + binarize(inference(file, hook=progress_hook)), + warm_up=(warm_up, warm_up), + ) metric = DiscreteDiarizationErrorRate() diff --git a/pyannote/audio/core/inference.py b/pyannote/audio/core/inference.py index b664174b5..a9d5f5f83 100644 --- a/pyannote/audio/core/inference.py +++ b/pyannote/audio/core/inference.py @@ -23,7 +23,7 @@ import math import warnings from pathlib import Path -from typing import Any, Callable, List, Optional, Text, Tuple, Union +from typing import Callable, List, Optional, Text, Tuple, Union import numpy as np import torch @@ -35,7 +35,6 @@ from pyannote.audio.core.model import Model from pyannote.audio.core.task import Resolution from pyannote.audio.utils.permutation import mae_cost_func, permutate -from pyannote.audio.utils.progress import InferenceProgressHook TaskName = Union[Text, None] @@ -67,12 +66,6 @@ class Inference: When a callable is provided, it is applied to the model output, just before aggregation. Takes a (num_chunks, num_frames, dimension) numpy array as input and returns a modified (num_chunks, num_frames, other_dimension) numpy array passed to overlap-add aggregation. - progress_hook : {callable, True, str}, optional - When a callable is provided, it is called everytime a batch is processed - with two integer arguments: - - the number of chunks that have been processed so far - - the total number of chunks - Set to True (or a descriptive string) to display a tqdm progress bar. use_auth_token : str, optional When loading a private huggingface.co model, set `use_auth_token` to True or to a string containing your hugginface.co authentication @@ -89,7 +82,6 @@ def __init__( step: float = None, batch_size: int = 32, pre_aggregation_hook: Callable[[np.ndarray], np.ndarray] = None, - progress_hook: Union[bool, Text, Callable[[int, int], Any]] = False, use_auth_token: Union[Text, None] = None, ): @@ -159,16 +151,6 @@ def __init__( self.batch_size = batch_size - if callable(progress_hook): - pass - elif isinstance(progress_hook, Text): - progress_hook = InferenceProgressHook(desc=progress_hook) - elif progress_hook: - progress_hook = InferenceProgressHook() - else: - progress_hook = None - self.progress_hook = progress_hook - def infer(self, chunks: torch.Tensor) -> np.ndarray: """Forward pass @@ -199,7 +181,12 @@ def infer(self, chunks: torch.Tensor) -> np.ndarray: return outputs.cpu().numpy() - def slide(self, waveform: torch.Tensor, sample_rate: int) -> SlidingWindowFeature: + def slide( + self, + waveform: torch.Tensor, + sample_rate: int, + hook: Optional[Callable], + ) -> SlidingWindowFeature: """Slide model on a waveform Parameters @@ -208,6 +195,11 @@ def slide(self, waveform: torch.Tensor, sample_rate: int) -> SlidingWindowFeatur Waveform. sample_rate : int Sample rate. + hook: Optional[Callable] + When a callable is provided, it is called everytime a batch is + processed with two keyword arguments: + - `completed`: the number of chunks that have been processed so far + - `total`: the total number of chunks Returns ------- @@ -218,7 +210,7 @@ def slide(self, waveform: torch.Tensor, sample_rate: int) -> SlidingWindowFeatur window_size: int = round(self.duration * sample_rate) step_size: int = round(self.step * sample_rate) - num_channels, num_samples = waveform.shape + _, num_samples = waveform.shape specifications = self.model.specifications resolution = specifications.resolution @@ -248,15 +240,15 @@ def slide(self, waveform: torch.Tensor, sample_rate: int) -> SlidingWindowFeatur outputs: Union[List[np.ndarray], np.ndarray] = list() - if self.progress_hook is not None: - self.progress_hook(0, num_chunks + has_last_chunk) + if hook is not None: + hook(completed=0, total=num_chunks + has_last_chunk) # slide over audio chunks in batch for c in np.arange(0, num_chunks, self.batch_size): batch: torch.Tensor = chunks[c : c + self.batch_size] outputs.append(self.infer(batch)) - if self.progress_hook is not None: - self.progress_hook(c + self.batch_size, num_chunks + has_last_chunk) + if hook is not None: + hook(completed=c + self.batch_size, total=num_chunks + has_last_chunk) # process orphan last chunk if has_last_chunk: @@ -268,9 +260,10 @@ def slide(self, waveform: torch.Tensor, sample_rate: int) -> SlidingWindowFeatur last_output = np.pad(last_output, ((0, 0), (0, pad), (0, 0))) outputs.append(last_output) - if self.progress_hook is not None: - self.progress_hook( - num_chunks + has_last_chunk, num_chunks + has_last_chunk + if hook is not None: + hook( + completed=num_chunks + has_last_chunk, + total=num_chunks + has_last_chunk, ) outputs = np.vstack(outputs) @@ -309,13 +302,20 @@ def slide(self, waveform: torch.Tensor, sample_rate: int) -> SlidingWindowFeatur return aggregated - def __call__(self, file: AudioFile) -> Union[SlidingWindowFeature, np.ndarray]: + def __call__( + self, file: AudioFile, hook: Optional[Callable] = None + ) -> Union[SlidingWindowFeature, np.ndarray]: """Run inference on a whole file Parameters ---------- file : AudioFile Audio file. + hook : callable, optional + When a callable is provided, it is called everytime a batch is processed + with two keyword arguments: + - `completed`: the number of chunks that have been processed so far + - `total`: the total number of chunks Returns ------- @@ -324,11 +324,10 @@ def __call__(self, file: AudioFile) -> Union[SlidingWindowFeature, np.ndarray]: and `np.ndarray` if is set to "whole". """ - waveform, sample_rate = self.model.audio(file) if self.window == "sliding": - return self.slide(waveform, sample_rate) + return self.slide(waveform, sample_rate, hook=hook) return self.infer(waveform[None])[0] @@ -337,6 +336,7 @@ def crop( file: AudioFile, chunk: Union[Segment, List[Segment]], duration: Optional[float] = None, + hook: Optional[Callable] = None, ) -> Union[SlidingWindowFeature, np.ndarray]: """Run inference on a chunk or a list of chunks @@ -354,6 +354,11 @@ def crop( Enforce chunk duration (in seconds). This is a hack to avoid rounding errors that may result in a different number of audio samples for two chunks of the same duration. + hook : callable, optional + When a callable is provided, it is called everytime a batch is processed + with two keyword arguments: + - `completed`: the number of chunks that have been processed so far + - `total`: the total number of chunks Returns ------- @@ -381,7 +386,7 @@ def crop( waveform, sample_rate = self.model.audio.crop( file, chunk, duration=duration ) - output = self.slide(waveform, sample_rate) + output = self.slide(waveform, sample_rate, hook=hook) frames = output.sliding_window shifted_frames = SlidingWindow( diff --git a/pyannote/audio/core/pipeline.py b/pyannote/audio/core/pipeline.py index 1c28e52f5..8d55b5762 100644 --- a/pyannote/audio/core/pipeline.py +++ b/pyannote/audio/core/pipeline.py @@ -171,18 +171,10 @@ def from_pretrained( @staticmethod def setup_hook(file: AudioFile, hook: Optional[Callable] = None) -> Callable: + def noop(*args, **kwargs): + return - if hook is None: - - def hook(*args, **kwargs): - return - - hook.missing = True - else: - hook = partial(hook, file=file) - hook.missing = False - - return hook + return partial(hook or noop, file=file) def default_parameters(self): raise NotImplementedError() diff --git a/pyannote/audio/pipelines/multilabel.py b/pyannote/audio/pipelines/multilabel.py index 0f6e3211d..4aef3e249 100644 --- a/pyannote/audio/pipelines/multilabel.py +++ b/pyannote/audio/pipelines/multilabel.py @@ -24,7 +24,7 @@ # Hadrien TITEUX - https://github.com/hadware # Hervé BREDIN - http://herve.niderb.fr - +from functools import partial from typing import Callable, Optional, Text, Union from pyannote.core import Annotation, SlidingWindowFeature @@ -163,8 +163,13 @@ def apply(self, file: AudioFile, hook: Optional[Callable] = None) -> Annotation: file : AudioFile Processed file. hook : callable, optional - Hook called after each major step of the pipeline with the following - signature: hook("step_name", step_artefact, file=file) + Callback called after each major steps of the pipeline as follows: + hook(step_name, # human-readable name of current step + step_artefact, # artifact generated by current step + file=file) # file being processed + Time-consuming steps call `hook` multiple times with the same `step_name` + and additional `completed` and `total` keyword arguments usable to track + progress of current step. Returns ------- @@ -181,10 +186,14 @@ def apply(self, file: AudioFile, hook: Optional[Callable] = None) -> Annotation: if self.CACHED_SEGMENTATION in file: segmentations = file[self.CACHED_SEGMENTATION] else: - segmentations = self._segmentation(file) + segmentations = self._segmentation( + file, hook=partial(hook, "segmentation", None) + ) file[self.CACHED_SEGMENTATION] = segmentations else: - segmentations: SlidingWindowFeature = self._segmentation(file) + segmentations: SlidingWindowFeature = self._segmentation( + file, hook=partial(hook, "segmentation", None) + ) hook("segmentation", segmentations) diff --git a/pyannote/audio/pipelines/overlapped_speech_detection.py b/pyannote/audio/pipelines/overlapped_speech_detection.py index 2d07a76c7..c3f4f8828 100644 --- a/pyannote/audio/pipelines/overlapped_speech_detection.py +++ b/pyannote/audio/pipelines/overlapped_speech_detection.py @@ -22,6 +22,7 @@ """Overlapped speech detection pipelines""" +from functools import partial from typing import Callable, Optional, Text, Union import numpy as np @@ -187,8 +188,13 @@ def apply(self, file: AudioFile, hook: Optional[Callable] = None) -> Annotation: file : AudioFile Processed file. hook : callable, optional - Hook called after each major step of the pipeline with the following - signature: hook("step_name", step_artefact, file=file) + Callback called after each major steps of the pipeline as follows: + hook(step_name, # human-readable name of current step + step_artefact, # artifact generated by current step + file=file) # file being processed + Time-consuming steps call `hook` multiple times with the same `step_name` + and additional `completed` and `total` keyword arguments usable to track + progress of current step. Returns ------- @@ -205,10 +211,14 @@ def apply(self, file: AudioFile, hook: Optional[Callable] = None) -> Annotation: if self.CACHED_SEGMENTATION in file: segmentations = file[self.CACHED_SEGMENTATION] else: - segmentations = self._segmentation(file) + segmentations = self._segmentation( + file, hook=partial(hook, "segmentation", None) + ) file[self.CACHED_SEGMENTATION] = segmentations else: - segmentations: SlidingWindowFeature = self._segmentation(file) + segmentations: SlidingWindowFeature = self._segmentation( + file, hook=partial(hook, "segmentation", None) + ) hook("segmentation", segmentations) diff --git a/pyannote/audio/pipelines/resegmentation.py b/pyannote/audio/pipelines/resegmentation.py index 7e3969a2a..4c786307f 100644 --- a/pyannote/audio/pipelines/resegmentation.py +++ b/pyannote/audio/pipelines/resegmentation.py @@ -22,6 +22,7 @@ """Resegmentation pipeline""" +from functools import partial from typing import Callable, Optional, Text, Union import numpy as np @@ -151,8 +152,13 @@ def apply( diarization : Annotation, optional Input diarization. Defaults to file[self.diarization]. hook : callable, optional - Hook called after each major step of the pipeline with the following - signature: hook("step_name", step_artefact, file=file) + Callback called after each major steps of the pipeline as follows: + hook(step_name, # human-readable name of current step + step_artefact, # artifact generated by current step + file=file) # file being processed + Time-consuming steps call `hook` multiple times with the same `step_name` + and additional `completed` and `total` keyword arguments usable to track + progress of current step. Returns ------- @@ -168,10 +174,14 @@ def apply( if self.CACHED_SEGMENTATION in file: segmentations = file[self.CACHED_SEGMENTATION] else: - segmentations = self._segmentation(file) + segmentations = self._segmentation( + file, hook=partial(hook, "segmentation", None) + ) file[self.CACHED_SEGMENTATION] = segmentations else: - segmentations: SlidingWindowFeature = self._segmentation(file) + segmentations: SlidingWindowFeature = self._segmentation( + file, hook=partial(hook, "segmentation", None) + ) hook("segmentation", segmentations) diff --git a/pyannote/audio/pipelines/segmentation.py b/pyannote/audio/pipelines/segmentation.py index 34eb207c9..8c28ebbe8 100644 --- a/pyannote/audio/pipelines/segmentation.py +++ b/pyannote/audio/pipelines/segmentation.py @@ -23,6 +23,7 @@ """Speaker segmentation pipeline""" import math +from functools import partial from typing import Callable, Optional, Text, Union import networkx as nx @@ -255,6 +256,26 @@ def stitchable_components( def apply( self, file: AudioFile, hook: Optional[Callable] = None ) -> SlidingWindowFeature: + """Apply speaker segmentation + + Parameters + ---------- + file : AudioFile + Processed file. + hook : callable, optional + Callback called after each major steps of the pipeline as follows: + hook(step_name, # human-readable name of current step + step_artefact, # artifact generated by current step + file=file) # file being processed + Time-consuming steps call `hook` multiple times with the same `step_name` + and additional `completed` and `total` keyword arguments usable to track + progress of current step. + + Returns + ------- + segmentation : Annotation + Speaker segmentation + """ hook = self.setup_hook(file, hook=hook) @@ -264,10 +285,14 @@ def apply( if self.CACHED_SEGMENTATION in file: segmentations = file[self.CACHED_SEGMENTATION] else: - segmentations = self._segmentation(file) + segmentations = self._segmentation( + file, hook=partial(hook, "segmentation", None) + ) file[self.CACHED_SEGMENTATION] = segmentations else: - segmentations: SlidingWindowFeature = self._segmentation(file) + segmentations: SlidingWindowFeature = self._segmentation( + file, hook=partial(hook, "segmentation", None) + ) hook("segmentation", segmentations) diff --git a/pyannote/audio/pipelines/speaker_diarization.py b/pyannote/audio/pipelines/speaker_diarization.py index 348e1cf11..8245ae646 100644 --- a/pyannote/audio/pipelines/speaker_diarization.py +++ b/pyannote/audio/pipelines/speaker_diarization.py @@ -22,6 +22,7 @@ """Speaker diarization pipelines""" +import functools import itertools import math from typing import Callable, Optional, Text, Union @@ -212,25 +213,30 @@ def classes(self): def CACHED_SEGMENTATION(self): return "training_cache/segmentation" - def get_segmentations(self, file) -> SlidingWindowFeature: + def get_segmentations(self, file, hook=None) -> SlidingWindowFeature: """Apply segmentation model Parameter --------- file : AudioFile + hook : Optional[Callable] Returns ------- segmentations : (num_chunks, num_frames, num_speakers) SlidingWindowFeature """ + + if hook is not None: + hook = functools.partial(hook, "segmentation", None) + if self.training: if self.CACHED_SEGMENTATION in file: segmentations = file[self.CACHED_SEGMENTATION] else: - segmentations = self._segmentation(file) + segmentations = self._segmentation(file, hook=hook) file[self.CACHED_SEGMENTATION] = segmentations else: - segmentations: SlidingWindowFeature = self._segmentation(file) + segmentations: SlidingWindowFeature = self._segmentation(file, hook=hook) return segmentations @@ -239,6 +245,7 @@ def get_embeddings( file, binary_segmentations: SlidingWindowFeature, exclude_overlap: bool = False, + hook: Optional[Callable] = None, ): """Extract embeddings for each (chunk, speaker) pair @@ -250,6 +257,8 @@ def get_embeddings( exclude_overlap : bool, optional Exclude overlapping speech regions when extracting embeddings. In case non-overlapping speech is too short, use the whole speech. + hook: Optional[Callable] + Called during embeddings after every batch to report the progress Returns ------- @@ -272,7 +281,7 @@ def get_embeddings( return cache["embeddings"] duration = binary_segmentations.sliding_window.duration - num_chunks, num_frames, _ = binary_segmentations.data.shape + num_chunks, num_frames, num_speakers = binary_segmentations.data.shape if exclude_overlap: # minimum number of samples needed to extract an embedding @@ -335,9 +344,11 @@ def iter_waveform_and_mask(): fillvalue=(None, None), ) + batch_count = math.ceil(num_chunks * num_speakers / self.embedding_batch_size) + embedding_batches = [] - for batch in batches: + for i, batch in enumerate(batches, 1): waveforms, masks = zip(*filter(lambda b: b[0] is not None, batch)) waveform_batch = torch.vstack(waveforms) @@ -353,6 +364,9 @@ def iter_waveform_and_mask(): embedding_batches.append(embedding_batch) + if hook is not None: + hook("embeddings", embedding_batch, total=batch_count, completed=i) + embedding_batches = np.vstack(embedding_batches) embeddings = rearrange(embedding_batches, "(c s) d -> c s d", c=num_chunks) @@ -440,8 +454,12 @@ def apply( max_speakers : int, optional Maximum number of speakers. Has no effect when `num_speakers` is provided. hook : callable, optional - Hook called after each major step of the pipeline with the following - signature: hook("step_name", step_artefact, file=file) + Callback called after each major steps of the pipeline as follows: + hook(step_name, # human-readable name of current step + step_artefact, # artifact generated by current step + file=file) # file being processed + Additionnally, time-consuming steps may call `hook` multiple times with the + same `step_name`, and `completed` increasing progressively from 0 to `total`. Returns ------- @@ -458,7 +476,7 @@ def apply( max_speakers=max_speakers, ) - segmentations = self.get_segmentations(file) + segmentations = self.get_segmentations(file, hook=hook) hook("segmentation", segmentations) # shape: (num_chunks, num_frames, local_num_speakers) @@ -487,6 +505,7 @@ def apply( file, binarized_segmentations, exclude_overlap=self.embedding_exclude_overlap, + hook=hook, ) hook("embeddings", embeddings) # shape: (num_chunks, local_num_speakers, dimension) diff --git a/pyannote/audio/pipelines/utils/hook.py b/pyannote/audio/pipelines/utils/hook.py index 37891f5fe..443ef9ac4 100644 --- a/pyannote/audio/pipelines/utils/hook.py +++ b/pyannote/audio/pipelines/utils/hook.py @@ -23,6 +23,73 @@ from copy import deepcopy from typing import Any, Mapping, Optional, Text +from rich.progress import ( + BarColumn, + Progress, + TaskProgressColumn, + TextColumn, + TimeRemainingColumn, +) -def logging_hook(key: Text, value: Any, file: Optional[Mapping] = None): - file[key] = deepcopy(value) + +def logging_hook( + step_name: Text, + step_artifact: Any, + file: Optional[Mapping] = None, + completed: Optional[int] = None, + total: Optional[int] = None, +): + """Hook to save step_artifact as file[step_name] + + Useful for debugging purposes + """ + + if completed is None: + file[step_name] = deepcopy(step_artifact) + + +class ProgressHook: + """Hook to show progress of each internal step + + Example + ------- + pipeline = Pipeline.from_pretrained("pyannote/speaker-diarization") + with ProgressHook() as hook: + output = pipeline(file, hook=hook) + """ + + def __enter__(self): + + self.progress = Progress( + TextColumn("[progress.description]{task.description}"), + BarColumn(), + TaskProgressColumn(), + TimeRemainingColumn(elapsed_when_finished=True), + ) + self.progress.start() + return self + + def __exit__(self, *args): + self.progress.stop() + + def __call__( + self, + step_name: Text, + step_artifact: Any, + file: Optional[Mapping] = None, + total: Optional[int] = None, + completed: Optional[int] = None, + ): + + if completed is None: + completed = total = 1 + + if not hasattr(self, "step_name") or step_name != self.step_name: + self.step_name = step_name + self.step = self.progress.add_task(self.step_name) + + self.progress.update(self.step, completed=completed, total=total) + + # force refresh when completed + if completed >= total: + self.progress.refresh() diff --git a/pyannote/audio/pipelines/voice_activity_detection.py b/pyannote/audio/pipelines/voice_activity_detection.py index b146758ae..aa3e15903 100644 --- a/pyannote/audio/pipelines/voice_activity_detection.py +++ b/pyannote/audio/pipelines/voice_activity_detection.py @@ -24,6 +24,7 @@ import tempfile from copy import deepcopy +from functools import partial from types import MethodType from typing import Callable, Optional, Text, Union @@ -173,8 +174,13 @@ def apply(self, file: AudioFile, hook: Optional[Callable] = None) -> Annotation: file : AudioFile Processed file. hook : callable, optional - Hook called after each major step of the pipeline with the following - signature: hook("step_name", step_artefact, file=file) + Callback called after each major steps of the pipeline as follows: + hook(step_name, # human-readable name of current step + step_artefact, # artifact generated by current step + file=file) # file being processed + Time-consuming steps call `hook` multiple times with the same `step_name` + and additional `completed` and `total` keyword arguments usable to track + progress of current step. Returns ------- @@ -191,10 +197,14 @@ def apply(self, file: AudioFile, hook: Optional[Callable] = None) -> Annotation: if self.CACHED_SEGMENTATION in file: segmentations = file[self.CACHED_SEGMENTATION] else: - segmentations = self._segmentation(file) + segmentations = self._segmentation( + file, hook=partial(hook, "segmentation", None) + ) file[self.CACHED_SEGMENTATION] = segmentations else: - segmentations: SlidingWindowFeature = self._segmentation(file) + segmentations: SlidingWindowFeature = self._segmentation( + file, hook=partial(hook, "segmentation", None) + ) hook("segmentation", segmentations) @@ -352,7 +362,6 @@ def configure_optimizers(model): vad_model, device=self.inference.device, batch_size=self.inference.batch_size, - progress_hook=self.inference.progress_hook, ) file["vad"] = inference(file) diff --git a/pyannote/audio/tasks/segmentation/segmentation.py b/pyannote/audio/tasks/segmentation/segmentation.py index c79c4a99e..def43eb31 100644 --- a/pyannote/audio/tasks/segmentation/segmentation.py +++ b/pyannote/audio/tasks/segmentation/segmentation.py @@ -429,15 +429,15 @@ def main(protocol: str, subset: str = "test", model: str = "pyannote/segmentatio main_task = progress.add_task(protocol.name, total=len(files)) file_task = progress.add_task("Processing", total=1.0) - def progress_hook(completed: int, total: int): + def progress_hook(completed: int = None, total: int = None): progress.update(file_task, completed=completed / total) - inference = Inference(model, device=device, progress_hook=progress_hook) + inference = Inference(model, device=device) for file in files: progress.update(file_task, description=file["uri"]) reference = file["annotation"] - hypothesis = binarize(inference(file)) + hypothesis = binarize(inference(file, hook=progress_hook)) uem = file["annotated"] _ = metric(reference, hypothesis, uem=uem) progress.advance(main_task) diff --git a/pyannote/audio/utils/progress.py b/pyannote/audio/utils/progress.py deleted file mode 100644 index eaf6b661f..000000000 --- a/pyannote/audio/utils/progress.py +++ /dev/null @@ -1,44 +0,0 @@ -# MIT License -# -# Copyright (c) 2021 CNRS -# -# Permission is hereby granted, free of charge, to any person obtaining a copy -# of this software and associated documentation files (the "Software"), to deal -# in the Software without restriction, including without limitation the rights -# to use, copy, modify, merge, publish, distribute, sublicense, and/or sell -# copies of the Software, and to permit persons to whom the Software is -# furnished to do so, subject to the following conditions: -# -# The above copyright notice and this permission notice shall be included in all -# copies or substantial portions of the Software. -# -# THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR -# IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY, -# FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE -# AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER -# LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, -# OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE -# SOFTWARE. - - -from typing import Text - -from tqdm import tqdm - - -class InferenceProgressHook: - """Default inference progress bar""" - - def __init__(self, desc: Text = None): - self.desc = desc - - def __call__(self, chunk_idx, num_chunks): - - if chunk_idx == 0: - self.pbar = tqdm(desc=self.desc, total=num_chunks, unit="chunks") - self.chunk_idx = chunk_idx - - self.pbar.update(chunk_idx - self.chunk_idx) - self.chunk_idx = chunk_idx - if self.chunk_idx == num_chunks: - self.pbar.close() diff --git a/requirements.txt b/requirements.txt index dd7cc43e9..df2e9c1d6 100644 --- a/requirements.txt +++ b/requirements.txt @@ -11,6 +11,7 @@ pyannote.metrics >=3.2,<4.0 pyannote.pipeline >=2.3,<3.0 pytorch_lightning >=1.5.4,<1.7 pytorch_metric_learning >=1.0.0,<2.0 +rich >= 12.0.0 semver >=2.10.2,<3.0 singledispatchmethod soundfile >=0.10.2,<0.12 diff --git a/setup.cfg b/setup.cfg index 4d80b3966..33e56556e 100644 --- a/setup.cfg +++ b/setup.cfg @@ -52,7 +52,6 @@ interactive = prodigy>=1.11.0 cli = hydra-core >=1.1,<1.2 - rich >= 11.1.0,<12.0.0 typer >= 0.4.0,<0.5.0 [options.entry_points] From b00b1f7faa3962d657127ea905c743a2d4388b41 Mon Sep 17 00:00:00 2001 From: =?UTF-8?q?Herv=C3=A9=20BREDIN?= Date: Thu, 15 Dec 2022 12:34:16 +0100 Subject: [PATCH 025/112] fix(pipeline): fix #1166 --- pyannote/audio/pipelines/speaker_diarization.py | 4 ++++ 1 file changed, 4 insertions(+) diff --git a/pyannote/audio/pipelines/speaker_diarization.py b/pyannote/audio/pipelines/speaker_diarization.py index 8245ae646..ac79cb16b 100644 --- a/pyannote/audio/pipelines/speaker_diarization.py +++ b/pyannote/audio/pipelines/speaker_diarization.py @@ -490,6 +490,10 @@ def apply( # shape: (num_frames, 1) # dtype: int + # exit early when no speaker is ever active + if np.nanmax(count.data) == 0.0: + return Annotation(uri=file["uri"]) + # binarize segmentation binarized_segmentations: SlidingWindowFeature = binarize( segmentations, From 01405fd87fd37ebd9a303004860bb68b051d4d3e Mon Sep 17 00:00:00 2001 From: =?UTF-8?q?Herv=C3=A9=20BREDIN?= Date: Wed, 21 Dec 2022 18:47:07 +0100 Subject: [PATCH 026/112] Update changelog.rst --- doc/source/changelog.rst | 9 +++++++++ 1 file changed, 9 insertions(+) diff --git a/doc/source/changelog.rst b/doc/source/changelog.rst index c6a3ff50e..549e40a0e 100644 --- a/doc/source/changelog.rst +++ b/doc/source/changelog.rst @@ -2,6 +2,15 @@ Changelog ######### +Version 2.2 (xxxx-xx-xx) +~~~~~~~~~~~~~~~~~~~~~~~~ + + - feat(pipeline): add progress hook to pipelines + - fix(pipeline): fix support for IOBase audio + - fix(pipeline): fix corner case with no speaker + - setup: add support for soundfile >= 0.11 + - setup: add support for torchmetrics >= 0.11 + Version 2.1 (2022-11-xx) ~~~~~~~~~~~~~~~~~~~~~~~~ From 7a60da9b8e28ad66b89e67e7ce5a9806fd9b781f Mon Sep 17 00:00:00 2001 From: Ewald Enzinger Date: Tue, 3 Jan 2023 13:24:30 +0100 Subject: [PATCH 027/112] fix: add support for MLflow in segmentation task --- pyannote/audio/tasks/segmentation/mixins.py | 16 ++++++++++++---- 1 file changed, 12 insertions(+), 4 deletions(-) diff --git a/pyannote/audio/tasks/segmentation/mixins.py b/pyannote/audio/tasks/segmentation/mixins.py index b45d85d1f..beaa2bc63 100644 --- a/pyannote/audio/tasks/segmentation/mixins.py +++ b/pyannote/audio/tasks/segmentation/mixins.py @@ -30,6 +30,7 @@ import numpy as np import torch from pyannote.core import Segment, SlidingWindowFeature +from pytorch_lightning.loggers import TensorBoardLogger, MLFlowLogger from torch.utils.data._utils.collate import default_collate from torchmetrics import Metric from torchmetrics.classification import BinaryAUROC, MultilabelAUROC, MulticlassAUROC @@ -429,7 +430,7 @@ def validation_step(self, batch, batch_idx: int): ): return - # visualize first 9 validation samples of first batch in Tensorboard + # visualize first 9 validation samples of first batch in Tensorboard/MLflow X = X.cpu().numpy() y = y.float().cpu().numpy() y_pred = y_pred.cpu().numpy() @@ -478,8 +479,15 @@ def validation_step(self, batch, batch_idx: int): plt.tight_layout() - self.model.logger.experiment.add_figure( - f"{self.logging_prefix}ValSamples", fig, self.model.current_epoch - ) + if isinstance(self.model.logger, TensorBoardLogger): + self.model.logger.experiment.add_figure( + f"{self.logging_prefix}ValSamples", fig, self.model.current_epoch + ) + elif isinstance(self.model.logger, MLFlowLogger): + self.model.logger.experiment.log_figure( + run_id=self.model.logger.run_id, + figure=fig, + artifact_file=f"{self.logging_prefix}ValSamples_epoch{self.model.current_epoch}.png", + ) plt.close(fig) From 40783ce0f81b8f7db2120546b6ce5c8e76b7753d Mon Sep 17 00:00:00 2001 From: =?UTF-8?q?Herv=C3=A9=20BREDIN?= Date: Tue, 3 Jan 2023 13:44:56 +0100 Subject: [PATCH 028/112] feat: send pipeline to device with Pipeline.to(device) (#1204) --- doc/source/changelog.rst | 9 +- pyannote/audio/core/inference.py | 13 ++- pyannote/audio/core/pipeline.py | 98 ++++++++++++++++++- pyannote/audio/pipelines/multilabel.py | 7 +- .../pipelines/overlapped_speech_detection.py | 7 +- pyannote/audio/pipelines/resegmentation.py | 3 - pyannote/audio/pipelines/segmentation.py | 3 - .../audio/pipelines/speaker_diarization.py | 18 ++-- .../audio/pipelines/speaker_verification.py | 61 +++++++----- .../pipelines/voice_activity_detection.py | 7 +- 10 files changed, 162 insertions(+), 64 deletions(-) diff --git a/doc/source/changelog.rst b/doc/source/changelog.rst index 549e40a0e..543449ff4 100644 --- a/doc/source/changelog.rst +++ b/doc/source/changelog.rst @@ -2,17 +2,18 @@ Changelog ######### -Version 2.2 (xxxx-xx-xx) -~~~~~~~~~~~~~~~~~~~~~~~~ +Version 2.2.x +~~~~~~~~~~~~~ + - feat(pipeline): (BREAKING) send pipeline to device with Pipeline.to(device) - feat(pipeline): add progress hook to pipelines - fix(pipeline): fix support for IOBase audio - fix(pipeline): fix corner case with no speaker - setup: add support for soundfile >= 0.11 - setup: add support for torchmetrics >= 0.11 -Version 2.1 (2022-11-xx) -~~~~~~~~~~~~~~~~~~~~~~~~ +Version 2.1.1 (2022-10-27) +~~~~~~~~~~~~~~~~~~~~~~~~~~ - BREAKING(pipeline): rewrite speaker diarization pipeline - feat(pipeline): add option to optimize for DER variant diff --git a/pyannote/audio/core/inference.py b/pyannote/audio/core/inference.py index a9d5f5f83..16cdea65c 100644 --- a/pyannote/audio/core/inference.py +++ b/pyannote/audio/core/inference.py @@ -39,7 +39,11 @@ TaskName = Union[Text, None] -class Inference: +class BaseInference: + pass + + +class Inference(BaseInference): """Inference Parameters @@ -151,6 +155,13 @@ def __init__( self.batch_size = batch_size + def to(self, device: torch.device): + """Send internal model to `device`""" + + self.model.to(device) + self.device = device + return self + def infer(self, chunks: torch.Tensor) -> np.ndarray: """Forward pass diff --git a/pyannote/audio/core/pipeline.py b/pyannote/audio/core/pipeline.py index 8d55b5762..f7c83a3e9 100644 --- a/pyannote/audio/core/pipeline.py +++ b/pyannote/audio/core/pipeline.py @@ -22,10 +22,11 @@ import os import warnings +from collections import OrderedDict from collections.abc import Iterator from functools import partial from pathlib import Path -from typing import Callable, List, Optional, Text, Union +from typing import Callable, Dict, List, Optional, Text, Union import yaml from huggingface_hub import hf_hub_download @@ -35,8 +36,9 @@ from pyannote.pipeline import Pipeline as _Pipeline from pyannote.audio import Audio, __version__ +from pyannote.audio.core.inference import BaseInference from pyannote.audio.core.io import AudioFile -from pyannote.audio.core.model import CACHE_DIR +from pyannote.audio.core.model import CACHE_DIR, Model PIPELINE_PARAMS_NAME = "config.yaml" @@ -169,6 +171,83 @@ def from_pretrained( return pipeline + def __init__(self): + super().__init__() + self._models: Dict[str, Model] = OrderedDict() + self._inferences: Dict[str, BaseInference] = OrderedDict() + + def __getattr__(self, name): + """(Advanced) attribute getter + + Adds support for Model and Inference attributes, + which are iterated over by Pipeline.to() method. + + See pyannote.pipeline.Pipeline.__getattr__. + """ + + if "_models" in self.__dict__: + _models = self.__dict__["_models"] + if name in _models: + return _models[name] + + if "_inferences" in self.__dict__: + _inferences = self.__dict__["_inferences"] + if name in _inferences: + return _inferences[name] + + return super().__getattr__(name) + + def __setattr__(self, name, value): + """(Advanced) attribute setter + + Adds support for Model and Inference attributes, + which are iterated over by Pipeline.to() method. + + See pyannote.pipeline.Pipeline.__setattr__. + """ + + def remove_from(*dicts): + for d in dicts: + if name in d: + del d[name] + + _parameters = self.__dict__.get("_parameters") + _instantiated = self.__dict__.get("_instantiated") + _pipelines = self.__dict__.get("_pipelines") + _models = self.__dict__.get("_models") + _inferences = self.__dict__.get("_inferences") + + if isinstance(value, Model): + if _models is None: + msg = "cannot assign models before Pipeline.__init__() call" + raise AttributeError(msg) + remove_from( + self.__dict__, _inferences, _parameters, _instantiated, _pipelines + ) + _models[name] = value + return + + if isinstance(value, BaseInference): + if _inferences is None: + msg = "cannot assign inferences before Pipeline.__init__() call" + raise AttributeError(msg) + remove_from(self.__dict__, _models, _parameters, _instantiated, _pipelines) + _inferences[name] = value + return + + super().__setattr__(name, value) + + def __delattr__(self, name): + + if name in self._models: + del self._models[name] + + elif name in self._inferences: + del self._inferences[name] + + else: + super().__delattr__(name) + @staticmethod def setup_hook(file: AudioFile, hook: Optional[Callable] = None) -> Callable: def noop(*args, **kwargs): @@ -228,3 +307,18 @@ def __call__(self, file: AudioFile, **kwargs): file = ProtocolFile(file, lazy=self.preprocessors) return self.apply(file, **kwargs) + + def to(self, device): + """Send pipeline to `device`""" + + for _, pipeline in self._pipelines.items(): + if hasattr(pipeline, "to"): + _ = pipeline.to(device) + + for _, model in self._models.items(): + _ = model.to(device) + + for _, inference in self._inferences.items(): + _ = inference.to(device) + + return self diff --git a/pyannote/audio/pipelines/multilabel.py b/pyannote/audio/pipelines/multilabel.py index 4aef3e249..18693f14c 100644 --- a/pyannote/audio/pipelines/multilabel.py +++ b/pyannote/audio/pipelines/multilabel.py @@ -37,7 +37,7 @@ from pyannote.audio.utils.metric import MacroAverageFMeasure from ..utils.signal import Binarize -from .utils import PipelineModel, get_devices, get_model +from .utils import PipelineModel, get_model class MultiLabelSegmentation(Pipeline): @@ -93,11 +93,8 @@ def __init__( self.fscore = fscore self.share_min_duration = share_min_duration - # load model and send it to GPU (when available and not already on GPU) + # load model model = get_model(segmentation, use_auth_token=use_auth_token) - if model.device.type == "cpu": - (segmentation_device,) = get_devices(needs=1) - model.to(segmentation_device) self._classes = model.specifications.classes self._segmentation = Inference(model, **inference_kwargs) diff --git a/pyannote/audio/pipelines/overlapped_speech_detection.py b/pyannote/audio/pipelines/overlapped_speech_detection.py index c3f4f8828..9b14ee10f 100644 --- a/pyannote/audio/pipelines/overlapped_speech_detection.py +++ b/pyannote/audio/pipelines/overlapped_speech_detection.py @@ -34,7 +34,7 @@ from pyannote.audio import Inference from pyannote.audio.core.io import AudioFile from pyannote.audio.core.pipeline import Pipeline -from pyannote.audio.pipelines.utils import PipelineModel, get_devices, get_model +from pyannote.audio.pipelines.utils import PipelineModel, get_model from pyannote.audio.utils.signal import Binarize @@ -125,11 +125,8 @@ def __init__( self.segmentation = segmentation - # load model and send it to GPU (when available and not already on GPU) + # load model model = get_model(segmentation, use_auth_token=use_auth_token) - if model.device.type == "cpu": - (segmentation_device,) = get_devices(needs=1) - model.to(segmentation_device) if model.introspection.dimension > 1: inference_kwargs["pre_aggregation_hook"] = lambda scores: np.partition( diff --git a/pyannote/audio/pipelines/resegmentation.py b/pyannote/audio/pipelines/resegmentation.py index 4c786307f..57cf9004b 100644 --- a/pyannote/audio/pipelines/resegmentation.py +++ b/pyannote/audio/pipelines/resegmentation.py @@ -36,7 +36,6 @@ from pyannote.audio.pipelines.utils import ( PipelineModel, SpeakerDiarizationMixin, - get_devices, get_model, ) from pyannote.audio.utils.permutation import mae_cost_func, permutate @@ -96,8 +95,6 @@ def __init__( self.diarization = diarization model: Model = get_model(segmentation, use_auth_token=use_auth_token) - (device,) = get_devices(needs=1) - model.to(device) self._segmentation = Inference(model) self._frames = self._segmentation.model.introspection.frames diff --git a/pyannote/audio/pipelines/segmentation.py b/pyannote/audio/pipelines/segmentation.py index 8c28ebbe8..3eeb6070a 100644 --- a/pyannote/audio/pipelines/segmentation.py +++ b/pyannote/audio/pipelines/segmentation.py @@ -38,7 +38,6 @@ from pyannote.audio.pipelines.utils import ( PipelineModel, SpeakerDiarizationMixin, - get_devices, get_model, ) from pyannote.audio.utils.metric import ( @@ -95,8 +94,6 @@ def __init__( self.skip_conversion = skip_conversion model: Model = get_model(segmentation, use_auth_token=use_auth_token) - (device,) = get_devices(needs=1) - model.to(device) self._segmentation = Inference(model) self._frames = self._segmentation.model.introspection.frames diff --git a/pyannote/audio/pipelines/speaker_diarization.py b/pyannote/audio/pipelines/speaker_diarization.py index ac79cb16b..dbe2686c0 100644 --- a/pyannote/audio/pipelines/speaker_diarization.py +++ b/pyannote/audio/pipelines/speaker_diarization.py @@ -41,7 +41,6 @@ from pyannote.audio.pipelines.utils import ( PipelineModel, SpeakerDiarizationMixin, - get_devices, get_model, ) from pyannote.audio.utils.signal import binarize @@ -139,10 +138,6 @@ def __init__( self.der_variant = der_variant or {"collar": 0.0, "skip_overlap": False} - seg_device, emb_device = get_devices(needs=2) - - model.to(seg_device) - self._segmentation = Inference( model, duration=self.segmentation_duration, @@ -162,7 +157,7 @@ def __init__( else: self._embedding = PretrainedSpeakerEmbedding( - self.embedding, device=emb_device, use_auth_token=use_auth_token + self.embedding, use_auth_token=use_auth_token ) self._audio = Audio(sample_rate=self._embedding.sample_rate, mono=True) metric = self._embedding.metric @@ -455,11 +450,12 @@ def apply( Maximum number of speakers. Has no effect when `num_speakers` is provided. hook : callable, optional Callback called after each major steps of the pipeline as follows: - hook(step_name, # human-readable name of current step - step_artefact, # artifact generated by current step - file=file) # file being processed - Additionnally, time-consuming steps may call `hook` multiple times with the - same `step_name`, and `completed` increasing progressively from 0 to `total`. + hook(step_name, # human-readable name of current step + step_artefact, # artifact generated by current step + file=file) # file being processed + Time-consuming steps call `hook` multiple times with the same `step_name` + and additional `completed` and `total` keyword arguments usable to track + progress of current step. Returns ------- diff --git a/pyannote/audio/pipelines/speaker_verification.py b/pyannote/audio/pipelines/speaker_verification.py index 1ebd40fdc..18f527c34 100644 --- a/pyannote/audio/pipelines/speaker_verification.py +++ b/pyannote/audio/pipelines/speaker_verification.py @@ -36,9 +36,10 @@ from torch.nn.utils.rnn import pad_sequence from pyannote.audio import Inference, Model, Pipeline +from pyannote.audio.core.inference import BaseInference from pyannote.audio.core.io import AudioFile from pyannote.audio.core.model import CACHE_DIR -from pyannote.audio.pipelines.utils import PipelineModel, get_devices, get_model +from pyannote.audio.pipelines.utils import PipelineModel, get_model backend = torchaudio.get_audio_backend() try: @@ -62,7 +63,7 @@ NEMO_IS_AVAILABLE = False -class NeMoPretrainedSpeakerEmbedding: +class NeMoPretrainedSpeakerEmbedding(BaseInference): def __init__( self, embedding: Text = "nvidia/speakerverification_en_titanet_large", @@ -77,12 +78,17 @@ def __init__( super().__init__() self.embedding = embedding - self.device = device + self.device = device or torch.device("cpu") self.model_ = NeMo_EncDecSpeakerLabelModel.from_pretrained(self.embedding) self.model_.freeze() self.model_.to(self.device) + def to(self, device: torch.device): + self.model_.to(device) + self.device = device + return self + @cached_property def sample_rate(self) -> int: return self.model_._cfg.train_ds.get("sample_rate", 16000) @@ -193,7 +199,7 @@ def __call__( return embeddings -class SpeechBrainPretrainedSpeakerEmbedding: +class SpeechBrainPretrainedSpeakerEmbedding(BaseInference): """Pretrained SpeechBrain speaker embedding Parameters @@ -237,15 +243,26 @@ def __init__( super().__init__() self.embedding = embedding - self.device = device + self.device = device or torch.device("cpu") + self.use_auth_token = use_auth_token self.classifier_ = SpeechBrain_EncoderClassifier.from_hparams( source=self.embedding, savedir=f"{CACHE_DIR}/speechbrain", run_opts={"device": self.device}, - use_auth_token=use_auth_token, + use_auth_token=self.use_auth_token, ) + def to(self, device: torch.device): + self.classifier_ = SpeechBrain_EncoderClassifier.from_hparams( + source=self.embedding, + savedir=f"{CACHE_DIR}/speechbrain", + run_opts={"device": self.device}, + use_auth_token=self.use_auth_token, + ) + self.device = device + return self + @cached_property def sample_rate(self) -> int: return self.classifier_.audio_normalizer.sample_rate @@ -321,7 +338,10 @@ def __call__( imasks = imasks > 0.5 signals = pad_sequence( - [waveform[imask] for waveform, imask in zip(waveforms, imasks)], + [ + waveform[imask].contiguous() + for waveform, imask in zip(waveforms, imasks) + ], batch_first=True, ) @@ -349,7 +369,7 @@ def __call__( return embeddings -class PyannoteAudioPretrainedSpeakerEmbedding: +class PyannoteAudioPretrainedSpeakerEmbedding(BaseInference): """Pretrained pyannote.audio speaker embedding Parameters @@ -386,12 +406,17 @@ def __init__( ): super().__init__() self.embedding = embedding - self.device = device + self.device = device or torch.device("cpu") self.model_: Model = get_model(self.embedding, use_auth_token=use_auth_token) self.model_.eval() self.model_.to(self.device) + def to(self, device: torch.device): + self.model_.to(device) + self.device = device + return self + @cached_property def sample_rate(self) -> int: return self.model_.audio.sample_rate @@ -518,23 +543,11 @@ def __init__( embedding, use_auth_token=use_auth_token ) - if self.segmentation is None: - models = [self.embedding_model_] - else: + if self.segmentation is not None: segmentation_model: Model = get_model( self.segmentation, use_auth_token=use_auth_token ) - models = [self.embedding_model_, segmentation_model] - - # send models to GPU (when GPUs are available and model is not already on GPU) - cpu_models = [model for model in models if model.device.type == "cpu"] - for cpu_model, gpu_device in zip( - cpu_models, get_devices(needs=len(cpu_models)) - ): - cpu_model.to(gpu_device) - - if self.segmentation is not None: - self.voice_activity_ = Inference( + self._segmentation = Inference( segmentation_model, pre_aggregation_hook=lambda scores: np.max( scores, axis=-1, keepdims=True @@ -552,7 +565,7 @@ def apply(self, file: AudioFile) -> np.ndarray: weights = None else: # obtain voice activity scores - weights = self.voice_activity_(file).data + weights = self._segmentation(file).data # HACK -- this should be fixed upstream weights[np.isnan(weights)] = 0.0 weights = torch.from_numpy(weights**3)[None, :, 0].to(device) diff --git a/pyannote/audio/pipelines/voice_activity_detection.py b/pyannote/audio/pipelines/voice_activity_detection.py index aa3e15903..4328e1cbf 100644 --- a/pyannote/audio/pipelines/voice_activity_detection.py +++ b/pyannote/audio/pipelines/voice_activity_detection.py @@ -1,6 +1,6 @@ # MIT License # -# Copyright (c) 2018-2021 CNRS +# Copyright (c) 2018- CNRS # # Permission is hereby granted, free of charge, to any person obtaining a copy # of this software and associated documentation files (the "Software"), to deal @@ -49,7 +49,6 @@ PipelineInference, PipelineModel, get_augmentation, - get_devices, get_inference, get_model, ) @@ -122,10 +121,6 @@ def __init__( # load model and send it to GPU (when available and not already on GPU) model = get_model(segmentation, use_auth_token=use_auth_token) - if model.device.type == "cpu": - (segmentation_device,) = get_devices(needs=1) - model.to(segmentation_device) - inference_kwargs["pre_aggregation_hook"] = lambda scores: np.max( scores, axis=-1, keepdims=True ) From fbab49aa3d5692047d7c102df61f39d4e17aafdb Mon Sep 17 00:00:00 2001 From: Prashanth Ellina Date: Thu, 5 Jan 2023 06:57:42 -0500 Subject: [PATCH 029/112] fix: fix SpeechBrainPretrainedSpeakerEmbedding.to(device) --- pyannote/audio/pipelines/speaker_verification.py | 2 +- 1 file changed, 1 insertion(+), 1 deletion(-) diff --git a/pyannote/audio/pipelines/speaker_verification.py b/pyannote/audio/pipelines/speaker_verification.py index 18f527c34..af32582a3 100644 --- a/pyannote/audio/pipelines/speaker_verification.py +++ b/pyannote/audio/pipelines/speaker_verification.py @@ -257,7 +257,7 @@ def to(self, device: torch.device): self.classifier_ = SpeechBrain_EncoderClassifier.from_hparams( source=self.embedding, savedir=f"{CACHE_DIR}/speechbrain", - run_opts={"device": self.device}, + run_opts={"device": device}, use_auth_token=self.use_auth_token, ) self.device = device From 6927ced52de68b6be978d3417acadee4d4ca5bf2 Mon Sep 17 00:00:00 2001 From: =?UTF-8?q?Herv=C3=A9=20BREDIN?= Date: Fri, 6 Jan 2023 08:38:20 +0100 Subject: [PATCH 030/112] doc: add usage section to HAC pipeline fixes #1219 --- pyannote/audio/pipelines/clustering.py | 16 +++++++++++++++- 1 file changed, 15 insertions(+), 1 deletion(-) diff --git a/pyannote/audio/pipelines/clustering.py b/pyannote/audio/pipelines/clustering.py index ffb51b483..6258bbd98 100644 --- a/pyannote/audio/pipelines/clustering.py +++ b/pyannote/audio/pipelines/clustering.py @@ -293,7 +293,6 @@ class FINCHClustering(BaseClustering): ---------- metric : {"cosine", "euclidean", ...}, optional Distance metric to use. Defaults to "cosine". - """ def __init__( @@ -400,6 +399,21 @@ class AgglomerativeClustering(BaseClustering): Linkage method. threshold : float in range [0.0, 2.0] Clustering threshold. + min_cluster_size : int in range [1, 20] + Minimum cluster size + + Usage + ----- + >>> clustering = AgglomerativeClustering(metric="cosine") + >>> clustering.instantiate({"method": "average", + ... "threshold": 1.0, + ... "min_cluster_size": 1}) + >>> clusters, _ = clustering(embeddings, # shape + ... num_clusters=None, + ... min_clusters=None, + ... max_clusters=None) + where `embeddings` is a np.ndarray with shape (num_embeddings, embedding_dimension) + and `clusters` is a np.ndarray with shape (num_embeddings, ) """ def __init__( From 0506ae38c3e03e7ce2cb0b869e986d259ffc75a4 Mon Sep 17 00:00:00 2001 From: "Balazs G. Horvath" Date: Mon, 16 Jan 2023 13:00:19 +0100 Subject: [PATCH 031/112] fix: fix pre-commit hook --- .pre-commit-config.yaml | 2 +- 1 file changed, 1 insertion(+), 1 deletion(-) diff --git a/.pre-commit-config.yaml b/.pre-commit-config.yaml index d1a6a64cd..549e46ad0 100644 --- a/.pre-commit-config.yaml +++ b/.pre-commit-config.yaml @@ -20,7 +20,7 @@ repos: args: ["--profile", "black"] # Formatting, Whitespace, etc - - repo: git://github.com/pre-commit/pre-commit-hooks + - repo: https://github.com/pre-commit/pre-commit-hooks rev: v2.2.3 hooks: - id: trailing-whitespace From 12dc20bde1d4bb5fb7c46d288bf722e58d373215 Mon Sep 17 00:00:00 2001 From: FrenchKrab <14005967+FrenchKrab@users.noreply.github.com> Date: Fri, 20 Jan 2023 11:22:18 +0100 Subject: [PATCH 032/112] feat: add support for "powerset" speaker segmentation training MIME-Version: 1.0 Content-Type: text/plain; charset=UTF-8 Content-Transfer-Encoding: 8bit Co-authored-by: Hervé BREDIN --- pyannote/audio/cli/pretrained.py | 4 +- pyannote/audio/core/inference.py | 39 +- pyannote/audio/core/task.py | 33 +- pyannote/audio/models/segmentation/PyanNet.py | 13 +- .../audio/pipelines/speaker_diarization.py | 63 +-- pyannote/audio/tasks/__init__.py | 3 +- pyannote/audio/tasks/segmentation/mixins.py | 20 +- .../audio/tasks/segmentation/multilabel.py | 28 +- .../audio/tasks/segmentation/segmentation.py | 379 ++++++++++++++++-- pyannote/audio/utils/permutation.py | 4 +- pyannote/audio/utils/powerset.py | 153 +++++++ tests/io_test.py | 1 - tests/utils/test_powerset.py | 53 +++ 13 files changed, 694 insertions(+), 99 deletions(-) create mode 100644 pyannote/audio/utils/powerset.py create mode 100644 tests/utils/test_powerset.py diff --git a/pyannote/audio/cli/pretrained.py b/pyannote/audio/cli/pretrained.py index 95a439b3f..8b8aae587 100644 --- a/pyannote/audio/cli/pretrained.py +++ b/pyannote/audio/cli/pretrained.py @@ -26,6 +26,4 @@ def pretrained(checkpoint: Text): - return Model.from_pretrained( - checkpoint, map_location=lambda storage, loc: storage - ) + return Model.from_pretrained(checkpoint, map_location=lambda storage, loc: storage) diff --git a/pyannote/audio/core/inference.py b/pyannote/audio/core/inference.py index 16cdea65c..cf92e2ee5 100644 --- a/pyannote/audio/core/inference.py +++ b/pyannote/audio/core/inference.py @@ -35,6 +35,7 @@ from pyannote.audio.core.model import Model from pyannote.audio.core.task import Resolution from pyannote.audio.utils.permutation import mae_cost_func, permutate +from pyannote.audio.utils.powerset import Powerset TaskName = Union[Text, None] @@ -53,23 +54,26 @@ class Inference(BaseInference): window : {"sliding", "whole"}, optional Use a "sliding" window and aggregate the corresponding outputs (default) or just one (potentially long) window covering the "whole" file or chunk. - skip_aggregation : bool, optional - Do not aggregate outputs when using "sliding" window. Defaults to False. duration : float, optional Chunk duration, in seconds. Defaults to duration used for training the model. Has no effect when `window` is "whole". step : float, optional Step between consecutive chunks, in seconds. Defaults to warm-up duration when greater than 0s, otherwise 10% of duration. Has no effect when `window` is "whole". + pre_aggregation_hook : callable, optional + When a callable is provided, it is applied to the model output, just before aggregation. + Takes a (num_chunks, num_frames, dimension) numpy array as input and returns a modified + (num_chunks, num_frames, other_dimension) numpy array passed to overlap-add aggregation. + skip_aggregation : bool, optional + Do not aggregate outputs when using "sliding" window. Defaults to False. + skip_conversion: bool, optional + In case `model` has been trained with `powerset` mode, its output is automatically + converted to `multi-label`, unless `skip_conversion` is set to True. batch_size : int, optional Batch size. Larger values make inference faster. Defaults to 32. device : torch.device, optional Device used for inference. Defaults to `model.device`. In case `device` and `model.device` are different, model is sent to device. - pre_aggregation_hook : callable, optional - When a callable is provided, it is applied to the model output, just before aggregation. - Takes a (num_chunks, num_frames, dimension) numpy array as input and returns a modified - (num_chunks, num_frames, other_dimension) numpy array passed to overlap-add aggregation. use_auth_token : str, optional When loading a private huggingface.co model, set `use_auth_token` to True or to a string containing your hugginface.co authentication @@ -80,12 +84,13 @@ def __init__( self, model: Union[Model, Text, Path], window: Text = "sliding", - skip_aggregation: bool = False, - device: torch.device = None, duration: float = None, step: float = None, - batch_size: int = 32, pre_aggregation_hook: Callable[[np.ndarray], np.ndarray] = None, + skip_aggregation: bool = False, + skip_conversion: bool = False, + device: torch.device = None, + batch_size: int = 32, use_auth_token: Union[Text, None] = None, ): @@ -154,11 +159,19 @@ def __init__( self.step = step self.batch_size = batch_size + self.skip_conversion = skip_conversion + if specifications.powerset and not self.skip_conversion: + self._powerset = Powerset( + len(specifications.classes), specifications.powerset_max_classes + ) + self._powerset.to(self.device) def to(self, device: torch.device): """Send internal model to `device`""" self.model.to(device) + if self.model.specifications.powerset and not self.skip_conversion: + self._powerset.to(device) self.device = device return self @@ -190,6 +203,14 @@ def infer(self, chunks: torch.Tensor) -> np.ndarray: else: raise exception + # convert powerset to multi-label unless specifically requested not to + if self.model.specifications.powerset and not self.skip_conversion: + powerset = torch.nn.functional.one_hot( + torch.argmax(outputs, dim=-1), + self.model.specifications.num_powerset_classes, + ).float() + outputs = self._powerset.to_multilabel(powerset) + return outputs.cpu().numpy() def slide( diff --git a/pyannote/audio/core/task.py b/pyannote/audio/core/task.py index fb42fb7cc..5b523176b 100644 --- a/pyannote/audio/core/task.py +++ b/pyannote/audio/core/task.py @@ -25,6 +25,8 @@ from functools import partial +import scipy.special + try: from functools import cached_property except ImportError: @@ -89,9 +91,38 @@ class Specifications: # (for classification tasks only) list of classes classes: Optional[List[Text]] = None + # (for powerset only) max number of simultaneous classes + # (n choose k with k <= powerset_max_classes) + powerset_max_classes: Optional[int] = None + # whether classes are permutation-invariant (e.g. diarization) permutation_invariant: bool = False + @cached_property + def powerset(self): + + if self.powerset_max_classes is None: + return False + + if self.problem != Problem.MONO_LABEL_CLASSIFICATION: + raise ValueError( + "`powerset_max_classes` only makes sense with multi-class classification problems." + ) + + return True + + @cached_property + def num_powerset_classes(self) -> int: + # compute number of subsets of size at most "powerset_max_classes" + # e.g. with len(classes) = 3 and powerset_max_classes = 2: + # {}, {0}, {1}, {2}, {0, 1}, {0, 2}, {1, 2} + return int( + sum( + scipy.special.binom(len(self.classes), i) + for i in range(0, self.powerset_max_classes + 1) + ) + ) + class TrainDataset(IterableDataset): def __init__(self, task: Task): @@ -314,7 +345,7 @@ def default_loss( ]: return binary_cross_entropy(prediction, target, weight=weight) - elif specifications.problem == Problem.MONO_LABEL_CLASSIFICATION: + elif specifications.problem in [Problem.MONO_LABEL_CLASSIFICATION]: return nll_loss(prediction, target, weight=weight) else: diff --git a/pyannote/audio/models/segmentation/PyanNet.py b/pyannote/audio/models/segmentation/PyanNet.py index a39a8fa70..1b68a32a9 100644 --- a/pyannote/audio/models/segmentation/PyanNet.py +++ b/pyannote/audio/models/segmentation/PyanNet.py @@ -27,12 +27,12 @@ import torch.nn as nn import torch.nn.functional as F from einops import rearrange +from pyannote.core.utils.generators import pairwise from pyannote.audio.core.model import Model from pyannote.audio.core.task import Task from pyannote.audio.models.blocks.sincnet import SincNet from pyannote.audio.utils.params import merge_dict -from pyannote.core.utils.generators import pairwise class PyanNet(Model): @@ -130,7 +130,9 @@ def __init__( [ nn.Linear(in_features, out_features) for in_features, out_features in pairwise( - [lstm_out_features,] + [ + lstm_out_features, + ] + [self.hparams.linear["hidden_size"]] * self.hparams.linear["num_layers"] ) @@ -146,7 +148,12 @@ def build(self): 2 if self.hparams.lstm["bidirectional"] else 1 ) - self.classifier = nn.Linear(in_features, len(self.specifications.classes)) + if self.specifications.powerset: + out_features = self.specifications.num_powerset_classes + else: + out_features = len(self.specifications.classes) + + self.classifier = nn.Linear(in_features, out_features) self.activation = self.default_activation() def forward(self, waveforms: torch.Tensor) -> torch.Tensor: diff --git a/pyannote/audio/pipelines/speaker_diarization.py b/pyannote/audio/pipelines/speaker_diarization.py index dbe2686c0..1e279b82a 100644 --- a/pyannote/audio/pipelines/speaker_diarization.py +++ b/pyannote/audio/pipelines/speaker_diarization.py @@ -147,10 +147,16 @@ def __init__( ) self._frames: SlidingWindow = self._segmentation.model.introspection.frames - self.segmentation = ParamDict( - threshold=Uniform(0.1, 0.9), - min_duration_off=Uniform(0.0, 1.0), - ) + if self._segmentation.model.specifications.powerset: + self.segmentation = ParamDict( + min_duration_off=Uniform(0.0, 1.0), + ) + + else: + self.segmentation = ParamDict( + threshold=Uniform(0.1, 0.9), + min_duration_off=Uniform(0.0, 1.0), + ) if self.klustering == "OracleClustering": metric = "not_applicable" @@ -260,18 +266,19 @@ def get_embeddings( embeddings : (num_chunks, num_speakers, dimension) array """ - # when optimizing the hyper-parameters of this pipeline with frozen "segmentation_onset", - # one can reuse the embeddings from the first trial, bringing a massive speed up to - # the optimization process (and hence allowing to use a larger search space). + # when optimizing the hyper-parameters of this pipeline with frozen + # "segmentation.threshold", one can reuse the embeddings from the first trial, + # bringing a massive speed up to the optimization process (and hence allowing to use + # a larger search space). if self.training: # we only re-use embeddings if they were extracted based on the same value of the - # "segmentation_onset" hyperparameter and "embedding_exclude_overlap" parameter. + # "segmentation.threshold" hyperparameter or if the segmentation model relies on + # `powerset` mode cache = file.get("training_cache/embeddings", dict()) - if ( - cache.get("segmentation.threshold", None) == self.segmentation.threshold - and cache.get("embedding_exclude_overlap", None) - == self.embedding_exclude_overlap + if ("embeddings" in cache) and ( + self._segmentation.model.specifications.powerset + or (cache["segmentation.threshold"] == self.segmentation.threshold) ): return cache["embeddings"] @@ -369,11 +376,16 @@ def iter_waveform_and_mask(): # caching embeddings for subsequent trials # (see comments at the top of this method for more details) if self.training: - file["training_cache/embeddings"] = { - "segmentation.threshold": self.segmentation.threshold, - "embedding_exclude_overlap": self.embedding_exclude_overlap, - "embeddings": embeddings, - } + + if self._segmentation.model.specifications.powerset: + file["training_cache/embeddings"] = { + "embeddings": embeddings, + } + else: + file["training_cache/embeddings"] = { + "segmentation.threshold": self.segmentation.threshold, + "embeddings": embeddings, + } return embeddings @@ -479,7 +491,9 @@ def apply( # estimate frame-level number of instantaneous speakers count = self.speaker_count( segmentations, - onset=self.segmentation.threshold, + onset=0.5 + if self._segmentation.model.specifications.powerset + else self.segmentation.threshold, frames=self._frames, ) hook("speaker_counting", count) @@ -491,11 +505,14 @@ def apply( return Annotation(uri=file["uri"]) # binarize segmentation - binarized_segmentations: SlidingWindowFeature = binarize( - segmentations, - onset=self.segmentation.threshold, - initial_state=False, - ) + if self._segmentation.model.specifications.powerset: + binarized_segmentations = segmentations + else: + binarized_segmentations: SlidingWindowFeature = binarize( + segmentations, + onset=self.segmentation.threshold, + initial_state=False, + ) if self.klustering == "OracleClustering": embeddings = None diff --git a/pyannote/audio/tasks/__init__.py b/pyannote/audio/tasks/__init__.py index e53600bc1..eeaf19d10 100644 --- a/pyannote/audio/tasks/__init__.py +++ b/pyannote/audio/tasks/__init__.py @@ -25,9 +25,10 @@ OverlappedSpeechDetection, ) -from .segmentation.multilabel import MultiLabelSegmentation # isort:skip +from .segmentation.multilabel import MultiLabelSegmentation # isort:skip from .segmentation.segmentation import Segmentation # isort:skip from .embedding.arcface import SupervisedRepresentationLearningWithArcFace # isort:skip + SpeakerEmbedding = SupervisedRepresentationLearningWithArcFace __all__ = [ diff --git a/pyannote/audio/tasks/segmentation/mixins.py b/pyannote/audio/tasks/segmentation/mixins.py index beaa2bc63..d0f63d2c2 100644 --- a/pyannote/audio/tasks/segmentation/mixins.py +++ b/pyannote/audio/tasks/segmentation/mixins.py @@ -29,14 +29,16 @@ import matplotlib.pyplot as plt import numpy as np import torch +import torch.nn.functional from pyannote.core import Segment, SlidingWindowFeature -from pytorch_lightning.loggers import TensorBoardLogger, MLFlowLogger +from pytorch_lightning.loggers import MLFlowLogger, TensorBoardLogger from torch.utils.data._utils.collate import default_collate from torchmetrics import Metric -from torchmetrics.classification import BinaryAUROC, MultilabelAUROC, MulticlassAUROC +from torchmetrics.classification import BinaryAUROC, MulticlassAUROC, MultilabelAUROC from pyannote.audio.core.io import AudioFile from pyannote.audio.core.task import Problem +from pyannote.audio.utils.powerset import Powerset from pyannote.audio.utils.random import create_rng_for_worker @@ -125,6 +127,13 @@ def setup(self, stage: Optional[str] = None): random.shuffle(self._validation) + def setup_loss_func(self): + if self.specifications.powerset: + self.model.powerset = Powerset( + len(self.specifications.classes), + self.specifications.powerset_max_classes, + ) + def default_metric( self, ) -> Union[Metric, Sequence[Metric], Dict[str, Metric]]: @@ -372,10 +381,12 @@ def validation_step(self, batch, batch_idx: int): _, num_frames, _ = y_pred.shape # y_pred = (batch_size, num_frames, num_classes) - # - remove warm-up frames - # - downsample remaining frames + # compute warmup frames boundaries and weight warm_up_left = round(self.warm_up[0] / self.duration * num_frames) warm_up_right = round(self.warm_up[1] / self.duration * num_frames) + + # - remove warm-up frames + # - downsample remaining frames preds = y_pred[:, warm_up_left : num_frames - warm_up_right : 10] target = y[:, warm_up_left : num_frames - warm_up_right : 10] @@ -383,7 +394,6 @@ def validation_step(self, batch, batch_idx: int): # pyannote.audio is more explicit so we have to reshape target and preds for # torchmetrics to be happy... more details can be found here: # https://torchmetrics.readthedocs.io/en/latest/references/modules.html#input-types - if self.specifications.problem == Problem.BINARY_CLASSIFICATION: # target: shape (batch_size, num_frames), type binary # preds: shape (batch_size, num_frames, 1), type float diff --git a/pyannote/audio/tasks/segmentation/multilabel.py b/pyannote/audio/tasks/segmentation/multilabel.py index a501554b8..20632b619 100644 --- a/pyannote/audio/tasks/segmentation/multilabel.py +++ b/pyannote/audio/tasks/segmentation/multilabel.py @@ -36,7 +36,7 @@ class MultiLabelSegmentation(SegmentationTaskMixin, Task): """Generic multi-label segmentation - Multi-label segmentation is the process of detecting temporal intervals + Multi-label segmentation is the process of detecting temporal intervals when a specific audio class is active. Example use cases include speaker tracking, gender (male/female) @@ -80,18 +80,18 @@ class MultiLabelSegmentation(SegmentationTaskMixin, Task): """ def __init__( - self, - protocol: Protocol, - classes: Optional[List[str]] = None, - duration: float = 2.0, - warm_up: Union[float, Tuple[float, float]] = 0.0, - balance: Text = None, - weight: Text = None, - batch_size: int = 32, - num_workers: int = None, - pin_memory: bool = False, - augmentation: BaseWaveformTransform = None, - metric: Union[Metric, Sequence[Metric], Dict[str, Metric]] = None, + self, + protocol: Protocol, + classes: Optional[List[str]] = None, + duration: float = 2.0, + warm_up: Union[float, Tuple[float, float]] = 0.0, + balance: Text = None, + weight: Text = None, + batch_size: int = 32, + num_workers: int = None, + pin_memory: bool = False, + augmentation: BaseWaveformTransform = None, + metric: Union[Metric, Sequence[Metric], Dict[str, Metric]] = None, ): super().__init__( protocol, @@ -109,7 +109,7 @@ def __init__( self.classes = classes # task specification depends on the data: we do not know in advance which - # classes should be detected. therefore, we postpone the definition of + # classes should be detected. therefore, we postpone the definition of # specifications to setup() def setup(self, stage: Optional[str] = None): diff --git a/pyannote/audio/tasks/segmentation/segmentation.py b/pyannote/audio/tasks/segmentation/segmentation.py index def43eb31..6dc68a44a 100644 --- a/pyannote/audio/tasks/segmentation/segmentation.py +++ b/pyannote/audio/tasks/segmentation/segmentation.py @@ -20,13 +20,18 @@ # OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE # SOFTWARE. +import math +import warnings from collections import Counter from typing import Dict, Optional, Sequence, Text, Tuple, Union import numpy as np import torch +import torch.nn.functional +from matplotlib import pyplot as plt from pyannote.core import SlidingWindow from pyannote.database import Protocol +from pytorch_lightning.loggers import MLFlowLogger, TensorBoardLogger from torch_audiomentations.core.transforms_interface import BaseWaveformTransform from torchmetrics import Metric from typing_extensions import Literal @@ -34,13 +39,17 @@ from pyannote.audio.core.task import Problem, Resolution, Specifications, Task from pyannote.audio.tasks.segmentation.mixins import SegmentationTaskMixin from pyannote.audio.torchmetrics import ( + DiarizationErrorRate, + FalseAlarmRate, + MissedDetectionRate, OptimalDiarizationErrorRate, OptimalDiarizationErrorRateThreshold, OptimalFalseAlarmRate, OptimalMissedDetectionRate, OptimalSpeakerConfusionRate, + SpeakerConfusionRate, ) -from pyannote.audio.utils.loss import binary_cross_entropy, mse_loss +from pyannote.audio.utils.loss import binary_cross_entropy, mse_loss, nll_loss from pyannote.audio.utils.permutation import permutate @@ -53,9 +62,13 @@ class Segmentation(SegmentationTaskMixin, Task): pyannote.database protocol duration : float, optional Chunks duration. Defaults to 2s. - max_num_speakers : int, optional - Force maximum number of speakers per chunk (must be at least 2). + max_speakers_per_chunk : int, optional + Maximum number of speakers per chunk (must be at least 2). Defaults to estimating it from the training set. + max_speakers_per_frame : int, optional + Maximum number of (overlapping) speakers per frame. + Setting this value to 1 or more enables `powerset multi-class` training. + Default behavior is to use `multi-label` training. warm_up : float or (float, float), optional Use that many seconds on the left- and rightmost parts of each chunk to warm up the model. While the model does process those left- and right-most @@ -67,7 +80,7 @@ class Segmentation(SegmentationTaskMixin, Task): For instance, setting `balance` to "uri" will make sure that each file will be equally represented in the training samples. weight: str, optional - When provided, use this key to as frame-wise weight in loss function. + When provided, use this key as frame-wise weight in loss function. batch_size : int, optional Number of training samples per batch. Defaults to 32. num_workers : int, optional @@ -80,26 +93,32 @@ class Segmentation(SegmentationTaskMixin, Task): augmentation : BaseWaveformTransform, optional torch_audiomentations waveform transform, used by dataloader during training. - loss : {"bce", "mse"}, optional - Permutation-invariant segmentation loss. Defaults to "bce". vad_loss : {"bce", "mse"}, optional Add voice activity detection loss. + Cannot be used in conjunction with `max_speakers_per_frame`. metric : optional Validation metric(s). Can be anything supported by torchmetrics.MetricCollection. Defaults to AUROC (area under the ROC curve). - Reference + References ---------- Hervé Bredin and Antoine Laurent "End-To-End Speaker Segmentation for Overlap-Aware Resegmentation." Proc. Interspeech 2021 + + Zhihao Du, Shiliang Zhang, Siqi Zheng, and Zhijie Yan + "Speaker Embedding-aware Neural Diarization: an Efficient Framework for Overlapping + Speech Diarization in Meeting Scenarios" + https://arxiv.org/abs/2203.09767 + """ def __init__( self, protocol: Protocol, duration: float = 2.0, - max_num_speakers: int = None, + max_speakers_per_chunk: int = None, + max_speakers_per_frame: int = None, warm_up: Union[float, Tuple[float, float]] = 0.0, balance: Text = None, weight: Text = None, @@ -107,9 +126,10 @@ def __init__( num_workers: int = None, pin_memory: bool = False, augmentation: BaseWaveformTransform = None, - loss: Literal["bce", "mse"] = "bce", vad_loss: Literal["bce", "mse"] = None, metric: Union[Metric, Sequence[Metric], Dict[str, Metric]] = None, + max_num_speakers: int = None, # deprecated in favor of `max_speakers_per_chunk`` + loss: Literal["bce", "mse"] = None, # deprecated ): super().__init__( @@ -123,20 +143,37 @@ def __init__( metric=metric, ) - self.max_num_speakers = max_num_speakers + # deprecation warnings + if max_speakers_per_chunk is None and max_num_speakers is not None: + max_speakers_per_chunk = max_num_speakers + warnings.warn( + "`max_num_speakers` has been deprecated in favor of `max_speakers_per_chunk`." + ) + if loss is not None: + warnings.warn("`loss` has been deprecated and has no effect.") + + # parameter validation + if max_speakers_per_frame is not None: + if max_speakers_per_frame < 1: + raise ValueError( + f"`max_speakers_per_frame` must be 1 or more (you used {max_speakers_per_frame})." + ) + if vad_loss is not None: + raise ValueError( + "`vad_loss` cannot be used jointly with `max_speakers_per_frame`" + ) + + self.max_speakers_per_chunk = max_speakers_per_chunk + self.max_speakers_per_frame = max_speakers_per_frame self.balance = balance self.weight = weight - - if loss not in ["bce", "mse"]: - raise ValueError("'loss' must be one of {'bce', 'mse'}.") - self.loss = loss self.vad_loss = vad_loss def setup(self, stage: Optional[str] = None): super().setup(stage=stage) - if self.max_num_speakers is None: + if self.max_speakers_per_chunk is None: # TODO: optimize this @@ -165,19 +202,31 @@ def setup(self, stage: Optional[str] = None): num_speakers = num_speakers[sorting_indices] counts = counts[sorting_indices] - self.max_num_speakers = max( + self.max_speakers_per_chunk = max( 2, num_speakers[np.where(np.cumsum(counts) / np.sum(counts) > 0.99)[0][0]], ) + if ( + self.max_speakers_per_frame is not None + and self.max_speakers_per_frame > self.max_speakers_per_chunk + ): + raise ValueError( + f"`max_speakers_per_frame` ({self.max_speakers_per_frame}) must be smaller " + f"than `max_speakers_per_chunk` ({self.max_speakers_per_chunk})" + ) + # now that we know about the number of speakers upper bound # we can set task specifications self.specifications = Specifications( - problem=Problem.MULTI_LABEL_CLASSIFICATION, + problem=Problem.MULTI_LABEL_CLASSIFICATION + if self.max_speakers_per_frame is None + else Problem.MONO_LABEL_CLASSIFICATION, resolution=Resolution.FRAME, duration=self.duration, warm_up=self.warm_up, - classes=[f"speaker#{i+1}" for i in range(self.max_num_speakers)], + classes=[f"speaker#{i+1}" for i in range(self.max_speakers_per_chunk)], + powerset_max_classes=self.max_speakers_per_frame, permutation_invariant=True, ) @@ -193,27 +242,27 @@ def adapt_y(self, collated_y: torch.Tensor) -> torch.Tensor: Returns ------- - y : (batch_size, num_frames, max_num_speakers) tensor - Same as collated_y, except we only keep ``max_num_speakers`` most + y : (batch_size, num_frames, max_speakers_per_chunk) tensor + Same as collated_y, except we only keep ``max_speakers_per_chunk`` most talkative speakers (per sample). """ batch_size, num_frames, num_speakers = collated_y.shape # maximum number of active speakers in a chunk - max_num_speakers = torch.max( + max_speakers_per_chunk = torch.max( torch.sum(torch.sum(collated_y, dim=1) > 0.0, dim=1) ) # sort speakers in descending talkativeness order indices = torch.argsort(torch.sum(collated_y, dim=1), dim=1, descending=True) - # keep max_num_speakers most talkative speakers, for each chunk + # keep max_speakers_per_chunk most talkative speakers, for each chunk y = torch.zeros( - (batch_size, num_frames, max_num_speakers), dtype=collated_y.dtype + (batch_size, num_frames, max_speakers_per_chunk), dtype=collated_y.dtype ) for b, index in enumerate(indices): - for k, i in zip(range(max_num_speakers), index): + for k, i in zip(range(max_speakers_per_chunk), index): y[b, :, k] = collated_y[b, :, i.item()] return y @@ -241,14 +290,15 @@ def segmentation_loss( Permutation-invariant segmentation loss """ - if self.loss == "bce": + if self.specifications.powerset: + seg_loss = nll_loss( + permutated_prediction, torch.argmax(target, dim=-1), weight=weight + ) + else: seg_loss = binary_cross_entropy( permutated_prediction, target.float(), weight=weight ) - elif self.loss == "mse": - seg_loss = mse_loss(permutated_prediction, target.float(), weight=weight) - return seg_loss def voice_activity_detection_loss( @@ -289,7 +339,7 @@ def voice_activity_detection_loss( return loss def training_step(self, batch, batch_idx: int): - """Compute permutation-invariant binary cross-entropy + """Compute permutation-invariant segmentation loss Parameters ---------- @@ -313,7 +363,7 @@ def training_step(self, batch, batch_idx: int): # drop samples that contain too many speakers num_speakers: torch.Tensor = torch.sum(torch.any(target, dim=1), dim=1) - keep: torch.Tensor = num_speakers <= self.max_num_speakers + keep: torch.Tensor = num_speakers <= self.max_speakers_per_chunk target = target[keep] waveform = waveform[keep] @@ -337,9 +387,6 @@ def training_step(self, batch, batch_idx: int): batch_size, num_frames, _ = prediction.shape # (batch_size, num_frames, num_classes) - # find optimal permutation - permutated_prediction, _ = permutate(target, prediction) - # frames weight weight_key = getattr(self, "weight", None) weight = batch.get( @@ -354,7 +401,26 @@ def training_step(self, batch, batch_idx: int): warm_up_right = round(self.warm_up[1] / self.duration * num_frames) weight[:, num_frames - warm_up_right :] = 0.0 - seg_loss = self.segmentation_loss(permutated_prediction, target, weight=weight) + if self.specifications.powerset: + + powerset = torch.nn.functional.one_hot( + torch.argmax(prediction, dim=-1), + self.model.powerset.num_powerset_classes, + ).float() + multilabel = self.model.powerset.to_multilabel(powerset) + permutated_target, _ = permutate(multilabel, target) + permutated_target_powerset = self.model.powerset.to_powerset( + permutated_target.float() + ) + seg_loss = self.segmentation_loss( + prediction, permutated_target_powerset, weight=weight + ) + + else: + permutated_prediction, _ = permutate(target, prediction) + seg_loss = self.segmentation_loss( + permutated_prediction, target, weight=weight + ) self.model.log( f"{self.logging_prefix}TrainSegLoss", @@ -369,9 +435,18 @@ def training_step(self, batch, batch_idx: int): vad_loss = 0.0 else: - vad_loss = self.voice_activity_detection_loss( - permutated_prediction, target, weight=weight - ) + + # TODO: vad_loss probably does not make sense in powerset mode + # because first class (empty set of labels) does exactly this... + if self.specifications.powerset: + vad_loss = self.voice_activity_detection_loss( + prediction, permutated_target_powerset, weight=weight + ) + + else: + vad_loss = self.voice_activity_detection_loss( + permutated_prediction, target, weight=weight + ) self.model.log( f"{self.logging_prefix}TrainVADLoss", @@ -399,6 +474,15 @@ def default_metric( self, ) -> Union[Metric, Sequence[Metric], Dict[str, Metric]]: """Returns diarization error rate and its components""" + + if self.specifications.powerset: + return [ + DiarizationErrorRate(0.5), + SpeakerConfusionRate(0.5), + MissedDetectionRate(0.5), + FalseAlarmRate(0.5), + ] + return [ OptimalDiarizationErrorRate(), OptimalDiarizationErrorRateThreshold(), @@ -407,6 +491,227 @@ def default_metric( OptimalFalseAlarmRate(), ] + def train__iter__(self): + for chunk in super().train__iter__(): + # TODO: document why this filtering is needed + if self.specifications.powerset: + if len(chunk["y"].labels) <= self.max_speakers_per_chunk: + yield chunk + else: + yield chunk + + # TODO: no need to compute gradient in this method + def validation_step(self, batch, batch_idx: int): + """Compute validation loss and metric + + Parameters + ---------- + batch : dict of torch.Tensor + Current batch. + batch_idx: int + Batch index. + """ + + # target + target = batch["y"] + # (batch_size, num_frames, num_speakers) + + waveform = batch["X"] + # (batch_size, num_channels, num_samples) + + # TODO: should we handle validation samples with too many speakers + # waveform = waveform[keep] + # target = target[keep] + + # forward pass + prediction = self.model(waveform) + batch_size, num_frames, _ = prediction.shape + + # frames weight + weight_key = getattr(self, "weight", None) + weight = batch.get( + weight_key, + torch.ones(batch_size, num_frames, 1, device=self.model.device), + ) + # (batch_size, num_frames, 1) + + # warm-up + warm_up_left = round(self.warm_up[0] / self.duration * num_frames) + weight[:, :warm_up_left] = 0.0 + warm_up_right = round(self.warm_up[1] / self.duration * num_frames) + weight[:, num_frames - warm_up_right :] = 0.0 + + if self.specifications.powerset: + + powerset = torch.nn.functional.one_hot( + torch.argmax(prediction, dim=-1), + self.model.powerset.num_powerset_classes, + ).float() + multilabel = self.model.powerset.to_multilabel(powerset) + permutated_target, _ = permutate(multilabel, target) + + # FIXME: handle case where target have too many speakers? + # since we don't need + permutated_target_powerset = self.model.powerset.to_powerset( + permutated_target.float() + ) + seg_loss = self.segmentation_loss( + prediction, permutated_target_powerset, weight=weight + ) + + else: + permutated_prediction, _ = permutate(target, prediction) + seg_loss = self.segmentation_loss( + permutated_prediction, target, weight=weight + ) + + self.model.log( + f"{self.logging_prefix}ValSegLoss", + seg_loss, + on_step=False, + on_epoch=True, + prog_bar=False, + logger=True, + ) + + if self.vad_loss is None: + vad_loss = 0.0 + + else: + + # TODO: vad_loss probably does not make sense in powerset mode + # because first class (empty set of labels) does exactly this... + if self.specifications.powerset: + vad_loss = self.voice_activity_detection_loss( + prediction, permutated_target_powerset, weight=weight + ) + + else: + vad_loss = self.voice_activity_detection_loss( + permutated_prediction, target, weight=weight + ) + + self.model.log( + f"{self.logging_prefix}ValVADLoss", + vad_loss, + on_step=False, + on_epoch=True, + prog_bar=False, + logger=True, + ) + + loss = seg_loss + vad_loss + + self.model.log( + f"{self.logging_prefix}ValLoss", + loss, + on_step=False, + on_epoch=True, + prog_bar=False, + logger=True, + ) + + if self.specifications.powerset: + self.model.validation_metric( + torch.transpose( + multilabel[:, warm_up_left : num_frames - warm_up_right], 1, 2 + ), + torch.transpose( + target[:, warm_up_left : num_frames - warm_up_right], 1, 2 + ), + ) + else: + self.model.validation_metric( + torch.transpose( + prediction[:, warm_up_left : num_frames - warm_up_right], 1, 2 + ), + torch.transpose( + target[:, warm_up_left : num_frames - warm_up_right], 1, 2 + ), + ) + + self.model.log_dict( + self.model.validation_metric, + on_step=False, + on_epoch=True, + prog_bar=True, + logger=True, + ) + + # log first batch visualization every 2^n epochs. + if ( + self.model.current_epoch == 0 + or math.log2(self.model.current_epoch) % 1 > 0 + or batch_idx > 0 + ): + return + + # visualize first 9 validation samples of first batch in Tensorboard/MLflow + + if self.specifications.powerset: + y = permutated_target_powerset.float().cpu().numpy() + y_pred = multilabel.cpu().numpy() + else: + y = target.float().cpu().numpy() + y_pred = permutated_prediction.cpu().numpy() + + # prepare 3 x 3 grid (or smaller if batch size is smaller) + num_samples = min(self.batch_size, 9) + nrows = math.ceil(math.sqrt(num_samples)) + ncols = math.ceil(num_samples / nrows) + fig, axes = plt.subplots( + nrows=2 * nrows, ncols=ncols, figsize=(8, 5), squeeze=False + ) + + # reshape target so that there is one line per class when plotting it + y[y == 0] = np.NaN + if len(y.shape) == 2: + y = y[:, :, np.newaxis] + y *= np.arange(y.shape[2]) + + # plot each sample + for sample_idx in range(num_samples): + + # find where in the grid it should be plotted + row_idx = sample_idx // nrows + col_idx = sample_idx % ncols + + # plot target + ax_ref = axes[row_idx * 2 + 0, col_idx] + sample_y = y[sample_idx] + ax_ref.plot(sample_y) + ax_ref.set_xlim(0, len(sample_y)) + ax_ref.set_ylim(-1, sample_y.shape[1]) + ax_ref.get_xaxis().set_visible(False) + ax_ref.get_yaxis().set_visible(False) + + # plot predictions + ax_hyp = axes[row_idx * 2 + 1, col_idx] + sample_y_pred = y_pred[sample_idx] + ax_hyp.axvspan(0, warm_up_left, color="k", alpha=0.5, lw=0) + ax_hyp.axvspan( + num_frames - warm_up_right, num_frames, color="k", alpha=0.5, lw=0 + ) + ax_hyp.plot(sample_y_pred) + ax_hyp.set_ylim(-0.1, 1.1) + ax_hyp.set_xlim(0, len(sample_y)) + ax_hyp.get_xaxis().set_visible(False) + + plt.tight_layout() + + if isinstance(self.model.logger, TensorBoardLogger): + self.model.logger.experiment.add_figure( + f"{self.logging_prefix}ValSamples", fig, self.model.current_epoch + ) + elif isinstance(self.model.logger, MLFlowLogger): + self.model.logger.experiment.log_figure( + run_id=self.model.logger.run_id, + figure=fig, + artifact_file=f"{self.logging_prefix}ValSamples_epoch{self.model.current_epoch}.png", + ) + + plt.close(fig) + def main(protocol: str, subset: str = "test", model: str = "pyannote/segmentation"): """Evaluate a segmentation model""" diff --git a/pyannote/audio/utils/permutation.py b/pyannote/audio/utils/permutation.py index 689f4759e..913379651 100644 --- a/pyannote/audio/utils/permutation.py +++ b/pyannote/audio/utils/permutation.py @@ -194,7 +194,7 @@ def build_permutation_graph( cost_func: Callable[[torch.Tensor, torch.Tensor], torch.Tensor] = mae_cost_func, ) -> nx.Graph: """Build permutation graph - + Parameters ---------- segmentations : (num_chunks, num_frames, local_num_speakers)-shaped SlidingWindowFeature @@ -203,7 +203,7 @@ def build_permutation_graph( Threshold above which a speaker is considered active. Defaults to 0.5 cost_func : callable Cost function used to find the optimal bijective mapping between speaker activations - of two overlapping chunks. Expects two (num_frames, num_classes) torch.tensor as input + of two overlapping chunks. Expects two (num_frames, num_classes) torch.tensor as input and returns cost as a (num_classes, ) torch.tensor. Defaults to mae_cost_func. Returns diff --git a/pyannote/audio/utils/powerset.py b/pyannote/audio/utils/powerset.py new file mode 100644 index 000000000..a41bf0570 --- /dev/null +++ b/pyannote/audio/utils/powerset.py @@ -0,0 +1,153 @@ +# MIT License +# +# Copyright (c) 2023- CNRS +# +# Permission is hereby granted, free of charge, to any person obtaining a copy +# of this software and associated documentation files (the "Software"), to deal +# in the Software without restriction, including without limitation the rights +# to use, copy, modify, merge, publish, distribute, sublicense, and/or sell +# copies of the Software, and to permit persons to whom the Software is +# furnished to do so, subject to the following conditions: +# +# The above copyright notice and this permission notice shall be included in all +# copies or substantial portions of the Software. +# +# THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR +# IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY, +# FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE +# AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER +# LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, +# OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE +# SOFTWARE. + +# AUTHORS +# Hervé BREDIN - https://herve.niderb.fr +# Alexis PLAQUET + +try: + from functools import cached_property +except ImportError: + from backports.cached_property import cached_property + +from itertools import combinations + +import scipy.special +import torch +import torch.nn as nn +import torch.nn.functional as F + + +class Powerset(nn.Module): + """Powerset to multilabel conversion, and back. + + Parameters + ---------- + num_classes : int + Number of regular classes. + max_set_size : int + Maximum number of classes in each set. + """ + + def __init__(self, num_classes: int, max_set_size: int): + super().__init__() + self.num_classes = num_classes + self.max_set_size = max_set_size + + mapping = self.build_mapping() + self.register_buffer("mapping", mapping, persistent=False) + + @cached_property + def num_powerset_classes(self) -> int: + # compute number of subsets of size at most "max_set_size" + # e.g. with num_classes = 3 and max_set_size = 2: + # {}, {0}, {1}, {2}, {0, 1}, {0, 2}, {1, 2} + return int( + sum( + scipy.special.binom(self.num_classes, i) + for i in range(0, self.max_set_size + 1) + ) + ) + + def build_mapping(self) -> torch.Tensor: + mapping = torch.zeros(self.num_powerset_classes, self.num_classes) + powerset_k = 0 + for set_size in range(0, self.max_set_size + 1): + for current_set in combinations(range(self.num_classes), set_size): + mapping[powerset_k, current_set] = 1 + powerset_k += 1 + + return mapping + + def to_multilabel(self, powerset: torch.Tensor) -> torch.Tensor: + """Convert (hard) predictions from powerset to multi-label + + Parameter + --------- + powerset : (batch_size, num_frames, num_powerset_classes) torch.Tensor + Hard predictions in "powerset" space. + + Returns + ------- + multi_label : (batch_size, num_frames, num_classes) torch.Tensor + Hard predictions in "multi-label" space. + + Note + ---- + This method will not complain if `powerset` is provided a soft predictions + (e.g. the output of a softmax-ed classifier). However, in that particular + case, the resulting soft multi-label output will not make much sense. + """ + return torch.matmul(powerset, self.mapping) + + def to_powerset(self, multilabel: torch.Tensor) -> torch.Tensor: + """Convert (hard) predictions from multi-label to powerset + + Parameter + --------- + multi_label : (batch_size, num_frames, num_classes) torch.Tensor + Prediction in "multi-label" space. + + Returns + ------- + powerset : (batch_size, num_frames, num_powerset_classes) torch.Tensor + Hard, one-hot prediction in "powerset" space. + + Note + ---- + This method will not complain if `multilabel` is provided a soft predictions + (e.g. the output of a sigmoid-ed classifier). However, in that particular + case, the resulting powerset output will most likely not make much sense. + """ + return F.one_hot( + torch.argmax(torch.matmul(multilabel, self.mapping.T), dim=-1), + num_classes=self.num_powerset_classes, + ) + + +if __name__ == "__main__": + + powerset = Powerset(3, 3) + print(powerset.mapping) + + # simulate a sequence where each frame is assigned to a different powerset class + one_sequence = [ + [0] * powerset.num_powerset_classes + for _ in range(powerset.num_powerset_classes) + ] + for i in range(powerset.num_powerset_classes): + one_sequence[i][i] = 1.0 + + # make a batch out of this sequence and the same sequence in reverse order + batch_powerset = torch.tensor([one_sequence, one_sequence[::-1]]) + print(batch_powerset) + print(batch_powerset.shape) + + # convert from powerset to multi-label + batch_multilabel = powerset.to_multilabel(batch_powerset) + print(batch_multilabel) + print(batch_multilabel.shape) + + # convert batch to powerset + reconstruction = powerset.to_powerset(batch_multilabel) + print(reconstruction) + print(reconstruction.shape) diff --git a/tests/io_test.py b/tests/io_test.py index 3729c37c4..a07ce7403 100644 --- a/tests/io_test.py +++ b/tests/io_test.py @@ -84,4 +84,3 @@ def test_can_crop_from_file_like(): assert isinstance(wav, Tensor) assert sr == 16000 assert wav.shape[1] == 0.5 * 16000 - diff --git a/tests/utils/test_powerset.py b/tests/utils/test_powerset.py new file mode 100644 index 000000000..dd12eed41 --- /dev/null +++ b/tests/utils/test_powerset.py @@ -0,0 +1,53 @@ +# MIT License +# +# Copyright (c) 2023- CNRS +# +# Permission is hereby granted, free of charge, to any person obtaining a copy +# of this software and associated documentation files (the "Software"), to deal +# in the Software without restriction, including without limitation the rights +# to use, copy, modify, merge, publish, distribute, sublicense, and/or sell +# copies of the Software, and to permit persons to whom the Software is +# furnished to do so, subject to the following conditions: +# +# The above copyright notice and this permission notice shall be included in all +# copies or substantial portions of the Software. +# +# THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR +# IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY, +# FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE +# AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER +# LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, +# OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE +# SOFTWARE. + + +import torch + +from pyannote.audio.utils.powerset import Powerset + + +def test_roundtrip(): + + for num_classes in range(2, 5): + for max_set_size in range(1, num_classes + 1): + + powerset = Powerset(num_classes, max_set_size) + + # simulate a sequence where each frame is assigned to a different powerset class + one_sequence = [ + [0] * powerset.num_powerset_classes + for _ in range(powerset.num_powerset_classes) + ] + for i in range(powerset.num_powerset_classes): + one_sequence[i][i] = 1.0 + + # make a batch out of this sequence and the same sequence in reverse order + batch_powerset = torch.tensor([one_sequence, one_sequence[::-1]]) + + # convert from powerset to multi-label + batch_multilabel = powerset.to_multilabel(batch_powerset) + + # convert batch back to powerset + reconstruction = powerset.to_powerset(batch_multilabel) + + assert torch.equal(batch_powerset, reconstruction) From 2a4e3bf245260c4a7129064b4f2de26bf9d6e6de Mon Sep 17 00:00:00 2001 From: =?UTF-8?q?Herv=C3=A9=20BREDIN?= Date: Fri, 20 Jan 2023 11:24:56 +0100 Subject: [PATCH 033/112] chore: remove main function that is already part of tests --- pyannote/audio/utils/powerset.py | 29 ----------------------------- 1 file changed, 29 deletions(-) diff --git a/pyannote/audio/utils/powerset.py b/pyannote/audio/utils/powerset.py index a41bf0570..e909ab4ee 100644 --- a/pyannote/audio/utils/powerset.py +++ b/pyannote/audio/utils/powerset.py @@ -122,32 +122,3 @@ def to_powerset(self, multilabel: torch.Tensor) -> torch.Tensor: torch.argmax(torch.matmul(multilabel, self.mapping.T), dim=-1), num_classes=self.num_powerset_classes, ) - - -if __name__ == "__main__": - - powerset = Powerset(3, 3) - print(powerset.mapping) - - # simulate a sequence where each frame is assigned to a different powerset class - one_sequence = [ - [0] * powerset.num_powerset_classes - for _ in range(powerset.num_powerset_classes) - ] - for i in range(powerset.num_powerset_classes): - one_sequence[i][i] = 1.0 - - # make a batch out of this sequence and the same sequence in reverse order - batch_powerset = torch.tensor([one_sequence, one_sequence[::-1]]) - print(batch_powerset) - print(batch_powerset.shape) - - # convert from powerset to multi-label - batch_multilabel = powerset.to_multilabel(batch_powerset) - print(batch_multilabel) - print(batch_multilabel.shape) - - # convert batch to powerset - reconstruction = powerset.to_powerset(batch_multilabel) - print(reconstruction) - print(reconstruction.shape) From cb7bfd5a4d7da6b2650537b8762a6fb18bf8e10c Mon Sep 17 00:00:00 2001 From: Ewald Enzinger Date: Fri, 20 Jan 2023 12:46:56 +0100 Subject: [PATCH 034/112] setup: switch to pytorch-lightning >= 1.8 (#1210) --- pyannote/audio/cli/train.py | 2 +- pyannote/audio/core/model.py | 2 +- pyannote/audio/pipelines/voice_activity_detection.py | 3 ++- requirements.txt | 2 +- tests/tasks/test_reproducibility.py | 8 ++++---- tutorials/training_a_model.ipynb | 8 ++++---- tutorials/voice_activity_detection.ipynb | 2 +- 7 files changed, 14 insertions(+), 13 deletions(-) diff --git a/pyannote/audio/cli/train.py b/pyannote/audio/cli/train.py index 6e04fcde5..825d7f8ae 100644 --- a/pyannote/audio/cli/train.py +++ b/pyannote/audio/cli/train.py @@ -37,7 +37,7 @@ RichProgressBar, ) from pytorch_lightning.loggers import TensorBoardLogger -from pytorch_lightning.utilities.seed import seed_everything +from lightning_lite.utilities.seed import seed_everything from torch_audiomentations.utils.config import from_dict as get_augmentation from pyannote.audio.core.io import get_torchaudio_info diff --git a/pyannote/audio/core/model.py b/pyannote/audio/core/model.py index 2a49360b9..000b469b6 100644 --- a/pyannote/audio/core/model.py +++ b/pyannote/audio/core/model.py @@ -36,7 +36,7 @@ from huggingface_hub import hf_hub_download from huggingface_hub.utils import RepositoryNotFoundError from pyannote.core import SlidingWindow -from pytorch_lightning.utilities.cloud_io import load as pl_load +from lightning_lite.utilities.cloud_io import _load as pl_load from pytorch_lightning.utilities.model_summary import ModelSummary from semver import VersionInfo from torch.utils.data import DataLoader diff --git a/pyannote/audio/pipelines/voice_activity_detection.py b/pyannote/audio/pipelines/voice_activity_detection.py index 4328e1cbf..0edbea42f 100644 --- a/pyannote/audio/pipelines/voice_activity_detection.py +++ b/pyannote/audio/pipelines/voice_activity_detection.py @@ -346,7 +346,8 @@ def configure_optimizers(model): with tempfile.TemporaryDirectory() as default_root_dir: trainer = Trainer( max_epochs=self.num_epochs, - gpus=1, + accelerator="gpu", + devices=1, callbacks=[GraduallyUnfreeze(epochs_per_stage=self.num_epochs + 1)], enable_checkpointing=False, default_root_dir=default_root_dir, diff --git a/requirements.txt b/requirements.txt index df2e9c1d6..b2d000a27 100644 --- a/requirements.txt +++ b/requirements.txt @@ -9,7 +9,7 @@ pyannote.core >=4.4,<5.0 pyannote.database >=4.1.1,<5.0 pyannote.metrics >=3.2,<4.0 pyannote.pipeline >=2.3,<3.0 -pytorch_lightning >=1.5.4,<1.7 +pytorch_lightning >=1.8.0,<1.9 pytorch_metric_learning >=1.0.0,<2.0 rich >= 12.0.0 semver >=2.10.2,<3.0 diff --git a/tests/tasks/test_reproducibility.py b/tests/tasks/test_reproducibility.py index 39a950464..912548827 100644 --- a/tests/tasks/test_reproducibility.py +++ b/tests/tasks/test_reproducibility.py @@ -1,4 +1,4 @@ -import pytorch_lightning as pl +from lightning_lite.utilities.seed import seed_everything import torch from pyannote.audio.models.segmentation.debug import SimpleSegmentationModel @@ -30,7 +30,7 @@ def get_next5(dl): def test_seeding_ensures_data_loaders(): "Setting a global seed for the dataloaders ensures that we get data back in the same order" - pl.seed_everything(1) + seed_everything(1) for task in [VoiceActivityDetection, MultiLabelSegmentation]: protocol, vad = setup_tasks(task) @@ -50,12 +50,12 @@ def test_different_seeds(): for task in [VoiceActivityDetection, MultiLabelSegmentation]: protocol, vad = setup_tasks(task) - pl.seed_everything(4) + seed_everything(4) dl = create_dl(SimpleSegmentationModel, vad) last5a = get_next5(dl) protocol, vad = setup_tasks(task) - pl.seed_everything(5) + seed_everything(5) dl = create_dl(SimpleSegmentationModel, vad) last5b = get_next5(dl) diff --git a/tutorials/training_a_model.ipynb b/tutorials/training_a_model.ipynb index 167a48c9a..f062bd95d 100644 --- a/tutorials/training_a_model.ipynb +++ b/tutorials/training_a_model.ipynb @@ -180,7 +180,7 @@ ], "source": [ "import pytorch_lightning as pl\n", - "trainer = pl.Trainer(gpus=1, max_epochs=1)\n", + "trainer = pl.Trainer(devices=1, accelerator=\"gpu\", max_epochs=1)\n", "trainer.fit(vad_model)" ] }, @@ -545,7 +545,7 @@ } ], "source": [ - "trainer = pl.Trainer(gpus=1, max_epochs=1)\n", + "trainer = pl.Trainer(devices=1, accelerator=\"gpu\", max_epochs=1)\n", "trainer.fit(finetuned)" ] }, @@ -781,7 +781,7 @@ } ], "source": [ - "trainer = pl.Trainer(gpus=1, max_epochs=1)\n", + "trainer = pl.Trainer(devices=1, accelerator=\"gpu\", max_epochs=1)\n", "trainer.fit(osd_model)" ] }, @@ -854,7 +854,7 @@ "We also benefit from all the nice things [`pytorch-lightning`](ttps://pytorch-lightning.readthedocs.io) has to offer (like multi-gpu training, for instance).\n", "\n", "```python\n", - "trainer = Trainer(gpus=4, strategy='ddp')\n", + "trainer = Trainer(devices=4, accelerator=\"gpu\", strategy='ddp')\n", "trainer.fit(model)\n", "```\n", "\n", diff --git a/tutorials/voice_activity_detection.ipynb b/tutorials/voice_activity_detection.ipynb index 1b80bd391..df2cadd15 100644 --- a/tutorials/voice_activity_detection.ipynb +++ b/tutorials/voice_activity_detection.ipynb @@ -273,7 +273,7 @@ ], "source": [ "import pytorch_lightning as pl\n", - "trainer = pl.Trainer(gpus=1, max_epochs=2)\n", + "trainer = pl.Trainer(devices=1, accelerator=\"gpu\", max_epochs=2)\n", "trainer.fit(model)" ] }, From 46563825f180678c180196649a828a01de505b4d Mon Sep 17 00:00:00 2001 From: =?UTF-8?q?Herv=C3=A9=20BREDIN?= Date: Fri, 20 Jan 2023 14:06:23 +0100 Subject: [PATCH 035/112] feat(cli): add "registry" option to training CLI --- pyannote/audio/cli/train.py | 8 ++++++-- pyannote/audio/cli/train_config/config.yaml | 1 + 2 files changed, 7 insertions(+), 2 deletions(-) diff --git a/pyannote/audio/cli/train.py b/pyannote/audio/cli/train.py index 6e04fcde5..89aa9373f 100644 --- a/pyannote/audio/cli/train.py +++ b/pyannote/audio/cli/train.py @@ -29,7 +29,7 @@ from omegaconf import DictConfig, OmegaConf # from pyannote.audio.core.callback import GraduallyUnfreeze -from pyannote.database import FileFinder, get_protocol +from pyannote.database import FileFinder, registry from pytorch_lightning.callbacks import ( EarlyStopping, LearningRateMonitor, @@ -51,12 +51,16 @@ def train(cfg: DictConfig) -> Optional[float]: seed = int(os.environ.get("PL_GLOBAL_SEED", "0")) seed_everything(seed=seed) + # load databases into registry + for database_yml in cfg.registry.split(","): + registry.load_database(database_yml) + # instantiate training protocol with optional preprocessors preprocessors = {"audio": FileFinder(), "torchaudio.info": get_torchaudio_info} if "preprocessor" in cfg: preprocessor = instantiate(cfg.preprocessor) preprocessors[preprocessor.preprocessed_key] = preprocessor - protocol = get_protocol(cfg.protocol, preprocessors=preprocessors) + protocol = registry.get_protocol(cfg.protocol, preprocessors=preprocessors) # instantiate data augmentation augmentation = ( diff --git a/pyannote/audio/cli/train_config/config.yaml b/pyannote/audio/cli/train_config/config.yaml index f939f39e1..380ed9213 100644 --- a/pyannote/audio/cli/train_config/config.yaml +++ b/pyannote/audio/cli/train_config/config.yaml @@ -1,3 +1,4 @@ +registry: ??? protocol: ??? defaults: From 67aa7f02363481526c40fbe508ab7abc92a0ddf9 Mon Sep 17 00:00:00 2001 From: =?UTF-8?q?Herv=C3=A9=20BREDIN?= Date: Fri, 20 Jan 2023 14:11:44 +0100 Subject: [PATCH 036/112] fix(cli): remove loss/vad_loss default options --- pyannote/audio/cli/train_config/task/SpeakerSegmentation.yaml | 2 -- 1 file changed, 2 deletions(-) diff --git a/pyannote/audio/cli/train_config/task/SpeakerSegmentation.yaml b/pyannote/audio/cli/train_config/task/SpeakerSegmentation.yaml index b7b6bdc02..fcfa06978 100644 --- a/pyannote/audio/cli/train_config/task/SpeakerSegmentation.yaml +++ b/pyannote/audio/cli/train_config/task/SpeakerSegmentation.yaml @@ -7,5 +7,3 @@ weight: null batch_size: 32 num_workers: null pin_memory: False -loss: "bce" -vad_loss: "bce" From 8f6af1b5de93833a65a80d3f2c02b0c66b0e43ea Mon Sep 17 00:00:00 2001 From: =?UTF-8?q?Herv=C3=A9=20BREDIN?= Date: Fri, 20 Jan 2023 14:27:11 +0100 Subject: [PATCH 037/112] fix(cli): fix default trainer options --- .../audio/cli/train_config/trainer/default.yaml | 13 +++---------- 1 file changed, 3 insertions(+), 10 deletions(-) diff --git a/pyannote/audio/cli/train_config/trainer/default.yaml b/pyannote/audio/cli/train_config/trainer/default.yaml index eeb5b85b9..7f289c865 100644 --- a/pyannote/audio/cli/train_config/trainer/default.yaml +++ b/pyannote/audio/cli/train_config/trainer/default.yaml @@ -2,23 +2,19 @@ _target_: pytorch_lightning.Trainer accelerator: auto accumulate_grad_batches: 1 -amp_backend: native -auto_lr_find: False auto_scale_batch_size: False -auto_select_gpus: True +auto_lr_find: False benchmark: False -check_val_every_n_epoch: 1 -detect_anomaly: False deterministic: False +check_val_every_n_epoch: 1 devices: auto +detect_anomaly: False enable_checkpointing: True enable_model_summary: True enable_progress_bar: True fast_dev_run: False -gpus: null gradient_clip_val: 0 gradient_clip_algorithm: norm -ipus: null limit_predict_batches: 1.0 limit_test_batches: 1.0 limit_train_batches: 1.0 @@ -32,7 +28,6 @@ min_steps: null move_metrics_to_cpu: False multiple_trainloader_mode: max_size_cycle num_nodes: 1 -num_processes: 1 num_sanity_val_steps: 2 overfit_batches: 0.0 precision: 32 @@ -41,7 +36,5 @@ reload_dataloaders_every_n_epochs: 0 replace_sampler_ddp: True strategy: null sync_batchnorm: False -tpu_cores: null track_grad_norm: -1 val_check_interval: 1.0 -weights_save_path: null From f93fe71a8800420158d79c0447c851c2196f8275 Mon Sep 17 00:00:00 2001 From: =?UTF-8?q?Herv=C3=A9=20BREDIN?= Date: Fri, 20 Jan 2023 14:50:52 +0100 Subject: [PATCH 038/112] fix(cli): fix default trainer config --- pyannote/audio/cli/train_config/trainer/default.yaml | 2 +- 1 file changed, 1 insertion(+), 1 deletion(-) diff --git a/pyannote/audio/cli/train_config/trainer/default.yaml b/pyannote/audio/cli/train_config/trainer/default.yaml index 7f289c865..fee078690 100644 --- a/pyannote/audio/cli/train_config/trainer/default.yaml +++ b/pyannote/audio/cli/train_config/trainer/default.yaml @@ -21,7 +21,7 @@ limit_train_batches: 1.0 limit_val_batches: 1.0 log_every_n_steps: 50 max_epochs: 1000 -max_steps: null +max_steps: -1 max_time: null min_epochs: 1 min_steps: null From 2dd9af0e6a83ce36a9118886d7a7674f9707db58 Mon Sep 17 00:00:00 2001 From: =?UTF-8?q?Herv=C3=A9=20BREDIN?= Date: Tue, 24 Jan 2023 08:58:24 +0100 Subject: [PATCH 039/112] BREAKING: monitor validation loss instead of DER --- .../audio/tasks/segmentation/segmentation.py | 21 +++++++++++++++++++ 1 file changed, 21 insertions(+) diff --git a/pyannote/audio/tasks/segmentation/segmentation.py b/pyannote/audio/tasks/segmentation/segmentation.py index 6dc68a44a..b4deec3c4 100644 --- a/pyannote/audio/tasks/segmentation/segmentation.py +++ b/pyannote/audio/tasks/segmentation/segmentation.py @@ -712,6 +712,27 @@ def validation_step(self, batch, batch_idx: int): plt.close(fig) + @property + def val_monitor(self): + """Quantity (and direction) to monitor + + Useful for model checkpointing or early stopping. + + Returns + ------- + monitor : str + Name of quantity to monitor (validation loss) + mode : {'min', 'max} + Minimize + + See also + -------- + pytorch_lightning.callbacks.ModelCheckpoint + pytorch_lightning.callbacks.EarlyStopping + """ + + return f"{self.logging_prefix}ValLoss", "min" + def main(protocol: str, subset: str = "test", model: str = "pyannote/segmentation"): """Evaluate a segmentation model""" From 952e1507fa597c052bd6216ef5028ecee62893f6 Mon Sep 17 00:00:00 2001 From: =?UTF-8?q?Herv=C3=A9=20BREDIN?= Date: Tue, 24 Jan 2023 21:50:41 +0100 Subject: [PATCH 040/112] BREAKING: fix random seed generation Make sure that multiple nodes use different seeds. --- pyannote/audio/utils/random.py | 14 +------------- 1 file changed, 1 insertion(+), 13 deletions(-) diff --git a/pyannote/audio/utils/random.py b/pyannote/audio/utils/random.py index c3173dbd1..97d50c362 100644 --- a/pyannote/audio/utils/random.py +++ b/pyannote/audio/utils/random.py @@ -48,26 +48,14 @@ def create_rng_for_worker(epoch: int) -> Random: global_seed = int(os.environ.get("PL_GLOBAL_SEED", "0")) local_rank = int(os.environ.get("LOCAL_RANK", "0")) node_rank = int(os.environ.get("NODE_RANK", "0")) - num_gpus = len(os.environ.get("PL_TRAINER_GPUS", "0").split(",")) - world_size = int(os.environ.get("WORLD_SIZE", "1")) worker_info = torch.utils.data.get_worker_info() if worker_info is None: - num_workers = 1 worker_id = 0 else: - num_workers = worker_info.num_workers worker_id = worker_info.id - seed = ( - global_seed - + worker_id - + local_rank * num_workers - + node_rank * num_workers * num_gpus - + epoch * num_workers * world_size - ) - - rng.seed(seed) + rng.seed(hash((global_seed, worker_id, local_rank, node_rank, epoch))) return rng From 5db4783c751c6f0f0e1a4cebac9dd5901f61377a Mon Sep 17 00:00:00 2001 From: =?UTF-8?q?Herv=C3=A9=20BREDIN?= Date: Tue, 24 Jan 2023 21:59:45 +0100 Subject: [PATCH 041/112] fix: fix corner case with non-speech batch (#1239) --- pyannote/audio/tasks/segmentation/mixins.py | 15 +++++++++------ pyannote/audio/tasks/segmentation/segmentation.py | 4 ++-- 2 files changed, 11 insertions(+), 8 deletions(-) diff --git a/pyannote/audio/tasks/segmentation/mixins.py b/pyannote/audio/tasks/segmentation/mixins.py index d0f63d2c2..50f33a423 100644 --- a/pyannote/audio/tasks/segmentation/mixins.py +++ b/pyannote/audio/tasks/segmentation/mixins.py @@ -296,14 +296,17 @@ def collate_y(self, batch) -> torch.Tensor: # gather common set of labels # b["y"] is a SlidingWindowFeature instance labels = sorted(set(itertools.chain(*(b["y"].labels for b in batch)))) + num_labels = len(labels) - batch_size, num_frames, num_labels = ( - len(batch), - len(batch[0]["y"]), - len(labels), - ) - Y = np.zeros((batch_size, num_frames, num_labels), dtype=np.int64) + batch_size = len(batch) + num_frames = len(batch[0]["y"]) + if num_labels == 0: + return torch.from_numpy( + np.zeros((batch_size, num_frames, 1), dtype=np.int64) + ) + + Y = np.zeros((batch_size, num_frames, num_labels), dtype=np.int64) for i, b in enumerate(batch): for local_idx, label in enumerate(b["y"].labels): global_idx = labels.index(label) diff --git a/pyannote/audio/tasks/segmentation/segmentation.py b/pyannote/audio/tasks/segmentation/segmentation.py index b4deec3c4..5d791589b 100644 --- a/pyannote/audio/tasks/segmentation/segmentation.py +++ b/pyannote/audio/tasks/segmentation/segmentation.py @@ -250,8 +250,8 @@ def adapt_y(self, collated_y: torch.Tensor) -> torch.Tensor: batch_size, num_frames, num_speakers = collated_y.shape # maximum number of active speakers in a chunk - max_speakers_per_chunk = torch.max( - torch.sum(torch.sum(collated_y, dim=1) > 0.0, dim=1) + max_speakers_per_chunk = max( + 1, torch.max(torch.sum(torch.sum(collated_y, dim=1) > 0.0, dim=1)) ) # sort speakers in descending talkativeness order From c7325884d8d1ab5ea58a5fcebbfeabf20d909808 Mon Sep 17 00:00:00 2001 From: =?UTF-8?q?Herv=C3=A9=20BREDIN?= Date: Thu, 26 Jan 2023 09:54:35 +0100 Subject: [PATCH 042/112] fix: add missing collate function (#1241) --- pyannote/audio/tasks/embedding/mixins.py | 24 ++++++++++++++++++++++++ 1 file changed, 24 insertions(+) diff --git a/pyannote/audio/tasks/embedding/mixins.py b/pyannote/audio/tasks/embedding/mixins.py index 700008cb1..c7a88c7f7 100644 --- a/pyannote/audio/tasks/embedding/mixins.py +++ b/pyannote/audio/tasks/embedding/mixins.py @@ -30,6 +30,7 @@ SpeakerDiarizationProtocol, SpeakerVerificationProtocol, ) +from torch.utils.data._utils.collate import default_collate from torchmetrics import Metric from torchmetrics.classification import BinaryAUROC from tqdm import tqdm @@ -217,6 +218,29 @@ def train__len__(self): avg_chunk_duration = 0.5 * (self.min_duration + self.duration) return max(self.batch_size, math.ceil(duration / avg_chunk_duration)) + def collate_X(self, batch) -> torch.Tensor: + return default_collate([b["X"] for b in batch]) + + def collate_y(self, batch) -> torch.Tensor: + return default_collate([b["y"] for b in batch]) + + def collate_fn(self, batch, stage="train"): + + # collate X + collated_X = self.collate_X(batch) + + # collate y + collated_y = self.collate_y(batch) + + # apply augmentation (only in "train" stage) + self.augmentation.train(mode=(stage == "train")) + augmented = self.augmentation( + samples=collated_X, + sample_rate=self.model.hparams.sample_rate, + ) + + return {"X": augmented.samples, "y": collated_y} + def training_step(self, batch, batch_idx: int): X, y = batch["X"], batch["y"] From bce740f0b8b11579ebdf0a111544d09ea9df6879 Mon Sep 17 00:00:00 2001 From: FrenchKrab <14005967+FrenchKrab@users.noreply.github.com> Date: Mon, 30 Jan 2023 10:45:56 +0100 Subject: [PATCH 043/112] fix: fix support for multiple loggers (#1244) --- pyannote/audio/tasks/segmentation/mixins.py | 21 ++++++++++--------- .../audio/tasks/segmentation/segmentation.py | 21 ++++++++++--------- 2 files changed, 22 insertions(+), 20 deletions(-) diff --git a/pyannote/audio/tasks/segmentation/mixins.py b/pyannote/audio/tasks/segmentation/mixins.py index 50f33a423..b9056d052 100644 --- a/pyannote/audio/tasks/segmentation/mixins.py +++ b/pyannote/audio/tasks/segmentation/mixins.py @@ -492,15 +492,16 @@ def validation_step(self, batch, batch_idx: int): plt.tight_layout() - if isinstance(self.model.logger, TensorBoardLogger): - self.model.logger.experiment.add_figure( - f"{self.logging_prefix}ValSamples", fig, self.model.current_epoch - ) - elif isinstance(self.model.logger, MLFlowLogger): - self.model.logger.experiment.log_figure( - run_id=self.model.logger.run_id, - figure=fig, - artifact_file=f"{self.logging_prefix}ValSamples_epoch{self.model.current_epoch}.png", - ) + for logger in self.model.loggers: + if isinstance(logger, TensorBoardLogger): + logger.experiment.add_figure( + f"{self.logging_prefix}ValSamples", fig, self.model.current_epoch + ) + elif isinstance(logger, MLFlowLogger): + logger.experiment.log_figure( + run_id=logger.run_id, + figure=fig, + artifact_file=f"{self.logging_prefix}ValSamples_epoch{self.model.current_epoch}.png", + ) plt.close(fig) diff --git a/pyannote/audio/tasks/segmentation/segmentation.py b/pyannote/audio/tasks/segmentation/segmentation.py index 5d791589b..a7e6c4b3f 100644 --- a/pyannote/audio/tasks/segmentation/segmentation.py +++ b/pyannote/audio/tasks/segmentation/segmentation.py @@ -699,16 +699,17 @@ def validation_step(self, batch, batch_idx: int): plt.tight_layout() - if isinstance(self.model.logger, TensorBoardLogger): - self.model.logger.experiment.add_figure( - f"{self.logging_prefix}ValSamples", fig, self.model.current_epoch - ) - elif isinstance(self.model.logger, MLFlowLogger): - self.model.logger.experiment.log_figure( - run_id=self.model.logger.run_id, - figure=fig, - artifact_file=f"{self.logging_prefix}ValSamples_epoch{self.model.current_epoch}.png", - ) + for logger in self.model.loggers: + if isinstance(logger, TensorBoardLogger): + logger.experiment.add_figure( + f"{self.logging_prefix}ValSamples", fig, self.model.current_epoch + ) + elif isinstance(logger, MLFlowLogger): + logger.experiment.log_figure( + run_id=logger.run_id, + figure=fig, + artifact_file=f"{self.logging_prefix}ValSamples_epoch{self.model.current_epoch}.png", + ) plt.close(fig) From 559a34a6ad8e099ece78db077fb53a2ea408f8bb Mon Sep 17 00:00:00 2001 From: =?UTF-8?q?Herv=C3=A9=20BREDIN?= Date: Mon, 30 Jan 2023 11:06:51 +0100 Subject: [PATCH 044/112] fix: fix embedding validation step (#1245) --- pyannote/audio/tasks/embedding/mixins.py | 34 +++++++++--------------- 1 file changed, 13 insertions(+), 21 deletions(-) diff --git a/pyannote/audio/tasks/embedding/mixins.py b/pyannote/audio/tasks/embedding/mixins.py index c7a88c7f7..08721eb24 100644 --- a/pyannote/audio/tasks/embedding/mixins.py +++ b/pyannote/audio/tasks/embedding/mixins.py @@ -79,6 +79,9 @@ def setup(self, stage: Optional[str] = None): # loop over the training set, remove annotated regions shorter than # chunk duration, and keep track of the reference annotations, per class. + # FIXME: it looks like this time consuming step is called multiple times. + # it should not be... + self._train = dict() desc = f"Loading {self.protocol.name} training labels" @@ -218,28 +221,19 @@ def train__len__(self): avg_chunk_duration = 0.5 * (self.min_duration + self.duration) return max(self.batch_size, math.ceil(duration / avg_chunk_duration)) - def collate_X(self, batch) -> torch.Tensor: - return default_collate([b["X"] for b in batch]) - - def collate_y(self, batch) -> torch.Tensor: - return default_collate([b["y"] for b in batch]) - def collate_fn(self, batch, stage="train"): - # collate X - collated_X = self.collate_X(batch) + collated = default_collate(batch) - # collate y - collated_y = self.collate_y(batch) - - # apply augmentation (only in "train" stage) - self.augmentation.train(mode=(stage == "train")) - augmented = self.augmentation( - samples=collated_X, - sample_rate=self.model.hparams.sample_rate, - ) + if stage == "train": + self.augmentation.train(mode=True) + augmented = self.augmentation( + samples=collated["X"], + sample_rate=self.model.hparams.sample_rate, + ) + collated["X"] = augmented.samples - return {"X": augmented.samples, "y": collated_y} + return collated def training_step(self, batch, batch_idx: int): @@ -257,6 +251,7 @@ def training_step(self, batch, batch_idx: int): return {"loss": loss} def val__getitem__(self, idx): + if isinstance(self.protocol, SpeakerVerificationProtocol): trial = self._validation[idx] @@ -312,6 +307,3 @@ def validation_step(self, batch, batch_idx: int): prog_bar=True, logger=True, ) - - elif isinstance(self.protocol, SpeakerDiarizationProtocol): - pass From 9f790f27f6398692c199747355007d47ce78841d Mon Sep 17 00:00:00 2001 From: =?UTF-8?q?Herv=C3=A9=20BREDIN?= Date: Mon, 30 Jan 2023 16:52:20 +0100 Subject: [PATCH 045/112] feat: validate speaker embedding with new EqualErrorRate metric --- pyannote/audio/tasks/embedding/mixins.py | 7 ++- .../torchmetrics/classification/__init__.py | 28 ++++++++++ .../classification/equal_error_rate.py | 52 +++++++++++++++++++ 3 files changed, 86 insertions(+), 1 deletion(-) create mode 100644 pyannote/audio/torchmetrics/classification/__init__.py create mode 100644 pyannote/audio/torchmetrics/classification/equal_error_rate.py diff --git a/pyannote/audio/tasks/embedding/mixins.py b/pyannote/audio/tasks/embedding/mixins.py index 08721eb24..2178bb2a7 100644 --- a/pyannote/audio/tasks/embedding/mixins.py +++ b/pyannote/audio/tasks/embedding/mixins.py @@ -36,6 +36,7 @@ from tqdm import tqdm from pyannote.audio.core.task import Problem, Resolution, Specifications +from pyannote.audio.torchmetrics.classification import EqualErrorRate from pyannote.audio.utils.random import create_rng_for_worker @@ -132,7 +133,11 @@ def setup(self, stage: Optional[str] = None): def default_metric( self, ) -> Union[Metric, Sequence[Metric], Dict[str, Metric]]: - return BinaryAUROC(compute_on_cpu=True) + + return [ + EqualErrorRate(compute_on_cpu=True, distances=False), + BinaryAUROC(compute_on_cpu=True), + ] def train__iter__(self): """Iterate over training samples diff --git a/pyannote/audio/torchmetrics/classification/__init__.py b/pyannote/audio/torchmetrics/classification/__init__.py new file mode 100644 index 000000000..078522434 --- /dev/null +++ b/pyannote/audio/torchmetrics/classification/__init__.py @@ -0,0 +1,28 @@ +# MIT License +# +# Copyright (c) 2023- CNRS +# +# Permission is hereby granted, free of charge, to any person obtaining a copy +# of this software and associated documentation files (the "Software"), to deal +# in the Software without restriction, including without limitation the rights +# to use, copy, modify, merge, publish, distribute, sublicense, and/or sell +# copies of the Software, and to permit persons to whom the Software is +# furnished to do so, subject to the following conditions: +# +# The above copyright notice and this permission notice shall be included in all +# copies or substantial portions of the Software. +# +# THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR +# IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY, +# FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE +# AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER +# LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, +# OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE +# SOFTWARE. + + +from .equal_error_rate import EqualErrorRate + +__all__ = [ + "EqualErrorRate", +] diff --git a/pyannote/audio/torchmetrics/classification/equal_error_rate.py b/pyannote/audio/torchmetrics/classification/equal_error_rate.py new file mode 100644 index 000000000..f1daf0c10 --- /dev/null +++ b/pyannote/audio/torchmetrics/classification/equal_error_rate.py @@ -0,0 +1,52 @@ +# MIT License +# +# Copyright (c) 2023- CNRS +# +# Permission is hereby granted, free of charge, to any person obtaining a copy +# of this software and associated documentation files (the "Software"), to deal +# in the Software without restriction, including without limitation the rights +# to use, copy, modify, merge, publish, distribute, sublicense, and/or sell +# copies of the Software, and to permit persons to whom the Software is +# furnished to do so, subject to the following conditions: +# +# The above copyright notice and this permission notice shall be included in all +# copies or substantial portions of the Software. +# +# THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR +# IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY, +# FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE +# AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER +# LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, +# OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE +# SOFTWARE. + + +from typing import Optional + +import torch +from pyannote.metrics.binary_classification import det_curve +from torchmetrics import Metric +from torchmetrics.utilities.data import dim_zero_cat + + +class EqualErrorRate(Metric): + + is_differentiable: Optional[bool] = False + higher_is_better: Optional[bool] = False + full_state_update: bool = True + + def __init__(self, distances: bool = True, compute_on_cpu: bool = True, **kwargs): + super().__init__(compute_on_cpu=compute_on_cpu, **kwargs) + self.distances = distances + self.add_state("scores", default=[], dist_reduce_fx="cat") + self.add_state("y_true", default=[], dist_reduce_fx="cat") + + def update(self, scores: torch.Tensor, y_true: torch.Tensor) -> None: + self.scores.append(scores) + self.y_true.append(y_true) + + def compute(self) -> torch.Tensor: + scores = dim_zero_cat(self.scores) + y_true = dim_zero_cat(self.y_true) + _, _, _, eer = det_curve(y_true.cpu(), scores.cpu(), distances=self.distances) + return torch.tensor(eer) From 856178a508ba5ab9b5f778882ef6c0dfadb07539 Mon Sep 17 00:00:00 2001 From: =?UTF-8?q?Herv=C3=A9=20BREDIN?= Date: Wed, 1 Feb 2023 11:25:50 +0100 Subject: [PATCH 046/112] fix(pipeline): fix corner case where global number of speakers is smaller than frame-wise one --- pyannote/audio/pipelines/utils/diarization.py | 7 ++++++- 1 file changed, 6 insertions(+), 1 deletion(-) diff --git a/pyannote/audio/pipelines/utils/diarization.py b/pyannote/audio/pipelines/utils/diarization.py index 2ac783439..de07524e6 100644 --- a/pyannote/audio/pipelines/utils/diarization.py +++ b/pyannote/audio/pipelines/utils/diarization.py @@ -211,9 +211,14 @@ def to_diarization( missing=0.0, skip_average=True, ) + # shape is (num_frames, num_speakers) _, num_speakers = activations.data.shape - count.data = np.minimum(count.data, num_speakers) + max_speakers_per_frame = np.max(count.data) + if num_speakers < max_speakers_per_frame: + activations.data = np.pad( + activations.data, ((0, 0), (0, max_speakers_per_frame - num_speakers)) + ) extent = activations.extent & count.extent activations = activations.crop(extent, return_data=False) From 38d58e8631b491e5afd93e3884f7933b9eba0bcd Mon Sep 17 00:00:00 2001 From: =?UTF-8?q?Herv=C3=A9=20BREDIN?= Date: Wed, 8 Feb 2023 09:29:44 +0100 Subject: [PATCH 047/112] github: add suggest-related-links bot --- .github/workflows/suggest-related-links.yml | 33 +++++++++++++++++++++ 1 file changed, 33 insertions(+) create mode 100644 .github/workflows/suggest-related-links.yml diff --git a/.github/workflows/suggest-related-links.yml b/.github/workflows/suggest-related-links.yml new file mode 100644 index 000000000..5caf2aaf3 --- /dev/null +++ b/.github/workflows/suggest-related-links.yml @@ -0,0 +1,33 @@ +name: 'Suggest Related Links' + +on: + issues: + types: + - opened + - edited + workflow_dispatch: + schedule: + - cron: '13 13 * * */7' + +jobs: + action: + runs-on: ubuntu-18.04 + steps: + - name: Cache dependencies + uses: actions/cache@v2 + with: + path: ~/actions-suggest-related-links-tmp + key: ${{ runner.os }}-action-${{ hashFiles('~/actions-suggest-related-links-tmp/training-data.json') }} + restore-keys: | + ${{ runner.os }}-action- + + - uses: peaceiris/actions-suggest-related-links@v1.1.1 + - uses: peaceiris/actions-suggest-related-links/models/fasttext@v1.1.1 + if: github.event_name == 'issues' + with: + version: v1.1.1 + - uses: peaceiris/actions-suggest-related-links@v1.1.1 + with: + mode: 'suggest' + repository: 'peaceiris/actions-gh-pages' + unclickable: true From 6dab9043b64cd41635e9f5d65e9a882da77eba99 Mon Sep 17 00:00:00 2001 From: =?UTF-8?q?Herv=C3=A9=20BREDIN?= Date: Wed, 8 Feb 2023 09:34:43 +0100 Subject: [PATCH 048/112] Delete suggest-related-links.yml --- .github/workflows/suggest-related-links.yml | 33 --------------------- 1 file changed, 33 deletions(-) delete mode 100644 .github/workflows/suggest-related-links.yml diff --git a/.github/workflows/suggest-related-links.yml b/.github/workflows/suggest-related-links.yml deleted file mode 100644 index 5caf2aaf3..000000000 --- a/.github/workflows/suggest-related-links.yml +++ /dev/null @@ -1,33 +0,0 @@ -name: 'Suggest Related Links' - -on: - issues: - types: - - opened - - edited - workflow_dispatch: - schedule: - - cron: '13 13 * * */7' - -jobs: - action: - runs-on: ubuntu-18.04 - steps: - - name: Cache dependencies - uses: actions/cache@v2 - with: - path: ~/actions-suggest-related-links-tmp - key: ${{ runner.os }}-action-${{ hashFiles('~/actions-suggest-related-links-tmp/training-data.json') }} - restore-keys: | - ${{ runner.os }}-action- - - - uses: peaceiris/actions-suggest-related-links@v1.1.1 - - uses: peaceiris/actions-suggest-related-links/models/fasttext@v1.1.1 - if: github.event_name == 'issues' - with: - version: v1.1.1 - - uses: peaceiris/actions-suggest-related-links@v1.1.1 - with: - mode: 'suggest' - repository: 'peaceiris/actions-gh-pages' - unclickable: true From 1f83e0b867e5b9e0221e238e7955b7d6fc4ea967 Mon Sep 17 00:00:00 2001 From: =?UTF-8?q?Herv=C3=A9=20BREDIN?= Date: Mon, 13 Feb 2023 10:34:11 +0100 Subject: [PATCH 049/112] feat: add `weigh_by_cardinality` option (#1256) --- .../audio/tasks/segmentation/segmentation.py | 20 ++++++++++++++++++- pyannote/audio/utils/loss.py | 9 ++++++++- pyannote/audio/utils/powerset.py | 14 +++++++++++-- 3 files changed, 39 insertions(+), 4 deletions(-) diff --git a/pyannote/audio/tasks/segmentation/segmentation.py b/pyannote/audio/tasks/segmentation/segmentation.py index a7e6c4b3f..976b5d376 100644 --- a/pyannote/audio/tasks/segmentation/segmentation.py +++ b/pyannote/audio/tasks/segmentation/segmentation.py @@ -69,6 +69,12 @@ class Segmentation(SegmentationTaskMixin, Task): Maximum number of (overlapping) speakers per frame. Setting this value to 1 or more enables `powerset multi-class` training. Default behavior is to use `multi-label` training. + weigh_by_cardinality: bool, optional + Weigh each powerset classes by the size of the corresponding speaker set. + In other words, {0, 1} powerset class weight is 2x bigger than that of {0} + or {1} powerset classes. Note that empty (non-speech) powerset class is + assigned the same weight as mono-speaker classes. Defaults to False (i.e. use + same weight for every class). Has no effect with `multi-label` training. warm_up : float or (float, float), optional Use that many seconds on the left- and rightmost parts of each chunk to warm up the model. While the model does process those left- and right-most @@ -119,6 +125,7 @@ def __init__( duration: float = 2.0, max_speakers_per_chunk: int = None, max_speakers_per_frame: int = None, + weigh_by_cardinality: bool = False, warm_up: Union[float, Tuple[float, float]] = 0.0, balance: Text = None, weight: Text = None, @@ -165,6 +172,7 @@ def __init__( self.max_speakers_per_chunk = max_speakers_per_chunk self.max_speakers_per_frame = max_speakers_per_frame + self.weigh_by_cardinality = weigh_by_cardinality self.balance = balance self.weight = weight self.vad_loss = vad_loss @@ -291,8 +299,18 @@ def segmentation_loss( """ if self.specifications.powerset: + + # `clamp_min` is needed to set non-speech weight to 1. + class_weight = ( + torch.clamp_min(self.model.powerset.cardinality, 1.0) + if self.weigh_by_cardinality + else None + ) seg_loss = nll_loss( - permutated_prediction, torch.argmax(target, dim=-1), weight=weight + permutated_prediction, + torch.argmax(target, dim=-1), + class_weight=class_weight, + weight=weight, ) else: seg_loss = binary_cross_entropy( diff --git a/pyannote/audio/utils/loss.py b/pyannote/audio/utils/loss.py index c8f37f3f0..2c55b26f3 100644 --- a/pyannote/audio/utils/loss.py +++ b/pyannote/audio/utils/loss.py @@ -129,7 +129,10 @@ def mse_loss( def nll_loss( - prediction: torch.Tensor, target: torch.Tensor, weight: torch.Tensor = None + prediction: torch.Tensor, + target: torch.Tensor, + class_weight: torch.Tensor = None, + weight: torch.Tensor = None, ) -> torch.Tensor: """Frame-weighted negative log-likelihood loss @@ -139,6 +142,8 @@ def nll_loss( Prediction with shape (batch_size, num_frames, num_classes). target : torch.Tensor Target with shape (batch_size, num_frames) + class_weight : (num_classes, ) torch.Tensor, optional + Class weight with shape (num_classes, ) weight : (batch_size, num_frames, 1) torch.Tensor, optional Frame weight with shape (batch_size, num_frames, 1). @@ -154,6 +159,8 @@ def nll_loss( # (batch_size x num_frames, num_classes) target.view(-1), # (batch_size x num_frames, ) + weight=class_weight, + # (num_classes, ) reduction="none", ).view(target.shape) # (batch_size, num_frames) diff --git a/pyannote/audio/utils/powerset.py b/pyannote/audio/utils/powerset.py index e909ab4ee..f206b65bf 100644 --- a/pyannote/audio/utils/powerset.py +++ b/pyannote/audio/utils/powerset.py @@ -53,8 +53,8 @@ def __init__(self, num_classes: int, max_set_size: int): self.num_classes = num_classes self.max_set_size = max_set_size - mapping = self.build_mapping() - self.register_buffer("mapping", mapping, persistent=False) + self.register_buffer("mapping", self.build_mapping(), persistent=False) + self.register_buffer("cardinality", self.build_cardinality(), persistent=False) @cached_property def num_powerset_classes(self) -> int: @@ -78,6 +78,16 @@ def build_mapping(self) -> torch.Tensor: return mapping + def build_cardinality(self) -> torch.Tensor: + """Compute size of each powerset class""" + cardinality = torch.zeros(self.num_powerset_classes) + powerset_k = 0 + for set_size in range(0, self.max_set_size + 1): + for _ in combinations(range(self.num_classes), set_size): + cardinality[powerset_k] = set_size + powerset_k += 1 + return cardinality + def to_multilabel(self, powerset: torch.Tensor) -> torch.Tensor: """Convert (hard) predictions from powerset to multi-label From 733cb433ab6c945adc07372396da9a8528f887b5 Mon Sep 17 00:00:00 2001 From: =?UTF-8?q?Herv=C3=A9=20BREDIN?= Date: Thu, 16 Feb 2023 13:49:41 +0100 Subject: [PATCH 050/112] =?UTF-8?q?Cr=C3=A9=C3=A9=20avec=20Colaboratory?= MIME-Version: 1.0 Content-Type: text/plain; charset=UTF-8 Content-Transfer-Encoding: 8bit --- tutorials/intro.ipynb | 29 +++++++++++++++-------------- 1 file changed, 15 insertions(+), 14 deletions(-) diff --git a/tutorials/intro.ipynb b/tutorials/intro.ipynb index 3f9489aae..d5579541e 100644 --- a/tutorials/intro.ipynb +++ b/tutorials/intro.ipynb @@ -47,7 +47,7 @@ }, { "cell_type": "code", - "execution_count": 1, + "execution_count": null, "metadata": { "id": "ai082p4HYnp7", "outputId": "bb673846-8b58-4743-cea2-6c6270632d7f", @@ -127,7 +127,7 @@ }, { "cell_type": "code", - "execution_count": 1, + "execution_count": null, "metadata": { "id": "uJWoQiJgYnp8" }, @@ -149,7 +149,7 @@ }, { "cell_type": "code", - "execution_count": 2, + "execution_count": null, "metadata": { "id": "Mmm0Q22JYnp8" }, @@ -160,7 +160,7 @@ }, { "cell_type": "code", - "execution_count": 3, + "execution_count": null, "metadata": { "id": "ToqCwl_FYnp9", "outputId": "a1d9631f-b198-44d1-ff6d-ec304125a9f4", @@ -202,7 +202,7 @@ }, { "cell_type": "code", - "execution_count": 4, + "execution_count": null, "metadata": { "id": "bAHza4Y1Ynp-", "outputId": "c4cc2369-bfe4-4ac2-bb71-37602e7c7a8a", @@ -245,7 +245,7 @@ }, { "cell_type": "code", - "execution_count": 5, + "execution_count": null, "metadata": { "id": "rDhZ3bXEYnp-", "outputId": "a82efe4e-2f9c-48bd-94fb-c62af3a3cb43", @@ -461,13 +461,14 @@ "\n", "To load the speaker diarization pipeline, \n", "\n", - "* accept the user conditions on [hf.co/pyannote/speaker-diarization](https://hf.co/pyannote/speaker-diarization).\n", + "* accept the user conditions on [hf.co/pyannote/speaker-diarization](https://hf.co/pyannote/speaker-diarization)\n", + "* accept the user conditions on [hf.co/pyannote/speaker-diarization](https://hf.co/pyannote/segmentation)\n", "* login using `notebook_login` below" ] }, { "cell_type": "code", - "execution_count": 6, + "execution_count": null, "metadata": { "id": "r5u7VMb-YnqB", "outputId": "c714a997-d4f8-417a-e5ad-0a4924333859", @@ -509,7 +510,7 @@ }, { "cell_type": "code", - "execution_count": 7, + "execution_count": null, "metadata": { "id": "lUq1UvoJYnqB", "outputId": "8c052808-d0b2-4f2e-8771-f86114ae3fe3", @@ -739,7 +740,7 @@ }, { "cell_type": "code", - "execution_count": 8, + "execution_count": null, "metadata": { "id": "DPosdyGrYnqB", "outputId": "45a2315e-6841-4de4-e54e-1f3da7cf2d46", @@ -778,7 +779,7 @@ }, { "cell_type": "code", - "execution_count": 9, + "execution_count": null, "metadata": { "id": "vNHQRTUIYnqB" }, @@ -791,7 +792,7 @@ }, { "cell_type": "code", - "execution_count": 10, + "execution_count": null, "metadata": { "id": "9d0vKQ0fYnqB", "outputId": "9a664753-cd84-4211-9153-d33e929bb252", @@ -825,7 +826,7 @@ }, { "cell_type": "code", - "execution_count": 11, + "execution_count": null, "metadata": { "id": "xMLf4mrYYnqB", "outputId": "ed08bcc8-24c6-439c-a244-3a673ff480b0", @@ -854,7 +855,7 @@ }, { "cell_type": "code", - "execution_count": 12, + "execution_count": null, "metadata": { "id": "Z0ewsLlQYnqB", "outputId": "8a8cd040-ee1d-48f7-d4be-eef9e08e9e55", From b3385ff709ffb0e337b65205de1bd9eed0c0227f Mon Sep 17 00:00:00 2001 From: =?UTF-8?q?Herv=C3=A9=20BREDIN?= Date: Thu, 16 Feb 2023 13:54:52 +0100 Subject: [PATCH 051/112] doc: remove duplicate Colab badge --- tutorials/intro.ipynb | 2371 ++++++++++++++++++++--------------------- 1 file changed, 1180 insertions(+), 1191 deletions(-) diff --git a/tutorials/intro.ipynb b/tutorials/intro.ipynb index d5579541e..f5decb153 100644 --- a/tutorials/intro.ipynb +++ b/tutorials/intro.ipynb @@ -1,15 +1,5 @@ { "cells": [ - { - "cell_type": "markdown", - "metadata": { - "id": "view-in-github", - "colab_type": "text" - }, - "source": [ - "\"Open" - ] - }, { "cell_type": "markdown", "metadata": { @@ -49,59 +39,16 @@ "cell_type": "code", "execution_count": null, "metadata": { - "id": "ai082p4HYnp7", - "outputId": "bb673846-8b58-4743-cea2-6c6270632d7f", "colab": { "base_uri": "https://localhost:8080/" + }, + "id": "ai082p4HYnp7", + "outputId": "bb673846-8b58-4743-cea2-6c6270632d7f", + "vscode": { + "languageId": "python" } }, - "outputs": [ - { - "output_type": "stream", - "name": "stdout", - "text": [ - "\u001b[K |████████████████████████████████| 750.6 MB 10 kB/s \n", - "\u001b[K |████████████████████████████████| 21.0 MB 1.3 MB/s \n", - "\u001b[K |████████████████████████████████| 2.9 MB 55.5 MB/s \n", - "\u001b[K |████████████████████████████████| 10.4 MB 46.0 MB/s \n", - "\u001b[K |████████████████████████████████| 496 kB 25.8 MB/s \n", - "\u001b[K |████████████████████████████████| 1.3 MB 60.6 MB/s \n", - 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"\u001b[K |████████████████████████████████| 1.6 MB 56.2 MB/s \n", - "\u001b[31mERROR: pip's dependency resolver does not currently take into account all the packages that are installed. This behaviour is the source of the following dependency conflicts.\n", - "google-colab 1.0.0 requires ipython~=7.9.0, but you have ipython 7.34.0 which is incompatible.\u001b[0m\n", - "\u001b[?25h" - ] - } - ], + "outputs": [], "source": [ "# for speechbrain\n", "!pip install -qq torch==1.11.0 torchvision==0.12.0 torchaudio==0.11.0 torchtext==0.12.0\n", @@ -129,7 +76,10 @@ "cell_type": "code", "execution_count": null, "metadata": { - "id": "uJWoQiJgYnp8" + "id": "uJWoQiJgYnp8", + "vscode": { + "languageId": "python" + } }, "outputs": [], "source": [ @@ -151,7 +101,10 @@ "cell_type": "code", "execution_count": null, "metadata": { - "id": "Mmm0Q22JYnp8" + "id": "Mmm0Q22JYnp8", + "vscode": { + "languageId": "python" + } }, "outputs": [], "source": [ @@ -162,24 +115,27 @@ "cell_type": "code", "execution_count": null, "metadata": { - "id": "ToqCwl_FYnp9", - "outputId": "a1d9631f-b198-44d1-ff6d-ec304125a9f4", "colab": { "base_uri": "https://localhost:8080/", "height": 233 + }, + "id": "ToqCwl_FYnp9", + "outputId": "a1d9631f-b198-44d1-ff6d-ec304125a9f4", + "vscode": { + "languageId": "python" } }, "outputs": [ { - "output_type": "execute_result", "data": { + "image/png": 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+ ] }, + "execution_count": 3, "metadata": {}, - "execution_count": 3 + "output_type": "execute_result" } ], "source": [ @@ -204,24 +160,27 @@ "cell_type": "code", "execution_count": null, "metadata": { - "id": "bAHza4Y1Ynp-", - "outputId": "c4cc2369-bfe4-4ac2-bb71-37602e7c7a8a", "colab": { "base_uri": "https://localhost:8080/", "height": 230 + }, + "id": "bAHza4Y1Ynp-", + "outputId": "c4cc2369-bfe4-4ac2-bb71-37602e7c7a8a", + "vscode": { + "languageId": "python" } }, "outputs": [ { - "output_type": "execute_result", "data": { + "image/png": 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+ ] }, + "execution_count": 4, "metadata": {}, - "execution_count": 4 + "output_type": "execute_result" } ], "source": [ @@ -247,20 +206,19 @@ "cell_type": "code", "execution_count": null, "metadata": { - "id": "rDhZ3bXEYnp-", - "outputId": "a82efe4e-2f9c-48bd-94fb-c62af3a3cb43", "colab": { "base_uri": "https://localhost:8080/", "height": 62 + }, + "id": "rDhZ3bXEYnp-", + "outputId": "a82efe4e-2f9c-48bd-94fb-c62af3a3cb43", + "vscode": { + "languageId": "python" } }, "outputs": [ { - "output_type": "execute_result", "data": { - "text/plain": [ - "" - ], "text/html": [ "\n", " \n", " " + ], + "text/plain": [ + "" ] }, + "execution_count": 5, "metadata": {}, - "execution_count": 5 + "output_type": "execute_result" } ], "source": [ @@ -308,7 +270,10 @@ "execution_count": null, "metadata": { "id": "xC05jFO_Ynp_", - "outputId": "c5502632-56ae-4adb-8bdc-112deedc8893" + "outputId": "c5502632-56ae-4adb-8bdc-112deedc8893", + "vscode": { + "languageId": "python" + } }, "outputs": [ { @@ -398,7 +363,10 @@ "execution_count": null, "metadata": { "id": "iZaFudpDYnp_", - "outputId": "981274fa-e654-4091-c838-91c81f921e5d" + "outputId": "981274fa-e654-4091-c838-91c81f921e5d", + "vscode": { + "languageId": "python" + } }, "outputs": [ { @@ -429,7 +397,7 @@ }, { "data": { - "image/png": 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"text/plain": [ "" ] @@ -470,8 +438,6 @@ "cell_type": "code", "execution_count": null, "metadata": { - "id": "r5u7VMb-YnqB", - "outputId": "c714a997-d4f8-417a-e5ad-0a4924333859", "colab": { "base_uri": "https://localhost:8080/", "height": 301, @@ -491,12 +457,17 @@ "765485a1d3f941d28b79782dcffbf401", "3499ef4dd9f243d9bef00b396e78ed69" ] + }, + "id": "r5u7VMb-YnqB", + "outputId": "c714a997-d4f8-417a-e5ad-0a4924333859", + "vscode": { + "languageId": "python" } }, "outputs": [ { - "output_type": "stream", "name": "stdout", + "output_type": "stream", "text": [ "Login successful\n", "Your token has been saved to /root/.huggingface/token\n" @@ -512,8 +483,6 @@ "cell_type": "code", "execution_count": null, "metadata": { - "id": "lUq1UvoJYnqB", - "outputId": "8c052808-d0b2-4f2e-8771-f86114ae3fe3", "colab": { "base_uri": "https://localhost:8080/", "height": 273, @@ -607,120 +576,125 @@ "bacfb50c001047c4824a05c9f2ee2e40", "c53a1cf68fcd4388abf1f0379891089a" ] + }, + "id": "lUq1UvoJYnqB", + "outputId": "8c052808-d0b2-4f2e-8771-f86114ae3fe3", + "vscode": { + "languageId": "python" } }, "outputs": [ { - "output_type": "display_data", "data": { - "text/plain": [ - "Downloading: 0%| | 0.00/500 [00:00" - ], - "image/png": 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+ ] }, + "execution_count": 8, "metadata": {}, - "execution_count": 8 + "output_type": "execute_result" } ], "source": [ @@ -781,7 +758,10 @@ "cell_type": "code", "execution_count": null, "metadata": { - "id": "vNHQRTUIYnqB" + "id": "vNHQRTUIYnqB", + "vscode": { + "languageId": "python" + } }, "outputs": [], "source": [ @@ -794,16 +774,19 @@ "cell_type": "code", "execution_count": null, "metadata": { - "id": "9d0vKQ0fYnqB", - "outputId": "9a664753-cd84-4211-9153-d33e929bb252", "colab": { "base_uri": "https://localhost:8080/" + }, + "id": "9d0vKQ0fYnqB", + "outputId": "9a664753-cd84-4211-9153-d33e929bb252", + "vscode": { + "languageId": "python" } }, "outputs": [ { - "output_type": "stream", "name": "stdout", + "output_type": "stream", "text": [ "diarization error rate = 19.2%\n" ] @@ -828,24 +811,27 @@ "cell_type": "code", "execution_count": null, "metadata": { - "id": "xMLf4mrYYnqB", - "outputId": "ed08bcc8-24c6-439c-a244-3a673ff480b0", "colab": { "base_uri": "https://localhost:8080/", "height": 230 + }, + "id": "xMLf4mrYYnqB", + "outputId": "ed08bcc8-24c6-439c-a244-3a673ff480b0", + "vscode": { + "languageId": "python" } }, "outputs": [ { - "output_type": "execute_result", "data": { + "image/png": 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+ ] }, + "execution_count": 11, "metadata": {}, - "execution_count": 11 + "output_type": "execute_result" } ], "source": [ @@ -857,24 +843,27 @@ "cell_type": "code", "execution_count": null, "metadata": { - "id": "Z0ewsLlQYnqB", - "outputId": "8a8cd040-ee1d-48f7-d4be-eef9e08e9e55", "colab": { "base_uri": "https://localhost:8080/", "height": 230 + }, + "id": "Z0ewsLlQYnqB", + "outputId": "8a8cd040-ee1d-48f7-d4be-eef9e08e9e55", + "vscode": { + "languageId": "python" } }, "outputs": [ { - "output_type": "execute_result", "data": { + "image/png": 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Copy a token from your Hugging Face\ntokens page and paste it below.
Immediately click login after copying\nyour token or it might be stored in plain text in this notebook file.
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Copy a token from your Hugging Face\ntokens page and paste it below.
Immediately click login after copying\nyour token or it might be stored in plain text in this notebook file.
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}, - "colab": { - "provenance": [], - "include_colab_link": true - }, - "accelerator": "GPU" + } }, "nbformat": 4, "nbformat_minor": 0 -} \ No newline at end of file +} From 2a9a892726e27a95af455650217d1aa4c7681b29 Mon Sep 17 00:00:00 2001 From: =?UTF-8?q?Herv=C3=A9=20BREDIN?= Date: Thu, 16 Feb 2023 13:55:58 +0100 Subject: [PATCH 052/112] doc: fix link to pyannote/segmentation --- tutorials/intro.ipynb | 3 ++- 1 file changed, 2 insertions(+), 1 deletion(-) diff --git a/tutorials/intro.ipynb b/tutorials/intro.ipynb index f5decb153..f6b420437 100644 --- a/tutorials/intro.ipynb +++ b/tutorials/intro.ipynb @@ -418,6 +418,7 @@ ] }, { + "attachments": {}, "cell_type": "markdown", "metadata": { "id": "5MclWK2GYnp_" @@ -430,7 +431,7 @@ "To load the speaker diarization pipeline, \n", "\n", "* accept the user conditions on [hf.co/pyannote/speaker-diarization](https://hf.co/pyannote/speaker-diarization)\n", - "* accept the user conditions on [hf.co/pyannote/speaker-diarization](https://hf.co/pyannote/segmentation)\n", + "* accept the user conditions on [hf.co/pyannote/segmentation](https://hf.co/pyannote/segmentation)\n", "* login using `notebook_login` below" ] }, From d4ff0bd23dcf9f8bf2ed907ca73fbdc2be19d4e1 Mon Sep 17 00:00:00 2001 From: =?UTF-8?q?Herv=C3=A9=20BREDIN?= Date: Thu, 16 Feb 2023 21:17:08 +0100 Subject: [PATCH 053/112] feat: add option to make progress hook transient (#1264) --- pyannote/audio/pipelines/utils/hook.py | 10 ++++++++++ 1 file changed, 10 insertions(+) diff --git a/pyannote/audio/pipelines/utils/hook.py b/pyannote/audio/pipelines/utils/hook.py index 443ef9ac4..cb150ea4a 100644 --- a/pyannote/audio/pipelines/utils/hook.py +++ b/pyannote/audio/pipelines/utils/hook.py @@ -51,6 +51,11 @@ def logging_hook( class ProgressHook: """Hook to show progress of each internal step + Parameters + ---------- + transient: bool, optional + Clear the progress on exit. Defaults to False. + Example ------- pipeline = Pipeline.from_pretrained("pyannote/speaker-diarization") @@ -58,6 +63,10 @@ class ProgressHook: output = pipeline(file, hook=hook) """ + def __init__(self, transient: bool = False): + super().__init__() + self.transient = transient + def __enter__(self): self.progress = Progress( @@ -65,6 +74,7 @@ def __enter__(self): BarColumn(), TaskProgressColumn(), TimeRemainingColumn(elapsed_when_finished=True), + transient=self.transient, ) self.progress.start() return self From 9da0ce8d604ef4203cd80eea82c9866a8980dbc0 Mon Sep 17 00:00:00 2001 From: =?UTF-8?q?Herv=C3=A9=20BREDIN?= Date: Mon, 20 Feb 2023 07:53:04 +0100 Subject: [PATCH 054/112] feat: add support for "device" in Pipeline.from_pretrained (#1265) --- pyannote/audio/core/pipeline.py | 6 ++++++ 1 file changed, 6 insertions(+) diff --git a/pyannote/audio/core/pipeline.py b/pyannote/audio/core/pipeline.py index f7c83a3e9..8ebd76c6a 100644 --- a/pyannote/audio/core/pipeline.py +++ b/pyannote/audio/core/pipeline.py @@ -28,6 +28,7 @@ from pathlib import Path from typing import Callable, Dict, List, Optional, Text, Union +import torch import yaml from huggingface_hub import hf_hub_download from huggingface_hub.utils import RepositoryNotFoundError @@ -169,6 +170,11 @@ def from_pretrained( pipeline.preprocessors = preprocessors + # send pipeline to specified device + if "device" in config: + device = torch.device(config["device"]) + pipeline.to(device) + return pipeline def __init__(self): From e3dc7d68cc60c7d4f89df005b58674aa936b0882 Mon Sep 17 00:00:00 2001 From: =?UTF-8?q?Herv=C3=A9=20BREDIN?= Date: Mon, 20 Feb 2023 07:54:04 +0100 Subject: [PATCH 055/112] fix: switch back to monitoring DER --- .../audio/tasks/segmentation/segmentation.py | 21 ------------------- 1 file changed, 21 deletions(-) diff --git a/pyannote/audio/tasks/segmentation/segmentation.py b/pyannote/audio/tasks/segmentation/segmentation.py index 976b5d376..715cfc646 100644 --- a/pyannote/audio/tasks/segmentation/segmentation.py +++ b/pyannote/audio/tasks/segmentation/segmentation.py @@ -731,27 +731,6 @@ def validation_step(self, batch, batch_idx: int): plt.close(fig) - @property - def val_monitor(self): - """Quantity (and direction) to monitor - - Useful for model checkpointing or early stopping. - - Returns - ------- - monitor : str - Name of quantity to monitor (validation loss) - mode : {'min', 'max} - Minimize - - See also - -------- - pytorch_lightning.callbacks.ModelCheckpoint - pytorch_lightning.callbacks.EarlyStopping - """ - - return f"{self.logging_prefix}ValLoss", "min" - def main(protocol: str, subset: str = "test", model: str = "pyannote/segmentation"): """Evaluate a segmentation model""" From b56add2e2033060dca28be71563dab5ff0fd3e64 Mon Sep 17 00:00:00 2001 From: =?UTF-8?q?Herv=C3=A9=20BREDIN?= Date: Mon, 20 Feb 2023 07:58:58 +0100 Subject: [PATCH 056/112] BREAKING(cli): only save top checkpoint --- pyannote/audio/cli/train.py | 4 ++-- 1 file changed, 2 insertions(+), 2 deletions(-) diff --git a/pyannote/audio/cli/train.py b/pyannote/audio/cli/train.py index 56e6a3c18..be9596e4a 100644 --- a/pyannote/audio/cli/train.py +++ b/pyannote/audio/cli/train.py @@ -26,6 +26,7 @@ import hydra from hydra.utils import instantiate +from lightning_lite.utilities.seed import seed_everything from omegaconf import DictConfig, OmegaConf # from pyannote.audio.core.callback import GraduallyUnfreeze @@ -37,7 +38,6 @@ RichProgressBar, ) from pytorch_lightning.loggers import TensorBoardLogger -from lightning_lite.utilities.seed import seed_everything from torch_audiomentations.utils.config import from_dict as get_augmentation from pyannote.audio.core.io import get_torchaudio_info @@ -112,7 +112,7 @@ def configure_optimizers(self): checkpoint = ModelCheckpoint( monitor=monitor, mode=direction, - save_top_k=None if monitor is None else 5, + save_top_k=None if monitor is None else 1, every_n_epochs=1, save_last=True, save_weights_only=False, From 39a261a0eb2eed89ba0f167aea35e8e27d8310c6 Mon Sep 17 00:00:00 2001 From: =?UTF-8?q?Herv=C3=A9=20BREDIN?= Date: Thu, 16 Mar 2023 15:04:26 +0100 Subject: [PATCH 057/112] feat: add FAQ based on faqtory (#1283) --- .faq/FAQ.md | 20 +++++++++++++ .faq/suggest.md | 20 +++++++++++++ .github/workflows/new_issue.yml | 27 ++++++++++++++++++ FAQ.md | 41 +++++++++++++++++++++++---- README.md | 7 +---- faq.yml | 7 +++++ questions/README.md | 6 ++++ questions/bad_performance.question.md | 16 +++++++++++ questions/from_memory.question.md | 7 +++++ questions/offline.question.md | 15 ++++++++++ questions/pyannote.question.md | 10 +++++++ questions/streaming.question.md | 10 +++++++ 12 files changed, 174 insertions(+), 12 deletions(-) create mode 100644 .faq/FAQ.md create mode 100644 .faq/suggest.md create mode 100644 .github/workflows/new_issue.yml create mode 100644 faq.yml create mode 100644 questions/README.md create mode 100644 questions/bad_performance.question.md create mode 100644 questions/from_memory.question.md create mode 100644 questions/offline.question.md create mode 100644 questions/pyannote.question.md create mode 100644 questions/streaming.question.md diff --git a/.faq/FAQ.md b/.faq/FAQ.md new file mode 100644 index 000000000..24516eace --- /dev/null +++ b/.faq/FAQ.md @@ -0,0 +1,20 @@ + +# Frequently Asked Questions + +{%- for question in questions %} +- [{{ question.title }}](#{{ question.slug }}) +{%- endfor %} + + +{%- for question in questions %} + + +## {{ question.title }} + +{{ question.body }} + +{%- endfor %} + +
+ +Generated by [FAQtory](https://github.com/willmcgugan/faqtory) diff --git a/.faq/suggest.md b/.faq/suggest.md new file mode 100644 index 000000000..0a9233998 --- /dev/null +++ b/.faq/suggest.md @@ -0,0 +1,20 @@ +{%- if questions -%} +{% if questions|length == 1 %} +We found the following entry in the [FAQ]({{ faq_url }}) which you may find helpful: +{%- else %} +We found the following entries in the [FAQ]({{ faq_url }}) which you may find helpful: +{%- endif %} + +{% for question in questions %} +- [{{ question.title }}]({{ faq_url }}#{{ question.slug }}) +{%- endfor %} + +Feel free to close this issue if you found an answer in the FAQ. Otherwise, please give us a little time to review. + +{%- else -%} +Thank you for your issue. Give us a little time to review it. + +PS. You might want to check the [FAQ]({{ faq_url }}) if you haven't done so already. +{%- endif %} + +This is an automated reply, generated by [FAQtory](https://github.com/willmcgugan/faqtory) diff --git a/.github/workflows/new_issue.yml b/.github/workflows/new_issue.yml new file mode 100644 index 000000000..9b6665ec5 --- /dev/null +++ b/.github/workflows/new_issue.yml @@ -0,0 +1,27 @@ +name: issues +on: + issues: + types: [opened] +jobs: + add-comment: + runs-on: ubuntu-latest + permissions: + issues: write + steps: + - uses: actions/checkout@v3 + with: + ref: main + - name: Install FAQtory + run: pip install FAQtory + - name: Run Suggest + run: faqtory suggest "${{ github.event.issue.title }}" > suggest.md + - name: Read suggest.md + id: suggest + uses: juliangruber/read-file-action@v1 + with: + path: ./suggest.md + - name: Suggest FAQ + uses: peter-evans/create-or-update-comment@a35cf36e5301d70b76f316e867e7788a55a31dae + with: + issue-number: ${{ github.event.issue.number }} + body: ${{ steps.suggest.outputs.content }} diff --git a/FAQ.md b/FAQ.md index 3b50069a4..f192b2939 100644 --- a/FAQ.md +++ b/FAQ.md @@ -1,11 +1,17 @@ -# Frequently asked questions -## How does one capitalize and pronounce the name of this awesome library? +# Frequently Asked Questions +- [Can I apply pretrained pipelines on audio already loaded in memory?](#can-i-apply-pretrained-pipelines-on-audio-already-loaded-in-memory) +- [Can I use gated models (and pipelines) offline?](#can-i-use-gated-models-(and-pipelines)-offline) +- [Does pyannote support streaming speaker diarization?](#does-pyannote-support-streaming-speaker-diarization) +- [How can I improve performance?](#how-can-i-improve-performance) +- [How does one spell and pronounce pyannote.audio?](#how-does-one-spell-and-pronounce-pyannoteaudio) -📝 Written in lower case: `pyannote.audio` (or `pyannote` if you are lazy). Not `PyAnnote` nor `PyAnnotate` (*sic*). -📢 [Pronounced](https://www.howtopronounce.com/french/pianote) like the french verb *pianoter*. *pi* like in **pi**ano, not *py* like in **py**thon. -🎹 *pianoter* means *to play the piano* (hence the logo 🤯). + +## Can I apply pretrained pipelines on audio already loaded in memory? +Yes: read [this tutorial](tutorials/applying_a_pipeline.ipynb) until the end. + + ## Can I use gated models (and pipelines) offline? **Short answer**: yes, see [this tutorial](tutorials/applying_a_model.ipynb) for models and [that one](tutorials/applying_a_pipeline.ipynb) for pipelines. @@ -16,10 +22,33 @@ For instance, before gating `pyannote/speaker-diarization`, I had no idea that s That being said, this whole authentication process does not prevent you from using official `pyannote.audio` models offline (i.e. without going through the authentication process in every `docker run ...` or whatever you are using in production): see [this tutorial](tutorials/applying_a_model.ipynb) for models and [that one](tutorials/applying_a_pipeline.ipynb) for pipelines. -## **[Pretrained pipelines](https://huggingface.co/models?other=pyannote-audio-pipeline) do not produce good results on my data. What can I do?** + +## Does pyannote support streaming speaker diarization? + +**Short answer:** not out of the box, no. + +**Long answer:** [I](https://herve.niderb.fr) am looking for sponsors to add this feature. In the meantime, [`diart`](https://github.com/juanmc2005/StreamingSpeakerDiarization) is the closest you can get from a streaming `pyannote.audio`. You might also be interested in [this blog post](https://herve.niderb.fr/fastpages/2021/08/05/Streaming-voice-activity-detection-with-pyannote.html) about streaming voice activity detection based on `pyannote.audio`. + + +## How can I improve performance? + +**Long answer:** 1. Manually annotate dozens of conversations as precisely as possible. 2. Separate them into train (80%), development (10%) and test (10%) subsets. 3. Setup the data for use with [`pyannote.database`](https://github.com/pyannote/pyannote-database#speaker-diarization). 4. Follow [this recipe](https://github.com/pyannote/pyannote-audio/blob/develop/tutorials/adapting_pretrained_pipeline.ipynb). 5. Enjoy. + +**Also:** [I am available](https://herve.niderb.fr) for contracting to help you with that. + + +## How does one spell and pronounce pyannote.audio? + +📝 Written in lower case: `pyannote.audio` (or `pyannote` if you are lazy). Not `PyAnnote` nor `PyAnnotate` (sic). +📢 Pronounced like the french verb `pianoter`. `pi` like in `pi`ano, not `py` like in `py`thon. +🎹 `pianoter` means to play the piano (hence the logo 🤯). + +
+ +Generated by [FAQtory](https://github.com/willmcgugan/faqtory) diff --git a/README.md b/README.md index 7930683f0..c71361791 100644 --- a/README.md +++ b/README.md @@ -60,6 +60,7 @@ pip install pyannote.audio ## Documentation - [Changelog](CHANGELOG.md) +- [Frequently asked questions](FAQ.md) - Models - Available tasks explained - [Applying a pretrained model](tutorials/applying_a_model.ipynb) @@ -84,12 +85,6 @@ pip install pyannote.audio - [Speaker verification](tutorials/speaker_verification.ipynb) - Visualization and debugging -## Frequently asked questions - -* [How does one capitalize and pronounce the name of this awesome library?](FAQ.md) -* [Can I use gated models (and pipelines) offline?](FAQ.md) -* [Pretrained pipelines do not produce good results on my data. What can I do?](FAQ.md) - ## Benchmark Out of the box, `pyannote.audio` default speaker diarization [pipeline](https://hf.co/pyannote/speaker-diarization) is expected to be much better (and faster) in v2.x than in v1.1. Those numbers are diarization error rates (in %) diff --git a/faq.yml b/faq.yml new file mode 100644 index 000000000..f473198d5 --- /dev/null +++ b/faq.yml @@ -0,0 +1,7 @@ +# FAQtory settings + +faq_url: "https://github.com/pyannote/pyannote-audio/blob/develop/FAQ.md" # Replace this with the URL to your FAQ.md! + +questions_path: "./questions" # Where questions should be stored +output_path: "./FAQ.md" # Where FAQ.md should be generated +templates_path: ".faq" # Path to templates diff --git a/questions/README.md b/questions/README.md new file mode 100644 index 000000000..e733072f6 --- /dev/null +++ b/questions/README.md @@ -0,0 +1,6 @@ + +# Questions + +Your questions should go in this directory. + +Question files should be named with the extension ".question.md". diff --git a/questions/bad_performance.question.md b/questions/bad_performance.question.md new file mode 100644 index 000000000..a48e489e1 --- /dev/null +++ b/questions/bad_performance.question.md @@ -0,0 +1,16 @@ +--- +title: "How can I improve performance?" +alt_titles: + - "Pretrained pipelines do not produce good results on my data. What can I do?" + - "It does not work! Help me!" +--- + +**Long answer:** + +1. Manually annotate dozens of conversations as precisely as possible. +2. Separate them into train (80%), development (10%) and test (10%) subsets. +3. Setup the data for use with [`pyannote.database`](https://github.com/pyannote/pyannote-database#speaker-diarization). +4. Follow [this recipe](https://github.com/pyannote/pyannote-audio/blob/develop/tutorials/adapting_pretrained_pipeline.ipynb). +5. Enjoy. + +**Also:** [I am available](https://herve.niderb.fr) for contracting to help you with that. diff --git a/questions/from_memory.question.md b/questions/from_memory.question.md new file mode 100644 index 000000000..3556a22f7 --- /dev/null +++ b/questions/from_memory.question.md @@ -0,0 +1,7 @@ +--- +title: "Can I apply pretrained pipelines on audio already loaded in memory?" +alt_titles: + - "Can I apply models on an audio array?" +--- + +Yes: read [this tutorial](tutorials/applying_a_pipeline.ipynb) until the end. diff --git a/questions/offline.question.md b/questions/offline.question.md new file mode 100644 index 000000000..ad099ba09 --- /dev/null +++ b/questions/offline.question.md @@ -0,0 +1,15 @@ +--- +title: "Can I use gated models (and pipelines) offline?" +alt_titles: + - "Why does one need to authenticate to access the pretrained models?" + - "Can I use pyannote.audio pretrained pipelines without the Hugginface token?" + - "How can I solve the permission issue?" +--- + +**Short answer**: yes, see [this tutorial](tutorials/applying_a_model.ipynb) for models and [that one](tutorials/applying_a_pipeline.ipynb) for pipelines. + +**Long answer**: gating models and pipelines allows [me](https://herve.niderb.fr) to know a bit more about `pyannote.audio` user base and eventually help me write grant proposals to make `pyannote.audio` even better. So, please fill gating forms as precisely as possible. + +For instance, before gating `pyannote/speaker-diarization`, I had no idea that so many people were relying on it in production. Hint: sponsors are more than welcome! Maintaining open source libraries is time consuming. + +That being said, this whole authentication process does not prevent you from using official `pyannote.audio` models offline (i.e. without going through the authentication process in every `docker run ...` or whatever you are using in production): see [this tutorial](tutorials/applying_a_model.ipynb) for models and [that one](tutorials/applying_a_pipeline.ipynb) for pipelines. diff --git a/questions/pyannote.question.md b/questions/pyannote.question.md new file mode 100644 index 000000000..85e920ccc --- /dev/null +++ b/questions/pyannote.question.md @@ -0,0 +1,10 @@ +--- +title: "How does one spell and pronounce pyannote.audio?" +alt_titles: + - "Why the name of the library?" + - "Why the logo of the library?" +--- + +📝 Written in lower case: `pyannote.audio` (or `pyannote` if you are lazy). Not `PyAnnote` nor `PyAnnotate` (sic). +📢 Pronounced like the french verb `pianoter`. `pi` like in `pi`ano, not `py` like in `py`thon. +🎹 `pianoter` means to play the piano (hence the logo 🤯). diff --git a/questions/streaming.question.md b/questions/streaming.question.md new file mode 100644 index 000000000..5b6dc0cb7 --- /dev/null +++ b/questions/streaming.question.md @@ -0,0 +1,10 @@ +--- +title: "Does pyannote support streaming speaker diarization?" +alt_titles: + - "Is it possible to do realtime speaker diarization?" + - "Can it process online audio buffers?" +--- + +**Short answer:** not out of the box, no. + +**Long answer:** [I](https://herve.niderb.fr) am looking for sponsors to add this feature. In the meantime, [`diart`](https://github.com/juanmc2005/StreamingSpeakerDiarization) is the closest you can get from a streaming `pyannote.audio`. You might also be interested in [this blog post](https://herve.niderb.fr/fastpages/2021/08/05/Streaming-voice-activity-detection-with-pyannote.html) about streaming voice activity detection based on `pyannote.audio`. From 74939acbfa830521a434cb4068176196dd9612dc Mon Sep 17 00:00:00 2001 From: =?UTF-8?q?Herv=C3=A9=20BREDIN?= Date: Thu, 16 Mar 2023 15:10:02 +0100 Subject: [PATCH 058/112] fix: fix faqtory workflow --- .github/workflows/new_issue.yml | 2 +- 1 file changed, 1 insertion(+), 1 deletion(-) diff --git a/.github/workflows/new_issue.yml b/.github/workflows/new_issue.yml index 9b6665ec5..a67bcdcd5 100644 --- a/.github/workflows/new_issue.yml +++ b/.github/workflows/new_issue.yml @@ -10,7 +10,7 @@ jobs: steps: - uses: actions/checkout@v3 with: - ref: main + ref: develop - name: Install FAQtory run: pip install FAQtory - name: Run Suggest From 7121a73f08ec89d8293a8d95145e623675abbe21 Mon Sep 17 00:00:00 2001 From: =?UTF-8?q?Herv=C3=A9=20BREDIN?= Date: Thu, 13 Apr 2023 21:15:57 +0200 Subject: [PATCH 059/112] feat: add support for label scope and missing classes (#1296) - setup: switch to pyannote.database 5.0 - feat(task): add support for label scope in speaker diarization task (from pyannote.database 5.0) - feat(task): add support for missing classes in multi-label segmentation task (from pyannote.database 5.0) - improve(task): load metadata as tensors/arrays rather than pyannote.core instances - BREAKING(task): rename `Segmentation` task to `SpeakerDiarization` - BREAKING(task): remove support for variable chunk duration --- CHANGELOG.md | 9 + notebook/example.ipynb | 460 ++++++++++++-- pyannote/audio/cli/train_config/config.yaml | 2 +- ...ation.yaml => MultiLabelSegmentation.yaml} | 4 +- .../train_config/task/SpeakerDiarization.yaml | 8 + pyannote/audio/core/task.py | 5 +- pyannote/audio/pipelines/__init__.py | 2 +- ...egmentation.py => speaker_segmentation.py} | 0 pyannote/audio/tasks/__init__.py | 12 +- pyannote/audio/tasks/segmentation/mixins.py | 578 ++++++++++++------ .../audio/tasks/segmentation/multilabel.py | 182 +++++- .../overlapped_speech_detection.py | 68 ++- ...segmentation.py => speaker_diarization.py} | 263 ++++++-- .../segmentation/voice_activity_detection.py | 67 +- pyannote/audio/utils/protocol.py | 16 +- requirements.txt | 2 +- tests/tasks/test_reproducibility.py | 8 +- tests/test_train.py | 22 +- tutorials/adapting_pretrained_pipeline.ipynb | 477 +++++++-------- tutorials/training_a_model.ipynb | 4 +- 20 files changed, 1575 insertions(+), 614 deletions(-) rename pyannote/audio/cli/train_config/task/{SpeakerSegmentation.yaml => MultiLabelSegmentation.yaml} (61%) create mode 100644 pyannote/audio/cli/train_config/task/SpeakerDiarization.yaml rename pyannote/audio/pipelines/{segmentation.py => speaker_segmentation.py} (100%) rename pyannote/audio/tasks/segmentation/{segmentation.py => speaker_diarization.py} (74%) diff --git a/CHANGELOG.md b/CHANGELOG.md index 0169d74c8..d30e101a7 100644 --- a/CHANGELOG.md +++ b/CHANGELOG.md @@ -1,5 +1,14 @@ # Changelog +## Version 3.0 (xxxx-xx-xx) + + - setup: switch to pyannote.database 5.0 + - feat(task): add support for label scope in speaker diarization task (from pyannote.database 5.0) + - feat(task): add support for missing classes in multi-label segmentation task (from pyannote.database 5.0) + - improve(task): load metadata as tensors rather than pyannote.core instances + - BREAKING(task): rename `Segmentation` task to `SpeakerDiarization` + - BREAKING(task): remove support for variable chunk duration + ## Version 2.1.1 (2022-10-27) - BREAKING(pipeline): rewrite speaker diarization pipeline diff --git a/notebook/example.ipynb b/notebook/example.ipynb index 468f30b96..549656d19 100644 --- a/notebook/example.ipynb +++ b/notebook/example.ipynb @@ -2,18 +2,28 @@ "cells": [ { "cell_type": "code", - "execution_count": null, + "execution_count": 1, "metadata": {}, - "outputs": [], + "outputs": [ + { + "name": "stdout", + "output_type": "stream", + "text": [ + "'Debug.SpeakerDiarization.Debug' found in /Users/hbredin/Development/pyannote/pyannote-audio/tests/data/database.yml does not define the 'scope' of speaker labels (file, database, or global). Setting it to 'file'.\n", + "'Debug.SpeakerDiarization.Bug1237' found in /Users/hbredin/Development/pyannote/pyannote-audio/tests/data/database.yml does not define the 'scope' of speaker labels (file, database, or global). Setting it to 'file'.\n" + ] + } + ], "source": [ - "from pyannote.database import get_protocol, FileFinder\n", - "protocol = get_protocol('Debug.SpeakerDiarization.Debug', \n", - " preprocessors={\"audio\": FileFinder()})" + "from pyannote.database import registry, FileFinder\n", + "registry.load_database('../tests/data/database.yml')\n", + "protocol = registry.get_protocol('Debug.SpeakerDiarization.Debug', \n", + " preprocessors={\"audio\": FileFinder()})" ] }, { "cell_type": "code", - "execution_count": null, + "execution_count": 2, "metadata": {}, "outputs": [], "source": [ @@ -24,26 +34,133 @@ }, { "cell_type": "code", - "execution_count": null, + "execution_count": 3, "metadata": {}, - "outputs": [], + "outputs": [ + { + "data": { + "text/html": [ + "\n", + " \n", + " " + ], + "text/plain": [ + "" + ] + }, + "execution_count": 3, + "metadata": {}, + "output_type": "execute_result" + } + ], "source": [ "from pyannote.audio.utils.preview import listen\n", "listen(next(protocol.train()))" ] }, { + "attachments": {}, "cell_type": "markdown", "metadata": {}, "source": [ - "## Voice activity detection" + "## Voice activity detection" ] }, { "cell_type": "code", - "execution_count": null, + "execution_count": 4, "metadata": {}, - "outputs": [], + "outputs": [ + { + "name": "stderr", + "output_type": "stream", + "text": [ + "GPU available: True (mps), used: False\n" + ] + }, + { + "name": "stdout", + "output_type": "stream", + "text": [ + "Protocol Debug.SpeakerDiarization.Debug does not precompute the output of torchaudio.info(): adding a 'torchaudio.info' preprocessor for you to speed up dataloaders. See pyannote.database documentation on how to do that yourself.\n" + ] + }, + { + "name": "stderr", + "output_type": "stream", + "text": [ + "TPU available: False, using: 0 TPU cores\n", + "IPU available: False, using: 0 IPUs\n", + "HPU available: False, using: 0 HPUs\n", + "Missing logger folder: /Users/hbredin/Development/pyannote/pyannote-audio/notebook/lightning_logs\n", + "\n", + " | Name | Type | Params | In sizes | Out sizes \n", + "----------------------------------------------------------------------------------------------------------------------\n", + "0 | mfcc | MFCC | 0 | [32, 1, 32000] | [32, 1, 40, 161] \n", + "1 | lstm | LSTM | 18.9 K | [32, 161, 40] | [[32, 161, 64], [[2, 32, 32], [2, 32, 32]]]\n", + "2 | classifier | Linear | 65 | [32, 161, 64] | [32, 161, 1] \n", + "3 | activation | Sigmoid | 0 | [32, 161, 1] | [32, 161, 1] \n", + "4 | validation_metric | MetricCollection | 0 | ? | ? \n", + "----------------------------------------------------------------------------------------------------------------------\n", + "19.0 K Trainable params\n", + "0 Non-trainable params\n", + "19.0 K Total params\n", + "0.076 Total estimated model params size (MB)\n" + ] + }, + { + "data": { + "application/vnd.jupyter.widget-view+json": { + "model_id": "37e122a182e544648e65bed1f71ae722", + "version_major": 2, + "version_minor": 0 + }, + "text/plain": [ + "Sanity Checking: 0it [00:00, ?it/s]" + ] + }, + "metadata": {}, + "output_type": "display_data" + }, + { + "data": { + "application/vnd.jupyter.widget-view+json": { + "model_id": "4e8a349a91e447a49ea0d93cccfd266c", + "version_major": 2, + "version_minor": 0 + }, + "text/plain": [ + "Training: 0it [00:00, ?it/s]" + ] + }, + "metadata": {}, + "output_type": "display_data" + }, + { + "data": { + "application/vnd.jupyter.widget-view+json": { + "model_id": "90c5c47fd1ce4ee98f9729258fab9692", + "version_major": 2, + "version_minor": 0 + }, + "text/plain": [ + "Validation: 0it [00:00, ?it/s]" + ] + }, + "metadata": {}, + "output_type": "display_data" + }, + { + "name": "stderr", + "output_type": "stream", + "text": [ + "`Trainer.fit` stopped: `max_epochs=1` reached.\n" + ] + } + ], "source": [ "from pyannote.audio.tasks import VoiceActivityDetection\n", "vad = VoiceActivityDetection(protocol, duration=2., batch_size=32, num_workers=4)\n", @@ -52,26 +169,6 @@ "_ = trainer.fit(model)" ] }, - { - "cell_type": "markdown", - "metadata": {}, - "source": [ - "## Speaker change detection" - ] - }, - { - "cell_type": "code", - "execution_count": null, - "metadata": {}, - "outputs": [], - "source": [ - "from pyannote.audio.tasks import SpeakerChangeDetection\n", - "scd = SpeakerChangeDetection(protocol, duration=2., batch_size=32, num_workers=4)\n", - "model = SimpleSegmentationModel(task=scd)\n", - "trainer = pl.Trainer(max_epochs=1)\n", - "_ = trainer.fit(model)" - ] - }, { "cell_type": "markdown", "metadata": {}, @@ -81,9 +178,82 @@ }, { "cell_type": "code", - "execution_count": null, + "execution_count": 5, "metadata": {}, - "outputs": [], + "outputs": [ + { + "name": "stderr", + "output_type": "stream", + "text": [ + "GPU available: True (mps), used: False\n", + "TPU available: False, using: 0 TPU cores\n", + "IPU available: False, using: 0 IPUs\n", + "HPU available: False, using: 0 HPUs\n", + "\n", + " | Name | Type | Params | In sizes | Out sizes \n", + "----------------------------------------------------------------------------------------------------------------------\n", + "0 | mfcc | MFCC | 0 | [32, 1, 32000] | [32, 1, 40, 161] \n", + "1 | lstm | LSTM | 18.9 K | [32, 161, 40] | [[32, 161, 64], [[2, 32, 32], [2, 32, 32]]]\n", + "2 | classifier | Linear | 65 | [32, 161, 64] | [32, 161, 1] \n", + "3 | activation | Sigmoid | 0 | [32, 161, 1] | [32, 161, 1] \n", + "4 | validation_metric | MetricCollection | 0 | ? | ? \n", + "----------------------------------------------------------------------------------------------------------------------\n", + "19.0 K Trainable params\n", + "0 Non-trainable params\n", + "19.0 K Total params\n", + "0.076 Total estimated model params size (MB)\n" + ] + }, + { + "data": { + "application/vnd.jupyter.widget-view+json": { + "model_id": "9a8333c0ebdf41a79482d81e94bf0e76", + "version_major": 2, + "version_minor": 0 + }, + "text/plain": [ + "Sanity Checking: 0it [00:00, ?it/s]" + ] + }, + "metadata": {}, + "output_type": "display_data" + }, + { + "data": { + "application/vnd.jupyter.widget-view+json": { + "model_id": "96c422e9449e40fa82a7f274cc6e5e16", + "version_major": 2, + "version_minor": 0 + }, + "text/plain": [ + "Training: 0it [00:00, ?it/s]" + ] + }, + "metadata": {}, + "output_type": "display_data" + }, + { + "data": { + "application/vnd.jupyter.widget-view+json": { + "model_id": "1f343adebc5a407ab7b33b5b88094edf", + "version_major": 2, + "version_minor": 0 + }, + "text/plain": [ + "Validation: 0it [00:00, ?it/s]" + ] + }, + "metadata": {}, + "output_type": "display_data" + }, + { + "name": "stderr", + "output_type": "stream", + "text": [ + "`Trainer.fit` stopped: `max_epochs=1` reached.\n" + ] + } + ], "source": [ "from pyannote.audio.tasks import OverlappedSpeechDetection\n", "ovl = OverlappedSpeechDetection(protocol, duration=2., batch_size=32, num_workers=4)\n", @@ -93,45 +263,154 @@ ] }, { + "attachments": {}, "cell_type": "markdown", "metadata": {}, "source": [ - "## Segmentation" + "## (Local) speaker diarization" ] }, { "cell_type": "code", - "execution_count": null, + "execution_count": 6, "metadata": {}, - "outputs": [], + "outputs": [ + { + "name": "stderr", + "output_type": "stream", + "text": [ + "GPU available: True (mps), used: False\n", + "TPU available: False, using: 0 TPU cores\n", + "IPU available: False, using: 0 IPUs\n", + "HPU available: False, using: 0 HPUs\n" + ] + }, + { + "data": { + "application/vnd.jupyter.widget-view+json": { + "model_id": "574568dce865407e912423c55dfb002d", + "version_major": 2, + "version_minor": 0 + }, + "text/plain": [ + "Output()" + ] + }, + "metadata": {}, + "output_type": "display_data" + }, + { + "data": { + "text/html": [ + "
\n"
+      ],
+      "text/plain": []
+     },
+     "metadata": {},
+     "output_type": "display_data"
+    },
+    {
+     "data": {
+      "text/html": [
+       "
\n",
+       "
\n"
+      ],
+      "text/plain": [
+       "\n"
+      ]
+     },
+     "metadata": {},
+     "output_type": "display_data"
+    },
+    {
+     "name": "stderr",
+     "output_type": "stream",
+     "text": [
+      "\n",
+      "  | Name              | Type             | Params | In sizes       | Out sizes                                  \n",
+      "----------------------------------------------------------------------------------------------------------------------\n",
+      "0 | mfcc              | MFCC             | 0      | [32, 1, 32000] | [32, 1, 40, 161]                           \n",
+      "1 | lstm              | LSTM             | 18.9 K | [32, 161, 40]  | [[32, 161, 64], [[2, 32, 32], [2, 32, 32]]]\n",
+      "2 | classifier        | Linear           | 195    | [32, 161, 64]  | [32, 161, 3]                               \n",
+      "3 | activation        | Sigmoid          | 0      | [32, 161, 3]   | [32, 161, 3]                               \n",
+      "4 | validation_metric | MetricCollection | 0      | ?              | ?                                          \n",
+      "----------------------------------------------------------------------------------------------------------------------\n",
+      "19.1 K    Trainable params\n",
+      "0         Non-trainable params\n",
+      "19.1 K    Total params\n",
+      "0.077     Total estimated model params size (MB)\n"
+     ]
+    },
+    {
+     "name": "stdout",
+     "output_type": "stream",
+     "text": [
+      "   -  27.32% of all chunks contain no speech at all.\n",
+      "   -  66.79% contain 1 speaker or less\n",
+      "   -  91.25% contain 2 speakers or less\n",
+      "   -  98.04% contain 3 speakers or less\n",
+      "   - 100.00% contain 4 speakers or less\n",
+      "Setting `max_speakers_per_chunk` to 3. You can override this value (or avoid this estimation step) by passing `max_speakers_per_chunk=3` to the task constructor.\n"
+     ]
+    },
+    {
+     "data": {
+      "application/vnd.jupyter.widget-view+json": {
+       "model_id": "423b6758f1c84f3b8ece70744862fb66",
+       "version_major": 2,
+       "version_minor": 0
+      },
+      "text/plain": [
+       "Sanity Checking: 0it [00:00, ?it/s]"
+      ]
+     },
+     "metadata": {},
+     "output_type": "display_data"
+    },
+    {
+     "data": {
+      "application/vnd.jupyter.widget-view+json": {
+       "model_id": "e85cb23d204c4876a82a8202edc273c5",
+       "version_major": 2,
+       "version_minor": 0
+      },
+      "text/plain": [
+       "Training: 0it [00:00, ?it/s]"
+      ]
+     },
+     "metadata": {},
+     "output_type": "display_data"
+    },
+    {
+     "data": {
+      "application/vnd.jupyter.widget-view+json": {
+       "model_id": "b8f5929201654acf83fbca919a5ac63b",
+       "version_major": 2,
+       "version_minor": 0
+      },
+      "text/plain": [
+       "Validation: 0it [00:00, ?it/s]"
+      ]
+     },
+     "metadata": {},
+     "output_type": "display_data"
+    },
+    {
+     "name": "stderr",
+     "output_type": "stream",
+     "text": [
+      "`Trainer.fit` stopped: `max_epochs=1` reached.\n"
+     ]
+    }
+   ],
    "source": [
-    "from pyannote.audio.tasks import Segmentation\n",
-    "seg = Segmentation(protocol, duration=2., batch_size=32, num_workers=4)\n",
+    "from pyannote.audio.tasks import SpeakerDiarization\n",
+    "seg = SpeakerDiarization(protocol, duration=2., batch_size=32, num_workers=4)\n",
     "model = SimpleSegmentationModel(task=seg)\n",
     "trainer = pl.Trainer(max_epochs=1)\n",
     "_ = trainer.fit(model)"
    ]
   },
-  {
-   "cell_type": "markdown",
-   "metadata": {},
-   "source": [
-    "## Speaker tracking"
-   ]
-  },
-  {
-   "cell_type": "code",
-   "execution_count": null,
-   "metadata": {},
-   "outputs": [],
-   "source": [
-    "from pyannote.audio.tasks import SpeakerTracking\n",
-    "spk = SpeakerTracking(protocol, duration=2., batch_size=32, num_workers=4)\n",
-    "model = SimpleSegmentationModel(task=spk)\n",
-    "trainer = pl.Trainer(max_epochs=1)\n",
-    "_ = trainer.fit(model)"
-   ]
-  },
   {
    "cell_type": "markdown",
    "metadata": {},
@@ -141,9 +420,68 @@
   },
   {
    "cell_type": "code",
-   "execution_count": null,
+   "execution_count": 7,
    "metadata": {},
-   "outputs": [],
+   "outputs": [
+    {
+     "name": "stderr",
+     "output_type": "stream",
+     "text": [
+      "GPU available: True (mps), used: False\n",
+      "TPU available: False, using: 0 TPU cores\n",
+      "IPU available: False, using: 0 IPUs\n",
+      "HPU available: False, using: 0 HPUs\n",
+      "Loading Debug.SpeakerDiarization.Debug training labels: 10file [00:00, 363.55file/s]\n",
+      "\n",
+      "  | Name              | Type             | Params | In sizes       | Out sizes                                  \n",
+      "----------------------------------------------------------------------------------------------------------------------\n",
+      "0 | mfcc              | MFCC             | 0      | [32, 1, 32000] | [32, 1, 40, 161]                           \n",
+      "1 | lstm              | LSTM             | 18.9 K | [32, 161, 40]  | [[32, 161, 64], [[2, 32, 32], [2, 32, 32]]]\n",
+      "2 | loss_func         | ArcFaceLoss      | 832    | ?              | ?                                          \n",
+      "3 | validation_metric | MetricCollection | 0      | ?              | ?                                          \n",
+      "----------------------------------------------------------------------------------------------------------------------\n",
+      "19.8 K    Trainable params\n",
+      "0         Non-trainable params\n",
+      "19.8 K    Total params\n",
+      "0.079     Total estimated model params size (MB)\n"
+     ]
+    },
+    {
+     "data": {
+      "application/vnd.jupyter.widget-view+json": {
+       "model_id": "b34c5cbe6c9c409fb5572b0be9598076",
+       "version_major": 2,
+       "version_minor": 0
+      },
+      "text/plain": [
+       "Sanity Checking: 0it [00:00, ?it/s]"
+      ]
+     },
+     "metadata": {},
+     "output_type": "display_data"
+    },
+    {
+     "data": {
+      "application/vnd.jupyter.widget-view+json": {
+       "model_id": "71077814aa154ba3b4892e8be13a98fe",
+       "version_major": 2,
+       "version_minor": 0
+      },
+      "text/plain": [
+       "Training: 0it [00:00, ?it/s]"
+      ]
+     },
+     "metadata": {},
+     "output_type": "display_data"
+    },
+    {
+     "name": "stderr",
+     "output_type": "stream",
+     "text": [
+      "`Trainer.fit` stopped: `max_epochs=1` reached.\n"
+     ]
+    }
+   ],
    "source": [
     "from pyannote.audio.tasks import SpeakerEmbedding\n",
     "emb = SpeakerEmbedding(protocol, duration=2., num_workers=4)\n",
@@ -169,7 +507,7 @@
    "name": "python",
    "nbconvert_exporter": "python",
    "pygments_lexer": "ipython3",
-   "version": "3.8.5"
+   "version": "3.9.13"
   }
  },
  "nbformat": 4,
diff --git a/pyannote/audio/cli/train_config/config.yaml b/pyannote/audio/cli/train_config/config.yaml
index 380ed9213..d5b761cc9 100644
--- a/pyannote/audio/cli/train_config/config.yaml
+++ b/pyannote/audio/cli/train_config/config.yaml
@@ -2,7 +2,7 @@ registry: ???
 protocol: ???
 
 defaults:
-  - task: SpeakerSegmentation
+  - task: SpeakerDiarization
   - model: PyanNet
   - optimizer: Adam
   - scheduler: CosineAnnealingWarmRestarts
diff --git a/pyannote/audio/cli/train_config/task/SpeakerSegmentation.yaml b/pyannote/audio/cli/train_config/task/MultiLabelSegmentation.yaml
similarity index 61%
rename from pyannote/audio/cli/train_config/task/SpeakerSegmentation.yaml
rename to pyannote/audio/cli/train_config/task/MultiLabelSegmentation.yaml
index fcfa06978..aceb8cb22 100644
--- a/pyannote/audio/cli/train_config/task/SpeakerSegmentation.yaml
+++ b/pyannote/audio/cli/train_config/task/MultiLabelSegmentation.yaml
@@ -1,6 +1,6 @@
 # @package _group_
-_target_: pyannote.audio.tasks.Segmentation
-duration: 5.0
+_target_: pyannote.audio.tasks.MultiLabelSegmentation
+duration: 3.0
 warm_up: 0.0
 balance: null
 weight: null
diff --git a/pyannote/audio/cli/train_config/task/SpeakerDiarization.yaml b/pyannote/audio/cli/train_config/task/SpeakerDiarization.yaml
new file mode 100644
index 000000000..d9ec04a57
--- /dev/null
+++ b/pyannote/audio/cli/train_config/task/SpeakerDiarization.yaml
@@ -0,0 +1,8 @@
+# @package _group_
+_target_: pyannote.audio.tasks.SpeakerDiarization
+duration: 5.0
+max_speakers_per_chunk: 3
+max_speakers_per_frame: 2
+batch_size: 32
+num_workers: 10
+pin_memory: False
diff --git a/pyannote/audio/core/task.py b/pyannote/audio/core/task.py
index 5b523176b..c7833dc77 100644
--- a/pyannote/audio/core/task.py
+++ b/pyannote/audio/core/task.py
@@ -215,7 +215,10 @@ def __init__(
         super().__init__()
 
         # dataset
-        self.protocol, self.has_validation = check_protocol(protocol)
+        self.protocol, checks = check_protocol(protocol)
+        self.has_validation = checks["has_validation"]
+        self.has_scope = checks["has_scope"]
+        self.has_classes = checks["has_classes"]
 
         # batching
         self.duration = duration
diff --git a/pyannote/audio/pipelines/__init__.py b/pyannote/audio/pipelines/__init__.py
index 21ff08ab1..d20f9bfb9 100644
--- a/pyannote/audio/pipelines/__init__.py
+++ b/pyannote/audio/pipelines/__init__.py
@@ -23,8 +23,8 @@
 from .multilabel import MultiLabelSegmentation
 from .overlapped_speech_detection import OverlappedSpeechDetection
 from .resegmentation import Resegmentation
-from .segmentation import SpeakerSegmentation
 from .speaker_diarization import SpeakerDiarization
+from .speaker_segmentation import SpeakerSegmentation
 from .voice_activity_detection import VoiceActivityDetection
 
 __all__ = [
diff --git a/pyannote/audio/pipelines/segmentation.py b/pyannote/audio/pipelines/speaker_segmentation.py
similarity index 100%
rename from pyannote/audio/pipelines/segmentation.py
rename to pyannote/audio/pipelines/speaker_segmentation.py
diff --git a/pyannote/audio/tasks/__init__.py b/pyannote/audio/tasks/__init__.py
index eeaf19d10..6cbba258f 100644
--- a/pyannote/audio/tasks/__init__.py
+++ b/pyannote/audio/tasks/__init__.py
@@ -20,21 +20,25 @@
 # OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE
 # SOFTWARE.
 
+from .segmentation.multilabel import MultiLabelSegmentation  # isort:skip
+from .segmentation.speaker_diarization import SpeakerDiarization  # isort:skip
 from .segmentation.voice_activity_detection import VoiceActivityDetection  # isort:skip
 from .segmentation.overlapped_speech_detection import (  # isort:skip
     OverlappedSpeechDetection,
 )
-
-from .segmentation.multilabel import MultiLabelSegmentation  # isort:skip
-from .segmentation.segmentation import Segmentation  # isort:skip
 from .embedding.arcface import SupervisedRepresentationLearningWithArcFace  # isort:skip
 
+# Segmentation has been renamed to SpeakerDiarization but we keep Segmentation here for backward compatibility
+Segmentation = SpeakerDiarization
+
+# SpeakerEmbedding is more human-friendly
 SpeakerEmbedding = SupervisedRepresentationLearningWithArcFace
 
 __all__ = [
-    "Segmentation",
+    "SpeakerDiarization",
     "VoiceActivityDetection",
     "OverlappedSpeechDetection",
     "MultiLabelSegmentation",
     "SpeakerEmbedding",
+    "Segmentation",
 ]
diff --git a/pyannote/audio/tasks/segmentation/mixins.py b/pyannote/audio/tasks/segmentation/mixins.py
index b9056d052..1cdb9840d 100644
--- a/pyannote/audio/tasks/segmentation/mixins.py
+++ b/pyannote/audio/tasks/segmentation/mixins.py
@@ -24,115 +24,382 @@
 import math
 import random
 import warnings
-from typing import Dict, Optional, Sequence, Text, Union
+from collections import defaultdict
+from typing import Dict, Optional, Sequence, Union
 
 import matplotlib.pyplot as plt
 import numpy as np
 import torch
-import torch.nn.functional
-from pyannote.core import Segment, SlidingWindowFeature
+from pyannote.database.protocol import SegmentationProtocol, SpeakerDiarizationProtocol
+from pyannote.database.protocol.protocol import Scope, Subset
 from pytorch_lightning.loggers import MLFlowLogger, TensorBoardLogger
 from torch.utils.data._utils.collate import default_collate
+from torchaudio.backend.common import AudioMetaData
 from torchmetrics import Metric
 from torchmetrics.classification import BinaryAUROC, MulticlassAUROC, MultilabelAUROC
 
-from pyannote.audio.core.io import AudioFile
 from pyannote.audio.core.task import Problem
-from pyannote.audio.utils.powerset import Powerset
 from pyannote.audio.utils.random import create_rng_for_worker
 
+Subsets = list(Subset.__args__)
+Scopes = list(Scope.__args__)
+
 
 class SegmentationTaskMixin:
     """Methods common to most segmentation tasks"""
 
+    def get_file(self, file_id):
+
+        file = dict()
+
+        file["audio"] = str(self.audios[file_id], encoding="utf-8")
+
+        _audio_info = self.audio_infos[file_id]
+        _encoding = self.audio_encodings[file_id]
+
+        sample_rate = _audio_info["sample_rate"]
+        num_frames = _audio_info["num_frames"]
+        num_channels = _audio_info["num_channels"]
+        bits_per_sample = _audio_info["bits_per_sample"]
+        encoding = str(_encoding, encoding="utf-8")
+        file["torchaudio.info"] = AudioMetaData(
+            sample_rate=sample_rate,
+            num_frames=num_frames,
+            num_channels=num_channels,
+            bits_per_sample=bits_per_sample,
+            encoding=encoding,
+        )
+
+        return file
+
     def setup(self, stage: Optional[str] = None):
+        """Setup method
+
+        Parameters
+        ----------
+        stage : {'fit', 'validate', 'test'}, optional
+            Setup stage. Defaults to 'fit'.
+        """
+
+        # duration of training chunks
+        # TODO: handle variable duration case
+        duration = getattr(self, "duration", 0.0)
 
-        # ==================================================================
-        # PREPARE TRAINING DATA
-        # ==================================================================
+        # list of possible values for each metadata key
+        metadata_unique_values = defaultdict(list)
 
-        self._train = []
-        self._train_metadata = dict()
+        metadata_unique_values["subset"] = Subsets
 
-        for f in self.protocol.train():
+        if isinstance(self.protocol, SpeakerDiarizationProtocol):
+            metadata_unique_values["scope"] = Scopes
 
-            file = dict()
+        elif isinstance(self.protocol, SegmentationProtocol):
+            classes = getattr(self, "classes", list())
 
-            for key, value in f.items():
+        # make sure classes attribute exists (and set to None if it did not exist)
+        self.classes = getattr(self, "classes", None)
+        if self.classes is None:
+            classes = list()
+            # metadata_unique_values["classes"] = list(classes)
 
-                # keep track of unique labels in self._train_metadata["annotation"]
-                if key == "annotation":
-                    for label in value.labels():
-                        self._train_metadata.setdefault("annotation", set()).add(label)
+        audios = list()  # list of path to audio files
+        audio_infos = list()
+        audio_encodings = list()
+        metadata = list()  # list of metadata
 
-                # pass "audio" entry as it is
-                elif key == "audio":
-                    pass
+        annotated_duration = list()  # total duration of annotated regions (per file)
+        annotated_regions = list()  # annotated regions
+        annotations = list()  # actual annotations
+        annotated_classes = list()  # list of annotated classes (per file)
+        unique_labels = list()
 
-                # remove segments shorter than chunks from "annotated" entry
-                elif key == "annotated":
-                    value = [
-                        segment for segment in value if segment.duration > self.duration
-                    ]
-                    file["_annotated_duration"] = sum(
-                        segment.duration for segment in value
+        if self.has_validation:
+            files_iter = itertools.chain(
+                self.protocol.train(), self.protocol.development()
+            )
+        else:
+            files_iter = self.protocol.train()
+
+        for file_id, file in enumerate(files_iter):
+
+            # gather metadata and update metadata_unique_values so that each metadatum
+            # (e.g. source database or label) is represented by an integer.
+            metadatum = dict()
+
+            # keep track of source database and subset (train, development, or test)
+            if file["database"] not in metadata_unique_values["database"]:
+                metadata_unique_values["database"].append(file["database"])
+            metadatum["database"] = metadata_unique_values["database"].index(
+                file["database"]
+            )
+            metadatum["subset"] = Subsets.index(file["subset"])
+
+            # keep track of speaker label scope (file, database, or global) for speaker diarization protocols
+            if isinstance(self.protocol, SpeakerDiarizationProtocol):
+                metadatum["scope"] = Scopes.index(file["scope"])
+
+            # keep track of list of classes for regular segmentation protocols
+            # Different files may be annotated using a different set of classes
+            # (e.g. one database for speech/music/noise, and another one for male/female/child)
+            if isinstance(self.protocol, SegmentationProtocol):
+
+                if "classes" in file:
+                    local_classes = file["classes"]
+                else:
+                    local_classes = file["annotation"].labels()
+
+                # if task was not initialized with a fixed list of classes,
+                # we build it as the union of all classes found in files
+                if self.classes is None:
+                    for klass in local_classes:
+                        if klass not in classes:
+                            classes.append(klass)
+                    annotated_classes.append(
+                        [classes.index(klass) for klass in local_classes]
+                    )
+
+                # if task was initialized with a fixed list of classes,
+                # we make sure that all files use a subset of these classes
+                # if they don't, we issue a warning and ignore the extra classes
+                else:
+                    extra_classes = set(local_classes) - set(self.classes)
+                    if extra_classes:
+                        warnings.warn(
+                            f"Ignoring extra classes ({', '.join(extra_classes)}) found for file {file['uri']} ({file['database']}). "
+                        )
+                    annotated_classes.append(
+                        [
+                            self.classes.index(klass)
+                            for klass in set(local_classes) & set(self.classes)
+                        ]
                     )
 
-                # keey track of unique text-like entries (incl. "uri" and "database")
-                # and pass them as they are
-                elif isinstance(value, Text):
-                    self._train_metadata.setdefault(key, set()).add(value)
+            remaining_metadata_keys = set(file) - set(
+                [
+                    "uri",
+                    "database",
+                    "subset",
+                    "audio",
+                    "torchaudio.info",
+                    "scope",
+                    "classes",
+                    "annotation",
+                    "annotated",
+                ]
+            )
+
+            # keep track of any other (integer or string) metadata provided by the protocol
+            # (e.g. a "domain" key for domain-adversarial training)
+            for key in remaining_metadata_keys:
+
+                value = file[key]
+
+                if isinstance(value, str):
+                    if value not in metadata_unique_values[key]:
+                        metadata_unique_values[key].append(value)
+                    metadatum[key] = metadata_unique_values[key].index(value)
 
-                # pass score-like entries as they are
-                elif isinstance(value, SlidingWindowFeature):
-                    pass
+                elif isinstance(value, int):
+                    metadatum[key] = value
 
                 else:
-                    msg = (
-                        f"Protocol '{self.protocol.name}' defines a '{key}' entry of type {type(value)} "
-                        f"which we do not know how to handle."
+                    warnings.warn(
+                        f"Ignoring '{key}' metadata because of its type ({type(value)}). Only str and int are supported for now.",
+                        category=UserWarning,
                     )
-                    warnings.warn(msg)
 
-                file[key] = value
+            metadata.append(metadatum)
 
-            self._train.append(file)
+            database_unique_labels = list()
 
-        self._train_metadata = {
-            key: sorted(values) for key, values in self._train_metadata.items()
-        }
+            # reset list of file-scoped labels
+            file_unique_labels = list()
+
+            # path to audio file
+            audios.append(str(file["audio"]))
+
+            # audio info
+            audio_info = file["torchaudio.info"]
+            audio_infos.append(
+                (
+                    audio_info.sample_rate,  # sample rate
+                    audio_info.num_frames,  # number of frames
+                    audio_info.num_channels,  # number of channels
+                    audio_info.bits_per_sample,  # bits per sample
+                )
+            )
+            audio_encodings.append(audio_info.encoding)  # encoding
+
+            # annotated regions and duration
+            _annotated_duration = 0.0
+            for segment in file["annotated"]:
+
+                # skip annotated regions that are shorter than training chunk duration
+                if segment.duration < duration:
+                    continue
+
+                # append annotated region
+                annotated_region = (
+                    file_id,
+                    segment.duration,
+                    segment.start,
+                    segment.end,
+                )
+                annotated_regions.append(annotated_region)
+
+                # increment annotated duration
+                _annotated_duration += segment.duration
+
+            # append annotated duration
+            annotated_duration.append(_annotated_duration)
+
+            # annotations
+            for segment, _, label in file["annotation"].itertracks(yield_label=True):
+
+                # "scope" is provided by speaker diarization protocols to indicate
+                # whether speaker labels are local to the file ('file'), consistent across
+                # all files in a database ('database'), or globally consistent ('global')
+
+                if "scope" in file:
+
+                    # 0 = 'file'
+                    # 1 = 'database'
+                    # 2 = 'global'
+                    scope = Scopes.index(file["scope"])
+
+                    # update list of file-scope labels
+                    if label not in file_unique_labels:
+                        file_unique_labels.append(label)
+                    # and convert label to its (file-scope) index
+                    file_label_idx = file_unique_labels.index(label)
+
+                    database_label_idx = global_label_idx = -1
+
+                    if scope > 0:  # 'database' or 'global'
+
+                        # update list of database-scope labels
+                        if label not in database_unique_labels:
+                            database_unique_labels.append(label)
+
+                        # and convert label to its (database-scope) index
+                        database_label_idx = database_unique_labels.index(label)
+
+                    if scope > 1:  # 'global'
 
-        # ==================================================================
-        # PREPARE VALIDATION DATA
-        # ==================================================================
+                        # update list of global-scope labels
+                        if label not in unique_labels:
+                            unique_labels.append(label)
+                        # and convert label to its (global-scope) index
+                        global_label_idx = unique_labels.index(label)
+
+                # basic segmentation protocols do not provide "scope" information
+                # as classes are global by definition
+
+                else:
+                    try:
+                        file_label_idx = (
+                            database_label_idx
+                        ) = global_label_idx = classes.index(label)
+                    except ValueError:
+                        # skip labels that are not in the list of classes
+                        continue
+
+                annotations.append(
+                    (
+                        file_id,  # index of file
+                        segment.start,  # start time
+                        segment.end,  # end time
+                        file_label_idx,  # file-scope label index
+                        database_label_idx,  # database-scope label index
+                        global_label_idx,  # global-scope index
+                    )
+                )
+
+        # since not all metadata keys are present in all files, fallback to -1 when a key is missing
+        metadata = [
+            tuple(metadatum.get(key, -1) for key in metadata_unique_values)
+            for metadatum in metadata
+        ]
+        dtype = [(key, "i") for key in metadata_unique_values]
+        self.metadata = np.array(metadata, dtype=dtype)
+
+        # NOTE: read with str(self.audios[file_id], encoding='utf-8')
+        self.audios = np.array(audios, dtype=np.string_)
+
+        # turn list of files metadata into a single numpy array
+        # TODO: improve using https://github.com/pytorch/pytorch/issues/13246#issuecomment-617140519
+
+        dtype = [
+            ("sample_rate", "i"),
+            ("num_frames", "i"),
+            ("num_channels", "i"),
+            ("bits_per_sample", "i"),
+        ]
+        self.audio_infos = np.array(audio_infos, dtype=dtype)
+        self.audio_encodings = np.array(audio_encodings, dtype=np.string_)
+
+        self.annotated_duration = np.array(annotated_duration)
+
+        # turn list of annotated regions into a single numpy array
+        dtype = [("file_id", "i"), ("duration", "f"), ("start", "f"), ("end", "f")]
+        self.annotated_regions = np.array(annotated_regions, dtype=dtype)
+
+        # convert annotated_classes (which is a list of list of classes, one list of classes per file)
+        # into a single (num_files x num_classes) numpy array:
+        #    * True indicates that this particular class was annotated for this particular file (though it may not be active in this file)
+        #    * False indicates that this particular class was not even annotated (i.e. its absence does not imply that it is not active in this file)
+        if isinstance(self.protocol, SegmentationProtocol) and self.classes is None:
+            self.classes = classes
+        self.annotated_classes = np.zeros(
+            (len(annotated_classes), len(self.classes)), dtype=np.bool_
+        )
+        for file_id, classes in enumerate(annotated_classes):
+            self.annotated_classes[file_id, classes] = True
+
+        # turn list of annotations into a single numpy array
+        dtype = [
+            ("file_id", "i"),
+            ("start", "f"),
+            ("end", "f"),
+            ("file_label_idx", "i"),
+            ("database_label_idx", "i"),
+            ("global_label_idx", "i"),
+        ]
+        self.annotations = np.array(annotations, dtype=dtype)
+
+        self.metadata_unique_values = metadata_unique_values
 
         if not self.has_validation:
             return
 
-        self._validation = []
+        validation_chunks = list()
 
-        for f in self.protocol.development():
+        # obtain indexes of files in the validation subset
+        validation_file_ids = np.where(
+            self.metadata["subset"] == Subsets.index("development")
+        )[0]
 
-            for segment in f["annotated"]:
+        # iterate over files in the validation subset
+        for file_id in validation_file_ids:
 
-                if segment.duration < self.duration:
-                    continue
+            # get annotated regions in file
+            annotated_regions = self.annotated_regions[
+                self.annotated_regions["file_id"] == file_id
+            ]
 
-                num_chunks = round(segment.duration // self.duration)
+            # iterate over annotated regions
+            for annotated_region in annotated_regions:
 
-                for c in range(num_chunks):
-                    start_time = segment.start + c * self.duration
-                    chunk = Segment(start_time, start_time + self.duration)
-                    self._validation.append((f, chunk))
+                # number of chunks in annotated region
+                num_chunks = round(annotated_region["duration"] // duration)
 
-        random.shuffle(self._validation)
+                # iterate over chunks
+                for c in range(num_chunks):
+                    start_time = annotated_region["start"] + c * duration
+                    validation_chunks.append((file_id, start_time, duration))
 
-    def setup_loss_func(self):
-        if self.specifications.powerset:
-            self.model.powerset = Powerset(
-                len(self.specifications.classes),
-                self.specifications.powerset_max_classes,
-            )
+        dtype = [("file_id", "i"), ("start", "f"), ("duration", "f")]
+        self.validation_chunks = np.array(validation_chunks, dtype=dtype)
 
     def default_metric(
         self,
@@ -151,67 +418,16 @@ def default_metric(
                 f"The {self.specifications.problem} problem type hasn't been given a default segmentation metric yet."
             )
 
-    def adapt_y(self, one_hot_y: np.ndarray) -> np.ndarray:
-        raise NotImplementedError(
-            f"{self.__class__.__name__} must implement the `adapt_y` method."
-        )
-
-    def prepare_chunk(
-        self,
-        file: AudioFile,
-        chunk: Segment,
-        duration: float = None,
-    ) -> dict:
-        """Extract audio chunk and corresponding frame-wise labels
-
-        Parameters
-        ----------
-        file : AudioFile
-            Audio file.
-        chunk : Segment
-            Audio chunk.
-        duration : float, optional
-            Fix chunk duration to avoid rounding errors. Defaults to self.duration
-
-        Returns
-        -------
-        sample : dict
-            Dictionary with the following keys:
-            X : np.ndarray
-                Audio chunk as (num_samples, num_channels) array.
-            y : SlidingWindowFeature
-                Frame-wise labels as (num_frames, num_labels) array.
-
-        """
-
-        sample = dict()
-
-        # read (and resample if needed) audio chunk
-        duration = duration or self.duration
-        sample["X"], _ = self.model.audio.crop(file, chunk, duration=duration)
-
-        # use model introspection to predict how many frames it will output
-        num_samples = sample["X"].shape[1]
-        num_frames, _ = self.model.introspection(num_samples)
-        resolution = duration / num_frames
-
-        # discretize annotation, using model resolution
-        sample["y"] = file["annotation"].discretize(
-            support=chunk, resolution=resolution, duration=duration
-        )
-
-        return sample
-
-    def train__iter__helper(self, rng: random.Random, **domain_filter):
+    def train__iter__helper(self, rng: random.Random, **filters):
         """Iterate over training samples with optional domain filtering
 
         Parameters
         ----------
         rng : random.Random
             Random number generator
-        domain_filter : dict, optional
-            When provided (as {domain_key: domain_value} dict), filter training files so that
-            only files such as file[domain_key] == domain_value are used for generating chunks.
+        filters : dict, optional
+            When provided (as {key: value} dict), filter training files so that
+            only files such as file[key] == value are used for generating chunks.
 
         Yields
         ------
@@ -219,37 +435,48 @@ def train__iter__helper(self, rng: random.Random, **domain_filter):
             Training chunks.
         """
 
-        train = self._train
+        # indices of training files that matches domain filters
+        training = self.metadata["subset"] == Subsets.index("train")
+        for key, value in filters.items():
+            training &= self.metadata[key] == value
+        file_ids = np.where(training)[0]
+
+        # turn annotated duration into a probability distribution
+        annotated_duration = self.annotated_duration[file_ids]
+        prob_annotated_duration = annotated_duration / np.sum(annotated_duration)
 
-        try:
-            domain_key, domain_value = domain_filter.popitem()
-        except KeyError:
-            domain_key = None
+        duration = self.duration
 
-        if domain_key is not None:
-            train = [f for f in train if f[domain_key] == domain_value]
+        num_chunks_per_file = getattr(self, "num_chunks_per_file", 1)
 
         while True:
 
             # select one file at random (with probability proportional to its annotated duration)
-            file, *_ = rng.choices(
-                train,
-                weights=[f["_annotated_duration"] for f in train],
-                k=1,
-            )
+            file_id = np.random.choice(file_ids, p=prob_annotated_duration)
 
-            # select one annotated region at random (with probability proportional to its duration)
-            segment, *_ = rng.choices(
-                file["annotated"],
-                weights=[s.duration for s in file["annotated"]],
-                k=1,
-            )
+            # generate `num_chunks_per_file` chunks from this file
+            for _ in range(num_chunks_per_file):
 
-            # select one chunk at random (with uniform distribution)
-            start_time = rng.uniform(segment.start, segment.end - self.duration)
-            chunk = Segment(start_time, start_time + self.duration)
+                # find indices of annotated regions in this file
+                annotated_region_indices = np.where(
+                    self.annotated_regions["file_id"] == file_id
+                )[0]
 
-            yield self.prepare_chunk(file, chunk, duration=self.duration)
+                # turn annotated regions duration into a probability distribution
+                prob_annotated_regions_duration = self.annotated_regions["duration"][
+                    annotated_region_indices
+                ] / np.sum(self.annotated_regions["duration"][annotated_region_indices])
+
+                # selected one annotated region at random (with probability proportional to its duration)
+                annotated_region_index = np.random.choice(
+                    annotated_region_indices, p=prob_annotated_regions_duration
+                )
+
+                # select one chunk at random in this annotated region
+                _, _, start, end = self.annotated_regions[annotated_region_index]
+                start_time = rng.uniform(start, end - duration)
+
+                yield self.prepare_chunk(file_id, start_time, duration)
 
     def train__iter__(self):
         """Iterate over training samples
@@ -274,16 +501,20 @@ def train__iter__(self):
             chunks = self.train__iter__helper(rng)
 
         else:
-            chunks_by_domain = {
-                domain: self.train__iter__helper(rng, **{balance: domain})
-                for domain in self._train_metadata[balance]
-            }
+            # create a subchunk generator for each combination of "balance" keys
+            subchunks = dict()
+            for product in itertools.product(
+                [self.metadata_unique_values[key] for key in balance]
+            ):
+                filters = {key: value for key, value in zip(balance, product)}
+                subchunks[product] = self.train__iter__helper(rng, **filters)
 
         while True:
 
+            # select one subchunk generator at random (with uniform probability)
+            # so that it is balanced on average
             if balance is not None:
-                domain = rng.choice(self._train_metadata[balance])
-                chunks = chunks_by_domain[domain]
+                chunks = subchunks[rng.choice(subchunks)]
 
             # generate random chunk
             yield next(chunks)
@@ -292,30 +523,10 @@ def collate_X(self, batch) -> torch.Tensor:
         return default_collate([b["X"] for b in batch])
 
     def collate_y(self, batch) -> torch.Tensor:
+        return default_collate([b["y"].data for b in batch])
 
-        # gather common set of labels
-        # b["y"] is a SlidingWindowFeature instance
-        labels = sorted(set(itertools.chain(*(b["y"].labels for b in batch))))
-        num_labels = len(labels)
-
-        batch_size = len(batch)
-        num_frames = len(batch[0]["y"])
-
-        if num_labels == 0:
-            return torch.from_numpy(
-                np.zeros((batch_size, num_frames, 1), dtype=np.int64)
-            )
-
-        Y = np.zeros((batch_size, num_frames, num_labels), dtype=np.int64)
-        for i, b in enumerate(batch):
-            for local_idx, label in enumerate(b["y"].labels):
-                global_idx = labels.index(label)
-                Y[i, :, global_idx] = b["y"].data[:, local_idx]
-
-        return torch.from_numpy(Y)
-
-    def adapt_y(self, collated_y: torch.Tensor) -> torch.Tensor:
-        return collated_y
+    def collate_meta(self, batch) -> torch.Tensor:
+        return default_collate([b["meta"] for b in batch])
 
     def collate_fn(self, batch, stage="train"):
         """Collate function used for most segmentation tasks
@@ -343,6 +554,9 @@ def collate_fn(self, batch, stage="train"):
         # collate y
         collated_y = self.collate_y(batch)
 
+        # collate metadata
+        collated_meta = self.collate_meta(batch)
+
         # apply augmentation (only in "train" stage)
         self.augmentation.train(mode=(stage == "train"))
         augmented = self.augmentation(
@@ -351,19 +565,28 @@ def collate_fn(self, batch, stage="train"):
             targets=collated_y.unsqueeze(1),
         )
 
-        return {"X": augmented.samples, "y": self.adapt_y(augmented.targets.squeeze(1))}
+        return {
+            "X": augmented.samples,
+            "y": augmented.targets.squeeze(1),
+            "meta": collated_meta,
+        }
 
     def train__len__(self):
         # Number of training samples in one epoch
-        duration = sum(file["_annotated_duration"] for file in self._train)
+
+        duration = np.sum(self.annotated_duration)
         return max(self.batch_size, math.ceil(duration / self.duration))
 
     def val__getitem__(self, idx):
-        f, chunk = self._validation[idx]
-        return self.prepare_chunk(f, chunk, duration=self.duration)
+        validation_chunk = self.validation_chunks[idx]
+        return self.prepare_chunk(
+            validation_chunk["file_id"],
+            validation_chunk["start"],
+            duration=validation_chunk["duration"],
+        )
 
     def val__len__(self):
-        return len(self._validation)
+        return len(self.validation_chunks)
 
     def validation_step(self, batch, batch_idx: int):
         """Compute validation area under the ROC curve
@@ -384,12 +607,10 @@ def validation_step(self, batch, batch_idx: int):
         _, num_frames, _ = y_pred.shape
         # y_pred = (batch_size, num_frames, num_classes)
 
-        # compute warmup frames boundaries and weight
-        warm_up_left = round(self.warm_up[0] / self.duration * num_frames)
-        warm_up_right = round(self.warm_up[1] / self.duration * num_frames)
-
         # - remove warm-up frames
         # - downsample remaining frames
+        warm_up_left = round(self.warm_up[0] / self.duration * num_frames)
+        warm_up_right = round(self.warm_up[1] / self.duration * num_frames)
         preds = y_pred[:, warm_up_left : num_frames - warm_up_right : 10]
         target = y[:, warm_up_left : num_frames - warm_up_right : 10]
 
@@ -397,6 +618,7 @@ def validation_step(self, batch, batch_idx: int):
         # pyannote.audio is more explicit so we have to reshape target and preds for
         # torchmetrics to be happy... more details can be found here:
         # https://torchmetrics.readthedocs.io/en/latest/references/modules.html#input-types
+
         if self.specifications.problem == Problem.BINARY_CLASSIFICATION:
             # target: shape (batch_size, num_frames), type binary
             # preds:  shape (batch_size, num_frames, 1), type float
diff --git a/pyannote/audio/tasks/segmentation/multilabel.py b/pyannote/audio/tasks/segmentation/multilabel.py
index 20632b619..603d04ac6 100644
--- a/pyannote/audio/tasks/segmentation/multilabel.py
+++ b/pyannote/audio/tasks/segmentation/multilabel.py
@@ -20,12 +20,14 @@
 # OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE
 # SOFTWARE.
 
-import warnings
-from typing import Dict, Optional, Sequence, Text, Tuple, Union, List
+from typing import Dict, List, Optional, Sequence, Text, Tuple, Union
 
 import numpy as np
 import torch
+import torch.nn.functional as F
+from pyannote.core import Segment, SlidingWindow, SlidingWindowFeature
 from pyannote.database import Protocol
+from pyannote.database.protocol import SegmentationProtocol
 from torch_audiomentations.core.transforms_interface import BaseWaveformTransform
 from torchmetrics import Metric
 
@@ -93,6 +95,12 @@ def __init__(
         augmentation: BaseWaveformTransform = None,
         metric: Union[Metric, Sequence[Metric], Dict[str, Metric]] = None,
     ):
+
+        if not isinstance(protocol, SegmentationProtocol):
+            raise ValueError(
+                f"MultiLabelSegmentation task expects a SegmentationProtocol but you gave {type(protocol)}. "
+            )
+
         super().__init__(
             protocol,
             duration=duration,
@@ -116,42 +124,160 @@ def setup(self, stage: Optional[str] = None):
 
         super().setup(stage=stage)
 
-        classes_from_training_set = sorted(self._train_metadata["annotation"])
-        if self.classes is None:
-            classes = classes_from_training_set
-        else:
-            if set(classes_from_training_set) != set(self.classes):
-                warnings.warn(
-                    f"Mismatch between classes passed to the task ({self.classes}) "
-                    f"and those of the training set ({classes_from_training_set})."
-                )
-            classes = self.classes
-
         self.specifications = Specifications(
-            classes=classes,
+            classes=self.classes,
             problem=Problem.MULTI_LABEL_CLASSIFICATION,
             resolution=Resolution.FRAME,
             duration=self.duration,
             warm_up=self.warm_up,
         )
 
-    def collate_y(self, batch) -> torch.Tensor:
+    def prepare_chunk(self, file_id: int, start_time: float, duration: float):
+        """Prepare chunk for multi-label segmentation
+
+        Parameters
+        ----------
+        file_id : int
+            File index
+        start_time : float
+            Chunk start time
+        duration : float
+            Chunk duration.
+
+        Returns
+        -------
+        sample : dict
+            Dictionary containing the chunk data with the following keys:
+            - `X`: waveform
+            - `y`: target (see Notes below)
+            - `meta`:
+                - `database`: database index
+                - `file`: file index
+
+        Notes
+        -----
+        y is a trinary matrix with shape (num_frames, num_classes):
+            -  0: class is inactive
+            -  1: class is active
+            - -1: we have no idea
+
+        """
+
+        file = self.get_file(file_id)
+
+        chunk = Segment(start_time, start_time + duration)
+
+        sample = dict()
+        sample["X"], _ = self.model.audio.crop(file, chunk, duration=duration)
+
+        # TODO: this should be cached
+        # use model introspection to predict how many frames it will output
+        num_samples = sample["X"].shape[1]
+        num_frames, _ = self.model.introspection(num_samples)
+        resolution = duration / num_frames
+        frames = SlidingWindow(start=0.0, duration=resolution, step=resolution)
+
+        # gather all annotations of current file
+        annotations = self.annotations[self.annotations["file_id"] == file_id]
+
+        # gather all annotations with non-empty intersection with current chunk
+        chunk_annotations = annotations[
+            (annotations["start"] < chunk.end) & (annotations["end"] > chunk.start)
+        ]
+
+        # discretize chunk annotations at model output resolution
+        start = np.maximum(chunk_annotations["start"], chunk.start) - chunk.start
+        start_idx = np.floor(start / resolution).astype(np.int)
+        end = np.minimum(chunk_annotations["end"], chunk.end) - chunk.start
+        end_idx = np.ceil(end / resolution).astype(np.int)
+
+        # frame-level targets (-1 for un-annotated classes)
+        y = -np.ones((num_frames, len(self.classes)), dtype=np.int8)
+        y[:, self.annotated_classes[file_id]] = 0
+        for start, end, label in zip(
+            start_idx, end_idx, chunk_annotations["global_label_idx"]
+        ):
+            y[start:end, label] = 1
+
+        sample["y"] = SlidingWindowFeature(y, frames, labels=self.classes)
+
+        metadata = self.metadata[file_id]
+        sample["meta"] = {key: metadata[key] for key in metadata.dtype.names}
+        sample["meta"]["file"] = file_id
+
+        return sample
+
+    def training_step(self, batch, batch_idx: int):
+
+        X = batch["X"]
+        y_pred = self.model(X)
+        y_true = batch["y"]
+        assert y_pred.shape == y_true.shape
+
+        # TODO: add support for frame weights
+        # TODO: add support for class weights
+
+        # mask (frame, class) index for which label is missing
+        mask: torch.Tensor = y_true != -1
+        y_pred = y_pred[mask]
+        y_true = y_true[mask]
+        loss = F.binary_cross_entropy(y_pred, y_true.type(torch.float))
+
+        self.model.log(
+            f"{self.logging_prefix}TrainLoss",
+            loss,
+            on_step=False,
+            on_epoch=True,
+            prog_bar=True,
+            logger=True,
+        )
+        return {"loss": loss}
+
+    def validation_step(self, batch, batch_idx: int):
+
+        X = batch["X"]
+        y_pred = self.model(X)
+        y_true = batch["y"]
+        assert y_pred.shape == y_true.shape
+
+        # TODO: add support for frame weights
+        # TODO: add support for class weights
 
-        labels = self.specifications.classes
+        # TODO: compute metrics for each class separately
 
-        batch_size, num_frames, num_labels = (
-            len(batch),
-            len(batch[0]["y"]),
-            len(labels),
+        # mask (frame, class) index for which label is missing
+        mask: torch.Tensor = y_true != -1
+        y_pred = y_pred[mask]
+        y_true = y_true[mask]
+        loss = F.binary_cross_entropy(y_pred, y_true.type(torch.float))
+
+        self.model.log(
+            f"{self.logging_prefix}ValLoss",
+            loss,
+            on_step=False,
+            on_epoch=True,
+            prog_bar=True,
+            logger=True,
         )
-        Y = np.zeros((batch_size, num_frames, num_labels), dtype=np.int64)
+        return {"loss": loss}
+
+    @property
+    def val_monitor(self):
+        """Quantity (and direction) to monitor
+
+        Useful for model checkpointing or early stopping.
 
-        for i, b in enumerate(batch):
-            for local_idx, label in enumerate(b["y"].labels):
-                global_idx = labels.index(label)
-                Y[i, :, global_idx] = b["y"].data[:, local_idx]
+        Returns
+        -------
+        monitor : str
+            Name of quantity to monitor.
+        mode : {'min', 'max}
+            Minimize
 
-        return torch.from_numpy(Y)
+        See also
+        --------
+        pytorch_lightning.callbacks.ModelCheckpoint
+        pytorch_lightning.callbacks.EarlyStopping
+        """
 
-    # TODO: add option to give more weights to smaller classes
-    # TODO: add option to balance training samples between classes
+        return f"{self.logging_prefix}ValLoss", "min"
diff --git a/pyannote/audio/tasks/segmentation/overlapped_speech_detection.py b/pyannote/audio/tasks/segmentation/overlapped_speech_detection.py
index 8b29ffbf4..f0bebbb13 100644
--- a/pyannote/audio/tasks/segmentation/overlapped_speech_detection.py
+++ b/pyannote/audio/tasks/segmentation/overlapped_speech_detection.py
@@ -23,7 +23,8 @@
 
 from typing import Dict, Sequence, Text, Tuple, Union
 
-import torch
+import numpy as np
+from pyannote.core import Segment, SlidingWindow, SlidingWindowFeature
 from pyannote.database import Protocol
 from torch_audiomentations.core.transforms_interface import BaseWaveformTransform
 from torchmetrics import Metric
@@ -131,20 +132,67 @@ def __init__(
         self.balance = balance
         self.weight = weight
 
-    def adapt_y(self, collated_y: torch.Tensor) -> torch.Tensor:
-        """Get overlapped speech detection targets
+    def prepare_chunk(self, file_id: int, start_time: float, duration: float):
+        """Prepare chunk for overlapped speech detection
 
         Parameters
         ----------
-        collated_y : (batch_size, num_frames, num_speakers) tensor
-            One-hot-encoding of current chunk speaker activity:
-                * collated_y[b, f, s] = 1 if sth speaker is active at fth frame
-                * collated_y[b, f, s] = 0 otherwise.
+        file_id : int
+            File index
+        start_time : float
+            Chunk start time
+        duration : float
+            Chunk duration.
 
         Returns
         -------
-        y : (batch_size, num_frames, ) np.ndarray
-            y[b, f] = 1 if there is two or more active speakers at fth frame, 0 otherwise.
+        sample : dict
+            Dictionary containing the chunk data with the following keys:
+            - `X`: waveform
+            - `y`: target as a SlidingWindowFeature instance
+            - `meta`:
+                - `database`: database index
+                - `file`: file index
         """
 
-        return 1 * (torch.sum(collated_y, dim=2, keepdim=False) > 1)
+        file = self.get_file(file_id)
+
+        chunk = Segment(start_time, start_time + duration)
+
+        sample = dict()
+        sample["X"], _ = self.model.audio.crop(file, chunk, duration=duration)
+
+        # use model introspection to predict how many frames it will output
+        # TODO: this should be cached
+        num_samples = sample["X"].shape[1]
+        num_frames, _ = self.model.introspection(num_samples)
+        resolution = duration / num_frames
+        frames = SlidingWindow(start=0.0, duration=resolution, step=resolution)
+
+        # gather all annotations of current file
+        annotations = self.annotations[self.annotations["file_id"] == file_id]
+
+        # gather all annotations with non-empty intersection with current chunk
+        chunk_annotations = annotations[
+            (annotations["start"] < chunk.end) & (annotations["end"] > chunk.start)
+        ]
+
+        # discretize chunk annotations at model output resolution
+        start = np.maximum(chunk_annotations["start"], chunk.start) - chunk.start
+        start_idx = np.floor(start / resolution).astype(np.int)
+        end = np.minimum(chunk_annotations["end"], chunk.end) - chunk.start
+        end_idx = np.ceil(end / resolution).astype(np.int)
+
+        # frame-level targets
+        y = np.zeros((num_frames, 1), dtype=np.uint8)
+        for start, end in zip(start_idx, end_idx):
+            y[start:end, 0] += 1
+        y = 1 * (y > 1)
+
+        sample["y"] = SlidingWindowFeature(y, frames, labels=["speech"])
+
+        metadata = self.metadata[file_id]
+        sample["meta"] = {key: metadata[key] for key in metadata.dtype.names}
+        sample["meta"]["file"] = file_id
+
+        return sample
diff --git a/pyannote/audio/tasks/segmentation/segmentation.py b/pyannote/audio/tasks/segmentation/speaker_diarization.py
similarity index 74%
rename from pyannote/audio/tasks/segmentation/segmentation.py
rename to pyannote/audio/tasks/segmentation/speaker_diarization.py
index 715cfc646..0ab5d6ae9 100644
--- a/pyannote/audio/tasks/segmentation/segmentation.py
+++ b/pyannote/audio/tasks/segmentation/speaker_diarization.py
@@ -29,9 +29,11 @@
 import torch
 import torch.nn.functional
 from matplotlib import pyplot as plt
-from pyannote.core import SlidingWindow
-from pyannote.database import Protocol
+from pyannote.core import Segment, SlidingWindow, SlidingWindowFeature
+from pyannote.database.protocol import SpeakerDiarizationProtocol
+from pyannote.database.protocol.protocol import Scope, Subset
 from pytorch_lightning.loggers import MLFlowLogger, TensorBoardLogger
+from rich.progress import track
 from torch_audiomentations.core.transforms_interface import BaseWaveformTransform
 from torchmetrics import Metric
 from typing_extensions import Literal
@@ -51,14 +53,18 @@
 )
 from pyannote.audio.utils.loss import binary_cross_entropy, mse_loss, nll_loss
 from pyannote.audio.utils.permutation import permutate
+from pyannote.audio.utils.powerset import Powerset
 
+Subsets = list(Subset.__args__)
+Scopes = list(Scope.__args__)
 
-class Segmentation(SegmentationTaskMixin, Task):
-    """Speaker segmentation
+
+class SpeakerDiarization(SegmentationTaskMixin, Task):
+    """Speaker diarization
 
     Parameters
     ----------
-    protocol : Protocol
+    protocol : SpeakerDiarizationProtocol
         pyannote.database protocol
     duration : float, optional
         Chunks duration. Defaults to 2s.
@@ -83,8 +89,8 @@ class Segmentation(SegmentationTaskMixin, Task):
         Defaults to 0. (i.e. no warm-up).
     balance: str, optional
         When provided, training samples are sampled uniformly with respect to that key.
-        For instance, setting `balance` to "uri" will make sure that each file will be
-        equally represented in the training samples.
+        For instance, setting `balance` to "database" will make sure that each database
+        will be equally represented in the training samples.
     weight: str, optional
         When provided, use this key as frame-wise weight in loss function.
     batch_size : int, optional
@@ -121,7 +127,7 @@ class Segmentation(SegmentationTaskMixin, Task):
 
     def __init__(
         self,
-        protocol: Protocol,
+        protocol: SpeakerDiarizationProtocol,
         duration: float = 2.0,
         max_speakers_per_chunk: int = None,
         max_speakers_per_frame: int = None,
@@ -150,6 +156,11 @@ def __init__(
             metric=metric,
         )
 
+        if not isinstance(protocol, SpeakerDiarizationProtocol):
+            raise ValueError(
+                "SpeakerDiarization task requires a SpeakerDiarizationProtocol."
+            )
+
         # deprecation warnings
         if max_speakers_per_chunk is None and max_num_speakers is not None:
             max_speakers_per_chunk = max_num_speakers
@@ -181,38 +192,76 @@ def setup(self, stage: Optional[str] = None):
 
         super().setup(stage=stage)
 
+        # estimate maximum number of speakers per chunk when not provided
         if self.max_speakers_per_chunk is None:
 
-            # TODO: optimize this
-
-            # slide a window (with 1s step) over the whole training set
-            # and keep track of the number of speakers in each location
-            num_speakers = []
-            for file in self._train:
-                start = file["annotated"][0].start
-                end = file["annotated"][-1].end
-                window = SlidingWindow(
-                    start=start,
-                    end=end,
-                    duration=self.duration,
-                    step=1.0,
-                )
-                for chunk in window:
-                    num_speakers.append(len(file["annotation"].crop(chunk).labels()))
+            training = self.metadata["subset"] == Subsets.index("train")
+
+            num_unique_speakers = []
+            progress_description = f"Estimating maximum number of speakers per {self.duration:g}s chunk in the training set"
+            for file_id in track(
+                np.where(training)[0], description=progress_description
+            ):
+
+                annotations = self.annotations[
+                    np.where(self.annotations["file_id"] == file_id)[0]
+                ]
+                annotated_regions = self.annotated_regions[
+                    np.where(self.annotated_regions["file_id"] == file_id)[0]
+                ]
+                for region in annotated_regions:
+                    # find annotations within current region
+                    region_start = region["start"]
+                    region_end = region["end"]
+                    region_annotations = annotations[
+                        np.where(
+                            (annotations["start"] >= region_start)
+                            * (annotations["end"] <= region_end)
+                        )[0]
+                    ]
+
+                    for window_start in np.arange(
+                        region_start, region_end - self.duration, 0.25 * self.duration
+                    ):
+                        window_end = window_start + self.duration
+                        window_annotations = region_annotations[
+                            np.where(
+                                (region_annotations["start"] <= window_end)
+                                * (region_annotations["end"] >= window_start)
+                            )[0]
+                        ]
+                        num_unique_speakers.append(
+                            len(np.unique(window_annotations["file_label_idx"]))
+                        )
 
             # because there might a few outliers, estimate the upper bound for the
-            # number of speakers as the 99th percentile
+            # number of speakers as the 97th percentile
 
-            num_speakers, counts = zip(*list(Counter(num_speakers).items()))
+            num_speakers, counts = zip(*list(Counter(num_unique_speakers).items()))
             num_speakers, counts = np.array(num_speakers), np.array(counts)
 
             sorting_indices = np.argsort(num_speakers)
             num_speakers = num_speakers[sorting_indices]
             counts = counts[sorting_indices]
 
+            ratios = np.cumsum(counts) / np.sum(counts)
+
+            for k, ratio in zip(num_speakers, ratios):
+                if k == 0:
+                    print(f"   - {ratio:7.2%} of all chunks contain no speech at all.")
+                elif k == 1:
+                    print(f"   - {ratio:7.2%} contain 1 speaker or less")
+                else:
+                    print(f"   - {ratio:7.2%} contain {k} speakers or less")
+
             self.max_speakers_per_chunk = max(
                 2,
-                num_speakers[np.where(np.cumsum(counts) / np.sum(counts) > 0.99)[0][0]],
+                num_speakers[np.where(ratios > 0.97)[0][0]],
+            )
+
+            print(
+                f"Setting `max_speakers_per_chunk` to {self.max_speakers_per_chunk}. "
+                f"You can override this value (or avoid this estimation step) by passing `max_speakers_per_chunk={self.max_speakers_per_chunk}` to the task constructor."
             )
 
         if (
@@ -238,42 +287,143 @@ def setup(self, stage: Optional[str] = None):
             permutation_invariant=True,
         )
 
-    def adapt_y(self, collated_y: torch.Tensor) -> torch.Tensor:
-        """Get speaker diarization targets
+    def setup_loss_func(self):
+        if self.specifications.powerset:
+            self.model.powerset = Powerset(
+                len(self.specifications.classes),
+                self.specifications.powerset_max_classes,
+            )
+
+    def prepare_chunk(self, file_id: int, start_time: float, duration: float):
+        """Prepare chunk
 
         Parameters
         ----------
-        collated_y : (batch_size, num_frames, num_speakers) tensor
-            One-hot-encoding of current chunk speaker activity:
-                * one_hot_y[b, f, s] = 1 if sth speaker is active at fth frame
-                * one_hot_y[b, f, s] = 0 otherwise.
+        file_id : int
+            File index
+        start_time : float
+            Chunk start time
+        duration : float
+            Chunk duration.
 
         Returns
         -------
-        y : (batch_size, num_frames, max_speakers_per_chunk) tensor
-            Same as collated_y, except we only keep ``max_speakers_per_chunk`` most
-            talkative speakers (per sample).
+        sample : dict
+            Dictionary containing the chunk data with the following keys:
+            - `X`: waveform
+            - `y`: target as a SlidingWindowFeature instance where y.labels is
+                   in meta.scope space.
+            - `meta`:
+                - `scope`: target scope (0: file, 1: database, 2: global)
+                - `database`: database index
+                - `file`: file index
         """
 
-        batch_size, num_frames, num_speakers = collated_y.shape
+        file = self.get_file(file_id)
 
-        # maximum number of active speakers in a chunk
-        max_speakers_per_chunk = max(
-            1, torch.max(torch.sum(torch.sum(collated_y, dim=1) > 0.0, dim=1))
-        )
+        # get label scope
+        label_scope = Scopes[self.metadata[file_id]["scope"]]
+        label_scope_key = f"{label_scope}_label_idx"
 
-        # sort speakers in descending talkativeness order
-        indices = torch.argsort(torch.sum(collated_y, dim=1), dim=1, descending=True)
+        #
+        chunk = Segment(start_time, start_time + duration)
 
-        # keep max_speakers_per_chunk most talkative speakers, for each chunk
-        y = torch.zeros(
-            (batch_size, num_frames, max_speakers_per_chunk), dtype=collated_y.dtype
-        )
-        for b, index in enumerate(indices):
-            for k, i in zip(range(max_speakers_per_chunk), index):
-                y[b, :, k] = collated_y[b, :, i.item()]
+        sample = dict()
+        sample["X"], _ = self.model.audio.crop(file, chunk, duration=duration)
+
+        # use model introspection to predict how many frames it will output
+        # TODO: this should be cached
+        num_samples = sample["X"].shape[1]
+        num_frames, _ = self.model.introspection(num_samples)
+        resolution = duration / num_frames
+        frames = SlidingWindow(start=0.0, duration=resolution, step=resolution)
+
+        # gather all annotations of current file
+        annotations = self.annotations[self.annotations["file_id"] == file_id]
+
+        # gather all annotations with non-empty intersection with current chunk
+        chunk_annotations = annotations[
+            (annotations["start"] < chunk.end) & (annotations["end"] > chunk.start)
+        ]
 
-        return y
+        # discretize chunk annotations at model output resolution
+        start = np.maximum(chunk_annotations["start"], chunk.start) - chunk.start
+        start_idx = np.floor(start / resolution).astype(np.int)
+        end = np.minimum(chunk_annotations["end"], chunk.end) - chunk.start
+        end_idx = np.ceil(end / resolution).astype(np.int)
+
+        # get list and number of labels for current scope
+        labels = list(np.unique(chunk_annotations[label_scope_key]))
+        num_labels = len(labels)
+
+        if num_labels > self.max_speakers_per_chunk:
+            pass
+
+        # initial frame-level targets
+        y = np.zeros((num_frames, num_labels), dtype=np.uint8)
+
+        # map labels to indices
+        mapping = {label: idx for idx, label in enumerate(labels)}
+
+        for start, end, label in zip(
+            start_idx, end_idx, chunk_annotations[label_scope_key]
+        ):
+            mapped_label = mapping[label]
+            y[start:end, mapped_label] = 1
+
+        sample["y"] = SlidingWindowFeature(y, frames, labels=labels)
+
+        metadata = self.metadata[file_id]
+        sample["meta"] = {key: metadata[key] for key in metadata.dtype.names}
+        sample["meta"]["file"] = file_id
+
+        return sample
+
+    def collate_y(self, batch) -> torch.Tensor:
+        """
+
+        Parameters
+        ----------
+        batch : list
+            List of samples to collate.
+            "y" field is expected to be a SlidingWindowFeature.
+
+        Returns
+        -------
+        y : torch.Tensor
+            Collated target tensor of shape (num_frames, self.max_speakers_per_chunk)
+            If one chunk has more than `self.max_speakers_per_chunk` speakers, we keep
+            the max_speakers_per_chunk most talkative ones. If it has less, we pad with
+            zeros (artificial inactive speakers).
+        """
+
+        collated_y = []
+        for b in batch:
+            y = b["y"].data
+            num_speakers = len(b["y"].labels)
+            if num_speakers > self.max_speakers_per_chunk:
+                # sort speakers in descending talkativeness order
+                indices = np.argsort(-np.sum(y, axis=0), axis=0)
+                # keep only the most talkative speakers
+                y = y[:, indices[: self.max_speakers_per_chunk]]
+
+                # TODO: we should also sort the speaker labels in the same way
+
+            elif num_speakers < self.max_speakers_per_chunk:
+                # create inactive speakers by zero padding
+                y = np.pad(
+                    y,
+                    ((0, 0), (0, self.max_speakers_per_chunk - num_speakers)),
+                    mode="constant",
+                )
+
+            else:
+                # we have exactly the right number of speakers
+                pass
+
+            collated_y.append(y)
+
+        return torch.from_numpy(np.stack(collated_y))
 
     def segmentation_loss(
         self,
@@ -509,15 +659,6 @@ def default_metric(
             OptimalFalseAlarmRate(),
         ]
 
-    def train__iter__(self):
-        for chunk in super().train__iter__():
-            # TODO: document why this filtering is needed
-            if self.specifications.powerset:
-                if len(chunk["y"].labels) <= self.max_speakers_per_chunk:
-                    yield chunk
-            else:
-                yield chunk
-
     # TODO: no need to compute gradient in this method
     def validation_step(self, batch, batch_idx: int):
         """Compute validation loss and metric
@@ -667,7 +808,7 @@ def validation_step(self, batch, batch_idx: int):
         # visualize first 9 validation samples of first batch in Tensorboard/MLflow
 
         if self.specifications.powerset:
-            y = permutated_target_powerset.float().cpu().numpy()
+            y = permutated_target.float().cpu().numpy()
             y_pred = multilabel.cpu().numpy()
         else:
             y = target.float().cpu().numpy()
diff --git a/pyannote/audio/tasks/segmentation/voice_activity_detection.py b/pyannote/audio/tasks/segmentation/voice_activity_detection.py
index b674911c6..69f47d04b 100644
--- a/pyannote/audio/tasks/segmentation/voice_activity_detection.py
+++ b/pyannote/audio/tasks/segmentation/voice_activity_detection.py
@@ -22,7 +22,8 @@
 
 from typing import Dict, Sequence, Text, Tuple, Union
 
-import torch
+import numpy as np
+from pyannote.core import Segment, SlidingWindow, SlidingWindowFeature
 from pyannote.database import Protocol
 from torch_audiomentations.core.transforms_interface import BaseWaveformTransform
 from torchmetrics import Metric
@@ -113,20 +114,66 @@ def __init__(
             ],
         )
 
-    def adapt_y(self, collated_y: torch.Tensor) -> torch.Tensor:
-        """Get voice activity detection targets
+    def prepare_chunk(self, file_id: int, start_time: float, duration: float):
+        """Prepare chunk for voice activity detection
 
         Parameters
         ----------
-        collated_y : (batch_size, num_frames, num_speakers) tensor
-            One-hot-encoding of current chunk speaker activity:
-                * one_hot_y[b, f, s] = 1 if sth speaker is active at fth frame
-                * one_hot_y[b, f, s] = 0 otherwise.
+        file_id : int
+            File index
+        start_time : float
+            Chunk start time
+        duration : float
+            Chunk duration.
 
         Returns
         -------
-        y : (batch_size, num_frames, ) tensor
-            y[b, f] = 1 if at least one speaker is active at fth frame, 0 otherwise.
+        sample : dict
+            Dictionary containing the chunk data with the following keys:
+            - `X`: waveform
+            - `y`: target as a SlidingWindowFeature instance
+            - `meta`:
+                - `database`: database index
+                - `file`: file index
         """
 
-        return 1 * (torch.sum(collated_y, dim=2, keepdims=False) > 0)
+        file = self.get_file(file_id)
+
+        chunk = Segment(start_time, start_time + duration)
+
+        sample = dict()
+        sample["X"], _ = self.model.audio.crop(file, chunk, duration=duration)
+
+        # use model introspection to predict how many frames it will output
+        # TODO: this should be cached
+        num_samples = sample["X"].shape[1]
+        num_frames, _ = self.model.introspection(num_samples)
+        resolution = duration / num_frames
+        frames = SlidingWindow(start=0.0, duration=resolution, step=resolution)
+
+        # gather all annotations of current file
+        annotations = self.annotations[self.annotations["file_id"] == file_id]
+
+        # gather all annotations with non-empty intersection with current chunk
+        chunk_annotations = annotations[
+            (annotations["start"] < chunk.end) & (annotations["end"] > chunk.start)
+        ]
+
+        # discretize chunk annotations at model output resolution
+        start = np.maximum(chunk_annotations["start"], chunk.start) - chunk.start
+        start_idx = np.floor(start / resolution).astype(np.int)
+        end = np.minimum(chunk_annotations["end"], chunk.end) - chunk.start
+        end_idx = np.ceil(end / resolution).astype(np.int)
+
+        # frame-level targets
+        y = np.zeros((num_frames, 1), dtype=np.uint8)
+        for start, end in zip(start_idx, end_idx):
+            y[start:end, 0] = 1
+
+        sample["y"] = SlidingWindowFeature(y, frames, labels=["speech"])
+
+        metadata = self.metadata[file_id]
+        sample["meta"] = {key: metadata[key] for key in metadata.dtype.names}
+        sample["meta"]["file"] = file_id
+
+        return sample
diff --git a/pyannote/audio/utils/protocol.py b/pyannote/audio/utils/protocol.py
index c98c4fdb5..a9646c5a1 100644
--- a/pyannote/audio/utils/protocol.py
+++ b/pyannote/audio/utils/protocol.py
@@ -40,7 +40,10 @@ def check_protocol(protocol: Protocol) -> Protocol:
     Returns
     -------
     fixed_protocol : Protocol
-    has_validation : bool
+    checks: dict
+        has_validation : bool
+        has_scope : bool
+        has_classes : bool
 
     Raises
     ------
@@ -108,6 +111,9 @@ def check_protocol(protocol: Protocol) -> Protocol:
         )
         print(msg)
 
+    has_scope = "scope" in file
+    has_classes = "classes" in file
+
     # does protocol define a validation set?
     if isinstance(protocol, SpeakerVerificationProtocol):
         validation_method = "development_trial"
@@ -121,4 +127,10 @@ def check_protocol(protocol: Protocol) -> Protocol:
     else:
         has_validation = True
 
-    return protocol, has_validation
+    checks = {
+        "has_validation": has_validation,
+        "has_scope": has_scope,
+        "has_classes": has_classes,
+    }
+
+    return protocol, checks
diff --git a/requirements.txt b/requirements.txt
index b2d000a27..14c07fb7f 100644
--- a/requirements.txt
+++ b/requirements.txt
@@ -6,7 +6,7 @@ huggingface_hub >= 0.8.1
 networkx >= 2.6,<3.0
 omegaconf >=2.1,<3.0
 pyannote.core >=4.4,<5.0
-pyannote.database >=4.1.1,<5.0
+pyannote.database >=5.0,<6.0
 pyannote.metrics >=3.2,<4.0
 pyannote.pipeline >=2.3,<3.0
 pytorch_lightning >=1.8.0,<1.9
diff --git a/tests/tasks/test_reproducibility.py b/tests/tasks/test_reproducibility.py
index 912548827..5eab714bc 100644
--- a/tests/tasks/test_reproducibility.py
+++ b/tests/tasks/test_reproducibility.py
@@ -1,9 +1,9 @@
-from lightning_lite.utilities.seed import seed_everything
 import torch
+from lightning_lite.utilities.seed import seed_everything
+from pyannote.database import FileFinder, get_protocol
 
 from pyannote.audio.models.segmentation.debug import SimpleSegmentationModel
 from pyannote.audio.tasks import MultiLabelSegmentation, VoiceActivityDetection
-from pyannote.database import FileFinder, get_protocol
 
 
 def setup_tasks(task):
@@ -30,13 +30,15 @@ def get_next5(dl):
 
 def test_seeding_ensures_data_loaders():
     "Setting a global seed for the dataloaders ensures that we get data back in the same order"
-    seed_everything(1)
 
     for task in [VoiceActivityDetection, MultiLabelSegmentation]:
+
+        seed_everything(1)
         protocol, vad = setup_tasks(task)
         dl = create_dl(SimpleSegmentationModel, vad)
         last5a = get_next5(dl)
 
+        seed_everything(1)
         protocol, vad = setup_tasks(task)
         dl = create_dl(SimpleSegmentationModel, vad)
         last5b = get_next5(dl)
diff --git a/tests/test_train.py b/tests/test_train.py
index e75a79eae..79e7f071a 100644
--- a/tests/test_train.py
+++ b/tests/test_train.py
@@ -1,13 +1,13 @@
 import pytest
+from pyannote.database import FileFinder, get_protocol
 from pytorch_lightning import Trainer
 
 from pyannote.audio.models.segmentation.debug import SimpleSegmentationModel
 from pyannote.audio.tasks import (
     OverlappedSpeechDetection,
-    Segmentation,
+    SpeakerDiarization,
     VoiceActivityDetection,
 )
-from pyannote.database import FileFinder, get_protocol
 
 
 @pytest.fixture()
@@ -18,7 +18,7 @@ def protocol():
 
 
 def test_train_segmentation(protocol):
-    segmentation = Segmentation(protocol)
+    segmentation = SpeakerDiarization(protocol)
     model = SimpleSegmentationModel(task=segmentation)
     trainer = Trainer(fast_dev_run=True)
     trainer.fit(model)
@@ -51,12 +51,12 @@ def test_finetune_with_task_that_does_not_need_setup_for_specs(protocol):
 
 
 def test_finetune_with_task_that_needs_setup_for_specs(protocol):
-    segmentation = Segmentation(protocol)
+    segmentation = SpeakerDiarization(protocol)
     model = SimpleSegmentationModel(task=segmentation)
     trainer = Trainer(fast_dev_run=True)
     trainer.fit(model)
 
-    segmentation = Segmentation(protocol)
+    segmentation = SpeakerDiarization(protocol)
     model.task = segmentation
     trainer = Trainer(fast_dev_run=True)
     trainer.fit(model)
@@ -64,7 +64,7 @@ def test_finetune_with_task_that_needs_setup_for_specs(protocol):
 
 def test_transfer_with_task_that_does_not_need_setup_for_specs(protocol):
 
-    segmentation = Segmentation(protocol)
+    segmentation = SpeakerDiarization(protocol)
     model = SimpleSegmentationModel(task=segmentation)
     trainer = Trainer(fast_dev_run=True)
     trainer.fit(model)
@@ -82,7 +82,7 @@ def test_transfer_with_task_that_needs_setup_for_specs(protocol):
     trainer = Trainer(fast_dev_run=True)
     trainer.fit(model)
 
-    segmentation = Segmentation(protocol)
+    segmentation = SpeakerDiarization(protocol)
     model.task = segmentation
     trainer = Trainer(fast_dev_run=True)
     trainer.fit(model)
@@ -90,12 +90,12 @@ def test_transfer_with_task_that_needs_setup_for_specs(protocol):
 
 def test_finetune_freeze_with_task_that_needs_setup_for_specs(protocol):
 
-    segmentation = Segmentation(protocol)
+    segmentation = SpeakerDiarization(protocol)
     model = SimpleSegmentationModel(task=segmentation)
     trainer = Trainer(fast_dev_run=True)
     trainer.fit(model)
 
-    segmentation = Segmentation(protocol)
+    segmentation = SpeakerDiarization(protocol)
     model.task = segmentation
     model.freeze_up_to("mfcc")
     trainer = Trainer(fast_dev_run=True)
@@ -118,7 +118,7 @@ def test_finetune_freeze_with_task_that_does_not_need_setup_for_specs(protocol):
 
 def test_transfer_freeze_with_task_that_does_not_need_setup_for_specs(protocol):
 
-    segmentation = Segmentation(protocol)
+    segmentation = SpeakerDiarization(protocol)
     model = SimpleSegmentationModel(task=segmentation)
     trainer = Trainer(fast_dev_run=True)
     trainer.fit(model)
@@ -137,7 +137,7 @@ def test_transfer_freeze_with_task_that_needs_setup_for_specs(protocol):
     trainer = Trainer(fast_dev_run=True)
     trainer.fit(model)
 
-    segmentation = Segmentation(protocol)
+    segmentation = SpeakerDiarization(protocol)
     model.task = segmentation
     model.freeze_up_to("mfcc")
     trainer = Trainer(fast_dev_run=True)
diff --git a/tutorials/adapting_pretrained_pipeline.ipynb b/tutorials/adapting_pretrained_pipeline.ipynb
index 325d939a9..7bfe73b8d 100644
--- a/tutorials/adapting_pretrained_pipeline.ipynb
+++ b/tutorials/adapting_pretrained_pipeline.ipynb
@@ -1,29 +1,10 @@
 {
-  "nbformat": 4,
-  "nbformat_minor": 0,
-  "metadata": {
-    "colab": {
-      "provenance": [],
-      "toc_visible": true,
-      "authorship_tag": "ABX9TyMc87txSanOjHXPQP0Zpu9J",
-      "include_colab_link": true
-    },
-    "kernelspec": {
-      "name": "python3",
-      "display_name": "Python 3"
-    },
-    "language_info": {
-      "name": "python"
-    },
-    "accelerator": "GPU",
-    "gpuClass": "standard"
-  },
   "cells": [
     {
       "cell_type": "markdown",
       "metadata": {
-        "id": "view-in-github",
-        "colab_type": "text"
+        "colab_type": "text",
+        "id": "view-in-github"
       },
       "source": [
         "\"Open"
@@ -31,6 +12,9 @@
     },
     {
       "cell_type": "markdown",
+      "metadata": {
+        "id": "npzkG4poB2BH"
+      },
       "source": [
         "# Adapting pyannote.audio 2.1 pretrained speaker diarization pipeline to your own data\n",
         "\n",
@@ -41,31 +25,28 @@
         "Version 2.1 introduces a major overhaul of the default speaker diarization pipeline, made of three main stages: speaker segmentation applied to a short sliding window, neural speaker embedding of each (local) speakers, and (global) agglomerative clustering.\n",
         "\n",
         "Despite its decent out-of-the-box performance, the default pipeline may suffer from the domain mismatch problem (common to most machine learning models) and not perform well on your own data. This tutorial will guide you through two recipes to adapt it to your own data and (hopefully) get better performance. Depending on the number and duration of labeled conversations, you may either focus on optimizing hyper-parameters or additionally fine-tune the internal speaker segmentation model."
-      ],
-      "metadata": {
-        "id": "npzkG4poB2BH"
-      }
+      ]
     },
     {
       "cell_type": "markdown",
+      "metadata": {
+        "id": "pnaQ4JSLF8Ms"
+      },
       "source": [
         "⚠ Make sure that you switch to a GPU runtime (Runtime > Change runtime type).  \n",
         "If you don't, everything will be extremely slow."
-      ],
-      "metadata": {
-        "id": "pnaQ4JSLF8Ms"
-      }
+      ]
     },
     {
       "cell_type": "markdown",
+      "metadata": {
+        "id": "CZjbjOBBDrdm"
+      },
       "source": [
         "## Installation\n",
         "\n",
         "Let's start by installing `pyannote.audio` 2.1.1 (and `rich` for pretty progress bars)."
-      ],
-      "metadata": {
-        "id": "CZjbjOBBDrdm"
-      }
+      ]
     },
     {
       "cell_type": "code",
@@ -81,47 +62,45 @@
     },
     {
       "cell_type": "markdown",
+      "metadata": {
+        "id": "ndQ10VIf2W1c"
+      },
       "source": [
         "⚠ Restart the runtime (Runtime > Restart runtime).  \n",
         "If you don't, `pyannote.database` will throw an error below."
-      ],
-      "metadata": {
-        "id": "ndQ10VIf2W1c"
-      }
+      ]
     },
     {
       "cell_type": "markdown",
+      "metadata": {
+        "id": "lz-b8j6RD7H6"
+      },
       "source": [
         "## Data preparation\n",
         "\n",
         "First things first: we need data... Annotated data! Ideally, lots of annotated data! \n",
         "\n",
         "For the purpose of this tutorial, we will rely on the AMI-SDM (single distance microphone) corpus. \n"
-      ],
-      "metadata": {
-        "id": "lz-b8j6RD7H6"
-      }
+      ]
     },
     {
       "cell_type": "code",
+      "execution_count": null,
+      "metadata": {
+        "id": "uSQVKFDC0cOe"
+      },
+      "outputs": [],
       "source": [
         "# download AMI-SDM mini corpus\n",
         "%cd /content/\n",
         "!git clone https://github.com/pyannote/AMI-diarization-setup\n",
         "%cd /content/AMI-diarization-setup/pyannote/\n",
         "!bash download_ami_sdm_mini.sh"
-      ],
-      "metadata": {
-        "id": "uSQVKFDC0cOe"
-      },
-      "execution_count": null,
-      "outputs": []
+      ]
     },
     {
       "cell_type": "code",
-      "source": [
-        "!PYANNOTE_DATABASE_CONFIG=\"/content/AMI-diarization-setup/pyannote/database.yml\" pyannote-database info AMI-SDM.SpeakerDiarization.mini"
-      ],
+      "execution_count": 9,
       "metadata": {
         "colab": {
           "base_uri": "https://localhost:8080/"
@@ -129,11 +108,10 @@
         "id": "wTKkOeMr2QUL",
         "outputId": "d9cc39fd-4cc2-44fe-a922-533370221d31"
       },
-      "execution_count": 9,
       "outputs": [
         {
-          "output_type": "stream",
           "name": "stdout",
+          "output_type": "stream",
           "text": [
             "\u001b[92m\u001b[1m\u001b[4mtrain\u001b[0m\n",
             "   28 files\n",
@@ -152,35 +130,41 @@
             "   12 speakers\n"
           ]
         }
+      ],
+      "source": [
+        "!PYANNOTE_DATABASE_CONFIG=\"/content/AMI-diarization-setup/pyannote/database.yml\" pyannote-database info AMI-SDM.SpeakerDiarization.mini"
       ]
     },
     {
       "cell_type": "markdown",
+      "metadata": {
+        "id": "09LrQFIfp0zC"
+      },
       "source": [
         "Note that we use a \"mini\" version of AMI-SDM so that the tutorial can be run in half an hour but the full version is also available for you to get better results. \n",
         "\n",
         "If you want to try it, replace `download_ami_sdm_mini.sh` by `download_ami_sdm.sh` and `AMI-SDM.SpeakerDiarization.mini` by `AMI-SDM.SpeakerDiarization.only_words` and you are good to go! "
-      ],
-      "metadata": {
-        "id": "09LrQFIfp0zC"
-      }
+      ]
     },
     {
       "cell_type": "code",
+      "execution_count": 10,
+      "metadata": {
+        "id": "l6V8Exw41XBp"
+      },
+      "outputs": [],
       "source": [
         "import os\n",
         "os.environ[\"PYANNOTE_DATABASE_CONFIG\"] = \"/content/AMI-diarization-setup/pyannote/database.yml\"\n",
         "from pyannote.database import get_protocol, FileFinder\n",
         "dataset = get_protocol(\"AMI-SDM.SpeakerDiarization.mini\", {\"audio\": FileFinder()})"
-      ],
-      "metadata": {
-        "id": "l6V8Exw41XBp"
-      },
-      "execution_count": 10,
-      "outputs": []
+      ]
     },
     {
       "cell_type": "markdown",
+      "metadata": {
+        "id": "HivpZEgZEVAu"
+      },
       "source": [
         "## Pretrained pipeline\n",
         "\n",
@@ -192,51 +176,35 @@
         "* visit [hf.co/pyannote/speaker-diarization](https://hf.co/pyannote/speaker-diarization) and accept the terms\n",
         "* visit [hf.co/pyannote/segmentation](https://hf.co/pyannote/segmentation) (used internally by the speaker diarization pipeline)and accept the terms\n",
         "* log in using `notebook_login`"
-      ],
-      "metadata": {
-        "id": "HivpZEgZEVAu"
-      }
+      ]
     },
     {
       "cell_type": "code",
-      "source": [
-        "from huggingface_hub import notebook_login\n",
-        "notebook_login()"
-      ],
+      "execution_count": null,
       "metadata": {
         "id": "FbXEQUGXscTQ"
       },
-      "execution_count": null,
-      "outputs": []
+      "outputs": [],
+      "source": [
+        "from huggingface_hub import notebook_login\n",
+        "notebook_login()"
+      ]
     },
     {
       "cell_type": "code",
-      "source": [
-        "from pyannote.audio import Pipeline\n",
-        "pretrained_pipeline = Pipeline.from_pretrained(\"pyannote/speaker-diarization\", use_auth_token=True) "
-      ],
+      "execution_count": 11,
       "metadata": {
         "id": "l7eN_Y792Cxt"
       },
-      "execution_count": 11,
-      "outputs": []
+      "outputs": [],
+      "source": [
+        "from pyannote.audio import Pipeline\n",
+        "pretrained_pipeline = Pipeline.from_pretrained(\"pyannote/speaker-diarization\", use_auth_token=True) "
+      ]
     },
     {
       "cell_type": "code",
-      "source": [
-        "# this takes approximately 2min to run on Google Colab GPU\n",
-        "from pyannote.metrics.diarization import DiarizationErrorRate\n",
-        "metric = DiarizationErrorRate()\n",
-        "\n",
-        "for file in dataset.test():\n",
-        "    # apply pretrained pipeline\n",
-        "    file[\"pretrained pipeline\"] = pretrained_pipeline(file)\n",
-        "\n",
-        "    # evaluate its performance\n",
-        "    metric(file[\"annotation\"], file[\"pretrained pipeline\"], uem=file[\"annotated\"])\n",
-        "\n",
-        "print(f\"The pretrained pipeline reaches a Diarization Error Rate (DER) of {100 * abs(metric):.1f}% on {dataset.name} test set.\")"
-      ],
+      "execution_count": 32,
       "metadata": {
         "colab": {
           "base_uri": "https://localhost:8080/"
@@ -244,22 +212,33 @@
         "id": "lDIIp7iaICUC",
         "outputId": "b4880a85-692b-470d-f133-d95128bdecd9"
       },
-      "execution_count": 32,
       "outputs": [
         {
-          "output_type": "stream",
           "name": "stdout",
+          "output_type": "stream",
           "text": [
             "The pretrained pipeline reaches a Diarization Error Rate (DER) of 32.5% on AMI-SDM.SpeakerDiarization.mini test set.\n"
           ]
         }
+      ],
+      "source": [
+        "# this takes approximately 2min to run on Google Colab GPU\n",
+        "from pyannote.metrics.diarization import DiarizationErrorRate\n",
+        "metric = DiarizationErrorRate()\n",
+        "\n",
+        "for file in dataset.test():\n",
+        "    # apply pretrained pipeline\n",
+        "    file[\"pretrained pipeline\"] = pretrained_pipeline(file)\n",
+        "\n",
+        "    # evaluate its performance\n",
+        "    metric(file[\"annotation\"], file[\"pretrained pipeline\"], uem=file[\"annotated\"])\n",
+        "\n",
+        "print(f\"The pretrained pipeline reaches a Diarization Error Rate (DER) of {100 * abs(metric):.1f}% on {dataset.name} test set.\")"
       ]
     },
     {
       "cell_type": "code",
-      "source": [
-        "file[\"annotation\"]"
-      ],
+      "execution_count": 13,
       "metadata": {
         "colab": {
           "base_uri": "https://localhost:8080/",
@@ -268,26 +247,26 @@
         "id": "r4UydYQkKsxW",
         "outputId": "7069d8e5-7dc7-4701-bcd5-1663998cfd1d"
       },
-      "execution_count": 13,
       "outputs": [
         {
-          "output_type": "execute_result",
           "data": {
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+            ]
           },
+          "execution_count": 13,
           "metadata": {},
-          "execution_count": 13
+          "output_type": "execute_result"
         }
+      ],
+      "source": [
+        "file[\"annotation\"]"
       ]
     },
     {
       "cell_type": "code",
-      "source": [
-        "file[\"pretrained pipeline\"]"
-      ],
+      "execution_count": 14,
       "metadata": {
         "colab": {
           "base_uri": "https://localhost:8080/",
@@ -296,86 +275,94 @@
         "id": "s4C7xMQlKwVX",
         "outputId": "930c571f-069b-44ad-f87e-ce8d471176a6"
       },
-      "execution_count": 14,
       "outputs": [
         {
-          "output_type": "execute_result",
           "data": {
+            "image/png": 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"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\n"
+            ]
           },
+          "execution_count": 14,
           "metadata": {},
-          "execution_count": 14
+          "output_type": "execute_result"
         }
+      ],
+      "source": [
+        "file[\"pretrained pipeline\"]"
       ]
     },
     {
       "cell_type": "markdown",
+      "metadata": {
+        "id": "qrYuCLLUKALA"
+      },
       "source": [
         "## Fine-tuning the segmentation model\n",
         "\n",
         "When a sufficiently large training set of labeled conversations is available, fine-tuning the internal speaker segmentation model may lead to significant performance boost. \n",
         "\n",
         "Starting from the pretrained model..."
-      ],
-      "metadata": {
-        "id": "qrYuCLLUKALA"
-      }
+      ]
     },
     {
       "cell_type": "code",
-      "source": [
-        "from pyannote.audio import Model\n",
-        "model = Model.from_pretrained(\"pyannote/segmentation\", use_auth_token=True)"
-      ],
+      "execution_count": 15,
       "metadata": {
         "id": "jeUDgr4f55v6"
       },
-      "execution_count": 15,
-      "outputs": []
+      "outputs": [],
+      "source": [
+        "from pyannote.audio import Model\n",
+        "model = Model.from_pretrained(\"pyannote/segmentation\", use_auth_token=True)"
+      ]
     },
     {
       "cell_type": "markdown",
-      "source": [
-        "... we prepare it for fine-tuning on the training dataset:"
-      ],
       "metadata": {
         "id": "SAyCf7ontua_"
-      }
+      },
+      "source": [
+        "... we prepare it for fine-tuning on the training dataset:"
+      ]
     },
     {
       "cell_type": "code",
-      "source": [
-        "from pyannote.audio.tasks import Segmentation\n",
-        "task = Segmentation(dataset, \n",
-        "                    duration=model.specifications.duration, \n",
-        "                    max_num_speakers=len(model.specifications.classes), \n",
-        "                    batch_size=32,\n",
-        "                    num_workers=2, \n",
-        "                    loss=\"bce\", \n",
-        "                    vad_loss=\"bce\")\n",
-        "model.task = task\n",
-        "model.setup(stage=\"fit\")"
-      ],
+      "execution_count": null,
       "metadata": {
         "id": "Kk_a7ABQ6PPH"
       },
-      "execution_count": null,
-      "outputs": []
+      "outputs": [],
+      "source": [
+        "from pyannote.audio.tasks import SpeakerDiarization\n",
+        "task = SpeakerDiarization(\n",
+        "    dataset, \n",
+        "    duration=model.specifications.duration, \n",
+        "    max_num_speakers=len(model.specifications.classes), \n",
+        "    batch_size=32,\n",
+        "    num_workers=2, \n",
+        "    loss=\"bce\", \n",
+        "    vad_loss=\"bce\")\n",
+        "model.task = task\n",
+        "model.setup(stage=\"fit\")"
+      ]
     },
     {
       "cell_type": "markdown",
-      "source": [
-        "The actual training is done with [`lightning`](https://github.com/Lightning-AI/lightning):"
-      ],
       "metadata": {
         "id": "TgobhVTKt9sH"
-      }
+      },
+      "source": [
+        "The actual training is done with [`lightning`](https://github.com/Lightning-AI/lightning):"
+      ]
     },
     {
       "cell_type": "code",
+      "execution_count": null,
+      "metadata": {
+        "id": "f_bVYrNo6TmI"
+      },
+      "outputs": [],
       "source": [
         "# this takes approximately 15min to run on Google Colab GPU\n",
         "from types import MethodType\n",
@@ -423,15 +410,15 @@
         "                  max_epochs=20,\n",
         "                  gradient_clip_val=0.5)\n",
         "trainer.fit(model)"
-      ],
-      "metadata": {
-        "id": "f_bVYrNo6TmI"
-      },
-      "execution_count": null,
-      "outputs": []
+      ]
     },
     {
       "cell_type": "code",
+      "execution_count": 20,
+      "metadata": {
+        "id": "830LvZfdd3Rn"
+      },
+      "outputs": [],
       "source": [
         "# save path to the best checkpoint for later use\n",
         "finetuned_model = checkpoint.best_model_path\n",
@@ -439,30 +426,22 @@
         "# uncomment to download the checkpoint\n",
         "#from google.colab import files\n",
         "#files.download(finetuned_model)"
-      ],
-      "metadata": {
-        "id": "830LvZfdd3Rn"
-      },
-      "execution_count": 20,
-      "outputs": []
+      ]
     },
     {
       "cell_type": "markdown",
+      "metadata": {
+        "id": "2NVGAIMd-uPI"
+      },
       "source": [
         "## Optimizing the pipeline hyper-parameters\n",
         "\n",
         "The pretrained `pyannote/speaker-diarization` pipeline relies on its own set of hyper-parameters adapted to the internal `pyannote/segmentation` pretrained model:"
-      ],
-      "metadata": {
-        "id": "2NVGAIMd-uPI"
-      }
+      ]
     },
     {
       "cell_type": "code",
-      "source": [
-        "pretrained_hyperparameters = pretrained_pipeline.parameters(instantiated=True)\n",
-        "pretrained_hyperparameters"
-      ],
+      "execution_count": 23,
       "metadata": {
         "colab": {
           "base_uri": "https://localhost:8080/"
@@ -470,10 +449,8 @@
         "id": "8OUIBHP7-xk_",
         "outputId": "20b3af76-d2d3-4bf9-eb58-2589f8e86939"
       },
-      "execution_count": 23,
       "outputs": [
         {
-          "output_type": "execute_result",
           "data": {
             "text/plain": [
               "{'segmentation': {'min_duration_off': 0.5817029604921046,\n",
@@ -483,13 +460,21 @@
               "  'threshold': 0.7153814381597874}}"
             ]
           },
+          "execution_count": 23,
           "metadata": {},
-          "execution_count": 23
+          "output_type": "execute_result"
         }
+      ],
+      "source": [
+        "pretrained_hyperparameters = pretrained_pipeline.parameters(instantiated=True)\n",
+        "pretrained_hyperparameters"
       ]
     },
     {
       "cell_type": "markdown",
+      "metadata": {
+        "id": "y1rRE4NqJmb5"
+      },
       "source": [
         "There is no reason the above hyper-parameters are optimal for the newly finetuned speaker segmentation model. Let's optimize them:\n",
         "\n",
@@ -500,13 +485,15 @@
         "* `clustering.min_cluster_size` controls what to do with small speaker clusters. Clusters smaller than that are assigned to the most similar large cluster. `15` is a good default value.\n",
         "\n",
         "We start by optimizing `segmentation.threshold` by assuming that the subsequent clustering step is perfect (cf. `OracleClustering`)."
-      ],
-      "metadata": {
-        "id": "y1rRE4NqJmb5"
-      }
+      ]
     },
     {
       "cell_type": "code",
+      "execution_count": null,
+      "metadata": {
+        "id": "FSWW7bIphgAI"
+      },
+      "outputs": [],
       "source": [
         "# this takes approximately 5min to run on Google Colab GPU\n",
         "from pyannote.audio.pipelines import SpeakerDiarization\n",
@@ -527,35 +514,35 @@
         "for i, iteration in enumerate(iterations):\n",
         "    print(f\"Best segmentation threshold so far: {iteration['params']['segmentation']['threshold']}\")\n",
         "    if i > 20: break   # 50 iterations should give slightly better results"
-      ],
-      "metadata": {
-        "id": "FSWW7bIphgAI"
-      },
-      "execution_count": null,
-      "outputs": []
+      ]
     },
     {
       "cell_type": "markdown",
-      "source": [
-        "Then, we use the optimized value of `segmentation.threshold` and optimize `clustering.threshold`."
-      ],
       "metadata": {
         "id": "pAUx-1Pw3Uc9"
-      }
+      },
+      "source": [
+        "Then, we use the optimized value of `segmentation.threshold` and optimize `clustering.threshold`."
+      ]
     },
     {
       "cell_type": "code",
-      "source": [
-        "best_segmentation_threshold = optimizer.best_params[\"segmentation\"][\"threshold\"]"
-      ],
+      "execution_count": 26,
       "metadata": {
         "id": "CSzOWLL5Q29-"
       },
-      "execution_count": 26,
-      "outputs": []
+      "outputs": [],
+      "source": [
+        "best_segmentation_threshold = optimizer.best_params[\"segmentation\"][\"threshold\"]"
+      ]
     },
     {
       "cell_type": "code",
+      "execution_count": null,
+      "metadata": {
+        "id": "M_pQkyQ5RCjl"
+      },
+      "outputs": [],
       "source": [
         "# this takes approximately 5min to run on Google Colab GPU\n",
         "pipeline = SpeakerDiarization(\n",
@@ -582,35 +569,47 @@
         "for i, iteration in enumerate(iterations):\n",
         "    print(f\"Best clustering threshold so far: {iteration['params']['clustering']['threshold']}\")\n",
         "    if i > 20: break  # 50 iterations should give slightly better results"
-      ],
-      "metadata": {
-        "id": "M_pQkyQ5RCjl"
-      },
-      "execution_count": null,
-      "outputs": []
+      ]
     },
     {
       "cell_type": "markdown",
-      "source": [
-        "Finally, we use the optimized values of `segmentation.threshold` and `clustering.threshold` to evaluate the performance of the finetuned pipeline:"
-      ],
       "metadata": {
         "id": "BDA2XT-wAzDO"
-      }
+      },
+      "source": [
+        "Finally, we use the optimized values of `segmentation.threshold` and `clustering.threshold` to evaluate the performance of the finetuned pipeline:"
+      ]
     },
     {
       "cell_type": "code",
-      "source": [
-        "best_clustering_threshold = optimizer.best_params['clustering']['threshold']"
-      ],
+      "execution_count": 28,
       "metadata": {
         "id": "GBJv2j1U_5mj"
       },
-      "execution_count": 28,
-      "outputs": []
+      "outputs": [],
+      "source": [
+        "best_clustering_threshold = optimizer.best_params['clustering']['threshold']"
+      ]
     },
     {
       "cell_type": "code",
+      "execution_count": 35,
+      "metadata": {
+        "colab": {
+          "base_uri": "https://localhost:8080/"
+        },
+        "id": "ir1VUqNEimcN",
+        "outputId": "d8edfb16-8f97-4d84-d4d2-3066d8b7c791"
+      },
+      "outputs": [
+        {
+          "name": "stdout",
+          "output_type": "stream",
+          "text": [
+            "The finetuned pipeline reaches a Diarization Error Rate (DER) of 26.6% on AMI-SDM.SpeakerDiarization.mini test set.\n"
+          ]
+        }
+      ],
       "source": [
         "# this takes approximately 2min to run on Google Colab GPU\n",
         "finetuned_pipeline = SpeakerDiarization(\n",
@@ -642,30 +641,11 @@
         "    metric(file[\"annotation\"], file[\"finetuned pipeline\"], uem=file[\"annotated\"])\n",
         "\n",
         "print(f\"The finetuned pipeline reaches a Diarization Error Rate (DER) of {100 * abs(metric):.1f}% on {dataset.name} test set.\")"
-      ],
-      "metadata": {
-        "colab": {
-          "base_uri": "https://localhost:8080/"
-        },
-        "id": "ir1VUqNEimcN",
-        "outputId": "d8edfb16-8f97-4d84-d4d2-3066d8b7c791"
-      },
-      "execution_count": 35,
-      "outputs": [
-        {
-          "output_type": "stream",
-          "name": "stdout",
-          "text": [
-            "The finetuned pipeline reaches a Diarization Error Rate (DER) of 26.6% on AMI-SDM.SpeakerDiarization.mini test set.\n"
-          ]
-        }
       ]
     },
     {
       "cell_type": "code",
-      "source": [
-        "file[\"finetuned pipeline\"]"
-      ],
+      "execution_count": 37,
       "metadata": {
         "colab": {
           "base_uri": "https://localhost:8080/",
@@ -674,26 +654,26 @@
         "id": "LFvNtdZTBDZh",
         "outputId": "f72da25d-7df7-4d8f-97b1-b5ca0f2febe7"
       },
-      "execution_count": 37,
       "outputs": [
         {
-          "output_type": "execute_result",
           "data": {
+            "image/png": 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",
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\n"
+            ]
           },
+          "execution_count": 37,
           "metadata": {},
-          "execution_count": 37
+          "output_type": "execute_result"
         }
+      ],
+      "source": [
+        "file[\"finetuned pipeline\"]"
       ]
     },
     {
       "cell_type": "code",
-      "source": [
-        "file[\"annotation\"]"
-      ],
+      "execution_count": 38,
       "metadata": {
         "colab": {
           "base_uri": "https://localhost:8080/",
@@ -702,23 +682,28 @@
         "id": "odzLUrqaBHgV",
         "outputId": "1864ccc7-076e-41bf-ba63-13df32d57fda"
       },
-      "execution_count": 38,
       "outputs": [
         {
-          "output_type": "execute_result",
           "data": {
+            "image/png": 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+            ]
           },
+          "execution_count": 38,
           "metadata": {},
-          "execution_count": 38
+          "output_type": "execute_result"
         }
+      ],
+      "source": [
+        "file[\"annotation\"]"
       ]
     },
     {
       "cell_type": "markdown",
+      "metadata": {
+        "id": "muYEOZ36VJo5"
+      },
       "source": [
         "## Conclusion\n",
         "\n",
@@ -735,10 +720,26 @@
         "For technical questions and bug reports, please check [pyannote.audio](https://github.com/pyannote/pyannote-audio) Github repository so that my (or anyone's) public answer benefits other people as well. \n",
         "\n",
         "For scientific consulting enquiries, please contact [me](herve@niderb.fr)."
-      ],
-      "metadata": {
-        "id": "muYEOZ36VJo5"
-      }
+      ]
     }
-  ]
-}
\ No newline at end of file
+  ],
+  "metadata": {
+    "accelerator": "GPU",
+    "colab": {
+      "authorship_tag": "ABX9TyMc87txSanOjHXPQP0Zpu9J",
+      "include_colab_link": true,
+      "provenance": [],
+      "toc_visible": true
+    },
+    "gpuClass": "standard",
+    "kernelspec": {
+      "display_name": "Python 3",
+      "name": "python3"
+    },
+    "language_info": {
+      "name": "python"
+    }
+  },
+  "nbformat": 4,
+  "nbformat_minor": 0
+}
diff --git a/tutorials/training_a_model.ipynb b/tutorials/training_a_model.ipynb
index f062bd95d..f3e019f8b 100644
--- a/tutorials/training_a_model.ipynb
+++ b/tutorials/training_a_model.ipynb
@@ -378,8 +378,8 @@
    "metadata": {},
    "outputs": [],
    "source": [
-    "from pyannote.audio.tasks import Segmentation\n",
-    "seg_task = Segmentation(ami, duration=5.0, max_num_speakers=4)"
+    "from pyannote.audio.tasks import SpeakerDiarization\n",
+    "seg_task = SpeakerDiarization(ami, duration=5.0, max_num_speakers=4)"
    ]
   },
   {

From 9faa8fc8a89527403dbb80f235cc18b8d034d921 Mon Sep 17 00:00:00 2001
From: =?UTF-8?q?Herv=C3=A9=20BREDIN?= 
Date: Mon, 17 Apr 2023 15:32:37 +0200
Subject: [PATCH 060/112] setup: update most dependencies (#1323)

- setup: switch to torch 2.0+ and lightning 2.0+
- setup: switch to torchaudio 2.0+ and soundfile 0.12+
- setup: switch to pyannote.core 5.0+ and pyannote.database 5.0+
- setup: switch to speechbrain 0.5.14+

- BREAKING(task): rename `Segmentation` task to `SpeakerDiarization`
- BREAKING(task): remove support for variable chunk duration

- BREAKING(pipeline): remove `SpeakerSegmentation` pipeline (in favor of `SpeakerDiarization` pipeline)
- BREAKING(pipeline): remove support `FINCHClustering` and `HiddenMarkovModelClustering`

- BREAKING: drop support for Python 3.7
---
 .github/workflows/test.yml                    |  46 +--
 CHANGELOG.md                                  |   8 +-
 README.md                                     |  22 +-
 doc/source/index.rst                          |   3 +
 pyannote/audio/cli/train.py                   |   2 +-
 .../cli/train_config/trainer/default.yaml     |  11 +-
 pyannote/audio/core/model.py                  |   5 +-
 pyannote/audio/core/task.py                   |  17 +-
 pyannote/audio/pipelines/__init__.py          |   2 -
 pyannote/audio/pipelines/clustering.py        | 335 +--------------
 .../audio/pipelines/speaker_diarization.py    |  29 +-
 .../audio/pipelines/speaker_segmentation.py   | 382 ------------------
 .../audio/pipelines/speaker_verification.py   |   7 +-
 .../tasks/segmentation/speaker_diarization.py |   3 +-
 pyannote/audio/utils/metric.py                |   6 +-
 pyannote/audio/utils/powerset.py              |   6 +-
 requirements.txt                              |  36 +-
 setup.py                                      |   3 +-
 tests/tasks/test_reproducibility.py           |   2 +-
 tutorials/intro.ipynb                         |   9 +-
 20 files changed, 75 insertions(+), 859 deletions(-)
 delete mode 100644 pyannote/audio/pipelines/speaker_segmentation.py

diff --git a/.github/workflows/test.yml b/.github/workflows/test.yml
index 52aad4944..dbe2b54d8 100644
--- a/.github/workflows/test.yml
+++ b/.github/workflows/test.yml
@@ -2,9 +2,9 @@ name: Tests
 
 on:
   push:
-    branches: [ develop ]
+    branches: [develop]
   pull_request:
-    branches: [ develop ]
+    branches: [develop]
 
 jobs:
   build:
@@ -13,28 +13,28 @@ jobs:
     strategy:
       matrix:
         os: [ubuntu-latest]
-        python-version: [3.7, 3.8, 3.9]
+        python-version: [3.8, 3.9, "3.10"]
     steps:
-    - uses: actions/checkout@v2
-    - name: Set up Python ${{ matrix.python-version }}
-      uses: actions/setup-python@v2
-      with:
-        python-version: ${{ matrix.python-version }}
-    - name: Install libsndfile
-      if: matrix.os == 'ubuntu-latest'
-      run: |
-        sudo apt-get install libsndfile1
-    - name: Install pyannote.audio
-      run: |
+      - uses: actions/checkout@v2
+      - name: Set up Python ${{ matrix.python-version }}
+        uses: actions/setup-python@v2
+        with:
+          python-version: ${{ matrix.python-version }}
+      - name: Install libsndfile
+        if: matrix.os == 'ubuntu-latest'
+        run: |
+          sudo apt-get install libsndfile1
+      - name: Install pyannote.audio
+        run: |
           pip install -e .[dev,testing]
-    - name: Test with pytest
-      run: |
+      - name: Test with pytest
+        run: |
           export PYANNOTE_DATABASE_CONFIG=$GITHUB_WORKSPACE/tests/data/database.yml
           pytest --cov-report=xml
-    - name: Upload coverage to Codecov
-      uses: codecov/codecov-action@v1
-      with:
-        file: ./coverage.xml
-        env_vars: PYTHON
-        name: codecov-pyannote-audio
-        fail_ci_if_error: false
+      - name: Upload coverage to Codecov
+        uses: codecov/codecov-action@v1
+        with:
+          file: ./coverage.xml
+          env_vars: PYTHON
+          name: codecov-pyannote-audio
+          fail_ci_if_error: false
diff --git a/CHANGELOG.md b/CHANGELOG.md
index d30e101a7..5390032d8 100644
--- a/CHANGELOG.md
+++ b/CHANGELOG.md
@@ -2,12 +2,18 @@
 
 ## Version 3.0 (xxxx-xx-xx)
 
-  - setup: switch to pyannote.database 5.0
   - feat(task): add support for label scope in speaker diarization task (from pyannote.database 5.0)
   - feat(task): add support for missing classes in multi-label segmentation task (from pyannote.database 5.0)
   - improve(task): load metadata as tensors rather than pyannote.core instances
+  - setup: switch to torch 2.0+ and lightning 2.0+
+  - setup: switch to torchaudio 2.0+ and soundfile 0.12+
+  - setup: switch to pyannote.core 5.0+ and pyannote.database 5.0+
+  - setup: switch to speechbrain 0.5.14+
   - BREAKING(task): rename `Segmentation` task to `SpeakerDiarization`
   - BREAKING(task): remove support for variable chunk duration
+  - BREAKING(pipeline): remove `SpeakerSegmentation` pipeline (in favor of `SpeakerDiarization` pipeline)
+  - BREAKING(pipeline): remove support `FINCHClustering` and `HiddenMarkovModelClustering`
+  - BREAKING: drop support for Python 3.7
 
 ## Version 2.1.1 (2022-10-27)
 
diff --git a/README.md b/README.md
index c71361791..c3f9a8dcc 100644
--- a/README.md
+++ b/README.md
@@ -30,31 +30,21 @@ for turn, _, speaker in diarization.itertracks(yield_label=True):
 # ...
 ```
 
-## What's new in `pyannote.audio` 2.x?
+## Highlights
 
-For version 2.x of `pyannote.audio`, [I](https://herve.niderb.fr) decided to rewrite almost everything from scratch.
-Highlights of this release are:
-
-- :exploding_head: much better performance (see [Benchmark](#benchmark))
-- :snake: Python-first API
 - :hugs: pretrained [pipelines](https://hf.co/models?other=pyannote-audio-pipeline) (and [models](https://hf.co/models?other=pyannote-audio-model)) on [:hugs: model hub](https://huggingface.co/pyannote)
+- :exploding_head: state-of-the-art performance (see [Benchmark](#benchmark))
+- :snake: Python-first API
 - :zap: multi-GPU training with [pytorch-lightning](https://pytorchlightning.ai/)
 - :control_knobs: data augmentation with [torch-audiomentations](https://github.com/asteroid-team/torch-audiomentations)
-- :boom: [Prodigy](https://prodi.gy/) recipes for model-assisted audio annotation
 
 ## Installation
 
-Only Python 3.8+ is officially supported (though it might work with Python 3.7)
+Only Python 3.8+ is supported.
 
 ```bash
-conda create -n pyannote python=3.8
-conda activate pyannote
-
-# pytorch 1.11 is required for speechbrain compatibility
-# (see https://pytorch.org/get-started/previous-versions/#v1110)
-conda install pytorch==1.11.0 torchvision==0.12.0 torchaudio==0.11.0 -c pytorch
-
-pip install pyannote.audio
+# install from develop branch
+pip install -qq https://github.com/pyannote/pyannote-audio/archive/refs/heads/develop.zip
 ```
 
 ## Documentation
diff --git a/doc/source/index.rst b/doc/source/index.rst
index 69fabbf08..fae1d7803 100644
--- a/doc/source/index.rst
+++ b/doc/source/index.rst
@@ -9,6 +9,9 @@ Installation
 
 ::
 
+  $ conda create -n pyannote python=3.10
+  $ conda activate pyannote
+  $ conda install pytorch torchvision torchaudio -c pytorch
   $ pip install pyannote.audio
 
 
diff --git a/pyannote/audio/cli/train.py b/pyannote/audio/cli/train.py
index be9596e4a..d8155c1bd 100644
--- a/pyannote/audio/cli/train.py
+++ b/pyannote/audio/cli/train.py
@@ -26,7 +26,7 @@
 
 import hydra
 from hydra.utils import instantiate
-from lightning_lite.utilities.seed import seed_everything
+from lightning.pytorch import seed_everything
 from omegaconf import DictConfig, OmegaConf
 
 # from pyannote.audio.core.callback import GraduallyUnfreeze
diff --git a/pyannote/audio/cli/train_config/trainer/default.yaml b/pyannote/audio/cli/train_config/trainer/default.yaml
index fee078690..ac3a60ff4 100644
--- a/pyannote/audio/cli/train_config/trainer/default.yaml
+++ b/pyannote/audio/cli/train_config/trainer/default.yaml
@@ -2,9 +2,7 @@
 _target_: pytorch_lightning.Trainer
 accelerator: auto
 accumulate_grad_batches: 1
-auto_scale_batch_size: False
-auto_lr_find: False
-benchmark: False
+benchmark: null # TODO: automatically set to True when using fixed duration chunks
 deterministic: False
 check_val_every_n_epoch: 1
 devices: auto
@@ -13,7 +11,7 @@ enable_checkpointing: True
 enable_model_summary: True
 enable_progress_bar: True
 fast_dev_run: False
-gradient_clip_val: 0
+gradient_clip_val: null
 gradient_clip_algorithm: norm
 limit_predict_batches: 1.0
 limit_test_batches: 1.0
@@ -25,16 +23,13 @@ max_steps: -1
 max_time: null
 min_epochs: 1
 min_steps: null
-move_metrics_to_cpu: False
-multiple_trainloader_mode: max_size_cycle
 num_nodes: 1
 num_sanity_val_steps: 2
 overfit_batches: 0.0
 precision: 32
 profiler: null
 reload_dataloaders_every_n_epochs: 0
-replace_sampler_ddp: True
+use_distributed_sampler: True # TODO: check what this does exactly
 strategy: null
 sync_batchnorm: False
-track_grad_norm: -1
 val_check_interval: 1.0
diff --git a/pyannote/audio/core/model.py b/pyannote/audio/core/model.py
index 000b469b6..ec0a4a259 100644
--- a/pyannote/audio/core/model.py
+++ b/pyannote/audio/core/model.py
@@ -35,8 +35,8 @@
 import torch.optim
 from huggingface_hub import hf_hub_download
 from huggingface_hub.utils import RepositoryNotFoundError
+from lightning_fabric.utilities.cloud_io import _load as pl_load
 from pyannote.core import SlidingWindow
-from lightning_lite.utilities.cloud_io import _load as pl_load
 from pytorch_lightning.utilities.model_summary import ModelSummary
 from semver import VersionInfo
 from torch.utils.data import DataLoader
@@ -523,9 +523,6 @@ def val_dataloader(self) -> DataLoader:
     def validation_step(self, batch, batch_idx):
         return self.task.validation_step(batch, batch_idx)
 
-    def validation_epoch_end(self, outputs):
-        return self.task.validation_epoch_end(outputs)
-
     def configure_optimizers(self):
         return torch.optim.Adam(self.parameters(), lr=1e-3)
 
diff --git a/pyannote/audio/core/task.py b/pyannote/audio/core/task.py
index c7833dc77..df38a49d2 100644
--- a/pyannote/audio/core/task.py
+++ b/pyannote/audio/core/task.py
@@ -23,31 +23,23 @@
 
 from __future__ import annotations
 
-from functools import partial
-
-import scipy.special
-
-try:
-    from functools import cached_property
-except ImportError:
-    from backports.cached_property import cached_property
-
 import multiprocessing
 import sys
 import warnings
 from dataclasses import dataclass
 from enum import Enum
+from functools import cached_property, partial
 from numbers import Number
-from typing import Dict, List, Optional, Sequence, Text, Tuple, Union
+from typing import Dict, List, Literal, Optional, Sequence, Text, Tuple, Union
 
 import pytorch_lightning as pl
+import scipy.special
 import torch
 from pyannote.database import Protocol
 from torch.utils.data import DataLoader, Dataset, IterableDataset
 from torch_audiomentations import Identity
 from torch_audiomentations.core.transforms_interface import BaseWaveformTransform
 from torchmetrics import Metric, MetricCollection
-from typing_extensions import Literal
 
 from pyannote.audio.utils.loss import binary_cross_entropy, nll_loss
 from pyannote.audio.utils.protocol import check_protocol
@@ -447,9 +439,6 @@ def val_dataloader(self) -> Optional[DataLoader]:
     def validation_step(self, batch, batch_idx: int):
         return self.common_step(batch, batch_idx, "val")
 
-    def validation_epoch_end(self, outputs):
-        pass
-
     def default_metric(self) -> Union[Metric, Sequence[Metric], Dict[str, Metric]]:
         """Default validation metric"""
         msg = f"Missing '{self.__class__.__name__}.default_metric' method."
diff --git a/pyannote/audio/pipelines/__init__.py b/pyannote/audio/pipelines/__init__.py
index d20f9bfb9..0c7d2f25c 100644
--- a/pyannote/audio/pipelines/__init__.py
+++ b/pyannote/audio/pipelines/__init__.py
@@ -24,13 +24,11 @@
 from .overlapped_speech_detection import OverlappedSpeechDetection
 from .resegmentation import Resegmentation
 from .speaker_diarization import SpeakerDiarization
-from .speaker_segmentation import SpeakerSegmentation
 from .voice_activity_detection import VoiceActivityDetection
 
 __all__ = [
     "VoiceActivityDetection",
     "OverlappedSpeechDetection",
-    "SpeakerSegmentation",
     "SpeakerDiarization",
     "Resegmentation",
     "MultiLabelSegmentation",
diff --git a/pyannote/audio/pipelines/clustering.py b/pyannote/audio/pipelines/clustering.py
index 6258bbd98..f282ea39c 100644
--- a/pyannote/audio/pipelines/clustering.py
+++ b/pyannote/audio/pipelines/clustering.py
@@ -29,33 +29,17 @@
 
 import numpy as np
 from einops import rearrange
-from hmmlearn.hmm import GaussianHMM
 from pyannote.core import SlidingWindow, SlidingWindowFeature
 from pyannote.pipeline import Pipeline
-from pyannote.pipeline.parameter import (
-    Categorical,
-    Integer,
-    LogUniform,
-    ParamDict,
-    Uniform,
-)
+from pyannote.pipeline.parameter import Categorical, Integer, Uniform
 from scipy.cluster.hierarchy import fcluster, linkage
 from scipy.optimize import linear_sum_assignment
-from scipy.spatial.distance import cdist, pdist
+from scipy.spatial.distance import cdist
 
-from pyannote.audio import Inference
 from pyannote.audio.core.io import AudioFile
 from pyannote.audio.pipelines.utils import oracle_segmentation
 from pyannote.audio.utils.permutation import permutate
 
-try:
-    from finch import FINCH
-
-    FINCH_IS_AVAILABLE = True
-
-except ImportError:
-    FINCH_IS_AVAILABLE = False
-
 
 class BaseClustering(Pipeline):
     def __init__(
@@ -286,105 +270,6 @@ def __call__(
         return hard_clusters, soft_clusters
 
 
-class FINCHClustering(BaseClustering):
-    """FINCH clustering
-
-    Parameters
-    ----------
-    metric : {"cosine", "euclidean", ...}, optional
-        Distance metric to use. Defaults to "cosine".
-    """
-
-    def __init__(
-        self,
-        metric: str = "cosine",
-        max_num_embeddings: int = np.inf,
-        constrained_assignment: bool = False,
-    ):
-
-        if not FINCH_IS_AVAILABLE:
-            raise ImportError(
-                "'finch-clust' must be installed to use FINCH clustering. "
-                "Visit https://pypi.org/project/finch-clust/ for installation instructions."
-            )
-
-        super().__init__(
-            metric=metric,
-            max_num_embeddings=max_num_embeddings,
-            constrained_assignment=constrained_assignment,
-        )
-
-        self.threshold = Uniform(0.0, 2.0)  # assume unit-normalized embeddings
-        self.method = Categorical(["average", "complete", "single"])
-
-    def cluster(
-        self,
-        embeddings: np.ndarray,
-        min_clusters: int,
-        max_clusters: int,
-        num_clusters: int = None,
-    ):
-        """
-
-        Parameters
-        ----------
-        embeddings : (num_embeddings, dimension) array
-            Embeddings
-        min_clusters : int
-            Minimum number of clusters
-        max_clusters : int
-            Maximum number of clusters
-        num_clusters : int, optional
-            Actual number of clusters. Default behavior is to estimate it based
-            on values provided for `min_clusters`,  `max_clusters`, and `threshold`.
-
-        Returns
-        -------
-        clusters : (num_embeddings, ) array
-            0-indexed cluster indices.
-        """
-
-        num_embeddings, _ = embeddings.shape
-        if num_embeddings == 1:
-            return np.zeros((1,), dtype=np.uint8)
-
-        # apply FINCH clustering and keep (supposedly pure) penultimate partition
-        clusters, _, _ = FINCH(
-            embeddings,
-            initial_rank=None,
-            req_clust=None,
-            distance=self.metric,
-            ensure_early_exit=True,
-            verbose=False,
-        )
-
-        _, num_partitions = clusters.shape
-        if num_partitions < 2:
-            clusters = clusters[:, 0]
-        else:
-            clusters = clusters[:, -2]
-        num_clusters = np.max(clusters) + 1
-
-        # compute centroids
-        centroids = np.vstack(
-            [np.mean(embeddings[clusters == k], axis=0) for k in range(num_clusters)]
-        )
-
-        # perform agglomerative clustering on centroids
-        dendrogram = linkage(centroids, metric=self.metric, method=self.method)
-        klusters = fcluster(dendrogram, self.threshold, criterion="distance") - 1
-
-        # update clusters
-        clusters = -clusters
-        for i, k in enumerate(klusters):
-            clusters[clusters == -i] = k
-
-        # TODO: handle min/max/num_clusters
-        # TODO: handle min_cluster_size
-
-        return clusters
-
-
 class AgglomerativeClustering(BaseClustering):
     """Agglomerative clustering
 
@@ -650,222 +535,6 @@ def __call__(
         return hard_clusters, soft_clusters
 
 
-class HiddenMarkovModelClustering(BaseClustering):
-    """Hidden Markov Model with Gaussian states"""
-
-    def __init__(
-        self,
-        metric: str = "cosine",
-        constrained_assignment: bool = False,
-    ):
-
-        if metric not in ["euclidean", "cosine"]:
-            raise ValueError("`metric` must be one of {'cosine', 'euclidean'}")
-
-        super().__init__(
-            metric=metric,
-            constrained_assignment=constrained_assignment,
-        )
-
-        self.single_cluster_detection = ParamDict(
-            quantile=LogUniform(1e-3, 1e-1),
-            threshold=Uniform(0.0, 2.0),
-        )
-
-        self.covariance_type = Categorical(["spherical", "diag", "full", "tied"])
-        self.threshold = Uniform(0.0, 2.0)
-
-    def filter_embeddings(
-        self, embeddings: np.ndarray, segmentations: SlidingWindowFeature
-    ) -> Tuple[np.ndarray, np.ndarray, np.ndarray]:
-        """
-
-        Parameters
-        ----------
-        embeddings : (num_chunks, num_speakers, dimension) array
-            Sequence of embeddings.
-        segmentations : (num_chunks, num_frames, num_speakers) array
-            Binary segmentations.
-
-        Returns
-        -------
-        train_embeddings : (num_steps, dimension) array
-        chunk_idx : (num_steps, ) array
-        speaker_idx : (num_steps, ) array
-
-        """
-
-        num_chunks, _, _ = embeddings.shape
-
-        # focus on center of each chunk
-        duration = segmentations.sliding_window.duration
-        step = segmentations.sliding_window.step
-
-        ratio = 0.5 * (duration - step) / duration
-        center_segmentations = Inference.trim(segmentations, warm_up=(ratio, ratio))
-        #   shape: num_chunks, num_center_frames, num_speakers
-
-        # number of frames during which speakers are active
-        # in the center of the chunk
-        num_active_frames: np.ndarray = np.sum(center_segmentations.data, axis=1)
-        #   shape: (num_chunks, num_speakers)
-
-        priors = num_active_frames / (
-            np.sum(num_active_frames, axis=1, keepdims=True) + 1e-8
-        )
-        #   shape: (num_chunks, local_num_speakers)
-
-        speaker_idx = np.argmax(priors, axis=1)
-        # (num_chunks, )
-
-        # TODO: generate alternative sequences that only differs from train_embeddings
-        # in regions where there is overlap.
-
-        train_embeddings = embeddings[range(num_chunks), speaker_idx]
-        # (num_chunks, dimension)
-
-        # remove chunks with one of the following property:
-        # * there is no active speaker in the center of the chunk
-        # * embedding extraction has failed for the most active speaker in the center of the chunk
-        center_is_non_speech = np.max(num_active_frames, axis=1) == 0.0
-        embedding_is_invalid = np.any(np.isnan(train_embeddings), axis=1)
-        chunk_idx = np.where(~(embedding_is_invalid | center_is_non_speech))[0]
-        # (num_chunks, )
-
-        return (train_embeddings[chunk_idx], chunk_idx, speaker_idx[chunk_idx])
-
-    def fit_hmm(self, n_components, train_embeddings):
-
-        hmm = GaussianHMM(
-            n_components=n_components,
-            covariance_type=self.covariance_type,
-            n_iter=100,
-            random_state=42,
-            implementation="log",
-            verbose=False,
-        )
-        hmm.fit(train_embeddings)
-
-        return hmm
-
-    def cluster(
-        self,
-        embeddings: np.ndarray,
-        min_clusters: int,
-        max_clusters: int,
-        num_clusters: int = None,
-    ):
-
-        num_embeddings = len(embeddings)
-
-        # FIXME
-        if max_clusters == num_embeddings:
-            max_clusters = min(max_clusters, 20)
-
-        if self.metric == "cosine":
-            # unit-normalize embeddings to somehow make them "euclidean"
-            with np.errstate(divide="ignore", invalid="ignore"):
-                euclidean_embeddings = embeddings / np.linalg.norm(
-                    embeddings, axis=-1, keepdims=True
-                )
-        elif self.metric == "euclidean":
-            euclidean_embeddings = embeddings
-
-        # when the number of clusters is provided, fit a HMM with
-        # that many states and return the decoded sequence of states
-        if num_clusters is not None:
-            hmm = self.fit_hmm(num_clusters, euclidean_embeddings)
-
-            try:
-                train_clusters = hmm.predict(euclidean_embeddings)
-            except ValueError:
-                # ValueError: startprob_ must sum to 1 (got nan)
-                # TODO: display a warning that something went wrong
-                train_clusters = np.zeros((num_embeddings,), dtype=np.int8)
-
-            return train_clusters
-
-        # heuristic for detecting cases where there is just one large cluster
-        # (and a few meaningless outliers)
-        if min_clusters == 1:
-
-            # Example with quantile = 1% and threshold = 0.4:
-            # if 99% (100% - 1%) of pairwise distance are smaller than 0.4,
-            # then we assume that the others are outliers and return one cluster
-            if (
-                np.quantile(
-                    pdist(euclidean_embeddings, metric="euclidean"),
-                    1.0 - self.single_cluster_detection["quantile"],
-                )
-                < self.single_cluster_detection["threshold"]
-            ):
-
-                return np.zeros((num_embeddings,), dtype=np.int8)
-
-            # otherwise, we make sure to return at least 2 clusters
-            min_clusters = max(2, min_clusters)
-            max_clusters = max(2, max_clusters)
-
-        # fit a HMM with increasing number of states and stop adding
-        # when the distance between the two closest states
-        #  - either no longer increases
-        #  - or no longer goes above a threshold
-        # the selected number of states is the last one for which the
-        # criterion goes above {threshold}.
-
-        # THIS IS A TERRIBLE CRITERION THAT NEEDS TO BE FIXED
-
-        history = [-np.inf]
-        patience = min(3, max_clusters - min_clusters)
-        num_clusters = min_clusters
-
-        for n_components in range(min_clusters, max_clusters + 1):
-
-            hmm = self.fit_hmm(n_components, euclidean_embeddings)
-            try:
-                train_clusters = hmm.predict(euclidean_embeddings)
-            except ValueError:  # ValueError: startprob_ must sum to 1 (got nan)
-                # stop adding states as there too many and not enough
-                # training data to train it in a reliable manner.
-                break
-
-            # stop early if too few states were found
-            if len(np.unique(train_clusters)) < n_components:
-                break
-
-            # compute distance between the two closest centroids
-            centroids = np.vstack(
-                [
-                    np.mean(embeddings[train_clusters == k], axis=0)
-                    for k in range(n_components)
-                ]
-            )
-            centroids_pdist = pdist(centroids, metric=self.metric)
-            current_criterion = np.min(centroids_pdist)
-
-            increasing = current_criterion > max(history)
-            big_enough = current_criterion > self.threshold
-
-            if increasing or big_enough:
-                num_clusters = n_components
-
-            elif n_components == num_clusters + patience:
-                break
-
-            history.append(current_criterion)
-
-        hmm = self.fit_hmm(num_clusters, euclidean_embeddings)
-        try:
-            train_clusters = hmm.predict(euclidean_embeddings)
-        except ValueError:
-            # ValueError: startprob_ must sum to 1 (got nan)
-            train_clusters = np.zeros((num_embeddings,), dtype=np.int8)
-
-        return train_clusters
-
-
 class Clustering(Enum):
     AgglomerativeClustering = AgglomerativeClustering
-    FINCHClustering = FINCHClustering
-    HiddenMarkovModelClustering = HiddenMarkovModelClustering
     OracleClustering = OracleClustering
diff --git a/pyannote/audio/pipelines/speaker_diarization.py b/pyannote/audio/pipelines/speaker_diarization.py
index 1e279b82a..246e9df7f 100644
--- a/pyannote/audio/pipelines/speaker_diarization.py
+++ b/pyannote/audio/pipelines/speaker_diarization.py
@@ -77,7 +77,7 @@ class SpeakerDiarization(SpeakerDiarizationMixin, Pipeline):
         Defaults (False) to use the whole speech.
     clustering : str, optional
         Clustering algorithm. See pyannote.audio.pipelines.clustering.Clustering
-        for available options. Defaults to "HiddenMarkovModelClustering".
+        for available options. Defaults to "AgglomerativeClustering".
     segmentation_batch_size : int, optional
         Batch size used for speaker segmentation. Defaults to 32.
     embedding_batch_size : int, optional
@@ -112,7 +112,7 @@ def __init__(
         segmentation_step: float = 0.1,
         embedding: PipelineModel = "speechbrain/spkrec-ecapa-voxceleb@5c0be3875fda05e81f3c004ed8c7c06be308de1e",
         embedding_exclude_overlap: bool = False,
-        clustering: str = "HiddenMarkovModelClustering",
+        clustering: str = "AgglomerativeClustering",
         embedding_batch_size: int = 32,
         segmentation_batch_size: int = 32,
         der_variant: dict = None,
@@ -177,31 +177,6 @@ def __init__(
         self.clustering = Klustering.value(metric=metric)
 
     def default_parameters(self):
-
-        if (
-            self.segmentation_model == "pyannote/segmentation@2022.07"
-            and self.segmentation_duration == 5.0
-            and self.segmentation_step == 0.1
-            and self.embedding
-            == "speechbrain/spkrec-ecapa-voxceleb@5c0be3875fda05e81f3c004ed8c7c06be308de1e"
-            and self.embedding_exclude_overlap == True
-            and self.clustering == "HiddenMarkovModelClustering"
-        ):
-            return {
-                "segmentation": {
-                    "threshold": 0.58,
-                    "min_duration_off": 0.0,
-                },
-                "clustering": {
-                    "single_cluster_detection": {
-                        "quantile": 0.05,
-                        "threshold": 1.15,
-                    },
-                    "covariance_type": "diag",
-                    "threshold": 0.35,
-                },
-            }
-
         raise NotImplementedError()
 
     def classes(self):
diff --git a/pyannote/audio/pipelines/speaker_segmentation.py b/pyannote/audio/pipelines/speaker_segmentation.py
deleted file mode 100644
index 3eeb6070a..000000000
--- a/pyannote/audio/pipelines/speaker_segmentation.py
+++ /dev/null
@@ -1,382 +0,0 @@
-# MIT License
-#
-# Copyright (c) 2018-2022 CNRS
-#
-# Permission is hereby granted, free of charge, to any person obtaining a copy
-# of this software and associated documentation files (the "Software"), to deal
-# in the Software without restriction, including without limitation the rights
-# to use, copy, modify, merge, publish, distribute, sublicense, and/or sell
-# copies of the Software, and to permit persons to whom the Software is
-# furnished to do so, subject to the following conditions:
-#
-# The above copyright notice and this permission notice shall be included in all
-# copies or substantial portions of the Software.
-#
-# THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
-# IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
-# FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE
-# AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
-# LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM,
-# OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE
-# SOFTWARE.
-
-"""Speaker segmentation pipeline"""
-
-import math
-from functools import partial
-from typing import Callable, Optional, Text, Union
-
-import networkx as nx
-import numpy as np
-from pyannote.core import SlidingWindowFeature
-from pyannote.pipeline.parameter import Uniform
-
-from pyannote.audio.core.inference import Inference
-from pyannote.audio.core.io import AudioFile
-from pyannote.audio.core.model import Model
-from pyannote.audio.core.pipeline import Pipeline
-from pyannote.audio.pipelines.utils import (
-    PipelineModel,
-    SpeakerDiarizationMixin,
-    get_model,
-)
-from pyannote.audio.utils.metric import (
-    DiscreteDiarizationErrorRate,
-    SlidingDiarizationErrorRate,
-)
-from pyannote.audio.utils.permutation import mae_cost_func, permutate
-from pyannote.audio.utils.signal import binarize
-
-
-class SpeakerSegmentation(SpeakerDiarizationMixin, Pipeline):
-    """Speaker segmentation
-
-    Parameters
-    ----------
-    segmentation : Model, str, or dict, optional
-        Pretrained segmentation model. Defaults to "pyannote/segmentation".
-        See pyannote.audio.pipelines.utils.get_model for supported format.
-    skip_conversion : bool, optional
-        Skip final conversion to pyannote.core.Annotation. Defaults to False.
-    skip_stitching : bool, optional
-        Skip stitching step. Defaults to False
-    use_auth_token : str, optional
-        When loading private huggingface.co models, set `use_auth_token`
-        to True or to a string containing your hugginface.co authentication
-        token that can be obtained by running `huggingface-cli login`
-
-    Hyper-parameters
-    ----------------
-    onset : float
-        Onset speaker activation threshold
-    offset : float
-        Offset speaker activation threshold
-    stitch_threshold : float
-        Initial stitching threshold.
-    min_duration_on : float
-        Remove speaker turn shorter than that many seconds.
-    min_duration_off : float
-        Fill same-speaker gaps shorter than that many seconds.
-
-    """
-
-    def __init__(
-        self,
-        segmentation: PipelineModel = "pyannote/segmentation",
-        skip_conversion: bool = False,
-        skip_stitching: bool = False,
-        use_auth_token: Union[Text, None] = None,
-    ):
-        super().__init__()
-
-        self.segmentation = segmentation
-        self.skip_stitching = skip_stitching
-        self.skip_conversion = skip_conversion
-
-        model: Model = get_model(segmentation, use_auth_token=use_auth_token)
-        self._segmentation = Inference(model)
-        self._frames = self._segmentation.model.introspection.frames
-
-        self._audio = model.audio
-
-        # number of speakers in output of segmentation model
-        self._num_speakers = len(model.specifications.classes)
-
-        #  hyper-parameters used for hysteresis thresholding
-        self.onset = Uniform(0.0, 1.0)
-        self.offset = Uniform(0.0, 1.0)
-
-        if not self.skip_stitching:
-            self.stitch_threshold = Uniform(0.0, 1.0)
-
-        if not (self.skip_stitching or self.skip_conversion):
-            self.min_duration_on = Uniform(0.0, 1.0)
-            self.min_duration_off = Uniform(0.0, 1.0)
-
-        self.warm_up = 0.05
-
-    def default_parameters(self):
-        # parameters optimized on DIHARD 3 development set
-
-        if self.segmentation == "pyannote/segmentation":
-
-            parameters = {
-                "onset": 0.84,
-                "offset": 0.46,
-            }
-
-            if not self.skip_stitching:
-                parameters["stitch_threshold"] = 0.39
-
-            if not (self.skip_stitching or self.skip_conversion):
-                parameters.update(
-                    {
-                        "min_duration_on": 0.0,
-                        "min_duration_off": 0.0,
-                    }
-                )
-
-            return parameters
-
-        raise NotImplementedError()
-
-    CACHED_SEGMENTATION = "cache/segmentation/inference"
-
-    @staticmethod
-    def get_stitching_graph(
-        segmentations: SlidingWindowFeature, onset: float = 0.5
-    ) -> nx.Graph:
-        """Build stitching graph
-
-        Parameters
-        ----------
-        segmentations : (num_chunks, num_frames, local_num_speakers)-shaped SlidingWindowFeature
-            Raw output of segmentation model.
-        onset : float, optional
-            Onset speaker activation threshold. Defaults to 0.5
-
-        Returns
-        -------
-        stitching_graph : nx.Graph
-            Nodes are (chunk_idx, speaker_idx) tuples.
-            An edge between two nodes indicate that those are likely to be the same speaker
-            (the lower the value of "cost" attribute, the more likely).
-        """
-
-        chunks = segmentations.sliding_window
-        num_chunks, num_frames, _ = segmentations.data.shape
-        max_lookahead = math.floor(chunks.duration / chunks.step - 1)
-        lookahead = 2 * (max_lookahead,)
-
-        stitching_graph = nx.Graph()
-
-        for C, (chunk, segmentation) in enumerate(segmentations):
-            for c in range(
-                max(0, C - lookahead[0]), min(num_chunks, C + lookahead[1] + 1)
-            ):
-
-                if c == C:
-                    continue
-
-                # extract common temporal support
-                shift = round((C - c) * num_frames * chunks.step / chunks.duration)
-
-                if shift < 0:
-                    shift = -shift
-                    this_segmentations = segmentation[shift:]
-                    that_segmentations = segmentations[c, : num_frames - shift]
-                else:
-                    this_segmentations = segmentation[: num_frames - shift]
-                    that_segmentations = segmentations[c, shift:]
-
-                # find the optimal one-to-one mapping
-                _, (permutation,), (cost,) = permutate(
-                    this_segmentations[np.newaxis],
-                    that_segmentations,
-                    cost_func=mae_cost_func,
-                    return_cost=True,
-                )
-
-                for this, that in enumerate(permutation):
-
-                    this_is_active = np.any(this_segmentations[:, this] > onset)
-                    that_is_active = np.any(that_segmentations[:, that] > onset)
-
-                    if this_is_active:
-                        stitching_graph.add_node((C, this))
-
-                    if that_is_active:
-                        stitching_graph.add_node((c, that))
-
-                    if this_is_active and that_is_active:
-                        stitching_graph.add_edge(
-                            (C, this), (c, that), cost=cost[this, that]
-                        )
-
-        return stitching_graph
-
-    @staticmethod
-    def stitchable_components(
-        stitching_graph: nx.Graph, stitch_threshold: float, factor: float = 0.5
-    ):
-        """Find stitchable connected components
-
-        A component is 'stitchable' if it contains at most one node per chunk
-
-        Parameters
-        ----------
-        stitching_graph : nx.Graph
-            Stitching graph.
-        stitch_threshold : float
-
-        Yields
-        ------
-        component : list of (chunk_idx, speaker_idx) tuple
-
-        """
-
-        f = stitching_graph.copy()
-        while f:
-            f.remove_edges_from(
-                [
-                    (n1, n2)
-                    for n1, n2, cost in f.edges(data="cost")
-                    if cost > stitch_threshold
-                ]
-            )
-            for component in list(nx.connected_components(f)):
-                if len(set(c for c, _ in component)) == len(component):
-                    yield component
-                    f.remove_nodes_from(component)
-            stitch_threshold *= factor
-
-    def apply(
-        self, file: AudioFile, hook: Optional[Callable] = None
-    ) -> SlidingWindowFeature:
-        """Apply speaker segmentation
-
-        Parameters
-        ----------
-        file : AudioFile
-            Processed file.
-        hook : callable, optional
-            Callback called after each major steps of the pipeline as follows:
-                hook(step_name,      # human-readable name of current step
-                     step_artefact,  # artifact generated by current step
-                     file=file)      # file being processed
-            Time-consuming steps call `hook` multiple times with the same `step_name`
-            and additional `completed` and `total` keyword arguments usable to track
-            progress of current step.
-
-        Returns
-        -------
-        segmentation : Annotation
-            Speaker segmentation
-        """
-
-        hook = self.setup_hook(file, hook=hook)
-
-        # apply segmentation model (only if needed)
-        # output shape is (num_chunks, num_frames, local_num_speakers)
-        if self.training:
-            if self.CACHED_SEGMENTATION in file:
-                segmentations = file[self.CACHED_SEGMENTATION]
-            else:
-                segmentations = self._segmentation(
-                    file, hook=partial(hook, "segmentation", None)
-                )
-                file[self.CACHED_SEGMENTATION] = segmentations
-        else:
-            segmentations: SlidingWindowFeature = self._segmentation(
-                file, hook=partial(hook, "segmentation", None)
-            )
-
-        hook("segmentation", segmentations)
-
-        if self.skip_stitching:
-            return binarize(
-                segmentations, onset=self.onset, offset=self.offset, initial_state=False
-            )
-
-        # estimate frame-level number of instantaneous speakers
-        count = self.speaker_count(
-            segmentations,
-            onset=self.onset,
-            offset=self.offset,
-            warm_up=(self.warm_up, self.warm_up),
-            frames=self._frames,
-        )
-        hook("speaker_counting", count)
-
-        # trim warm-up regions
-        segmentations = Inference.trim(
-            segmentations, warm_up=(self.warm_up, self.warm_up)
-        )
-
-        # build stitching graph
-        stitching_graph = self.get_stitching_graph(segmentations, onset=self.onset)
-
-        # find (constraint-compliant) connected components
-        components = list(
-            self.stitchable_components(
-                stitching_graph, stitch_threshold=self.stitch_threshold
-            )
-        )
-
-        num_stitches = len(components)
-        num_chunks, num_frames, _ = segmentations.data.shape
-
-        stitched_segmentations = np.NAN * np.zeros(
-            (num_chunks, num_frames, num_stitches)
-        )
-
-        for k, component in enumerate(components):
-            for c, s in component:
-                stitched_segmentations[c, :, k] = segmentations.data[c, :, s]
-
-        stitched_segmentations = SlidingWindowFeature(
-            stitched_segmentations, segmentations.sliding_window
-        )
-
-        hook("stitching", stitched_segmentations)
-
-        # build discrete diarization
-        discrete_diarization = self.to_diarization(stitched_segmentations, count)
-
-        # remove inactive speakers
-        discrete_diarization.data = discrete_diarization.data[
-            :, np.nonzero(np.sum(discrete_diarization.data, axis=0))[0]
-        ]
-
-        if self.skip_conversion:
-            return discrete_diarization
-
-        hook("aggregation", discrete_diarization)
-
-        # convert to continuous diarization
-        diarization = self.to_annotation(
-            discrete_diarization,
-            min_duration_on=self.min_duration_on,
-            min_duration_off=self.min_duration_off,
-        )
-
-        diarization.uri = file["uri"]
-
-        return diarization.rename_labels(
-            {
-                label: expected_label
-                for label, expected_label in zip(diarization.labels(), self.classes())
-            }
-        )
-
-    def get_metric(self):
-
-        if self.skip_stitching:
-            return DiscreteDiarizationErrorRate()
-
-        if self.skip_conversion:
-            raise NotImplementedError(
-                "Cannot optimize segmentation pipeline when `skip_conversion` is True."
-            )
-
-        return SlidingDiarizationErrorRate(window=2.0 * self._segmentation.duration)
diff --git a/pyannote/audio/pipelines/speaker_verification.py b/pyannote/audio/pipelines/speaker_verification.py
index af32582a3..7c73833a8 100644
--- a/pyannote/audio/pipelines/speaker_verification.py
+++ b/pyannote/audio/pipelines/speaker_verification.py
@@ -21,12 +21,7 @@
 # SOFTWARE.
 
 import warnings
-
-try:
-    from functools import cached_property
-except ImportError:
-    from backports.cached_property import cached_property
-
+from functools import cached_property
 from typing import Text, Union
 
 import numpy as np
diff --git a/pyannote/audio/tasks/segmentation/speaker_diarization.py b/pyannote/audio/tasks/segmentation/speaker_diarization.py
index 0ab5d6ae9..0c7a1fc0e 100644
--- a/pyannote/audio/tasks/segmentation/speaker_diarization.py
+++ b/pyannote/audio/tasks/segmentation/speaker_diarization.py
@@ -23,7 +23,7 @@
 import math
 import warnings
 from collections import Counter
-from typing import Dict, Optional, Sequence, Text, Tuple, Union
+from typing import Dict, Literal, Optional, Sequence, Text, Tuple, Union
 
 import numpy as np
 import torch
@@ -36,7 +36,6 @@
 from rich.progress import track
 from torch_audiomentations.core.transforms_interface import BaseWaveformTransform
 from torchmetrics import Metric
-from typing_extensions import Literal
 
 from pyannote.audio.core.task import Problem, Resolution, Specifications, Task
 from pyannote.audio.tasks.segmentation.mixins import SegmentationTaskMixin
diff --git a/pyannote/audio/utils/metric.py b/pyannote/audio/utils/metric.py
index 71699da06..d03152046 100644
--- a/pyannote/audio/utils/metric.py
+++ b/pyannote/audio/utils/metric.py
@@ -20,11 +20,7 @@
 # OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE
 # SOFTWARE.
 
-try:
-    from functools import singledispatchmethod
-except ImportError:
-    from singledispatchmethod import singledispatchmethod
-
+from functools import singledispatchmethod
 from typing import Dict, List, Optional
 
 import numpy as np
diff --git a/pyannote/audio/utils/powerset.py b/pyannote/audio/utils/powerset.py
index f206b65bf..215cb7946 100644
--- a/pyannote/audio/utils/powerset.py
+++ b/pyannote/audio/utils/powerset.py
@@ -24,11 +24,7 @@
 # Hervé BREDIN - https://herve.niderb.fr
 # Alexis PLAQUET
 
-try:
-    from functools import cached_property
-except ImportError:
-    from backports.cached_property import cached_property
-
+from functools import cached_property
 from itertools import combinations
 
 import scipy.special
diff --git a/requirements.txt b/requirements.txt
index 14c07fb7f..22e63c5c4 100644
--- a/requirements.txt
+++ b/requirements.txt
@@ -1,23 +1,19 @@
-asteroid-filterbanks >=0.4,<0.5
-backports.cached_property
-einops >=0.3,<0.4.0
-hmmlearn >=0.2.7,<0.3
-huggingface_hub >= 0.8.1
-networkx >= 2.6,<3.0
+asteroid-filterbanks >=0.4
+einops >=0.6.0
+huggingface_hub >= 0.13.0
+lightning >= 2.0.1
 omegaconf >=2.1,<3.0
-pyannote.core >=4.4,<5.0
-pyannote.database >=5.0,<6.0
-pyannote.metrics >=3.2,<4.0
-pyannote.pipeline >=2.3,<3.0
-pytorch_lightning >=1.8.0,<1.9
-pytorch_metric_learning >=1.0.0,<2.0
+pyannote.core >= 5.0.0
+pyannote.database >= 5.0.0
+pyannote.metrics >= 3.2
+pyannote.pipeline >= 2.3   # 2.4
+pytorch_metric_learning >= 2.1.0
 rich >= 12.0.0
-semver >=2.10.2,<3.0
-singledispatchmethod
-soundfile >=0.10.2,<0.12
-speechbrain >=0.5.12,<0.6
-torch >=1.9
+semver >= 3.0.0
+soundfile >= 0.12.1
+speechbrain >= 0.5.14
+tensorboardX >= 2.6
+torch >= 2.0.0
 torch_audiomentations >= 0.11.0
-torchaudio >=0.10,<1.0
-torchmetrics >=0.11,<1.0
-typing_extensions
+torchaudio >= 2.0.0
+torchmetrics >= 0.11.0
diff --git a/setup.py b/setup.py
index 3fa457d60..4eaa0b055 100644
--- a/setup.py
+++ b/setup.py
@@ -56,8 +56,9 @@
             "Intended Audience :: Science/Research",
             "License :: OSI Approved :: MIT License",
             "Natural Language :: English",
-            "Programming Language :: Python :: 3.7",
             "Programming Language :: Python :: 3.8",
+            "Programming Language :: Python :: 3.9",
+            "Programming Language :: Python :: 3.10",
             "Topic :: Scientific/Engineering",
         ],
     )
diff --git a/tests/tasks/test_reproducibility.py b/tests/tasks/test_reproducibility.py
index 5eab714bc..a7307e0cf 100644
--- a/tests/tasks/test_reproducibility.py
+++ b/tests/tasks/test_reproducibility.py
@@ -1,5 +1,5 @@
 import torch
-from lightning_lite.utilities.seed import seed_everything
+from lightning.pytorch import seed_everything
 from pyannote.database import FileFinder, get_protocol
 
 from pyannote.audio.models.segmentation.debug import SimpleSegmentationModel
diff --git a/tutorials/intro.ipynb b/tutorials/intro.ipynb
index f6b420437..8d8bf2ffa 100644
--- a/tutorials/intro.ipynb
+++ b/tutorials/intro.ipynb
@@ -50,14 +50,7 @@
       },
       "outputs": [],
       "source": [
-        "# for speechbrain\n",
-        "!pip install -qq torch==1.11.0 torchvision==0.12.0 torchaudio==0.11.0 torchtext==0.12.0\n",
-        "!pip install -qq speechbrain==0.5.12\n",
-        "\n",
-        "# pyannote.audio\n",
-        "!pip install -qq pyannote.audio\n",
-        "\n",
-        "# for visualization purposes\n",
+        "!pip install -qq https://github.com/pyannote/pyannote-audio/archive/refs/heads/develop.zip\n",
         "!pip install -qq ipython==7.34.0"
       ]
     },

From 00fe29fe0de7248dd8a33d47e1cec2aeebfd895f Mon Sep 17 00:00:00 2001
From: "Balazs G. Horvath" 
Date: Mon, 17 Apr 2023 15:35:07 +0200
Subject: [PATCH 061/112] feat(pipeline): add support for @revision of
 speechbrain models

---
 pyannote/audio/pipelines/speaker_verification.py | 9 ++++++++-
 1 file changed, 8 insertions(+), 1 deletion(-)

diff --git a/pyannote/audio/pipelines/speaker_verification.py b/pyannote/audio/pipelines/speaker_verification.py
index 7c73833a8..1a672d614 100644
--- a/pyannote/audio/pipelines/speaker_verification.py
+++ b/pyannote/audio/pipelines/speaker_verification.py
@@ -237,7 +237,12 @@ def __init__(
             )
 
         super().__init__()
-        self.embedding = embedding
+        if "@" in embedding:
+            self.embedding = embedding.split("@")[0]
+            self.revision = embedding.split("@")[1]
+        else:
+            self.embedding = embedding
+            self.revision = None
         self.device = device or torch.device("cpu")
         self.use_auth_token = use_auth_token
 
@@ -246,6 +251,7 @@ def __init__(
             savedir=f"{CACHE_DIR}/speechbrain",
             run_opts={"device": self.device},
             use_auth_token=self.use_auth_token,
+            revision=self.revision,
         )
 
     def to(self, device: torch.device):
@@ -254,6 +260,7 @@ def to(self, device: torch.device):
             savedir=f"{CACHE_DIR}/speechbrain",
             run_opts={"device": device},
             use_auth_token=self.use_auth_token,
+            revision=self.revision,
         )
         self.device = device
         return self

From bbe13955c4e66e04e263a98ba55e95e6809f0b82 Mon Sep 17 00:00:00 2001
From: Will Proctor 
Date: Mon, 17 Apr 2023 09:39:22 -0400
Subject: [PATCH 062/112] fix: fix corner case in Inference on Windows

---
 pyannote/audio/core/inference.py | 2 +-
 1 file changed, 1 insertion(+), 1 deletion(-)

diff --git a/pyannote/audio/core/inference.py b/pyannote/audio/core/inference.py
index cf92e2ee5..9243babc1 100644
--- a/pyannote/audio/core/inference.py
+++ b/pyannote/audio/core/inference.py
@@ -98,7 +98,7 @@ def __init__(
             model
             if isinstance(model, Model)
             else Model.from_pretrained(
-                Path(model),
+                model,
                 map_location=device,
                 strict=False,
                 use_auth_token=use_auth_token,

From 1dc2abcc98a07aba3314925f1ba654a596fd9c13 Mon Sep 17 00:00:00 2001
From: =?UTF-8?q?Herv=C3=A9=20BREDIN?= 
Date: Wed, 19 Apr 2023 09:17:30 +0200
Subject: [PATCH 063/112] fix: fix tutorial

Fixes #1331

Note: Segmentation will be renamed SpeakerDiarization in next release.
---
 tutorials/adapting_pretrained_pipeline.ipynb | 4 ++--
 1 file changed, 2 insertions(+), 2 deletions(-)

diff --git a/tutorials/adapting_pretrained_pipeline.ipynb b/tutorials/adapting_pretrained_pipeline.ipynb
index 7bfe73b8d..06d318809 100644
--- a/tutorials/adapting_pretrained_pipeline.ipynb
+++ b/tutorials/adapting_pretrained_pipeline.ipynb
@@ -334,8 +334,8 @@
       },
       "outputs": [],
       "source": [
-        "from pyannote.audio.tasks import SpeakerDiarization\n",
-        "task = SpeakerDiarization(\n",
+        "from pyannote.audio.tasks import Segmentation\n",
+        "task = Segmentation(\n",
         "    dataset, \n",
         "    duration=model.specifications.duration, \n",
         "    max_num_speakers=len(model.specifications.classes), \n",

From 6ef2b888d765a6a03b012a7700979dcf684eb967 Mon Sep 17 00:00:00 2001
From: Paul Butler 
Date: Wed, 19 Apr 2023 03:31:58 -0400
Subject: [PATCH 064/112] chore: replace deprecated np.int with int (#1330)

---
 pyannote/audio/tasks/segmentation/multilabel.py               | 4 ++--
 .../audio/tasks/segmentation/overlapped_speech_detection.py   | 4 ++--
 pyannote/audio/tasks/segmentation/speaker_diarization.py      | 4 ++--
 pyannote/audio/tasks/segmentation/voice_activity_detection.py | 4 ++--
 4 files changed, 8 insertions(+), 8 deletions(-)

diff --git a/pyannote/audio/tasks/segmentation/multilabel.py b/pyannote/audio/tasks/segmentation/multilabel.py
index 603d04ac6..148903df8 100644
--- a/pyannote/audio/tasks/segmentation/multilabel.py
+++ b/pyannote/audio/tasks/segmentation/multilabel.py
@@ -187,9 +187,9 @@ def prepare_chunk(self, file_id: int, start_time: float, duration: float):
 
         # discretize chunk annotations at model output resolution
         start = np.maximum(chunk_annotations["start"], chunk.start) - chunk.start
-        start_idx = np.floor(start / resolution).astype(np.int)
+        start_idx = np.floor(start / resolution).astype(int)
         end = np.minimum(chunk_annotations["end"], chunk.end) - chunk.start
-        end_idx = np.ceil(end / resolution).astype(np.int)
+        end_idx = np.ceil(end / resolution).astype(int)
 
         # frame-level targets (-1 for un-annotated classes)
         y = -np.ones((num_frames, len(self.classes)), dtype=np.int8)
diff --git a/pyannote/audio/tasks/segmentation/overlapped_speech_detection.py b/pyannote/audio/tasks/segmentation/overlapped_speech_detection.py
index f0bebbb13..658c350a7 100644
--- a/pyannote/audio/tasks/segmentation/overlapped_speech_detection.py
+++ b/pyannote/audio/tasks/segmentation/overlapped_speech_detection.py
@@ -179,9 +179,9 @@ def prepare_chunk(self, file_id: int, start_time: float, duration: float):
 
         # discretize chunk annotations at model output resolution
         start = np.maximum(chunk_annotations["start"], chunk.start) - chunk.start
-        start_idx = np.floor(start / resolution).astype(np.int)
+        start_idx = np.floor(start / resolution).astype(int)
         end = np.minimum(chunk_annotations["end"], chunk.end) - chunk.start
-        end_idx = np.ceil(end / resolution).astype(np.int)
+        end_idx = np.ceil(end / resolution).astype(int)
 
         # frame-level targets
         y = np.zeros((num_frames, 1), dtype=np.uint8)
diff --git a/pyannote/audio/tasks/segmentation/speaker_diarization.py b/pyannote/audio/tasks/segmentation/speaker_diarization.py
index 0c7a1fc0e..f8828e3e4 100644
--- a/pyannote/audio/tasks/segmentation/speaker_diarization.py
+++ b/pyannote/audio/tasks/segmentation/speaker_diarization.py
@@ -347,9 +347,9 @@ def prepare_chunk(self, file_id: int, start_time: float, duration: float):
 
         # discretize chunk annotations at model output resolution
         start = np.maximum(chunk_annotations["start"], chunk.start) - chunk.start
-        start_idx = np.floor(start / resolution).astype(np.int)
+        start_idx = np.floor(start / resolution).astype(int)
         end = np.minimum(chunk_annotations["end"], chunk.end) - chunk.start
-        end_idx = np.ceil(end / resolution).astype(np.int)
+        end_idx = np.ceil(end / resolution).astype(int)
 
         # get list and number of labels for current scope
         labels = list(np.unique(chunk_annotations[label_scope_key]))
diff --git a/pyannote/audio/tasks/segmentation/voice_activity_detection.py b/pyannote/audio/tasks/segmentation/voice_activity_detection.py
index 69f47d04b..559ff24eb 100644
--- a/pyannote/audio/tasks/segmentation/voice_activity_detection.py
+++ b/pyannote/audio/tasks/segmentation/voice_activity_detection.py
@@ -161,9 +161,9 @@ def prepare_chunk(self, file_id: int, start_time: float, duration: float):
 
         # discretize chunk annotations at model output resolution
         start = np.maximum(chunk_annotations["start"], chunk.start) - chunk.start
-        start_idx = np.floor(start / resolution).astype(np.int)
+        start_idx = np.floor(start / resolution).astype(int)
         end = np.minimum(chunk_annotations["end"], chunk.end) - chunk.start
-        end_idx = np.ceil(end / resolution).astype(np.int)
+        end_idx = np.ceil(end / resolution).astype(int)
 
         # frame-level targets
         y = np.zeros((num_frames, 1), dtype=np.uint8)

From cbe97e28433312933fdf1b3f056e102d4017a85e Mon Sep 17 00:00:00 2001
From: =?UTF-8?q?Herv=C3=A9=20BREDIN?= 
Date: Wed, 19 Apr 2023 17:27:46 +0200
Subject: [PATCH 065/112] fix: skip batches resulting in NaN loss (#1332)

---
 pyannote/audio/core/task.py                              | 5 +++++
 pyannote/audio/tasks/embedding/mixins.py                 | 5 +++++
 pyannote/audio/tasks/segmentation/multilabel.py          | 4 ++++
 pyannote/audio/tasks/segmentation/speaker_diarization.py | 6 +++++-
 4 files changed, 19 insertions(+), 1 deletion(-)

diff --git a/pyannote/audio/core/task.py b/pyannote/audio/core/task.py
index df38a49d2..95cca1dee 100644
--- a/pyannote/audio/core/task.py
+++ b/pyannote/audio/core/task.py
@@ -396,6 +396,11 @@ def common_step(self, batch, batch_idx: int, stage: Literal["train", "val"]):
 
         # compute loss
         loss = self.default_loss(self.specifications, y, y_pred, weight=weight)
+
+        # skip batch if something went wrong for some reason
+        if torch.isnan(loss):
+            return None
+
         self.model.log(
             f"{self.logging_prefix}{stage.capitalize()}Loss",
             loss,
diff --git a/pyannote/audio/tasks/embedding/mixins.py b/pyannote/audio/tasks/embedding/mixins.py
index 2178bb2a7..00aa7e608 100644
--- a/pyannote/audio/tasks/embedding/mixins.py
+++ b/pyannote/audio/tasks/embedding/mixins.py
@@ -245,6 +245,10 @@ def training_step(self, batch, batch_idx: int):
         X, y = batch["X"], batch["y"]
         loss = self.model.loss_func(self.model(X), y)
 
+        # skip batch if something went wrong for some reason
+        if torch.isnan(loss):
+            return None
+
         self.model.log(
             f"{self.logging_prefix}TrainLoss",
             loss,
@@ -253,6 +257,7 @@ def training_step(self, batch, batch_idx: int):
             prog_bar=True,
             logger=True,
         )
+
         return {"loss": loss}
 
     def val__getitem__(self, idx):
diff --git a/pyannote/audio/tasks/segmentation/multilabel.py b/pyannote/audio/tasks/segmentation/multilabel.py
index 148903df8..19270e26f 100644
--- a/pyannote/audio/tasks/segmentation/multilabel.py
+++ b/pyannote/audio/tasks/segmentation/multilabel.py
@@ -223,6 +223,10 @@ def training_step(self, batch, batch_idx: int):
         y_true = y_true[mask]
         loss = F.binary_cross_entropy(y_pred, y_true.type(torch.float))
 
+        # skip batch if something went wrong for some reason
+        if torch.isnan(loss):
+            return None
+
         self.model.log(
             f"{self.logging_prefix}TrainLoss",
             loss,
diff --git a/pyannote/audio/tasks/segmentation/speaker_diarization.py b/pyannote/audio/tasks/segmentation/speaker_diarization.py
index f8828e3e4..21f4416cc 100644
--- a/pyannote/audio/tasks/segmentation/speaker_diarization.py
+++ b/pyannote/audio/tasks/segmentation/speaker_diarization.py
@@ -547,7 +547,7 @@ def training_step(self, batch, batch_idx: int):
 
         # corner case
         if not keep.any():
-            return {"loss": 0.0}
+            return None
 
         # forward pass
         prediction = self.model(waveform)
@@ -626,6 +626,10 @@ def training_step(self, batch, batch_idx: int):
 
         loss = seg_loss + vad_loss
 
+        # skip batch if something went wrong for some reason
+        if torch.isnan(loss):
+            return None
+
         self.model.log(
             f"{self.logging_prefix}TrainLoss",
             loss,

From 2623cf19807db19c7234880ee173739293e28254 Mon Sep 17 00:00:00 2001
From: =?UTF-8?q?Herv=C3=A9=20BREDIN?= 
Date: Fri, 21 Apr 2023 15:14:56 +0200
Subject: [PATCH 066/112] BREAKING(io): update Audio behavior for multi-channel
 audio

- BREAKING(io): channels are now 0-indexed (used to be 1-indexed)
- BREAKING(io): multi-channel audio is no longer downmixed to mono by default.
  You should update how `pyannote.audio.core.io.Audio` is instantiated:
  * replace `Audio()` by `Audio(mono="downmix")`;
  * replace `Audio(mono=True)` by `Audio(mono="downmix")`;
  * replace `Audio(mono=False)` by `Audio()`.
---
 CHANGELOG.md                                  | 40 ++++++++++++++-----
 notebook/augmentation.ipynb                   |  2 +-
 pyannote/audio/core/io.py                     | 24 +++++++----
 pyannote/audio/core/model.py                  |  4 +-
 pyannote/audio/interactive/common/utils.py    |  2 +-
 pyannote/audio/interactive/diff/recipe.py     |  2 +-
 pyannote/audio/interactive/pipeline/recipe.py |  2 +-
 pyannote/audio/interactive/review/recipe.py   |  2 +-
 pyannote/audio/pipelines/utils/oracle.py      |  2 +-
 pyannote/audio/utils/preview.py               |  6 +--
 pyannote/audio/utils/protocol.py              |  2 +-
 tests/io_test.py                              | 20 +++++-----
 tutorials/intro.ipynb                         |  4 +-
 tutorials/speaker_verification.ipynb          |  3 +-
 14 files changed, 72 insertions(+), 43 deletions(-)

diff --git a/CHANGELOG.md b/CHANGELOG.md
index 5390032d8..bf2603978 100644
--- a/CHANGELOG.md
+++ b/CHANGELOG.md
@@ -2,18 +2,40 @@
 
 ## Version 3.0 (xxxx-xx-xx)
 
-  - feat(task): add support for label scope in speaker diarization task (from pyannote.database 5.0)
-  - feat(task): add support for missing classes in multi-label segmentation task (from pyannote.database 5.0)
-  - improve(task): load metadata as tensors rather than pyannote.core instances
-  - setup: switch to torch 2.0+ and lightning 2.0+
-  - setup: switch to torchaudio 2.0+ and soundfile 0.12+
-  - setup: switch to pyannote.core 5.0+ and pyannote.database 5.0+
-  - setup: switch to speechbrain 0.5.14+
+### Breaking changes
+
   - BREAKING(task): rename `Segmentation` task to `SpeakerDiarization`
   - BREAKING(task): remove support for variable chunk duration
-  - BREAKING(pipeline): remove `SpeakerSegmentation` pipeline (in favor of `SpeakerDiarization` pipeline)
+  - BREAKING(pipeline): pipeline defaults to CPU (use `pipeline.to(device)`)
+  - BREAKING(pipeline): remove `SpeakerSegmentation` pipeline (use `SpeakerDiarization` pipeline)
   - BREAKING(pipeline): remove support `FINCHClustering` and `HiddenMarkovModelClustering`
-  - BREAKING: drop support for Python 3.7
+  - BREAKING(setup): drop support for Python 3.7
+  - BREAKING(io): channels are now 0-indexed (used to be 1-indexed)
+  - BREAKING(io): multi-channel audio is no longer downmixed to mono by default.
+    You should update how `pyannote.audio.core.io.Audio` is instantiated:
+    * replace `Audio()` by `Audio(mono="downmix")`;
+    * replace `Audio(mono=True)` by `Audio(mono="downmix")`;
+    * replace `Audio(mono=False)` by `Audio()`.
+
+### Features and improvements
+
+  - feat(pipeline): send pipeline to device with `pipeline.to(device)`
+  - feat(task): add [powerset](https://arxiv.org/PLACEHOLDER) support to `SpeakerDiarization` task
+  - feat(pipeline): add progress hook to pipelines
+  - feat(task): add support for label scope in speaker diarization task
+  - feat(task): add support for missing classes in multi-label segmentation task
+  - improve(task): load metadata as tensors rather than pyannote.core instances
+
+### Fixes and improvements
+
+  - fix(pipeline): fix support for IOBase audio
+  - fix(pipeline): fix corner case with no speaker
+
+### Dependencies
+
+  - setup: switch to torch 2.0+, torchaudio 2.0+, soundfile 0.12+, lightning 2.0+, torchmetrics 0.11+
+  - setup: switch to pyannote.core 5.0+ and pyannote.database 5.0+
+  - setup: switch to speechbrain 0.5.14+
 
 ## Version 2.1.1 (2022-10-27)
 
diff --git a/notebook/augmentation.ipynb b/notebook/augmentation.ipynb
index 7af1250e4..656eae4a7 100644
--- a/notebook/augmentation.ipynb
+++ b/notebook/augmentation.ipynb
@@ -12,7 +12,7 @@
     "                        preprocessors={\"audio\": FileFinder()})\n",
     "\n",
     "from pyannote.audio.core.io import Audio\n",
-    "audio = Audio(sample_rate=16000, mono=True)\n",
+    "audio = Audio(sample_rate=16000, mono=\"downmix\")\n",
     "file = next(protocol.test())\n",
     "\n",
     "from pyannote.core import Segment\n",
diff --git a/pyannote/audio/core/io.py b/pyannote/audio/core/io.py
index 34358c08f..b2e8842b1 100644
--- a/pyannote/audio/core/io.py
+++ b/pyannote/audio/core/io.py
@@ -28,6 +28,7 @@
 """
 
 import math
+import random
 import warnings
 from io import IOBase
 from pathlib import Path
@@ -79,12 +80,14 @@ class Audio:
     ----------
     sample_rate: int, optional
         Target sampling rate. Defaults to using native sampling rate.
-    mono : int, optional
-        Convert multi-channel to mono. Defaults to True.
+    mono : {'random', 'downmix'}, optional
+        In case of multi-channel audio, convert to single-channel audio
+        using one of the following strategies: select one channel at
+        'random' or 'downmix' by averaging all channels.
 
     Usage
     -----
-    >>> audio = Audio(sample_rate=16000, mono=True)
+    >>> audio = Audio(sample_rate=16000, mono='downmix')
     >>> waveform, sample_rate = audio({"audio": "/path/to/audio.wav"})
     >>> assert sample_rate == 16000
     >>> sample_rate = 44100
@@ -181,7 +184,7 @@ def validate_file(file: AudioFile) -> Mapping:
 
         return file
 
-    def __init__(self, sample_rate=None, mono=True):
+    def __init__(self, sample_rate=None, mono=None):
 
         super().__init__()
         self.sample_rate = sample_rate
@@ -206,8 +209,13 @@ def downmix_and_resample(self, waveform: Tensor, sample_rate: int) -> Tensor:
         """
 
         # downmix to mono
-        if self.mono and waveform.shape[0] > 1:
-            waveform = waveform.mean(dim=0, keepdim=True)
+        num_channels = waveform.shape[0]
+        if num_channels > 1:
+            if self.mono == "random":
+                channel = random.randint(0, num_channels - 1)
+                waveform = waveform[channel : channel + 1]
+            elif self.mono == "downmix":
+                waveform = waveform.mean(dim=0, keepdim=True)
 
         # resample
         if (self.sample_rate is not None) and (self.sample_rate != sample_rate):
@@ -284,7 +292,7 @@ def __call__(self, file: AudioFile) -> Tuple[Tensor, int]:
         channel = file.get("channel", None)
 
         if channel is not None:
-            waveform = waveform[channel - 1 : channel]
+            waveform = waveform[channel : channel + 1]
 
         return self.downmix_and_resample(waveform, sample_rate)
 
@@ -413,7 +421,7 @@ def crop(
                 file["sample_rate"] = sample_rate
 
         if channel is not None:
-            data = data[channel - 1 : channel, :]
+            data = data[channel : channel + 1, :]
 
         # pad with zeros
         if mode == "pad":
diff --git a/pyannote/audio/core/model.py b/pyannote/audio/core/model.py
index ec0a4a259..2054dc99b 100644
--- a/pyannote/audio/core/model.py
+++ b/pyannote/audio/core/model.py
@@ -272,9 +272,7 @@ def __init__(
         self.save_hyperparameters("sample_rate", "num_channels")
 
         self.task = task
-        self.audio = Audio(
-            sample_rate=self.hparams.sample_rate, mono=self.hparams.num_channels == 1
-        )
+        self.audio = Audio(sample_rate=self.hparams.sample_rate, mono="downmix")
 
     @property
     def example_input_array(self) -> torch.Tensor:
diff --git a/pyannote/audio/interactive/common/utils.py b/pyannote/audio/interactive/common/utils.py
index a51137dd3..32114ae3b 100644
--- a/pyannote/audio/interactive/common/utils.py
+++ b/pyannote/audio/interactive/common/utils.py
@@ -122,7 +122,7 @@ def source_to_files(source: Path) -> List[Dict]:
 def get_chunks(source: Path, chunk_duration: Optional[float] = None):
 
     files = source_to_files(source)
-    audio = Audio()
+    audio = Audio(mono="downmix")
 
     for file in files:
 
diff --git a/pyannote/audio/interactive/diff/recipe.py b/pyannote/audio/interactive/diff/recipe.py
index 5f33cef9d..8bd059123 100644
--- a/pyannote/audio/interactive/diff/recipe.py
+++ b/pyannote/audio/interactive/diff/recipe.py
@@ -60,7 +60,7 @@ def diff_stream(
         files_errors[filename] = errors
 
     audio_for_prodigy = AudioForProdigy()
-    audio_for_pipeline = Audio(mono=True)
+    audio_for_pipeline = Audio(mono="downmix")
     chunks = get_chunks(source, chunk_duration=chunk)
     chunks = list(chunks)
     chunks = sorted(
diff --git a/pyannote/audio/interactive/pipeline/recipe.py b/pyannote/audio/interactive/pipeline/recipe.py
index df9cc06b7..50925f708 100644
--- a/pyannote/audio/interactive/pipeline/recipe.py
+++ b/pyannote/audio/interactive/pipeline/recipe.py
@@ -80,7 +80,7 @@ def stream(
     context = getattr(pipeline, "context", 2.5)
 
     audio_for_prodigy = AudioForProdigy()
-    audio_for_pipeline = Audio(mono=True)
+    audio_for_pipeline = Audio(mono="downmix")
 
     chunks = get_chunks(source, chunk_duration=chunk)
     if randomize:
diff --git a/pyannote/audio/interactive/review/recipe.py b/pyannote/audio/interactive/review/recipe.py
index 258b51f62..9e2780f2e 100644
--- a/pyannote/audio/interactive/review/recipe.py
+++ b/pyannote/audio/interactive/review/recipe.py
@@ -31,7 +31,7 @@ def review_stream(
 
     files = source_to_files(source)
     audio_for_prodigy = AudioForProdigy()
-    audio_for_pipeline = Audio(mono=True)
+    audio_for_pipeline = Audio(mono="downmix")
     chunks = get_chunks(source, chunk_duration=chunk)
     chunks = list(chunks)
 
diff --git a/pyannote/audio/pipelines/utils/oracle.py b/pyannote/audio/pipelines/utils/oracle.py
index 77250c5da..486b09274 100644
--- a/pyannote/audio/pipelines/utils/oracle.py
+++ b/pyannote/audio/pipelines/utils/oracle.py
@@ -62,7 +62,7 @@ def oracle_segmentation(
     """
 
     if "duration" not in file:
-        duration = Audio().get_duration(file)
+        duration = Audio(mono="downmix").get_duration(file)
     else:
         duration: float = file["duration"]
     reference: Annotation = file["annotation"]
diff --git a/pyannote/audio/utils/preview.py b/pyannote/audio/utils/preview.py
index 1b44448c6..ac085b10f 100644
--- a/pyannote/audio/utils/preview.py
+++ b/pyannote/audio/utils/preview.py
@@ -83,9 +83,9 @@ def listen(audio_file: AudioFile, segment: Segment = None) -> None:
         return
 
     if segment is None:
-        waveform, sr = Audio()(audio_file)
+        waveform, sr = Audio(mono="downmix")(audio_file)
     else:
-        waveform, sr = Audio().crop(audio_file, segment)
+        waveform, sr = Audio(mono="downmix").crop(audio_file, segment)
     return IPythonAudio(waveform.flatten(), rate=sr)
 
 
@@ -159,7 +159,7 @@ def preview(
     temp_dir = tempfile.mkdtemp(prefix="pyannote-audio-preview")
     video_path = f"{temp_dir}/{uri}.{video_ext}"
 
-    audio = Audio(sample_rate=16000, mono=True)
+    audio = Audio(sample_rate=16000, mono="downmix")
 
     if segment is None:
         duration = audio.get_duration(audio_file)
diff --git a/pyannote/audio/utils/protocol.py b/pyannote/audio/utils/protocol.py
index a9646c5a1..0cfe4ccf2 100644
--- a/pyannote/audio/utils/protocol.py
+++ b/pyannote/audio/utils/protocol.py
@@ -26,7 +26,7 @@
 
 from pyannote.audio.core.io import Audio, get_torchaudio_info
 
-get_duration = Audio().get_duration
+get_duration = Audio(mono="downmix").get_duration
 
 
 def check_protocol(protocol: Protocol) -> Protocol:
diff --git a/tests/io_test.py b/tests/io_test.py
index a07ce7403..4a582b798 100644
--- a/tests/io_test.py
+++ b/tests/io_test.py
@@ -1,9 +1,9 @@
 import torch
 import torchaudio
+from pyannote.core import Segment
 from torch import Tensor
 
 from pyannote.audio.core.io import Audio
-from pyannote.core import Segment
 
 
 def test_audio_resample():
@@ -11,7 +11,7 @@ def test_audio_resample():
     test_file = "tests/data/dev00.wav"
     info = torchaudio.info(test_file)
     old_sr = info.sample_rate
-    loader = Audio(old_sr // 2)
+    loader = Audio(sample_rate=old_sr // 2, mono="downmix")
     wav, sr = loader(test_file)
     assert isinstance(wav, Tensor)
     assert sr == old_sr // 2
@@ -19,7 +19,7 @@ def test_audio_resample():
 
 def test_basic_load_with_defaults():
     test_file = "tests/data/dev00.wav"
-    loader = Audio()
+    loader = Audio(mono="downmix")
     wav, sr = loader(test_file)
     assert isinstance(wav, Tensor)
 
@@ -27,16 +27,16 @@ def test_basic_load_with_defaults():
 def test_correct_audio_channel():
     "When we specify an audio channel, it is chosen correctly"
     waveform = torch.rand(2, 16000 * 2)
-    loader = Audio()
+    loader = Audio(mono="downmix")
     wav, sr = loader({"waveform": waveform, "sample_rate": 16000, "channel": 1})
-    assert torch.equal(wav, waveform[0:1])
+    assert torch.equal(wav, waveform[1:2])
     assert sr == 16000
 
 
 def test_can_load_with_waveform():
     "We can load a raw waveform"
     waveform = torch.rand(2, 16000 * 2)
-    loader = Audio()
+    loader = Audio(mono="downmix")
     wav, sr = loader({"waveform": waveform, "sample_rate": 16000})
     assert isinstance(wav, Tensor)
     assert sr == 16000
@@ -45,7 +45,7 @@ def test_can_load_with_waveform():
 def test_can_crop():
     "Cropping works when we give a Segment"
     test_file = "tests/data/dev00.wav"
-    loader = Audio()
+    loader = Audio(mono="downmix")
     segment = Segment(0.2, 0.7)
     wav, sr = loader.crop(test_file, segment)
     assert wav.shape[1] / sr == 0.5
@@ -54,7 +54,7 @@ def test_can_crop():
 def test_can_crop_waveform():
     "Cropping works on raw waveforms"
     waveform = torch.rand(1, 16000 * 2)
-    loader = Audio()
+    loader = Audio(mono="downmix")
     segment = Segment(0.2, 0.7)
     wav, sr = loader.crop({"waveform": waveform, "sample_rate": 16000}, segment)
     assert isinstance(wav, Tensor)
@@ -64,7 +64,7 @@ def test_can_crop_waveform():
 # File Like Object Tests
 def test_can_load_from_file_like():
     "Load entire wav of file like"
-    loader = Audio()
+    loader = Audio(mono="downmix")
 
     with open("tests/data/dev00.wav", "rb") as f:
         wav, sr = loader(f)
@@ -75,7 +75,7 @@ def test_can_load_from_file_like():
 
 def test_can_crop_from_file_like():
     "Load cropped sections from file like objects"
-    loader = Audio()
+    loader = Audio(mono="downmix")
 
     with open("tests/data/dev00.wav", "rb") as f:
         segment = Segment(0.2, 0.7)
diff --git a/tutorials/intro.ipynb b/tutorials/intro.ipynb
index 8d8bf2ffa..3793bfe09 100644
--- a/tutorials/intro.ipynb
+++ b/tutorials/intro.ipynb
@@ -232,7 +232,7 @@
       "source": [
         "from pyannote.audio import Audio \n",
         "from IPython.display import Audio as IPythonAudio\n",
-        "waveform, sr = Audio().crop(DEMO_FILE, EXCERPT)\n",
+        "waveform, sr = Audio(mono=\"downmix\").crop(DEMO_FILE, EXCERPT)\n",
         "IPythonAudio(waveform.flatten(), rate=sr)"
       ]
     },
@@ -321,7 +321,7 @@
         "notebook.reset()\n",
         "\n",
         "# load audio waveform and play it\n",
-        "waveform, sample_rate = Audio()(OWN_FILE)\n",
+        "waveform, sample_rate = Audio(mono=\"downmix\")(OWN_FILE)\n",
         "IPythonAudio(data=waveform.squeeze(), rate=sample_rate, autoplay=True)"
       ]
     },
diff --git a/tutorials/speaker_verification.ipynb b/tutorials/speaker_verification.ipynb
index 84382e6bd..0014bed93 100644
--- a/tutorials/speaker_verification.ipynb
+++ b/tutorials/speaker_verification.ipynb
@@ -1,6 +1,7 @@
 {
  "cells": [
   {
+   "attachments": {},
    "cell_type": "markdown",
    "metadata": {},
    "source": [
@@ -15,7 +16,7 @@
     "\n",
     "from pyannote.audio import Audio\n",
     "from pyannote.core import Segment\n",
-    "audio = Audio(sample_rate=16000, mono=True)\n",
+    "audio = Audio(sample_rate=16000, mono=\"downmix\")\n",
     "\n",
     "# extract embedding for a speaker speaking between t=3s and t=6s\n",
     "speaker1 = Segment(3., 6.)\n",

From 075514d7327d7e2440cb9992ba3db2153b2fb937 Mon Sep 17 00:00:00 2001
From: =?UTF-8?q?Herv=C3=A9=20BREDIN?= 
Date: Fri, 21 Apr 2023 15:19:36 +0200
Subject: [PATCH 067/112] doc: remove duplicated changelog file

---
 doc/source/changelog.rst | 98 ----------------------------------------
 doc/source/index.rst     |  3 --
 2 files changed, 101 deletions(-)
 delete mode 100644 doc/source/changelog.rst

diff --git a/doc/source/changelog.rst b/doc/source/changelog.rst
deleted file mode 100644
index 543449ff4..000000000
--- a/doc/source/changelog.rst
+++ /dev/null
@@ -1,98 +0,0 @@
-#########
-Changelog
-#########
-
-Version 2.2.x
-~~~~~~~~~~~~~
-
-  - feat(pipeline): (BREAKING) send pipeline to device with Pipeline.to(device)
-  - feat(pipeline): add progress hook to pipelines
-  - fix(pipeline): fix support for IOBase audio
-  - fix(pipeline): fix corner case with no speaker
-  - setup: add support for soundfile >= 0.11
-  - setup: add support for torchmetrics >= 0.11
-
-Version 2.1.1 (2022-10-27)
-~~~~~~~~~~~~~~~~~~~~~~~~~~
-
-  - BREAKING(pipeline): rewrite speaker diarization pipeline
-  - feat(pipeline): add option to optimize for DER variant
-  - feat(clustering): add support for NeMo speaker embedding
-  - feat(clustering): add FINCH clustering
-  - feat(clustering): add min_cluster_size hparams to AgglomerativeClustering
-  - feat(hub): add support for private/gated models
-  - setup(hub): switch to latest hugginface_hub API
-  - fix(pipeline): fix support for missing reference in Resegmentation pipeline
-  - fix(clustering) fix corner case where HMM.fit finds too little states
-
-Version 2.0.1 (2022-07-20)
-~~~~~~~~~~~~~~~~~~~~~~~~~~
-
-  - BREAKING: complete rewrite
-  - feat: much better performance
-  - feat: Python-first API
-  - feat: pretrained pipelines (and models) on Huggingface model hub
-  - feat: multi-GPU training with pytorch-lightning
-  - feat: data augmentation with torch-audiomentations
-  - feat: Prodigy recipe for model-assisted audio annotation
-
-Version 1.1.2 (2021-01-28)
-~~~~~~~~~~~~~~~~~~~~~~~~~~
-
-  - fix: make sure master branch is used to load pretrained models (#599)
-
-Version 1.1 (2020-11-08)
-~~~~~~~~~~~~~~~~~~~~~~~~
-
-  - last release before complete rewriting
-
-Version 1.0.1 (2018--07-19)
-~~~~~~~~~~~~~~~~~~~~~~~~~~~
-
-  - fix: fix regression in Precomputed.__call__ (#110, #105)
-
-Version 1.0 (2018-07-03)
-~~~~~~~~~~~~~~~~~~~~~~~~
-
-  - chore: switch from keras to pytorch (with tensorboard support)
-  - improve: faster & better traning (`AutoLR`, advanced learning rate schedulers, improved batch generators)
-  - feat: add tunable speaker diarization pipeline (with its own tutorial)
-  - chore: drop support for Python 2 (use Python 3.6 or later)
-
-Version 0.3.1 (2017-07-06)
-~~~~~~~~~~~~~~~~~~~~~~~~~~
-
-  - feat: add python 3 support
-  - chore: rewrite neural speaker embedding using autograd
-  - feat: add new embedding architectures
-  - feat: add new embedding losses
-  - chore: switch to Keras 2
-  - doc: add tutorial for (MFCC) feature extraction
-  - doc: add tutorial for (LSTM-based) speech activity detection
-  - doc: add tutorial for (LSTM-based) speaker change detection
-  - doc: add tutorial for (TristouNet) neural speaker embedding
-
-Version 0.2.1 (2017-03-28)
-~~~~~~~~~~~~~~~~~~~~~~~~~~
-
-  - feat: add LSTM-based speech activity detection
-  - feat: add LSTM-based speaker change detection
-  - improve: refactor LSTM-based speaker embedding
-  - feat: add librosa basic support
-  - feat: add SMORMS3 optimizer
-
-Version 0.1.4 (2016-09-26)
-~~~~~~~~~~~~~~~~~~~~~~~~~~
-
-  - feat: add 'covariance_type' option to BIC segmentation
-
-Version 0.1.3 (2016-09-23)
-~~~~~~~~~~~~~~~~~~~~~~~~~~
-
-  - chore: rename sequence generator in preparation of the release of
-    TristouNet reproducible research package.
-
-Version 0.1.2 (2016-09-22)
-~~~~~~~~~~~~~~~~~~~~~~~~~~
-
-  - first public version
diff --git a/doc/source/index.rst b/doc/source/index.rst
index fae1d7803..925a460ce 100644
--- a/doc/source/index.rst
+++ b/doc/source/index.rst
@@ -11,7 +11,6 @@ Installation
 
   $ conda create -n pyannote python=3.10
   $ conda activate pyannote
-  $ conda install pytorch torchvision torchaudio -c pytorch
   $ pip install pyannote.audio
 
 
@@ -20,5 +19,3 @@ API documentation
 
 .. toctree::
    :maxdepth: 2
-
-   changelog

From 444720b987b3dfee6ca12e795ffa06aba9d3526a Mon Sep 17 00:00:00 2001
From: =?UTF-8?q?Herv=C3=A9=20BREDIN?= 
Date: Fri, 21 Apr 2023 15:53:02 +0200
Subject: [PATCH 068/112] setup: switch to pyannote.database 5.0.1

---
 requirements.txt | 2 +-
 1 file changed, 1 insertion(+), 1 deletion(-)

diff --git a/requirements.txt b/requirements.txt
index 22e63c5c4..e4c72019f 100644
--- a/requirements.txt
+++ b/requirements.txt
@@ -4,7 +4,7 @@ huggingface_hub >= 0.13.0
 lightning >= 2.0.1
 omegaconf >=2.1,<3.0
 pyannote.core >= 5.0.0
-pyannote.database >= 5.0.0
+pyannote.database >= 5.0.1
 pyannote.metrics >= 3.2
 pyannote.pipeline >= 2.3   # 2.4
 pytorch_metric_learning >= 2.1.0

From 00e7a117bc46ebba70d66d25a88802af9eaf146a Mon Sep 17 00:00:00 2001
From: =?UTF-8?q?Herv=C3=A9=20BREDIN?= 
Date: Fri, 21 Apr 2023 17:31:12 +0200
Subject: [PATCH 069/112] feat(pipeline): check version compatibility at load
 time (#1340)

---
 CHANGELOG.md                    |  1 +
 pyannote/audio/core/model.py    | 34 +++++++--------------
 pyannote/audio/core/pipeline.py | 11 ++++++-
 pyannote/audio/utils/version.py | 52 +++++++++++++++++++++++++++++++++
 4 files changed, 73 insertions(+), 25 deletions(-)
 create mode 100644 pyannote/audio/utils/version.py

diff --git a/CHANGELOG.md b/CHANGELOG.md
index bf2603978..e6104c279 100644
--- a/CHANGELOG.md
+++ b/CHANGELOG.md
@@ -22,6 +22,7 @@
   - feat(pipeline): send pipeline to device with `pipeline.to(device)`
   - feat(task): add [powerset](https://arxiv.org/PLACEHOLDER) support to `SpeakerDiarization` task
   - feat(pipeline): add progress hook to pipelines
+  - feat(pipeline): check version compatibility at load time
   - feat(task): add support for label scope in speaker diarization task
   - feat(task): add support for missing classes in multi-label segmentation task
   - improve(task): load metadata as tensors rather than pyannote.core instances
diff --git a/pyannote/audio/core/model.py b/pyannote/audio/core/model.py
index 2054dc99b..11b9da93d 100644
--- a/pyannote/audio/core/model.py
+++ b/pyannote/audio/core/model.py
@@ -38,12 +38,12 @@
 from lightning_fabric.utilities.cloud_io import _load as pl_load
 from pyannote.core import SlidingWindow
 from pytorch_lightning.utilities.model_summary import ModelSummary
-from semver import VersionInfo
 from torch.utils.data import DataLoader
 
 from pyannote.audio import __version__
 from pyannote.audio.core.io import Audio
 from pyannote.audio.core.task import Problem, Resolution, Specifications, Task
+from pyannote.audio.utils.version import check_version
 
 CACHE_DIR = os.getenv(
     "PYANNOTE_CACHE",
@@ -412,41 +412,27 @@ def on_save_checkpoint(self, checkpoint):
             "specifications": self.specifications,
         }
 
-    @staticmethod
-    def check_version(library: Text, theirs: Text, mine: Text):
-
-        theirs = ".".join(theirs.split(".")[:3])
-        mine = ".".join(mine.split(".")[:3])
-
-        theirs = VersionInfo.parse(theirs)
-        mine = VersionInfo.parse(mine)
-        if theirs.major != mine.major:
-            warnings.warn(
-                f"Model was trained with {library} {theirs}, yours is {mine}. "
-                f"Bad things will probably happen unless you update {library} to {theirs.major}.x."
-            )
-        if theirs.minor > mine.minor:
-            warnings.warn(
-                f"Model was trained with {library} {theirs}, yours is {mine}. "
-                f"This should be OK but you might want to update {library}."
-            )
-
     def on_load_checkpoint(self, checkpoint: Dict[str, Any]):
 
-        self.check_version(
+        check_version(
             "pyannote.audio",
             checkpoint["pyannote.audio"]["versions"]["pyannote.audio"],
             __version__,
+            what="Model",
         )
 
-        self.check_version(
+        check_version(
             "torch",
             checkpoint["pyannote.audio"]["versions"]["torch"],
             torch.__version__,
+            what="Model",
         )
 
-        self.check_version(
-            "pytorch-lightning", checkpoint["pytorch-lightning_version"], pl.__version__
+        check_version(
+            "pytorch-lightning",
+            checkpoint["pytorch-lightning_version"],
+            pl.__version__,
+            what="Model",
         )
 
         self.specifications = checkpoint["pyannote.audio"]["specifications"]
diff --git a/pyannote/audio/core/pipeline.py b/pyannote/audio/core/pipeline.py
index 8ebd76c6a..fb404d107 100644
--- a/pyannote/audio/core/pipeline.py
+++ b/pyannote/audio/core/pipeline.py
@@ -40,6 +40,7 @@
 from pyannote.audio.core.inference import BaseInference
 from pyannote.audio.core.io import AudioFile
 from pyannote.audio.core.model import CACHE_DIR, Model
+from pyannote.audio.utils.version import check_version
 
 PIPELINE_PARAMS_NAME = "config.yaml"
 
@@ -119,6 +120,11 @@ def from_pretrained(
         with open(config_yml, "r") as fp:
             config = yaml.load(fp, Loader=yaml.SafeLoader)
 
+        if "version" in config:
+            check_version(
+                "pyannote.audio", config["version"], __version__, what="Pipeline"
+            )
+
         # initialize pipeline
         pipeline_name = config["pipeline"]["name"]
         Klass = get_class_by_name(
@@ -173,7 +179,10 @@ def from_pretrained(
         # send pipeline to specified device
         if "device" in config:
             device = torch.device(config["device"])
-            pipeline.to(device)
+            try:
+                pipeline.to(device)
+            except RuntimeError as e:
+                print(e)
 
         return pipeline
 
diff --git a/pyannote/audio/utils/version.py b/pyannote/audio/utils/version.py
new file mode 100644
index 000000000..17c51e583
--- /dev/null
+++ b/pyannote/audio/utils/version.py
@@ -0,0 +1,52 @@
+# MIT License
+#
+# Copyright (c) 2020- CNRS
+#
+# Permission is hereby granted, free of charge, to any person obtaining a copy
+# of this software and associated documentation files (the "Software"), to deal
+# in the Software without restriction, including without limitation the rights
+# to use, copy, modify, merge, publish, distribute, sublicense, and/or sell
+# copies of the Software, and to permit persons to whom the Software is
+# furnished to do so, subject to the following conditions:
+#
+# The above copyright notice and this permission notice shall be included in all
+# copies or substantial portions of the Software.
+#
+# THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
+# IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
+# FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE
+# AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
+# LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM,
+# OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE
+# SOFTWARE.
+
+from typing import Text
+
+from semver import VersionInfo
+
+
+def check_version(library: Text, theirs: Text, mine: Text, what: Text = "Pipeline"):
+
+    theirs = ".".join(theirs.split(".")[:3])
+    mine = ".".join(mine.split(".")[:3])
+
+    theirs = VersionInfo.parse(theirs)
+    mine = VersionInfo.parse(mine)
+
+    if theirs.major > mine.major:
+        print(
+            f"{what} was trained with {library} {theirs}, yours is {mine}. "
+            f"Bad things will probably happen unless you upgrade {library} to {theirs.major}.x."
+        )
+
+    elif theirs.major < mine.major:
+        print(
+            f"{what} was trained with {library} {theirs}, yours is {mine}. "
+            f"Bad things might happen unless you revert {library} to {theirs.major}.x."
+        )
+
+    elif theirs.minor > mine.minor:
+        print(
+            f"{what} was trained with {library} {theirs}, yours is {mine}. "
+            f"This should be OK but you might want to upgrade {library}."
+        )

From 95c533458016cd58db42ea4e7fe0ac378c829272 Mon Sep 17 00:00:00 2001
From: =?UTF-8?q?Herv=C3=A9=20BREDIN?= 
Date: Mon, 24 Apr 2023 14:47:33 +0200
Subject: [PATCH 070/112] feat: stop training on NaNs

---
 pyannote/audio/cli/train.py | 2 +-
 1 file changed, 1 insertion(+), 1 deletion(-)

diff --git a/pyannote/audio/cli/train.py b/pyannote/audio/cli/train.py
index d8155c1bd..4b2611d37 100644
--- a/pyannote/audio/cli/train.py
+++ b/pyannote/audio/cli/train.py
@@ -45,7 +45,6 @@
 
 @hydra.main(config_path="train_config", config_name="config")
 def train(cfg: DictConfig) -> Optional[float]:
-
     # make sure to set the random seed before the instantiation of Trainer
     # so that each model initializes with the same weights when using DDP.
     seed = int(os.environ.get("PL_GLOBAL_SEED", "0"))
@@ -130,6 +129,7 @@ def configure_optimizers(self):
             patience=100,
             strict=True,
             verbose=False,
+            check_finite=True,
         )
         callbacks.append(early_stopping)
 

From b35dd55bd2326fe05fbafab4f65a590d1427af98 Mon Sep 17 00:00:00 2001
From: =?UTF-8?q?Herv=C3=A9=20BREDIN?= 
Date: Mon, 24 Apr 2023 16:09:09 +0200
Subject: [PATCH 071/112] feat(cli): add support for AdamW

---
 pyannote/audio/cli/train_config/optimizer/AdamW.yaml | 7 +++++++
 1 file changed, 7 insertions(+)
 create mode 100644 pyannote/audio/cli/train_config/optimizer/AdamW.yaml

diff --git a/pyannote/audio/cli/train_config/optimizer/AdamW.yaml b/pyannote/audio/cli/train_config/optimizer/AdamW.yaml
new file mode 100644
index 000000000..f917fb4ed
--- /dev/null
+++ b/pyannote/audio/cli/train_config/optimizer/AdamW.yaml
@@ -0,0 +1,7 @@
+# @package _group_
+_target_: torch.optim.AdamW
+lr: 1e-3
+betas: [0.9, 0.999]
+eps: 1e-08
+weight_decay: 0.01
+amsgrad: False

From c0b82d037a56f0565fcc20d04f741d5baf0f5215 Mon Sep 17 00:00:00 2001
From: =?UTF-8?q?Herv=C3=A9=20BREDIN?= 
Date: Mon, 24 Apr 2023 16:25:28 +0200
Subject: [PATCH 072/112] fix(metric): avoid division by zero

---
 .../torchmetrics/audio/diarization_error_rate.py  | 15 ++++++---------
 .../functional/audio/diarization_error_rate.py    |  3 +--
 2 files changed, 7 insertions(+), 11 deletions(-)

diff --git a/pyannote/audio/torchmetrics/audio/diarization_error_rate.py b/pyannote/audio/torchmetrics/audio/diarization_error_rate.py
index 2f43f856f..70cdc052f 100644
--- a/pyannote/audio/torchmetrics/audio/diarization_error_rate.py
+++ b/pyannote/audio/torchmetrics/audio/diarization_error_rate.py
@@ -105,20 +105,17 @@ def compute(self):
 
 class SpeakerConfusionRate(DiarizationErrorRate):
     def compute(self):
-        # TODO: handler corner case where speech_total == 0
-        return self.speaker_confusion / self.speech_total
+        return self.speaker_confusion / (self.speech_total + 1e-8)
 
 
 class FalseAlarmRate(DiarizationErrorRate):
     def compute(self):
-        # TODO: handler corner case where speech_total == 0
-        return self.false_alarm / self.speech_total
+        return self.false_alarm / (self.speech_total + 1e-8)
 
 
 class MissedDetectionRate(DiarizationErrorRate):
     def compute(self):
-        # TODO: handler corner case where speech_total == 0
-        return self.missed_detection / self.speech_total
+        return self.missed_detection / (self.speech_total + 1e-8)
 
 
 class OptimalDiarizationErrorRate(Metric):
@@ -234,7 +231,7 @@ def compute(self):
             self.speech_total,
         )
         _, opt_threshold_idx = torch.min(der, dim=0)
-        return self.SpeakerConfusion[opt_threshold_idx] / self.speech_total
+        return self.SpeakerConfusion[opt_threshold_idx] / (self.speech_total + 1e-8)
 
 
 class OptimalFalseAlarmRate(OptimalDiarizationErrorRate):
@@ -246,7 +243,7 @@ def compute(self):
             self.speech_total,
         )
         _, opt_threshold_idx = torch.min(der, dim=0)
-        return self.FalseAlarm[opt_threshold_idx] / self.speech_total
+        return self.FalseAlarm[opt_threshold_idx] / (self.speech_total + 1e-8)
 
 
 class OptimalMissedDetectionRate(OptimalDiarizationErrorRate):
@@ -258,4 +255,4 @@ def compute(self):
             self.speech_total,
         )
         _, opt_threshold_idx = torch.min(der, dim=0)
-        return self.MissedDetection[opt_threshold_idx] / self.speech_total
+        return self.MissedDetection[opt_threshold_idx] / (self.speech_total + 1e-8)
diff --git a/pyannote/audio/torchmetrics/functional/audio/diarization_error_rate.py b/pyannote/audio/torchmetrics/functional/audio/diarization_error_rate.py
index ab1c248ed..9502a527e 100644
--- a/pyannote/audio/torchmetrics/functional/audio/diarization_error_rate.py
+++ b/pyannote/audio/torchmetrics/functional/audio/diarization_error_rate.py
@@ -124,8 +124,7 @@ def _der_compute(
         Diarization error rate.
     """
 
-    # TODO: handle corner case where speech_total == 0
-    return (false_alarm + missed_detection + speaker_confusion) / speech_total
+    return (false_alarm + missed_detection + speaker_confusion) / (speech_total + 1e-8)
 
 
 def diarization_error_rate(

From 11b56a137a578db9335efc00298f6ec1932e6317 Mon Sep 17 00:00:00 2001
From: Dmitry Mukhutdinov 
Date: Tue, 25 Apr 2023 11:10:59 +0100
Subject: [PATCH 073/112] fix: fix broken initialization of `Audio` (#1344)

---
 pyannote/audio/interactive/common/utils.py      | 2 +-
 pyannote/audio/pipelines/speaker_diarization.py | 2 +-
 2 files changed, 2 insertions(+), 2 deletions(-)

diff --git a/pyannote/audio/interactive/common/utils.py b/pyannote/audio/interactive/common/utils.py
index 32114ae3b..6f8fcb51f 100644
--- a/pyannote/audio/interactive/common/utils.py
+++ b/pyannote/audio/interactive/common/utils.py
@@ -35,7 +35,7 @@
 
 class AudioForProdigy(Audio):
     def __init__(self):
-        super().__init__(sample_rate=16000, mono=True)
+        super().__init__(sample_rate=16000, mono="downmix")
 
     def crop(self, path: Path, excerpt: Segment) -> Text:
         waveform, _ = super().crop(path, excerpt)
diff --git a/pyannote/audio/pipelines/speaker_diarization.py b/pyannote/audio/pipelines/speaker_diarization.py
index 246e9df7f..481aa970a 100644
--- a/pyannote/audio/pipelines/speaker_diarization.py
+++ b/pyannote/audio/pipelines/speaker_diarization.py
@@ -165,7 +165,7 @@ def __init__(
             self._embedding = PretrainedSpeakerEmbedding(
                 self.embedding, use_auth_token=use_auth_token
             )
-            self._audio = Audio(sample_rate=self._embedding.sample_rate, mono=True)
+            self._audio = Audio(sample_rate=self._embedding.sample_rate, mono="downmix")
             metric = self._embedding.metric
 
         try:

From 31143e0d44116362432a338034c5f167bcea9a85 Mon Sep 17 00:00:00 2001
From: =?UTF-8?q?Herv=C3=A9=20BREDIN?= 
Date: Wed, 10 May 2023 17:19:34 +0200
Subject: [PATCH 074/112] feat(pipeline): make batch sizes mutable (#1365)

* BREAKING(pipeline): default batch sizes to 1
* BREAKING(pipeline): remove `segmentation_duration` option
---
 CHANGELOG.md                                  |  2 +
 .../audio/pipelines/speaker_diarization.py    | 37 ++++++++-----------
 2 files changed, 18 insertions(+), 21 deletions(-)

diff --git a/CHANGELOG.md b/CHANGELOG.md
index e6104c279..7421b38fd 100644
--- a/CHANGELOG.md
+++ b/CHANGELOG.md
@@ -9,6 +9,7 @@
   - BREAKING(pipeline): pipeline defaults to CPU (use `pipeline.to(device)`)
   - BREAKING(pipeline): remove `SpeakerSegmentation` pipeline (use `SpeakerDiarization` pipeline)
   - BREAKING(pipeline): remove support `FINCHClustering` and `HiddenMarkovModelClustering`
+  - BREAKING(pipeline): remove `segmentation_duration` parameter from `SpeakerDiarization` pipeline (defaults to `duration` of segmentation model)
   - BREAKING(setup): drop support for Python 3.7
   - BREAKING(io): channels are now 0-indexed (used to be 1-indexed)
   - BREAKING(io): multi-channel audio is no longer downmixed to mono by default.
@@ -20,6 +21,7 @@
 ### Features and improvements
 
   - feat(pipeline): send pipeline to device with `pipeline.to(device)`
+  - feat(pipeline): make `segmentation_batch_size` and `embedding_batch_size` mutable in `SpeakerDiarization` pipeline (they now default to `1`)
   - feat(task): add [powerset](https://arxiv.org/PLACEHOLDER) support to `SpeakerDiarization` task
   - feat(pipeline): add progress hook to pipelines
   - feat(pipeline): check version compatibility at load time
diff --git a/pyannote/audio/pipelines/speaker_diarization.py b/pyannote/audio/pipelines/speaker_diarization.py
index 481aa970a..6bc81f28a 100644
--- a/pyannote/audio/pipelines/speaker_diarization.py
+++ b/pyannote/audio/pipelines/speaker_diarization.py
@@ -61,10 +61,6 @@ class SpeakerDiarization(SpeakerDiarizationMixin, Pipeline):
     segmentation : Model, str, or dict, optional
         Pretrained segmentation model. Defaults to "pyannote/segmentation@2022.07".
         See pyannote.audio.pipelines.utils.get_model for supported format.
-    segmentation_duration: float, optional
-        The segmentation model is applied on a window sliding over the whole audio file.
-        `segmentation_duration` controls the duration of this window. Defaults to the
-        duration used when training the model (model.specifications.duration).
     segmentation_step: float, optional
         The segmentation model is applied on a window sliding over the whole audio file.
         `segmentation_step` controls the step of this window, provided as a ratio of its
@@ -79,9 +75,9 @@ class SpeakerDiarization(SpeakerDiarizationMixin, Pipeline):
         Clustering algorithm. See pyannote.audio.pipelines.clustering.Clustering
         for available options. Defaults to "AgglomerativeClustering".
     segmentation_batch_size : int, optional
-        Batch size used for speaker segmentation. Defaults to 32.
+        Batch size used for speaker segmentation. Defaults to 1.
     embedding_batch_size : int, optional
-        Batch size used for speaker embedding. Defaults to 32.
+        Batch size used for speaker embedding. Defaults to 1.
     der_variant : dict, optional
         Optimize for a variant of diarization error rate.
         Defaults to {"collar": 0.0, "skip_overlap": False}. This is used in `get_metric`
@@ -108,26 +104,20 @@ class SpeakerDiarization(SpeakerDiarizationMixin, Pipeline):
     def __init__(
         self,
         segmentation: PipelineModel = "pyannote/segmentation@2022.07",
-        segmentation_duration: float = None,
         segmentation_step: float = 0.1,
         embedding: PipelineModel = "speechbrain/spkrec-ecapa-voxceleb@5c0be3875fda05e81f3c004ed8c7c06be308de1e",
         embedding_exclude_overlap: bool = False,
         clustering: str = "AgglomerativeClustering",
-        embedding_batch_size: int = 32,
-        segmentation_batch_size: int = 32,
+        embedding_batch_size: int = 1,
+        segmentation_batch_size: int = 1,
         der_variant: dict = None,
         use_auth_token: Union[Text, None] = None,
     ):
-
         super().__init__()
 
         self.segmentation_model = segmentation
         model: Model = get_model(segmentation, use_auth_token=use_auth_token)
 
-        self.segmentation_batch_size = segmentation_batch_size
-        self.segmentation_duration = (
-            segmentation_duration or model.specifications.duration
-        )
         self.segmentation_step = segmentation_step
 
         self.embedding = embedding
@@ -138,12 +128,13 @@ def __init__(
 
         self.der_variant = der_variant or {"collar": 0.0, "skip_overlap": False}
 
+        segmentation_duration = model.specifications.duration
         self._segmentation = Inference(
             model,
-            duration=self.segmentation_duration,
-            step=self.segmentation_step * self.segmentation_duration,
+            duration=segmentation_duration,
+            step=self.segmentation_step * segmentation_duration,
             skip_aggregation=True,
-            batch_size=self.segmentation_batch_size,
+            batch_size=segmentation_batch_size,
         )
         self._frames: SlidingWindow = self._segmentation.model.introspection.frames
 
@@ -176,6 +167,14 @@ def __init__(
             )
         self.clustering = Klustering.value(metric=metric)
 
+    @property
+    def segmentation_batch_size(self) -> int:
+        return self._segmentation.batch_size
+
+    @segmentation_batch_size.setter
+    def segmentation_batch_size(self, batch_size: int):
+        self._segmentation.batch_size = batch_size
+
     def default_parameters(self):
         raise NotImplementedError()
 
@@ -246,7 +245,6 @@ def get_embeddings(
         # bringing a massive speed up to the optimization process (and hence allowing to use
         # a larger search space).
         if self.training:
-
             # we only re-use embeddings if they were extracted based on the same value of the
             # "segmentation.threshold" hyperparameter or if the segmentation model relies on
             # `powerset` mode
@@ -351,7 +349,6 @@ def iter_waveform_and_mask():
         # caching embeddings for subsequent trials
         # (see comments at the top of this method for more details)
         if self.training:
-
             if self._segmentation.model.specifications.powerset:
                 file["training_cache/embeddings"] = {
                     "embeddings": embeddings,
@@ -397,7 +394,6 @@ def reconstruct(
         for c, (cluster, (chunk, segmentation)) in enumerate(
             zip(hard_clusters, segmentations)
         ):
-
             # cluster is (local_num_speakers, )-shaped
             # segmentation is (num_frames, local_num_speakers)-shaped
             for k in np.unique(cluster):
@@ -492,7 +488,6 @@ def apply(
         if self.klustering == "OracleClustering":
             embeddings = None
         else:
-
             embeddings = self.get_embeddings(
                 file,
                 binarized_segmentations,

From a58153662b9a11485681c2a259d36e75d7243f2b Mon Sep 17 00:00:00 2001
From: =?UTF-8?q?Herv=C3=A9=20BREDIN?= 
Date: Mon, 15 May 2023 09:37:49 +0200
Subject: [PATCH 075/112] improve: improve error message on missing
 specifications (#1371)

---
 CHANGELOG.md                 |  1 +
 pyannote/audio/core/model.py | 33 +++++++++++++++++++++++++++++----
 pyannote/audio/core/task.py  |  4 ++++
 3 files changed, 34 insertions(+), 4 deletions(-)

diff --git a/CHANGELOG.md b/CHANGELOG.md
index 7421b38fd..cf525f958 100644
--- a/CHANGELOG.md
+++ b/CHANGELOG.md
@@ -28,6 +28,7 @@
   - feat(task): add support for label scope in speaker diarization task
   - feat(task): add support for missing classes in multi-label segmentation task
   - improve(task): load metadata as tensors rather than pyannote.core instances
+  - improve(task): improve error message on missing specifications
 
 ### Fixes and improvements
 
diff --git a/pyannote/audio/core/model.py b/pyannote/audio/core/model.py
index 11b9da93d..18b301086 100644
--- a/pyannote/audio/core/model.py
+++ b/pyannote/audio/core/model.py
@@ -42,7 +42,13 @@
 
 from pyannote.audio import __version__
 from pyannote.audio.core.io import Audio
-from pyannote.audio.core.task import Problem, Resolution, Specifications, Task
+from pyannote.audio.core.task import (
+    Problem,
+    Resolution,
+    Specifications,
+    Task,
+    UnknownSpecificationsError,
+)
 from pyannote.audio.utils.version import check_version
 
 CACHE_DIR = os.getenv(
@@ -300,9 +306,28 @@ def task(self, task):
 
     @property
     def specifications(self):
-        if self.task is not None:
-            return self.task.specifications
-        return self._specifications
+        if self.task is None:
+            try:
+                specifications = self._specifications
+
+            except AttributeError as e:
+                raise UnknownSpecificationsError(
+                    "Model specifications are not available because it has not been assigned a task yet. "
+                    "Use `model.task = ...` to assign a task to the model."
+                ) from e
+
+        else:
+            try:
+                specifications = self.task.specifications
+
+            except AttributeError as e:
+                raise UnknownSpecificationsError(
+                    "Task specifications are not available. This is most likely because they depend on "
+                    "the content of the training subset. Use `model.task.setup()` to go over the training "
+                    "subset and fix this, or let lightning trainer do that for you in `trainer.fit(model)`."
+                ) from e
+
+        return specifications
 
     @specifications.setter
     def specifications(self, specifications):
diff --git a/pyannote/audio/core/task.py b/pyannote/audio/core/task.py
index 95cca1dee..a46308f88 100644
--- a/pyannote/audio/core/task.py
+++ b/pyannote/audio/core/task.py
@@ -63,6 +63,10 @@ class Resolution(Enum):
     CHUNK = 2  # model outputs just one vector for the whole chunk
 
 
+class UnknownSpecificationsError(Exception):
+    pass
+
+
 @dataclass
 class Specifications:
     problem: Problem

From 8d25c45d2d181879a8f1f656c9230ea039922f44 Mon Sep 17 00:00:00 2001
From: =?UTF-8?q?Herv=C3=A9=20BREDIN?= 
Date: Mon, 15 May 2023 10:46:03 +0200
Subject: [PATCH 076/112] wip: improve support for fixed duration tasks

---
 pyannote/audio/core/model.py                  | 77 ++++++++++++++-----
 pyannote/audio/core/task.py                   | 10 +--
 pyannote/audio/tasks/embedding/mixins.py      | 15 +---
 .../audio/tasks/segmentation/multilabel.py    |  5 +-
 .../overlapped_speech_detection.py            |  2 +-
 .../tasks/segmentation/speaker_diarization.py | 12 +--
 .../segmentation/voice_activity_detection.py  |  2 +-
 7 files changed, 70 insertions(+), 53 deletions(-)

diff --git a/pyannote/audio/core/model.py b/pyannote/audio/core/model.py
index 18b301086..da5c79fe8 100644
--- a/pyannote/audio/core/model.py
+++ b/pyannote/audio/core/model.py
@@ -65,13 +65,17 @@ class Introspection:
     Parameters
     ----------
     min_num_samples: int
-        Minimum number of input samples
+        For fixed-duration models, expected number of input samples.
+        For variable-duration models, minimum number of input samples supported by
+        the model (i.e. model fails for smaller number of samples).
     min_num_frames: int
-        Corresponding minimum number of output frames
+        Corresponding number of output frames.
     inc_num_samples: int
-        Number of input samples leading to an increase of number of output frames
+        Number of input samples leading to an increase of number of output frames.
+        Has no meaning for fixed-duration models (set to 0).
     inc_num_frames: int
         Corresponding increase in number of output frames
+        Has no meaning for fixed-duration models (set to 0).
     dimension: int
         Output dimension
     sample_rate: int
@@ -103,12 +107,46 @@ def __init__(
         self.sample_rate = sample_rate
 
     @classmethod
-    def from_model(cls, model: "Model", task: str = None) -> Introspection:
+    def from_model(cls, model: "Model") -> Introspection:
+        """
+
+        Parameters
+        ----------
+        model : Model
+        """
 
         specifications = model.specifications
-        if task is not None:
-            specifications = specifications[task]
+        duration = specifications.duration
+        min_duration = specifications.min_duration or duration
+
+        # case 1: the model expects a fixed-duration chunk
+        if min_duration == duration:
+            num_samples = model.audio.get_num_samples(specifications.duration)
+            frames = model(model.example_input_array)
+            if specifications.resolution == Resolution.FRAME:
+                _, num_frames, dimension = frames.shape
+                return cls(
+                    min_num_samples=num_samples,
+                    min_num_frames=num_frames,
+                    inc_num_samples=0,
+                    inc_num_frames=0,
+                    dimension=dimension,
+                    sample_rate=model.hparams.sample_rate,
+                )
 
+            elif specifications.resolution == Resolution.CHUNK:
+                _, dimension = frames.shape
+                return cls(
+                    min_num_samples=num_samples,
+                    min_num_frames=1,
+                    inc_num_samples=0,
+                    inc_num_frames=0,
+                    dimension=dimension,
+                    sample_rate=model.hparams.sample_rate,
+                )
+
+        # case 2: the model supports variable-duration chunks
+        # we use dichotomic search to find the minimum number of samples
         example_input_array = model.example_input_array
         batch_size, num_channels, num_samples = example_input_array.shape
         example_input_array = torch.randn(
@@ -126,8 +164,6 @@ def from_model(cls, model: "Model", task: str = None) -> Introspection:
             try:
                 with torch.no_grad():
                     frames = model(example_input_array[:, :, :num_samples])
-                if task is not None:
-                    frames = frames[task]
             except Exception:
                 lower = num_samples
             else:
@@ -175,8 +211,6 @@ def from_model(cls, model: "Model", task: str = None) -> Introspection:
             )
             with torch.no_grad():
                 frames = model(example_input_array)
-            if task is not None:
-                frames = frames[task]
             num_frames = frames.shape[1]
             if num_frames > min_num_frames:
                 break
@@ -194,8 +228,6 @@ def from_model(cls, model: "Model", task: str = None) -> Introspection:
             )
             with torch.no_grad():
                 frames = model(example_input_array)
-            if task is not None:
-                frames = frames[task]
             num_frames = frames.shape[1]
             if num_frames > min_num_frames:
                 inc_num_frames = num_frames - min_num_frames
@@ -232,6 +264,13 @@ def __call__(self, num_samples: int) -> Tuple[int, int]:
             Dimension of output frames
         """
 
+        # case 1: the model expects a fixed-duration chunk
+        if self.inc_num_frames == 0:
+            assert num_samples == self.min_num_samples
+            return self.min_num_frames, self.dimension
+
+        # case 2: the model supports variable-duration chunks
+
         if num_samples < self.min_num_samples:
             return 0, self.dimension
 
@@ -246,7 +285,14 @@ def __call__(self, num_samples: int) -> Tuple[int, int]:
     def frames(self) -> SlidingWindow:
         # HACK to support model trained before 'sample_rate' was an Introspection attribute
         sample_rate = getattr(self, "sample_rate", 16000)
-        step = (self.inc_num_samples / self.inc_num_frames) / sample_rate
+
+        if self.inc_num_frames == 0:
+            step = (self.min_num_samples / self.min_num_frames) / sample_rate
+        else:
+            # FIXME: this is not 100% accurate, but it's good enough for now
+            # FIXME: it should probably be estimated from the maximum duration
+            step = (self.inc_num_samples / self.inc_num_frames) / sample_rate
+
         return SlidingWindow(start=0.0, step=step, duration=step)
 
 
@@ -368,7 +414,6 @@ def introspection(self):
             del self._introspection
 
     def setup(self, stage=None):
-
         if stage == "fit":
             self.task.setup()
 
@@ -421,7 +466,6 @@ def setup(self, stage=None):
         self.task_dependent = list(name for name, _ in after - before)
 
     def on_save_checkpoint(self, checkpoint):
-
         # put everything pyannote.audio-specific under pyannote.audio
         # to avoid any future conflicts with pytorch-lightning updates
         checkpoint["pyannote.audio"] = {
@@ -438,7 +482,6 @@ def on_save_checkpoint(self, checkpoint):
         }
 
     def on_load_checkpoint(self, checkpoint: Dict[str, Any]):
-
         check_version(
             "pyannote.audio",
             checkpoint["pyannote.audio"]["versions"]["pyannote.audio"],
@@ -636,7 +679,6 @@ def _helper_by_name(
             modules = [modules]
 
         for name, module in ModelSummary(self, max_depth=-1).named_modules:
-
             if name not in modules:
                 continue
 
@@ -826,7 +868,6 @@ def from_pretrained(
             # HACK do not use it. Fails silently in case model does not
             # HACK have a config.yaml file.
             try:
-
                 _ = hf_hub_download(
                     model_id,
                     HF_LIGHTNING_CONFIG_NAME,
diff --git a/pyannote/audio/core/task.py b/pyannote/audio/core/task.py
index a46308f88..d02e643b4 100644
--- a/pyannote/audio/core/task.py
+++ b/pyannote/audio/core/task.py
@@ -72,9 +72,11 @@ class Specifications:
     problem: Problem
     resolution: Resolution
 
-    # chunk duration in seconds.
-    # use None for variable-length chunks
-    duration: Optional[float] = None
+    # (maximum) chunk duration in seconds
+    duration: float
+
+    # (for variable-duration tasks only) minimum chunk duration in seconds
+    min_duration: Optional[float] = None
 
     # use that many seconds on the left- and rightmost parts of each chunk
     # to warm up the model. This is mostly useful for segmentation tasks.
@@ -96,7 +98,6 @@ class Specifications:
 
     @cached_property
     def powerset(self):
-
         if self.powerset_max_classes is None:
             return False
 
@@ -302,7 +303,6 @@ def train_dataloader(self) -> DataLoader:
 
     @cached_property
     def logging_prefix(self):
-
         prefix = f"{self.__class__.__name__}-"
         if hasattr(self.protocol, "name"):
             # "." has a special meaning for pytorch-lightning checkpointing
diff --git a/pyannote/audio/tasks/embedding/mixins.py b/pyannote/audio/tasks/embedding/mixins.py
index 00aa7e608..b02ae7f71 100644
--- a/pyannote/audio/tasks/embedding/mixins.py
+++ b/pyannote/audio/tasks/embedding/mixins.py
@@ -76,7 +76,6 @@ def batch_size(self, batch_size: int):
         self.batch_size_ = batch_size
 
     def setup(self, stage: Optional[str] = None):
-
         # loop over the training set, remove annotated regions shorter than
         # chunk duration, and keep track of the reference annotations, per class.
 
@@ -87,9 +86,7 @@ def setup(self, stage: Optional[str] = None):
 
         desc = f"Loading {self.protocol.name} training labels"
         for f in tqdm(iterable=self.protocol.train(), desc=desc, unit="file"):
-
             for klass in f["annotation"].labels():
-
                 # keep class's (long enough) speech turns...
                 speech_turns = [
                     segment
@@ -121,6 +118,7 @@ def setup(self, stage: Optional[str] = None):
             problem=Problem.REPRESENTATION,
             resolution=Resolution.CHUNK,
             duration=self.duration,
+            min_duration=self.min_duration,
             classes=sorted(self._train),
         )
 
@@ -133,7 +131,6 @@ def setup(self, stage: Optional[str] = None):
     def default_metric(
         self,
     ) -> Union[Metric, Sequence[Metric], Dict[str, Metric]]:
-
         return [
             EqualErrorRate(compute_on_cpu=True, distances=False),
             BinaryAUROC(compute_on_cpu=True),
@@ -155,11 +152,11 @@ def train__iter__(self):
 
         classes = list(self.specifications.classes)
 
+        # select batch-wise duration at random
         batch_duration = rng.uniform(self.min_duration, self.duration)
         num_samples = 0
 
         while True:
-
             # shuffle classes so that we don't always have the same
             # groups of classes in a batch (which might be especially
             # problematic for contrast-based losses like contrastive
@@ -167,13 +164,11 @@ def train__iter__(self):
             rng.shuffle(classes)
 
             for klass in classes:
-
                 # class index in original sorted order
                 y = self.specifications.classes.index(klass)
 
                 # multiple chunks per class
                 for _ in range(self.num_chunks_per_class):
-
                     # select one file at random (with probability proportional to its class duration)
                     file, *_ = rng.choices(
                         self._train[klass],
@@ -227,7 +222,6 @@ def train__len__(self):
         return max(self.batch_size, math.ceil(duration / avg_chunk_duration))
 
     def collate_fn(self, batch, stage="train"):
-
         collated = default_collate(batch)
 
         if stage == "train":
@@ -241,7 +235,6 @@ def collate_fn(self, batch, stage="train"):
         return collated
 
     def training_step(self, batch, batch_idx: int):
-
         X, y = batch["X"], batch["y"]
         loss = self.model.loss_func(self.model(X), y)
 
@@ -261,7 +254,6 @@ def training_step(self, batch, batch_idx: int):
         return {"loss": loss}
 
     def val__getitem__(self, idx):
-
         if isinstance(self.protocol, SpeakerVerificationProtocol):
             trial = self._validation[idx]
 
@@ -291,7 +283,6 @@ def val__getitem__(self, idx):
             pass
 
     def val__len__(self):
-
         if isinstance(self.protocol, SpeakerVerificationProtocol):
             return len(self._validation)
 
@@ -299,9 +290,7 @@ def val__len__(self):
             return 0
 
     def validation_step(self, batch, batch_idx: int):
-
         if isinstance(self.protocol, SpeakerVerificationProtocol):
-
             with torch.no_grad():
                 emb1 = self.model(batch["X1"]).detach()
                 emb2 = self.model(batch["X2"]).detach()
diff --git a/pyannote/audio/tasks/segmentation/multilabel.py b/pyannote/audio/tasks/segmentation/multilabel.py
index 19270e26f..f27303e2a 100644
--- a/pyannote/audio/tasks/segmentation/multilabel.py
+++ b/pyannote/audio/tasks/segmentation/multilabel.py
@@ -95,7 +95,6 @@ def __init__(
         augmentation: BaseWaveformTransform = None,
         metric: Union[Metric, Sequence[Metric], Dict[str, Metric]] = None,
     ):
-
         if not isinstance(protocol, SegmentationProtocol):
             raise ValueError(
                 f"MultiLabelSegmentation task expects a SegmentationProtocol but you gave {type(protocol)}. "
@@ -121,7 +120,6 @@ def __init__(
         # specifications to setup()
 
     def setup(self, stage: Optional[str] = None):
-
         super().setup(stage=stage)
 
         self.specifications = Specifications(
@@ -129,6 +127,7 @@ def setup(self, stage: Optional[str] = None):
             problem=Problem.MULTI_LABEL_CLASSIFICATION,
             resolution=Resolution.FRAME,
             duration=self.duration,
+            min_duration=self.min_duration,
             warm_up=self.warm_up,
         )
 
@@ -208,7 +207,6 @@ def prepare_chunk(self, file_id: int, start_time: float, duration: float):
         return sample
 
     def training_step(self, batch, batch_idx: int):
-
         X = batch["X"]
         y_pred = self.model(X)
         y_true = batch["y"]
@@ -238,7 +236,6 @@ def training_step(self, batch, batch_idx: int):
         return {"loss": loss}
 
     def validation_step(self, batch, batch_idx: int):
-
         X = batch["X"]
         y_pred = self.model(X)
         y_true = batch["y"]
diff --git a/pyannote/audio/tasks/segmentation/overlapped_speech_detection.py b/pyannote/audio/tasks/segmentation/overlapped_speech_detection.py
index 658c350a7..8e6551447 100644
--- a/pyannote/audio/tasks/segmentation/overlapped_speech_detection.py
+++ b/pyannote/audio/tasks/segmentation/overlapped_speech_detection.py
@@ -106,7 +106,6 @@ def __init__(
         augmentation: BaseWaveformTransform = None,
         metric: Union[Metric, Sequence[Metric], Dict[str, Metric]] = None,
     ):
-
         super().__init__(
             protocol,
             duration=duration,
@@ -122,6 +121,7 @@ def __init__(
             problem=Problem.BINARY_CLASSIFICATION,
             resolution=Resolution.FRAME,
             duration=self.duration,
+            min_duration=self.min_duration,
             warm_up=self.warm_up,
             classes=[
                 "overlap",
diff --git a/pyannote/audio/tasks/segmentation/speaker_diarization.py b/pyannote/audio/tasks/segmentation/speaker_diarization.py
index 21f4416cc..3ef0b1a17 100644
--- a/pyannote/audio/tasks/segmentation/speaker_diarization.py
+++ b/pyannote/audio/tasks/segmentation/speaker_diarization.py
@@ -143,7 +143,6 @@ def __init__(
         max_num_speakers: int = None,  # deprecated in favor of `max_speakers_per_chunk``
         loss: Literal["bce", "mse"] = None,  # deprecated
     ):
-
         super().__init__(
             protocol,
             duration=duration,
@@ -188,12 +187,10 @@ def __init__(
         self.vad_loss = vad_loss
 
     def setup(self, stage: Optional[str] = None):
-
         super().setup(stage=stage)
 
         # estimate maximum number of speakers per chunk when not provided
         if self.max_speakers_per_chunk is None:
-
             training = self.metadata["subset"] == Subsets.index("train")
 
             num_unique_speakers = []
@@ -201,7 +198,6 @@ def setup(self, stage: Optional[str] = None):
             for file_id in track(
                 np.where(training)[0], description=progress_description
             ):
-
                 annotations = self.annotations[
                     np.where(self.annotations["file_id"] == file_id)[0]
                 ]
@@ -280,6 +276,7 @@ def setup(self, stage: Optional[str] = None):
             else Problem.MONO_LABEL_CLASSIFICATION,
             resolution=Resolution.FRAME,
             duration=self.duration,
+            min_duration=self.min_duration,
             warm_up=self.warm_up,
             classes=[f"speaker#{i+1}" for i in range(self.max_speakers_per_chunk)],
             powerset_max_classes=self.max_speakers_per_frame,
@@ -448,7 +445,6 @@ def segmentation_loss(
         """
 
         if self.specifications.powerset:
-
             # `clamp_min` is needed to set non-speech weight to 1.
             class_weight = (
                 torch.clamp_min(self.model.powerset.cardinality, 1.0)
@@ -569,7 +565,6 @@ def training_step(self, batch, batch_idx: int):
         weight[:, num_frames - warm_up_right :] = 0.0
 
         if self.specifications.powerset:
-
             powerset = torch.nn.functional.one_hot(
                 torch.argmax(prediction, dim=-1),
                 self.model.powerset.num_powerset_classes,
@@ -602,7 +597,6 @@ def training_step(self, batch, batch_idx: int):
             vad_loss = 0.0
 
         else:
-
             # TODO: vad_loss probably does not make sense in powerset mode
             # because first class (empty set of labels) does exactly this...
             if self.specifications.powerset:
@@ -704,7 +698,6 @@ def validation_step(self, batch, batch_idx: int):
         weight[:, num_frames - warm_up_right :] = 0.0
 
         if self.specifications.powerset:
-
             powerset = torch.nn.functional.one_hot(
                 torch.argmax(prediction, dim=-1),
                 self.model.powerset.num_powerset_classes,
@@ -740,7 +733,6 @@ def validation_step(self, batch, batch_idx: int):
             vad_loss = 0.0
 
         else:
-
             # TODO: vad_loss probably does not make sense in powerset mode
             # because first class (empty set of labels) does exactly this...
             if self.specifications.powerset:
@@ -833,7 +825,6 @@ def validation_step(self, batch, batch_idx: int):
 
         # plot each sample
         for sample_idx in range(num_samples):
-
             # find where in the grid it should be plotted
             row_idx = sample_idx // nrows
             col_idx = sample_idx % ncols
@@ -893,7 +884,6 @@ def main(protocol: str, subset: str = "test", model: str = "pyannote/segmentatio
     files = list(getattr(protocol, subset)())
 
     with Progress() as progress:
-
         main_task = progress.add_task(protocol.name, total=len(files))
         file_task = progress.add_task("Processing", total=1.0)
 
diff --git a/pyannote/audio/tasks/segmentation/voice_activity_detection.py b/pyannote/audio/tasks/segmentation/voice_activity_detection.py
index 559ff24eb..4851b7455 100644
--- a/pyannote/audio/tasks/segmentation/voice_activity_detection.py
+++ b/pyannote/audio/tasks/segmentation/voice_activity_detection.py
@@ -89,7 +89,6 @@ def __init__(
         augmentation: BaseWaveformTransform = None,
         metric: Union[Metric, Sequence[Metric], Dict[str, Metric]] = None,
     ):
-
         super().__init__(
             protocol,
             duration=duration,
@@ -108,6 +107,7 @@ def __init__(
             problem=Problem.BINARY_CLASSIFICATION,
             resolution=Resolution.FRAME,
             duration=self.duration,
+            min_duration=self.min_duration,
             warm_up=self.warm_up,
             classes=[
                 "speech",

From 840f0efb062fadd600e0d44b59e66954851cf419 Mon Sep 17 00:00:00 2001
From: =?UTF-8?q?Herv=C3=A9=20BREDIN?= 
Date: Mon, 15 May 2023 11:37:46 +0200
Subject: [PATCH 077/112] fix: add missing get_num_samples

---
 pyannote/audio/core/io.py | 18 ++++++++++++------
 1 file changed, 12 insertions(+), 6 deletions(-)

diff --git a/pyannote/audio/core/io.py b/pyannote/audio/core/io.py
index b2e8842b1..0a44e75ea 100644
--- a/pyannote/audio/core/io.py
+++ b/pyannote/audio/core/io.py
@@ -150,7 +150,6 @@ def validate_file(file: AudioFile) -> Mapping:
             raise ValueError(AudioFileDocString)
 
         if "waveform" in file:
-
             waveform: Union[np.ndarray, Tensor] = file["waveform"]
             if len(waveform.shape) != 2 or waveform.shape[0] > waveform.shape[1]:
                 raise ValueError(
@@ -166,7 +165,6 @@ def validate_file(file: AudioFile) -> Mapping:
             file.setdefault("uri", "waveform")
 
         elif "audio" in file:
-
             if isinstance(file["audio"], IOBase):
                 return file
 
@@ -177,7 +175,6 @@ def validate_file(file: AudioFile) -> Mapping:
             file.setdefault("uri", path.stem)
 
         else:
-
             raise ValueError(
                 "Neither 'waveform' nor 'audio' is available for this file."
             )
@@ -185,7 +182,6 @@ def validate_file(file: AudioFile) -> Mapping:
         return file
 
     def __init__(self, sample_rate=None, mono=None):
-
         super().__init__()
         self.sample_rate = sample_rate
         self.mono = mono
@@ -257,6 +253,18 @@ def get_duration(self, file: AudioFile) -> float:
 
         return frames / sample_rate
 
+    def get_num_samples(self, duration: float, sample_rate: int = None) -> int:
+        """Deterministic number of samples from duration and sample rate"""
+
+        sample_rate = sample_rate or self.sample_rate
+
+        if sample_rate is None:
+            raise ValueError(
+                "`sample_rate` must be provided to compute number of samples."
+            )
+
+        return math.floor(duration * sample_rate)
+
     def __call__(self, file: AudioFile) -> Tuple[Tensor, int]:
         """Obtain waveform
 
@@ -359,7 +367,6 @@ def crop(
             num_frames = end_frame - start_frame
 
         if mode == "raise":
-
             if num_frames > frames:
                 raise ValueError(
                     f"requested fixed duration ({duration:6f}s, or {num_frames:d} frames) is longer "
@@ -400,7 +407,6 @@ def crop(
                 if isinstance(file["audio"], IOBase):
                     file["audio"].seek(0)
             except RuntimeError:
-
                 if isinstance(file["audio"], IOBase):
                     msg = "torchaudio failed to seek-and-read in file-like object."
                     raise RuntimeError(msg)

From 7272caf888c1777f15999905727eb74533327792 Mon Sep 17 00:00:00 2001
From: =?UTF-8?q?Herv=C3=A9=20BREDIN?= 
Date: Mon, 15 May 2023 13:27:27 +0200
Subject: [PATCH 078/112] fix: make window_size consistent with training
 duration

---
 pyannote/audio/core/inference.py | 9 +--------
 1 file changed, 1 insertion(+), 8 deletions(-)

diff --git a/pyannote/audio/core/inference.py b/pyannote/audio/core/inference.py
index 9243babc1..998a3df67 100644
--- a/pyannote/audio/core/inference.py
+++ b/pyannote/audio/core/inference.py
@@ -93,7 +93,6 @@ def __init__(
         batch_size: int = 32,
         use_auth_token: Union[Text, None] = None,
     ):
-
         self.model = (
             model
             if isinstance(model, Model)
@@ -240,7 +239,7 @@ def slide(
             and (num_frames, dimension) for frame-level tasks.
         """
 
-        window_size: int = round(self.duration * sample_rate)
+        window_size: int = self.model.audio.get_num_samples(self.duration)
         step_size: int = round(self.step * sample_rate)
         _, num_samples = waveform.shape
 
@@ -284,7 +283,6 @@ def slide(
 
         # process orphan last chunk
         if has_last_chunk:
-
             last_output = self.infer(last_chunk[None])
 
             if specifications.resolution == Resolution.FRAME:
@@ -409,7 +407,6 @@ def crop(
         """
 
         if self.window == "sliding":
-
             if not isinstance(chunk, Segment):
                 start = min(c.start for c in chunk)
                 end = max(c.end for c in chunk)
@@ -427,7 +424,6 @@ def crop(
             return SlidingWindowFeature(output.data, shifted_frames)
 
         elif self.window == "whole":
-
             if isinstance(chunk, Segment):
                 waveform, sample_rate = self.model.audio.crop(
                     file, chunk, duration=duration
@@ -685,7 +681,6 @@ def always_match(this: np.ndarray, that: np.ndarray, cost: float):
 
         stitches = []
         for C, (chunk, activation) in enumerate(activations):
-
             local_stitch = np.NAN * np.zeros(
                 (sum(lookahead) + 1, num_frames, num_classes)
             )
@@ -693,7 +688,6 @@ def always_match(this: np.ndarray, that: np.ndarray, cost: float):
             for c in range(
                 max(0, C - lookahead[0]), min(num_chunks, C + lookahead[1] + 1)
             ):
-
                 # extract common temporal support
                 shift = round((C - c) * num_frames * chunks.step / chunks.duration)
 
@@ -714,7 +708,6 @@ def always_match(this: np.ndarray, that: np.ndarray, cost: float):
                 )
 
                 for this, that in enumerate(permutation):
-
                     # only stitch under certain condiditions
                     matching = (c == C) or (
                         match_func(

From 5a0d1bb253f3afa363107534278a3b2b6cddc69d Mon Sep 17 00:00:00 2001
From: =?UTF-8?q?Herv=C3=A9=20BREDIN?= 
Date: Mon, 15 May 2023 14:23:28 +0200
Subject: [PATCH 079/112] BREAKING: pad last audio chunk with zeros

---
 pyannote/audio/core/inference.py | 19 +++++++++++--------
 1 file changed, 11 insertions(+), 8 deletions(-)

diff --git a/pyannote/audio/core/inference.py b/pyannote/audio/core/inference.py
index 998a3df67..692cf3814 100644
--- a/pyannote/audio/core/inference.py
+++ b/pyannote/audio/core/inference.py
@@ -27,6 +27,7 @@
 
 import numpy as np
 import torch
+import torch.nn.functional as F
 from einops import rearrange
 from pyannote.core import Segment, SlidingWindow, SlidingWindowFeature
 from pytorch_lightning.utilities.memory import is_oom_error
@@ -246,11 +247,12 @@ def slide(
         specifications = self.model.specifications
         resolution = specifications.resolution
         introspection = self.model.introspection
+
         if resolution == Resolution.CHUNK:
             frames = SlidingWindow(start=0.0, duration=self.duration, step=self.step)
+
         elif resolution == Resolution.FRAME:
             frames = introspection.frames
-            num_frames_per_chunk, dimension = introspection(window_size)
 
         # prepare complete chunks
         if num_samples >= window_size:
@@ -267,7 +269,11 @@ def slide(
             num_samples - window_size
         ) % step_size > 0
         if has_last_chunk:
+            # pad last chunk with zeros
             last_chunk: torch.Tensor = waveform[:, num_chunks * step_size :]
+            _, last_window_size = last_chunk.shape
+            last_pad = window_size - last_window_size
+            last_chunk = F.pad(last_chunk, (0, last_pad))
 
         outputs: Union[List[np.ndarray], np.ndarray] = list()
 
@@ -284,11 +290,6 @@ def slide(
         # process orphan last chunk
         if has_last_chunk:
             last_output = self.infer(last_chunk[None])
-
-            if specifications.resolution == Resolution.FRAME:
-                pad = num_frames_per_chunk - last_output.shape[1]
-                last_output = np.pad(last_output, ((0, 0), (0, pad), (0, 0)))
-
             outputs.append(last_output)
             if hook is not None:
                 hook(
@@ -326,9 +327,11 @@ def slide(
             missing=0.0,
         )
 
+        # remove padding that was added to last chunk
         if has_last_chunk:
-            num_frames = aggregated.data.shape[0]
-            aggregated.data = aggregated.data[: num_frames - pad, :]
+            aggregated.data = aggregated.crop(
+                Segment(0.0, num_samples / sample_rate), mode="loose"
+            )
 
         return aggregated
 

From 56b8ca503463716474ccb94ea468d785287a8966 Mon Sep 17 00:00:00 2001
From: =?UTF-8?q?Herv=C3=A9=20BREDIN?= 
Date: Tue, 23 May 2023 09:39:28 +0200
Subject: [PATCH 080/112] ci: remove codecov support (#1382)

---
 .github/workflows/test.yml | 9 +--------
 1 file changed, 1 insertion(+), 8 deletions(-)

diff --git a/.github/workflows/test.yml b/.github/workflows/test.yml
index dbe2b54d8..b266179eb 100644
--- a/.github/workflows/test.yml
+++ b/.github/workflows/test.yml
@@ -30,11 +30,4 @@ jobs:
       - name: Test with pytest
         run: |
           export PYANNOTE_DATABASE_CONFIG=$GITHUB_WORKSPACE/tests/data/database.yml
-          pytest --cov-report=xml
-      - name: Upload coverage to Codecov
-        uses: codecov/codecov-action@v1
-        with:
-          file: ./coverage.xml
-          env_vars: PYTHON
-          name: codecov-pyannote-audio
-          fail_ci_if_error: false
+          pytest

From ad247501eb8f52bde73016c4b91ec73ceb329eca Mon Sep 17 00:00:00 2001
From: =?UTF-8?q?Herv=C3=A9=20BREDIN?= 
Date: Wed, 24 May 2023 14:46:20 +0200
Subject: [PATCH 081/112] feat(task): add support for multi-task models

- BREAKING(model): get rid of (flaky) `Model.introspection`
---
 CHANGELOG.md                                  |  11 +-
 pyannote/audio/core/inference.py              | 309 ++++++++-----
 pyannote/audio/core/model.py                  | 432 +++++-------------
 pyannote/audio/core/task.py                   |  15 +-
 pyannote/audio/models/segmentation/PyanNet.py |   5 +-
 pyannote/audio/models/segmentation/debug.py   |  12 +-
 .../pipelines/overlapped_speech_detection.py  |   2 +-
 pyannote/audio/pipelines/resegmentation.py    |   3 +-
 .../audio/pipelines/speaker_diarization.py    |   2 +-
 .../audio/pipelines/speaker_verification.py   |  51 ++-
 pyannote/audio/pipelines/utils/oracle.py      |   2 +-
 pyannote/audio/tasks/segmentation/mixins.py   |  26 +-
 .../audio/tasks/segmentation/multilabel.py    |  18 +-
 .../overlapped_speech_detection.py            |  17 +-
 .../tasks/segmentation/speaker_diarization.py |  29 +-
 .../segmentation/voice_activity_detection.py  |  17 +-
 pyannote/audio/utils/multi_task.py            |  59 +++
 pyannote/audio/utils/powerset.py              |  22 +-
 pyannote/audio/utils/preview.py               |   4 +-
 19 files changed, 474 insertions(+), 562 deletions(-)
 create mode 100644 pyannote/audio/utils/multi_task.py

diff --git a/CHANGELOG.md b/CHANGELOG.md
index cf525f958..79a2e93ab 100644
--- a/CHANGELOG.md
+++ b/CHANGELOG.md
@@ -5,10 +5,10 @@
 ### Breaking changes
 
   - BREAKING(task): rename `Segmentation` task to `SpeakerDiarization`
-  - BREAKING(task): remove support for variable chunk duration
+  - BREAKING(task): remove support for variable chunk duration for segmentation tasks
   - BREAKING(pipeline): pipeline defaults to CPU (use `pipeline.to(device)`)
   - BREAKING(pipeline): remove `SpeakerSegmentation` pipeline (use `SpeakerDiarization` pipeline)
-  - BREAKING(pipeline): remove support `FINCHClustering` and `HiddenMarkovModelClustering`
+  - BREAKING(pipeline): remove support for `FINCHClustering` and `HiddenMarkovModelClustering`
   - BREAKING(pipeline): remove `segmentation_duration` parameter from `SpeakerDiarization` pipeline (defaults to `duration` of segmentation model)
   - BREAKING(setup): drop support for Python 3.7
   - BREAKING(io): channels are now 0-indexed (used to be 1-indexed)
@@ -17,9 +17,16 @@
     * replace `Audio()` by `Audio(mono="downmix")`;
     * replace `Audio(mono=True)` by `Audio(mono="downmix")`;
     * replace `Audio(mono=False)` by `Audio()`.
+  - BREAKING(model): get rid of (flaky) `Model.introspection`
+    If, for some weird reason, you wrote some custom code based on that, you should instead rely on:
+    * `Model.example_output(duration=...)` to get example output(s)
+    * `Model.output_frames` to get output frame resolution(s)
+    * `Model.output_dimension` to get output dimension(s)
+
 
 ### Features and improvements
 
+  - feat(task): add support for multi-task models (for inference)
   - feat(pipeline): send pipeline to device with `pipeline.to(device)`
   - feat(pipeline): make `segmentation_batch_size` and `embedding_batch_size` mutable in `SpeakerDiarization` pipeline (they now default to `1`)
   - feat(task): add [powerset](https://arxiv.org/PLACEHOLDER) support to `SpeakerDiarization` task
diff --git a/pyannote/audio/core/inference.py b/pyannote/audio/core/inference.py
index 692cf3814..98f72f6e9 100644
--- a/pyannote/audio/core/inference.py
+++ b/pyannote/audio/core/inference.py
@@ -1,6 +1,6 @@
 # MIT License
 #
-# Copyright (c) 2020-2021 CNRS
+# Copyright (c) 2020- CNRS
 #
 # Permission is hereby granted, free of charge, to any person obtaining a copy
 # of this software and associated documentation files (the "Software"), to deal
@@ -27,19 +27,19 @@
 
 import numpy as np
 import torch
+import torch.nn as nn
 import torch.nn.functional as F
 from einops import rearrange
 from pyannote.core import Segment, SlidingWindow, SlidingWindowFeature
 from pytorch_lightning.utilities.memory import is_oom_error
 
 from pyannote.audio.core.io import AudioFile
-from pyannote.audio.core.model import Model
+from pyannote.audio.core.model import Model, Specifications
 from pyannote.audio.core.task import Resolution
+from pyannote.audio.utils.multi_task import map_with_specifications
 from pyannote.audio.utils.permutation import mae_cost_func, permutate
 from pyannote.audio.utils.powerset import Powerset
 
-TaskName = Union[Text, None]
-
 
 class BaseInference:
     pass
@@ -68,10 +68,10 @@ class Inference(BaseInference):
     skip_aggregation : bool, optional
         Do not aggregate outputs when using "sliding" window. Defaults to False.
     skip_conversion: bool, optional
-        In case `model` has been trained with `powerset` mode, its output is automatically
+        In case a task has been trained with `powerset` mode, output is automatically
         converted to `multi-label`, unless `skip_conversion` is set to True.
     batch_size : int, optional
-        Batch size. Larger values make inference faster. Defaults to 32.
+        Batch size. Larger values (should) make inference faster. Defaults to 32.
     device : torch.device, optional
         Device used for inference. Defaults to `model.device`.
         In case `device` and `model.device` are different, model is sent to device.
@@ -94,6 +94,8 @@ def __init__(
         batch_size: int = 32,
         use_auth_token: Union[Text, None] = None,
     ):
+        # ~~~~ model ~~~~~
+
         self.model = (
             model
             if isinstance(model, Model)
@@ -105,50 +107,70 @@ def __init__(
             )
         )
 
-        if window not in ["sliding", "whole"]:
-            raise ValueError('`window` must be "sliding" or "whole".')
-
-        specifications = self.model.specifications
-        if specifications.resolution == Resolution.FRAME and window == "whole":
-            warnings.warn(
-                'Using "whole" `window` inference with a frame-based model might lead to bad results '
-                'and huge memory consumption: it is recommended to set `window` to "sliding".'
-            )
-
-        self.window = window
-        self.skip_aggregation = skip_aggregation
-
         if device is None:
             device = self.model.device
         self.device = device
 
-        self.pre_aggregation_hook = pre_aggregation_hook
-
         self.model.eval()
         self.model.to(self.device)
 
-        # chunk duration used during training
         specifications = self.model.specifications
-        training_duration = specifications.duration
 
-        if duration is None:
-            duration = training_duration
-        elif training_duration != duration:
+        # ~~~~ sliding window ~~~~~
+
+        if window not in ["sliding", "whole"]:
+            raise ValueError('`window` must be "sliding" or "whole".')
+
+        if window == "whole" and any(
+            s.resolution == Resolution.FRAME for s in specifications
+        ):
+            warnings.warn(
+                'Using "whole" `window` inference with a frame-based model might lead to bad results '
+                'and huge memory consumption: it is recommended to set `window` to "sliding".'
+            )
+        self.window = window
+
+        training_duration = next(iter(specifications)).duration
+        duration = duration or training_duration
+        if training_duration != duration:
             warnings.warn(
                 f"Model was trained with {training_duration:g}s chunks, and you requested "
                 f"{duration:g}s chunks for inference: this might lead to suboptimal results."
             )
         self.duration = duration
 
-        self.warm_up = specifications.warm_up
+        # ~~~~ powerset to multilabel conversion ~~~~
+
+        self.skip_conversion = skip_conversion
+
+        conversion = list()
+        for s in specifications:
+            if s.powerset and not skip_conversion:
+                c = Powerset(len(s.classes), s.powerset_max_classes)
+            else:
+                c = nn.Identity()
+            conversion.append(c.to(self.device))
+
+        if isinstance(specifications, Specifications):
+            self.conversion = conversion[0]
+        else:
+            self.conversion = nn.ModuleList(conversion)
+
+        # ~~~~ overlap-add aggregation ~~~~~
+
+        self.skip_aggregation = skip_aggregation
+        self.pre_aggregation_hook = pre_aggregation_hook
+
+        self.warm_up = next(iter(specifications)).warm_up
         # Use that many seconds on the left- and rightmost parts of each chunk
         # to warm up the model. While the model does process those left- and right-most
         # parts, only the remaining central part of each chunk is used for aggregating
         # scores during inference.
 
         # step between consecutive chunks
-        if step is None:
-            step = 0.1 * self.duration if self.warm_up[0] == 0.0 else self.warm_up[0]
+        step = step or (
+            0.1 * self.duration if self.warm_up[0] == 0.0 else self.warm_up[0]
+        )
 
         if step > self.duration:
             raise ValueError(
@@ -159,23 +181,16 @@ def __init__(
         self.step = step
 
         self.batch_size = batch_size
-        self.skip_conversion = skip_conversion
-        if specifications.powerset and not self.skip_conversion:
-            self._powerset = Powerset(
-                len(specifications.classes), specifications.powerset_max_classes
-            )
-            self._powerset.to(self.device)
 
-    def to(self, device: torch.device):
+    def to(self, device: torch.device) -> "Inference":
         """Send internal model to `device`"""
 
         self.model.to(device)
-        if self.model.specifications.powerset and not self.skip_conversion:
-            self._powerset.to(device)
+        self.conversion.to(device)
         self.device = device
         return self
 
-    def infer(self, chunks: torch.Tensor) -> np.ndarray:
+    def infer(self, chunks: torch.Tensor) -> Union[np.ndarray, Tuple[np.ndarray]]:
         """Forward pass
 
         Takes care of sending chunks to right device and outputs back to CPU
@@ -187,11 +202,11 @@ def infer(self, chunks: torch.Tensor) -> np.ndarray:
 
         Returns
         -------
-        outputs : (batch_size, ...) np.ndarray
+        outputs : (tuple of) (batch_size, ...) np.ndarray
             Model output.
         """
 
-        with torch.no_grad():
+        with torch.inference_mode():
             try:
                 outputs = self.model(chunks.to(self.device))
             except RuntimeError as exception:
@@ -203,22 +218,19 @@ def infer(self, chunks: torch.Tensor) -> np.ndarray:
                 else:
                     raise exception
 
-        # convert powerset to multi-label unless specifically requested not to
-        if self.model.specifications.powerset and not self.skip_conversion:
-            powerset = torch.nn.functional.one_hot(
-                torch.argmax(outputs, dim=-1),
-                self.model.specifications.num_powerset_classes,
-            ).float()
-            outputs = self._powerset.to_multilabel(powerset)
+        def __convert(output: torch.Tensor, conversion: nn.Module, **kwargs):
+            return conversion(output).cpu().numpy()
 
-        return outputs.cpu().numpy()
+        return map_with_specifications(
+            self.model.specifications, __convert, outputs, self.conversion
+        )
 
     def slide(
         self,
         waveform: torch.Tensor,
         sample_rate: int,
         hook: Optional[Callable],
-    ) -> SlidingWindowFeature:
+    ) -> Union[SlidingWindowFeature, Tuple[SlidingWindowFeature]]:
         """Slide model on a waveform
 
         Parameters
@@ -235,7 +247,7 @@ def slide(
 
         Returns
         -------
-        output : SlidingWindowFeature
+        output : (tuple of) SlidingWindowFeature
             Model output. Shape is (num_chunks, dimension) for chunk-level tasks,
             and (num_frames, dimension) for frame-level tasks.
         """
@@ -244,15 +256,20 @@ def slide(
         step_size: int = round(self.step * sample_rate)
         _, num_samples = waveform.shape
 
-        specifications = self.model.specifications
-        resolution = specifications.resolution
-        introspection = self.model.introspection
+        frames = self.model.output_frames
 
-        if resolution == Resolution.CHUNK:
-            frames = SlidingWindow(start=0.0, duration=self.duration, step=self.step)
+        def __frames(
+            frames, specifications: Optional[Specifications] = None
+        ) -> SlidingWindow:
+            if specifications.resolution == Resolution.CHUNK:
+                return SlidingWindow(start=0.0, duration=self.duration, step=self.step)
+            return frames
 
-        elif resolution == Resolution.FRAME:
-            frames = introspection.frames
+        frames: Union[SlidingWindow, Tuple[SlidingWindow]] = map_with_specifications(
+            self.model.specifications,
+            __frames,
+            self.model.output_frames,
+        )
 
         # prepare complete chunks
         if num_samples >= window_size:
@@ -275,69 +292,107 @@ def slide(
             last_pad = window_size - last_window_size
             last_chunk = F.pad(last_chunk, (0, last_pad))
 
-        outputs: Union[List[np.ndarray], np.ndarray] = list()
+        def __empty_list(**kwargs):
+            return list()
+
+        outputs: Union[
+            List[np.ndarray], Tuple[List[np.ndarray]]
+        ] = map_with_specifications(self.model.specifications, __empty_list)
 
         if hook is not None:
             hook(completed=0, total=num_chunks + has_last_chunk)
 
+        def __append_batch(output, batch_output, **kwargs) -> None:
+            output.append(batch_output)
+            return
+
         # slide over audio chunks in batch
         for c in np.arange(0, num_chunks, self.batch_size):
             batch: torch.Tensor = chunks[c : c + self.batch_size]
-            outputs.append(self.infer(batch))
+
+            batch_outputs: Union[np.ndarray, Tuple[np.ndarray]] = self.infer(batch)
+
+            _ = map_with_specifications(
+                self.model.specifications, __append_batch, outputs, batch_outputs
+            )
+
             if hook is not None:
                 hook(completed=c + self.batch_size, total=num_chunks + has_last_chunk)
 
         # process orphan last chunk
         if has_last_chunk:
-            last_output = self.infer(last_chunk[None])
-            outputs.append(last_output)
+            last_outputs = self.infer(last_chunk[None])
+
+            _ = map_with_specifications(
+                self.model.specifications, __append_batch, outputs, last_outputs
+            )
+
             if hook is not None:
                 hook(
                     completed=num_chunks + has_last_chunk,
                     total=num_chunks + has_last_chunk,
                 )
 
-        outputs = np.vstack(outputs)
-
-        # skip aggregation when requested,
-        # or when model outputs just one vector per chunk
-        # or when model is permutation-invariant (and not post-processed)
-        if (
-            self.skip_aggregation
-            or specifications.resolution == Resolution.CHUNK
-            or (
-                specifications.permutation_invariant
-                and self.pre_aggregation_hook is None
-            )
-        ):
-            frames = SlidingWindow(start=0.0, duration=self.duration, step=self.step)
-            return SlidingWindowFeature(outputs, frames)
-
-        if self.pre_aggregation_hook is not None:
-            outputs = self.pre_aggregation_hook(outputs)
-
-        aggregated = self.aggregate(
-            SlidingWindowFeature(
-                outputs,
-                SlidingWindow(start=0.0, duration=self.duration, step=self.step),
-            ),
-            frames=frames,
-            warm_up=self.warm_up,
-            hamming=True,
-            missing=0.0,
+        def __vstack(output: List[np.ndarray], **kwargs) -> np.ndarray:
+            return np.vstack(output)
+
+        outputs: Union[np.ndarray, Tuple[np.ndarray]] = map_with_specifications(
+            self.model.specifications, __vstack, outputs
         )
 
-        # remove padding that was added to last chunk
-        if has_last_chunk:
-            aggregated.data = aggregated.crop(
-                Segment(0.0, num_samples / sample_rate), mode="loose"
+        def __aggregate(
+            outputs: np.ndarray,
+            frames: SlidingWindow,
+            specifications: Optional[Specifications] = None,
+        ) -> SlidingWindowFeature:
+            # skip aggregation when requested,
+            # or when model outputs just one vector per chunk
+            # or when model is permutation-invariant (and not post-processed)
+            if (
+                self.skip_aggregation
+                or specifications.resolution == Resolution.CHUNK
+                or (
+                    specifications.permutation_invariant
+                    and self.pre_aggregation_hook is None
+                )
+            ):
+                frames = SlidingWindow(
+                    start=0.0, duration=self.duration, step=self.step
+                )
+                return SlidingWindowFeature(outputs, frames)
+
+            if self.pre_aggregation_hook is not None:
+                outputs = self.pre_aggregation_hook(outputs)
+
+            aggregated = self.aggregate(
+                SlidingWindowFeature(
+                    outputs,
+                    SlidingWindow(start=0.0, duration=self.duration, step=self.step),
+                ),
+                frames=frames,
+                warm_up=self.warm_up,
+                hamming=True,
+                missing=0.0,
             )
 
-        return aggregated
+            # remove padding that was added to last chunk
+            if has_last_chunk:
+                aggregated.data = aggregated.crop(
+                    Segment(0.0, num_samples / sample_rate), mode="loose"
+                )
+
+            return aggregated
+
+        return map_with_specifications(
+            self.model.specifications, __aggregate, outputs, frames
+        )
 
     def __call__(
         self, file: AudioFile, hook: Optional[Callable] = None
-    ) -> Union[SlidingWindowFeature, np.ndarray]:
+    ) -> Union[
+        Tuple[Union[SlidingWindowFeature, np.ndarray]],
+        Union[SlidingWindowFeature, np.ndarray],
+    ]:
         """Run inference on a whole file
 
         Parameters
@@ -352,7 +407,7 @@ def __call__(
 
         Returns
         -------
-        output : SlidingWindowFeature or np.ndarray
+        output : (tuple of) SlidingWindowFeature or np.ndarray
             Model output, as `SlidingWindowFeature` if `window` is set to "sliding"
             and `np.ndarray` if is set to "whole".
 
@@ -362,7 +417,14 @@ def __call__(
         if self.window == "sliding":
             return self.slide(waveform, sample_rate, hook=hook)
 
-        return self.infer(waveform[None])[0]
+        outputs: Union[np.ndarray, Tuple[np.ndarray]] = self.infer(waveform[None])
+
+        def __first_sample(outputs: np.ndarray, **kwargs) -> np.ndarray:
+            return outputs[0]
+
+        return map_with_specifications(
+            self.model.specifications, __first_sample, outputs
+        )
 
     def crop(
         self,
@@ -370,7 +432,10 @@ def crop(
         chunk: Union[Segment, List[Segment]],
         duration: Optional[float] = None,
         hook: Optional[Callable] = None,
-    ) -> Union[SlidingWindowFeature, np.ndarray]:
+    ) -> Union[
+        Tuple[Union[SlidingWindowFeature, np.ndarray]],
+        Union[SlidingWindowFeature, np.ndarray],
+    ]:
         """Run inference on a chunk or a list of chunks
 
         Parameters
@@ -395,7 +460,7 @@ def crop(
 
         Returns
         -------
-        output : SlidingWindowFeature or np.ndarray
+        output : (tuple of) SlidingWindowFeature or np.ndarray
             Model output, as `SlidingWindowFeature` if `window` is set to "sliding"
             and `np.ndarray` if is set to "whole".
 
@@ -418,31 +483,37 @@ def crop(
             waveform, sample_rate = self.model.audio.crop(
                 file, chunk, duration=duration
             )
-            output = self.slide(waveform, sample_rate, hook=hook)
-
-            frames = output.sliding_window
-            shifted_frames = SlidingWindow(
-                start=chunk.start, duration=frames.duration, step=frames.step
-            )
-            return SlidingWindowFeature(output.data, shifted_frames)
-
-        elif self.window == "whole":
-            if isinstance(chunk, Segment):
-                waveform, sample_rate = self.model.audio.crop(
-                    file, chunk, duration=duration
-                )
-            else:
-                waveform = torch.cat(
-                    [self.model.audio.crop(file, c)[0] for c in chunk], dim=1
+            outputs: Union[
+                SlidingWindowFeature, Tuple[SlidingWindowFeature]
+            ] = self.slide(waveform, sample_rate, hook=hook)
+
+            def __shift(output: SlidingWindowFeature, **kwargs) -> SlidingWindowFeature:
+                frames = output.sliding_window
+                shifted_frames = SlidingWindow(
+                    start=chunk.start, duration=frames.duration, step=frames.step
                 )
+                return SlidingWindowFeature(output.data, shifted_frames)
 
-            return self.infer(waveform[None])[0]
+            return map_with_specifications(self.model.specifications, __shift, outputs)
 
+        if isinstance(chunk, Segment):
+            waveform, sample_rate = self.model.audio.crop(
+                file, chunk, duration=duration
+            )
         else:
-            raise NotImplementedError(
-                f"Unsupported window type '{self.window}': should be 'sliding' or 'whole'."
+            waveform = torch.cat(
+                [self.model.audio.crop(file, c)[0] for c in chunk], dim=1
             )
 
+        outputs: Union[np.ndarray, Tuple[np.ndarray]] = self.infer(waveform[None])
+
+        def __first_sample(outputs: np.ndarray, **kwargs) -> np.ndarray:
+            return outputs[0]
+
+        return map_with_specifications(
+            self.model.specifications, __first_sample, outputs
+        )
+
     @staticmethod
     def aggregate(
         scores: SlidingWindowFeature,
diff --git a/pyannote/audio/core/model.py b/pyannote/audio/core/model.py
index da5c79fe8..199dcfb24 100644
--- a/pyannote/audio/core/model.py
+++ b/pyannote/audio/core/model.py
@@ -1,6 +1,6 @@
 # MIT License
 #
-# Copyright (c) 2020-2021 CNRS
+# Copyright (c) 2020- CNRS
 #
 # Permission is hereby granted, free of charge, to any person obtaining a copy
 # of this software and associated documentation files (the "Software"), to deal
@@ -49,6 +49,7 @@
     Task,
     UnknownSpecificationsError,
 )
+from pyannote.audio.utils.multi_task import map_with_specifications
 from pyannote.audio.utils.version import check_version
 
 CACHE_DIR = os.getenv(
@@ -59,241 +60,9 @@
 HF_LIGHTNING_CONFIG_NAME = "config.yaml"
 
 
+# NOTE: needed to backward compatibility to load models trained before pyannote.audio 3.x
 class Introspection:
-    """Model introspection
-
-    Parameters
-    ----------
-    min_num_samples: int
-        For fixed-duration models, expected number of input samples.
-        For variable-duration models, minimum number of input samples supported by
-        the model (i.e. model fails for smaller number of samples).
-    min_num_frames: int
-        Corresponding number of output frames.
-    inc_num_samples: int
-        Number of input samples leading to an increase of number of output frames.
-        Has no meaning for fixed-duration models (set to 0).
-    inc_num_frames: int
-        Corresponding increase in number of output frames
-        Has no meaning for fixed-duration models (set to 0).
-    dimension: int
-        Output dimension
-    sample_rate: int
-        Expected input sample rate
-
-    Usage
-    -----
-    >>> introspection = Introspection.from_model(model)
-    >>> isinstance(introspection.frames, SlidingWindow)
-    >>> num_samples = 16000 # 1s at 16kHz
-    >>> num_frames, dimension = introspection(num_samples)
-    """
-
-    def __init__(
-        self,
-        min_num_samples: int,
-        min_num_frames: int,
-        inc_num_samples: int,
-        inc_num_frames: int,
-        dimension: int,
-        sample_rate: int,
-    ):
-        super().__init__()
-        self.min_num_samples = min_num_samples
-        self.min_num_frames = min_num_frames
-        self.inc_num_samples = inc_num_samples
-        self.inc_num_frames = inc_num_frames
-        self.dimension = dimension
-        self.sample_rate = sample_rate
-
-    @classmethod
-    def from_model(cls, model: "Model") -> Introspection:
-        """
-
-        Parameters
-        ----------
-        model : Model
-        """
-
-        specifications = model.specifications
-        duration = specifications.duration
-        min_duration = specifications.min_duration or duration
-
-        # case 1: the model expects a fixed-duration chunk
-        if min_duration == duration:
-            num_samples = model.audio.get_num_samples(specifications.duration)
-            frames = model(model.example_input_array)
-            if specifications.resolution == Resolution.FRAME:
-                _, num_frames, dimension = frames.shape
-                return cls(
-                    min_num_samples=num_samples,
-                    min_num_frames=num_frames,
-                    inc_num_samples=0,
-                    inc_num_frames=0,
-                    dimension=dimension,
-                    sample_rate=model.hparams.sample_rate,
-                )
-
-            elif specifications.resolution == Resolution.CHUNK:
-                _, dimension = frames.shape
-                return cls(
-                    min_num_samples=num_samples,
-                    min_num_frames=1,
-                    inc_num_samples=0,
-                    inc_num_frames=0,
-                    dimension=dimension,
-                    sample_rate=model.hparams.sample_rate,
-                )
-
-        # case 2: the model supports variable-duration chunks
-        # we use dichotomic search to find the minimum number of samples
-        example_input_array = model.example_input_array
-        batch_size, num_channels, num_samples = example_input_array.shape
-        example_input_array = torch.randn(
-            (batch_size, num_channels, num_samples),
-            dtype=example_input_array.dtype,
-            layout=example_input_array.layout,
-            device=example_input_array.device,
-            requires_grad=False,
-        )
-
-        # dichotomic search of "min_num_samples"
-        lower, upper, min_num_samples = 1, num_samples, None
-        while True:
-            num_samples = (lower + upper) // 2
-            try:
-                with torch.no_grad():
-                    frames = model(example_input_array[:, :, :num_samples])
-            except Exception:
-                lower = num_samples
-            else:
-                min_num_samples = num_samples
-                if specifications.resolution == Resolution.FRAME:
-                    _, min_num_frames, dimension = frames.shape
-                elif specifications.resolution == Resolution.CHUNK:
-                    _, dimension = frames.shape
-                else:
-                    # should never happen
-                    pass
-                upper = num_samples
-
-            if lower + 1 == upper:
-                break
-
-        # if "min_num_samples" is still None at this point, it means that
-        # the forward pass always failed and raised an exception. most likely,
-        # it means that there is a problem with the model definition.
-        # we try again without catching the exception to help the end user debug
-        # their model
-        if min_num_samples is None:
-            frames = model(example_input_array)
-
-        # corner case for chunk-level tasks
-        if specifications.resolution == Resolution.CHUNK:
-            return cls(
-                min_num_samples=min_num_samples,
-                min_num_frames=1,
-                inc_num_samples=0,
-                inc_num_frames=0,
-                dimension=dimension,
-                sample_rate=model.hparams.sample_rate,
-            )
-
-        # search reasonable upper bound for "inc_num_samples"
-        while True:
-            num_samples = 2 * min_num_samples
-            example_input_array = torch.randn(
-                (batch_size, num_channels, num_samples),
-                dtype=example_input_array.dtype,
-                layout=example_input_array.layout,
-                device=example_input_array.device,
-                requires_grad=False,
-            )
-            with torch.no_grad():
-                frames = model(example_input_array)
-            num_frames = frames.shape[1]
-            if num_frames > min_num_frames:
-                break
-
-        # dichotomic search of "inc_num_samples"
-        lower, upper = min_num_samples, num_samples
-        while True:
-            num_samples = (lower + upper) // 2
-            example_input_array = torch.randn(
-                (batch_size, num_channels, num_samples),
-                dtype=example_input_array.dtype,
-                layout=example_input_array.layout,
-                device=example_input_array.device,
-                requires_grad=False,
-            )
-            with torch.no_grad():
-                frames = model(example_input_array)
-            num_frames = frames.shape[1]
-            if num_frames > min_num_frames:
-                inc_num_frames = num_frames - min_num_frames
-                inc_num_samples = num_samples - min_num_samples
-                upper = num_samples
-            else:
-                lower = num_samples
-
-            if lower + 1 == upper:
-                break
-
-        return cls(
-            min_num_samples=min_num_samples,
-            min_num_frames=min_num_frames,
-            inc_num_samples=inc_num_samples,
-            inc_num_frames=inc_num_frames,
-            dimension=dimension,
-            sample_rate=model.hparams.sample_rate,
-        )
-
-    def __call__(self, num_samples: int) -> Tuple[int, int]:
-        """Predict output shape, given number of input samples
-
-        Parameters
-        ----------
-        num_samples : int
-            Number of input samples.
-
-        Returns
-        -------
-        num_frames : int
-            Number of output frames
-        dimension : int
-            Dimension of output frames
-        """
-
-        # case 1: the model expects a fixed-duration chunk
-        if self.inc_num_frames == 0:
-            assert num_samples == self.min_num_samples
-            return self.min_num_frames, self.dimension
-
-        # case 2: the model supports variable-duration chunks
-
-        if num_samples < self.min_num_samples:
-            return 0, self.dimension
-
-        return (
-            self.min_num_frames
-            + self.inc_num_frames
-            * ((num_samples - self.min_num_samples + 1) // self.inc_num_samples),
-            self.dimension,
-        )
-
-    @property
-    def frames(self) -> SlidingWindow:
-        # HACK to support model trained before 'sample_rate' was an Introspection attribute
-        sample_rate = getattr(self, "sample_rate", 16000)
-
-        if self.inc_num_frames == 0:
-            step = (self.min_num_samples / self.min_num_frames) / sample_rate
-        else:
-            # FIXME: this is not 100% accurate, but it's good enough for now
-            # FIXME: it should probably be estimated from the maximum duration
-            step = (self.inc_num_samples / self.inc_num_frames) / sample_rate
-
-        return SlidingWindow(start=0.0, step=step, duration=step)
+    pass
 
 
 class Model(pl.LightningModule):
@@ -327,31 +96,21 @@ def __init__(
         self.audio = Audio(sample_rate=self.hparams.sample_rate, mono="downmix")
 
     @property
-    def example_input_array(self) -> torch.Tensor:
-        batch_size = 3 if self.task is None else self.task.batch_size
-        duration = 2.0 if self.task is None else self.task.duration
-
-        return torch.randn(
-            (
-                batch_size,
-                self.hparams.num_channels,
-                int(self.hparams.sample_rate * duration),
-            ),
-            device=self.device,
-        )
-
-    @property
-    def task(self):
+    def task(self) -> Task:
         return self._task
 
     @task.setter
-    def task(self, task):
+    def task(self, task: Task):
         self._task = task
-        del self.introspection
         del self.specifications
 
+    def build(self):
+        # use this method to add task-dependent layers to the model
+        # (e.g. the final classification and activation layers)
+        pass
+
     @property
-    def specifications(self):
+    def specifications(self) -> Union[Specifications, Tuple[Specifications]]:
         if self.task is None:
             try:
                 specifications = self._specifications
@@ -376,7 +135,22 @@ def specifications(self):
         return specifications
 
     @specifications.setter
-    def specifications(self, specifications):
+    def specifications(
+        self, specifications: Union[Specifications, Tuple[Specifications]]
+    ):
+        if not isinstance(specifications, (Specifications, tuple)):
+            raise ValueError(
+                "Only regular specifications or tuple of specifications are supported."
+            )
+
+        durations = set(s.duration for s in specifications)
+        if len(durations) > 1:
+            raise ValueError("All tasks must share the same (maximum) duration.")
+
+        min_durations = set(s.min_duration for s in specifications)
+        if len(min_durations) > 1:
+            raise ValueError("All tasks must share the same minimum duration.")
+
         self._specifications = specifications
 
     @specifications.deleter
@@ -384,34 +158,70 @@ def specifications(self):
         if hasattr(self, "_specifications"):
             del self._specifications
 
-    def build(self):
-        # use this method to add task-dependent layers to the model
-        # (e.g. the final classification and activation layers)
-        pass
+    def __example_input_array(self, duration: Optional[float] = None) -> torch.Tensor:
+        duration = duration or next(iter(self.specifications)).duration
+        return torch.randn(
+            (
+                1,
+                self.hparams.num_channels,
+                self.audio.get_num_samples(duration),
+            ),
+            device=self.device,
+        )
 
     @property
-    def introspection(self) -> Introspection:
-        """Introspection
+    def example_input_array(self) -> torch.Tensor:
+        return self.__example_input_array()
+
+    def example_output(
+        self, duration: Optional[float] = None
+    ) -> Union[torch.Tensor, Tuple[torch.Tensor]]:
+        """Example output"""
+        example_input_array = self.__example_input_array(duration=duration)
+        with torch.inference_mode():
+            example_output = self(example_input_array)
+
+        if not isinstance(example_output, (torch.Tensor, tuple)):
+            raise ValueError(
+                "Models must return either a torch.Tensor or a tuple of torch.Tensor"
+            )
 
-        Returns
-        -------
-        introspection: Introspection
-            Model introspection
-        """
+        return example_output
 
-        if not hasattr(self, "_introspection"):
-            self._introspection = Introspection.from_model(self)
+    @property
+    def output_frames(
+        self,
+    ) -> Union[Optional[SlidingWindow], Tuple[Optional[SlidingWindow]]]:
+        """Output frames as (tuple of) SlidingWindow(s)"""
+
+        def __output_frames(
+            example_output: torch.Tensor,
+            specifications: Specifications = None,
+        ) -> Optional[SlidingWindow]:
+            if specifications.resolution == Resolution.FRAME:
+                _, num_frames, _ = example_output.shape
+                frame_duration = specifications.duration / num_frames
+                return SlidingWindow(step=frame_duration, duration=frame_duration)
+
+            return None
+
+        return map_with_specifications(
+            self.specifications, __output_frames, self.example_output()
+        )
+
+    @property
+    def output_dimension(self) -> Union[int, Tuple[int]]:
+        """Output dimension as (tuple of) int(s)"""
 
-        return self._introspection
+        duration = next(iter(self.specifications)).duration
+        example_output = self.example_output(duration=duration)
 
-    @introspection.setter
-    def introspection(self, introspection):
-        self._introspection = introspection
+        def __output_dimension(example_output: torch.Tensor, **kwargs) -> int:
+            return example_output.shape[-1]
 
-    @introspection.deleter
-    def introspection(self):
-        if hasattr(self, "_introspection"):
-            del self._introspection
+        return map_with_specifications(
+            self.specifications, __output_dimension, example_output
+        )
 
     def setup(self, stage=None):
         if stage == "fit":
@@ -456,9 +266,6 @@ def setup(self, stage=None):
             # setup custom validation metrics
             self.task.setup_validation_metric()
 
-            # this is to make sure introspection is performed here, once and for all
-            _ = self.introspection
-
         # list of layers after adding task-dependent layers
         after = set((name, id(module)) for name, module in self.named_modules())
 
@@ -477,7 +284,6 @@ def on_save_checkpoint(self, checkpoint):
                 "module": self.__class__.__module__,
                 "class": self.__class__.__name__,
             },
-            "introspection": self.introspection,
             "specifications": self.specifications,
         }
 
@@ -507,41 +313,14 @@ def on_load_checkpoint(self, checkpoint: Dict[str, Any]):
 
         self.setup()
 
-        self.introspection = checkpoint["pyannote.audio"]["introspection"]
-
-    def forward(self, waveforms: torch.Tensor) -> torch.Tensor:
+    def forward(
+        self, waveforms: torch.Tensor, **kwargs
+    ) -> Union[torch.Tensor, Tuple[torch.Tensor]]:
         msg = "Class {self.__class__.__name__} should define a `forward` method."
         raise NotImplementedError(msg)
 
-    def helper_default_activation(self, specifications: Specifications) -> nn.Module:
-        """Helper function for default_activation
-
-        Parameters
-        ----------
-        specifications: Specifications
-            Task specification.
-
-        Returns
-        -------
-        activation : nn.Module
-            Default activation function.
-        """
-
-        if specifications.problem == Problem.BINARY_CLASSIFICATION:
-            return nn.Sigmoid()
-
-        elif specifications.problem == Problem.MONO_LABEL_CLASSIFICATION:
-            return nn.LogSoftmax(dim=-1)
-
-        elif specifications.problem == Problem.MULTI_LABEL_CLASSIFICATION:
-            return nn.Sigmoid()
-
-        else:
-            msg = "TODO: implement default activation for other types of problems"
-            raise NotImplementedError(msg)
-
     # convenience function to automate the choice of the final activation function
-    def default_activation(self) -> nn.Module:
+    def default_activation(self) -> Union[nn.Module, Tuple[nn.Module]]:
         """Guess default activation function according to task specification
 
             * sigmoid for binary classification
@@ -550,10 +329,25 @@ def default_activation(self) -> nn.Module:
 
         Returns
         -------
-        activation : nn.Module
+        activation : (tuple of) nn.Module
             Activation.
         """
-        return self.helper_default_activation(self.specifications)
+
+        def __default_activation(specifications: Specifications = None) -> nn.Module:
+            if specifications.problem == Problem.BINARY_CLASSIFICATION:
+                return nn.Sigmoid()
+
+            elif specifications.problem == Problem.MONO_LABEL_CLASSIFICATION:
+                return nn.LogSoftmax(dim=-1)
+
+            elif specifications.problem == Problem.MULTI_LABEL_CLASSIFICATION:
+                return nn.Sigmoid()
+
+            else:
+                msg = "TODO: implement default activation for other types of problems"
+                raise NotImplementedError(msg)
+
+        return map_with_specifications(self.specifications, __default_activation)
 
     # training data logic is delegated to the task because the
     # model does not really need to know how it is being used.
@@ -578,9 +372,7 @@ def validation_step(self, batch, batch_idx):
     def configure_optimizers(self):
         return torch.optim.Adam(self.parameters(), lr=1e-3)
 
-    def _helper_up_to(
-        self, module_name: Text, requires_grad: bool = False
-    ) -> List[Text]:
+    def __up_to(self, module_name: Text, requires_grad: bool = False) -> List[Text]:
         """Helper function for freeze_up_to and unfreeze_up_to"""
 
         tokens = module_name.split(".")
@@ -637,7 +429,7 @@ def freeze_up_to(self, module_name: Text) -> List[Text]:
         If your model does not follow a sequential structure, you might
         want to use freeze_by_name for more control.
         """
-        return self._helper_up_to(module_name, requires_grad=False)
+        return self.__up_to(module_name, requires_grad=False)
 
     def unfreeze_up_to(self, module_name: Text) -> List[Text]:
         """Unfreeze model up to specific module
@@ -662,9 +454,9 @@ def unfreeze_up_to(self, module_name: Text) -> List[Text]:
         If your model does not follow a sequential structure, you might
         want to use freeze_by_name for more control.
         """
-        return self._helper_up_to(module_name, requires_grad=True)
+        return self.__up_to(module_name, requires_grad=True)
 
-    def _helper_by_name(
+    def __by_name(
         self,
         modules: Union[List[Text], Text],
         recurse: bool = True,
@@ -720,7 +512,7 @@ def freeze_by_name(
         ValueError if at least one of `modules` does not exist.
         """
 
-        return self._helper_by_name(
+        return self.__by_name(
             modules,
             recurse=recurse,
             requires_grad=False,
@@ -751,7 +543,7 @@ def unfreeze_by_name(
         ValueError if at least one of `modules` does not exist.
         """
 
-        return self._helper_by_name(modules, recurse=recurse, requires_grad=True)
+        return self.__by_name(modules, recurse=recurse, requires_grad=True)
 
     @classmethod
     def from_pretrained(
diff --git a/pyannote/audio/core/task.py b/pyannote/audio/core/task.py
index d02e643b4..e8baee29f 100644
--- a/pyannote/audio/core/task.py
+++ b/pyannote/audio/core/task.py
@@ -97,7 +97,7 @@ class Specifications:
     permutation_invariant: bool = False
 
     @cached_property
-    def powerset(self):
+    def powerset(self) -> bool:
         if self.powerset_max_classes is None:
             return False
 
@@ -120,6 +120,12 @@ def num_powerset_classes(self) -> int:
             )
         )
 
+    def __len__(self):
+        return 1
+
+    def __iter__(self):
+        yield self
+
 
 class TrainDataset(IterableDataset):
     def __init__(self, task: Task):
@@ -193,7 +199,7 @@ class Task(pl.LightningDataModule):
 
     Attributes
     ----------
-    specifications : Specifications or dict of Specifications
+    specifications : Specifications or tuple of Specifications
         Task specifications (available after `Task.setup` has been called.)
     """
 
@@ -375,6 +381,11 @@ def common_step(self, batch, batch_idx: int, stage: Literal["train", "val"]):
             {"loss": loss}
         """
 
+        if isinstance(self.specifications, tuple):
+            raise NotImplementedError(
+                "Default training/validation step is not implemented for multi-task."
+            )
+
         # forward pass
         y_pred = self.model(batch["X"])
 
diff --git a/pyannote/audio/models/segmentation/PyanNet.py b/pyannote/audio/models/segmentation/PyanNet.py
index 1b68a32a9..5af3734b1 100644
--- a/pyannote/audio/models/segmentation/PyanNet.py
+++ b/pyannote/audio/models/segmentation/PyanNet.py
@@ -80,7 +80,6 @@ def __init__(
         num_channels: int = 1,
         task: Optional[Task] = None,
     ):
-
         super().__init__(sample_rate=sample_rate, num_channels=num_channels, task=task)
 
         sincnet = merge_dict(self.SINCNET_DEFAULTS, sincnet)
@@ -140,7 +139,6 @@ def __init__(
         )
 
     def build(self):
-
         if self.hparams.linear["num_layers"] > 0:
             in_features = self.hparams.linear["hidden_size"]
         else:
@@ -148,6 +146,9 @@ def build(self):
                 2 if self.hparams.lstm["bidirectional"] else 1
             )
 
+        if isinstance(self.specifications, tuple):
+            raise ValueError("PyanNet does not support multi-tasking.")
+
         if self.specifications.powerset:
             out_features = self.specifications.num_powerset_classes
         else:
diff --git a/pyannote/audio/models/segmentation/debug.py b/pyannote/audio/models/segmentation/debug.py
index 498faee27..89512320c 100644
--- a/pyannote/audio/models/segmentation/debug.py
+++ b/pyannote/audio/models/segmentation/debug.py
@@ -39,7 +39,6 @@ def __init__(
         num_channels: int = 1,
         task: Optional[Task] = None,
     ):
-
         super().__init__(sample_rate=sample_rate, num_channels=num_channels, task=task)
 
         self.mfcc = MFCC(
@@ -60,7 +59,16 @@ def __init__(
 
     def build(self):
         # define task-dependent layers
-        self.classifier = nn.Linear(32 * 2, len(self.specifications.classes))
+
+        if isinstance(self.specifications, tuple):
+            raise ValueError("SimpleSegmentationModel does not support multi-tasking.")
+
+        if self.specifications.powerset:
+            out_features = self.specifications.num_powerset_classes
+        else:
+            out_features = len(self.specifications.classes)
+
+        self.classifier = nn.Linear(32 * 2, out_features)
         self.activation = self.default_activation()
 
     def forward(self, waveforms: torch.Tensor) -> torch.Tensor:
diff --git a/pyannote/audio/pipelines/overlapped_speech_detection.py b/pyannote/audio/pipelines/overlapped_speech_detection.py
index 9b14ee10f..a326b8786 100644
--- a/pyannote/audio/pipelines/overlapped_speech_detection.py
+++ b/pyannote/audio/pipelines/overlapped_speech_detection.py
@@ -128,7 +128,7 @@ def __init__(
         # load model
         model = get_model(segmentation, use_auth_token=use_auth_token)
 
-        if model.introspection.dimension > 1:
+        if model.output_dimension > 1:
             inference_kwargs["pre_aggregation_hook"] = lambda scores: np.partition(
                 scores, -2, axis=-1
             )[:, :, -2, np.newaxis]
diff --git a/pyannote/audio/pipelines/resegmentation.py b/pyannote/audio/pipelines/resegmentation.py
index 57cf9004b..468d5087d 100644
--- a/pyannote/audio/pipelines/resegmentation.py
+++ b/pyannote/audio/pipelines/resegmentation.py
@@ -88,7 +88,6 @@ def __init__(
         der_variant: dict = None,
         use_auth_token: Union[Text, None] = None,
     ):
-
         super().__init__()
 
         self.segmentation = segmentation
@@ -96,7 +95,7 @@ def __init__(
 
         model: Model = get_model(segmentation, use_auth_token=use_auth_token)
         self._segmentation = Inference(model)
-        self._frames = self._segmentation.model.introspection.frames
+        self._frames = self._segmentation.model.output_frames
 
         self._audio = model.audio
 
diff --git a/pyannote/audio/pipelines/speaker_diarization.py b/pyannote/audio/pipelines/speaker_diarization.py
index 6bc81f28a..038bd4676 100644
--- a/pyannote/audio/pipelines/speaker_diarization.py
+++ b/pyannote/audio/pipelines/speaker_diarization.py
@@ -136,7 +136,7 @@ def __init__(
             skip_aggregation=True,
             batch_size=segmentation_batch_size,
         )
-        self._frames: SlidingWindow = self._segmentation.model.introspection.frames
+        self._frames: SlidingWindow = self._segmentation.model.output_frames
 
         if self._segmentation.model.specifications.powerset:
             self.segmentation = ParamDict(
diff --git a/pyannote/audio/pipelines/speaker_verification.py b/pyannote/audio/pipelines/speaker_verification.py
index 1a672d614..f928aabbb 100644
--- a/pyannote/audio/pipelines/speaker_verification.py
+++ b/pyannote/audio/pipelines/speaker_verification.py
@@ -64,7 +64,6 @@ def __init__(
         embedding: Text = "nvidia/speakerverification_en_titanet_large",
         device: torch.device = None,
     ):
-
         if not NEMO_IS_AVAILABLE:
             raise ImportError(
                 f"'NeMo' must be installed to use '{embedding}' embeddings. "
@@ -90,7 +89,6 @@ def sample_rate(self) -> int:
 
     @cached_property
     def dimension(self) -> int:
-
         input_signal = torch.rand(1, self.sample_rate).to(self.device)
         input_signal_length = torch.tensor([self.sample_rate]).to(self.device)
         _, embeddings = self.model_(
@@ -105,7 +103,6 @@ def metric(self) -> str:
 
     @cached_property
     def min_num_samples(self) -> int:
-
         lower, upper = 2, round(0.5 * self.sample_rate)
         middle = (lower + upper) // 2
         while lower + 1 < upper:
@@ -152,7 +149,6 @@ def __call__(
             wav_lens = signals.shape[1] * torch.ones(batch_size)
 
         else:
-
             batch_size_masks, _ = masks.shape
             assert batch_size == batch_size_masks
 
@@ -229,7 +225,6 @@ def __init__(
         device: torch.device = None,
         use_auth_token: Union[Text, None] = None,
     ):
-
         if not SPEECHBRAIN_IS_AVAILABLE:
             raise ImportError(
                 f"'speechbrain' must be installed to use '{embedding}' embeddings. "
@@ -281,19 +276,19 @@ def metric(self) -> str:
 
     @cached_property
     def min_num_samples(self) -> int:
-
-        lower, upper = 2, round(0.5 * self.sample_rate)
-        middle = (lower + upper) // 2
-        while lower + 1 < upper:
-            try:
-                _ = self.classifier_.encode_batch(
-                    torch.randn(1, middle).to(self.device)
-                )
-                upper = middle
-            except RuntimeError:
-                lower = middle
-
+        with torch.inference_mode():
+            lower, upper = 2, round(0.5 * self.sample_rate)
             middle = (lower + upper) // 2
+            while lower + 1 < upper:
+                try:
+                    _ = self.classifier_.encode_batch(
+                        torch.randn(1, middle).to(self.device)
+                    )
+                    upper = middle
+                except RuntimeError:
+                    lower = middle
+
+                middle = (lower + upper) // 2
 
         return upper
 
@@ -324,7 +319,6 @@ def __call__(
             wav_lens = signals.shape[1] * torch.ones(batch_size)
 
         else:
-
             batch_size_masks, _ = masks.shape
             assert batch_size == batch_size_masks
 
@@ -425,7 +419,7 @@ def sample_rate(self) -> int:
 
     @cached_property
     def dimension(self) -> int:
-        return self.model_.introspection.dimension
+        return self.model_.output_dimension
 
     @cached_property
     def metric(self) -> str:
@@ -433,12 +427,24 @@ def metric(self) -> str:
 
     @cached_property
     def min_num_samples(self) -> int:
-        return self.model_.introspection.min_num_samples
+        with torch.inference_mode():
+            lower, upper = 2, round(0.5 * self.sample_rate)
+            middle = (lower + upper) // 2
+            while lower + 1 < upper:
+                try:
+                    _ = self.model_(torch.randn(1, 1, middle).to(self.device))
+                    upper = middle
+                except RuntimeError:
+                    lower = middle
+
+                middle = (lower + upper) // 2
+
+        return upper
 
     def __call__(
         self, waveforms: torch.Tensor, masks: torch.Tensor = None
     ) -> np.ndarray:
-        with torch.no_grad():
+        with torch.inference_mode():
             if masks is None:
                 embeddings = self.model_(waveforms.to(self.device))
             else:
@@ -557,7 +563,6 @@ def __init__(
             )
 
     def apply(self, file: AudioFile) -> np.ndarray:
-
         device = self.embedding_model_.device
 
         # read audio file and send it to GPU
@@ -583,7 +588,6 @@ def main(
     embedding: str = "pyannote/embedding",
     segmentation: str = None,
 ):
-
     import typer
     from pyannote.database import FileFinder, get_protocol
     from pyannote.metrics.binary_classification import det_curve
@@ -601,7 +605,6 @@ def main(
     trials = getattr(protocol, f"{subset}_trial")()
 
     for t, trial in enumerate(tqdm(trials)):
-
         audio1 = trial["file1"]["audio"]
         if audio1 not in emb:
             emb[audio1] = pipeline(audio1)
diff --git a/pyannote/audio/pipelines/utils/oracle.py b/pyannote/audio/pipelines/utils/oracle.py
index 486b09274..0b6b58f85 100644
--- a/pyannote/audio/pipelines/utils/oracle.py
+++ b/pyannote/audio/pipelines/utils/oracle.py
@@ -39,7 +39,7 @@ def oracle_segmentation(
     Simulates inference based on an (imaginary) oracle segmentation model:
 
     >>> oracle = Model.from_pretrained("oracle")
-    >>> assert frames == oracle.introspection.frames
+    >>> assert frames == oracle.output_frames
     >>> inference = Inference(oracle, duration=window.duration, step=window.step, skip_aggregation=True)
     >>> oracle_segmentation = inference(file)
 
diff --git a/pyannote/audio/tasks/segmentation/mixins.py b/pyannote/audio/tasks/segmentation/mixins.py
index 1cdb9840d..8dbb04488 100644
--- a/pyannote/audio/tasks/segmentation/mixins.py
+++ b/pyannote/audio/tasks/segmentation/mixins.py
@@ -25,11 +25,13 @@
 import random
 import warnings
 from collections import defaultdict
+from functools import cached_property
 from typing import Dict, Optional, Sequence, Union
 
 import matplotlib.pyplot as plt
 import numpy as np
 import torch
+from pyannote.core import SlidingWindow
 from pyannote.database.protocol import SegmentationProtocol, SpeakerDiarizationProtocol
 from pyannote.database.protocol.protocol import Scope, Subset
 from pytorch_lightning.loggers import MLFlowLogger, TensorBoardLogger
@@ -49,7 +51,6 @@ class SegmentationTaskMixin:
     """Methods common to most segmentation tasks"""
 
     def get_file(self, file_id):
-
         file = dict()
 
         file["audio"] = str(self.audios[file_id], encoding="utf-8")
@@ -121,7 +122,6 @@ def setup(self, stage: Optional[str] = None):
             files_iter = self.protocol.train()
 
         for file_id, file in enumerate(files_iter):
-
             # gather metadata and update metadata_unique_values so that each metadatum
             # (e.g. source database or label) is represented by an integer.
             metadatum = dict()
@@ -142,7 +142,6 @@ def setup(self, stage: Optional[str] = None):
             # Different files may be annotated using a different set of classes
             # (e.g. one database for speech/music/noise, and another one for male/female/child)
             if isinstance(self.protocol, SegmentationProtocol):
-
                 if "classes" in file:
                     local_classes = file["classes"]
                 else:
@@ -191,7 +190,6 @@ def setup(self, stage: Optional[str] = None):
             # keep track of any other (integer or string) metadata provided by the protocol
             # (e.g. a "domain" key for domain-adversarial training)
             for key in remaining_metadata_keys:
-
                 value = file[key]
 
                 if isinstance(value, str):
@@ -233,7 +231,6 @@ def setup(self, stage: Optional[str] = None):
             # annotated regions and duration
             _annotated_duration = 0.0
             for segment in file["annotated"]:
-
                 # skip annotated regions that are shorter than training chunk duration
                 if segment.duration < duration:
                     continue
@@ -255,13 +252,11 @@ def setup(self, stage: Optional[str] = None):
 
             # annotations
             for segment, _, label in file["annotation"].itertracks(yield_label=True):
-
                 # "scope" is provided by speaker diarization protocols to indicate
                 # whether speaker labels are local to the file ('file'), consistent across
                 # all files in a database ('database'), or globally consistent ('global')
 
                 if "scope" in file:
-
                     # 0 = 'file'
                     # 1 = 'database'
                     # 2 = 'global'
@@ -276,7 +271,6 @@ def setup(self, stage: Optional[str] = None):
                     database_label_idx = global_label_idx = -1
 
                     if scope > 0:  # 'database' or 'global'
-
                         # update list of database-scope labels
                         if label not in database_unique_labels:
                             database_unique_labels.append(label)
@@ -285,7 +279,6 @@ def setup(self, stage: Optional[str] = None):
                         database_label_idx = database_unique_labels.index(label)
 
                     if scope > 1:  # 'global'
-
                         # update list of global-scope labels
                         if label not in unique_labels:
                             unique_labels.append(label)
@@ -381,7 +374,6 @@ def setup(self, stage: Optional[str] = None):
 
         # iterate over files in the validation subset
         for file_id in validation_file_ids:
-
             # get annotated regions in file
             annotated_regions = self.annotated_regions[
                 self.annotated_regions["file_id"] == file_id
@@ -389,7 +381,6 @@ def setup(self, stage: Optional[str] = None):
 
             # iterate over annotated regions
             for annotated_region in annotated_regions:
-
                 # number of chunks in annotated region
                 num_chunks = round(annotated_region["duration"] // duration)
 
@@ -401,6 +392,15 @@ def setup(self, stage: Optional[str] = None):
         dtype = [("file_id", "i"), ("start", "f"), ("duration", "f")]
         self.validation_chunks = np.array(validation_chunks, dtype=dtype)
 
+    @cached_property
+    def frames(self) -> SlidingWindow:
+        return self.model.output_frames
+
+    @cached_property
+    def num_frames_per_chunk(self) -> int:
+        batch_size, num_frames, num_classes = self.model.example_output().shape
+        return num_frames
+
     def default_metric(
         self,
     ) -> Union[Metric, Sequence[Metric], Dict[str, Metric]]:
@@ -450,13 +450,11 @@ def train__iter__helper(self, rng: random.Random, **filters):
         num_chunks_per_file = getattr(self, "num_chunks_per_file", 1)
 
         while True:
-
             # select one file at random (with probability proportional to its annotated duration)
             file_id = np.random.choice(file_ids, p=prob_annotated_duration)
 
             # generate `num_chunks_per_file` chunks from this file
             for _ in range(num_chunks_per_file):
-
                 # find indices of annotated regions in this file
                 annotated_region_indices = np.where(
                     self.annotated_regions["file_id"] == file_id
@@ -510,7 +508,6 @@ def train__iter__(self):
                 subchunks[product] = self.train__iter__helper(rng, **filters)
 
         while True:
-
             # select one subchunk generator at random (with uniform probability)
             # so that it is balanced on average
             if balance is not None:
@@ -686,7 +683,6 @@ def validation_step(self, batch, batch_idx: int):
 
         # plot each sample
         for sample_idx in range(num_samples):
-
             # find where in the grid it should be plotted
             row_idx = sample_idx // nrows
             col_idx = sample_idx % ncols
diff --git a/pyannote/audio/tasks/segmentation/multilabel.py b/pyannote/audio/tasks/segmentation/multilabel.py
index f27303e2a..70b1e1fc8 100644
--- a/pyannote/audio/tasks/segmentation/multilabel.py
+++ b/pyannote/audio/tasks/segmentation/multilabel.py
@@ -25,7 +25,7 @@
 import numpy as np
 import torch
 import torch.nn.functional as F
-from pyannote.core import Segment, SlidingWindow, SlidingWindowFeature
+from pyannote.core import Segment, SlidingWindowFeature
 from pyannote.database import Protocol
 from pyannote.database.protocol import SegmentationProtocol
 from torch_audiomentations.core.transforms_interface import BaseWaveformTransform
@@ -168,14 +168,6 @@ def prepare_chunk(self, file_id: int, start_time: float, duration: float):
 
         sample = dict()
         sample["X"], _ = self.model.audio.crop(file, chunk, duration=duration)
-
-        # TODO: this should be cached
-        # use model introspection to predict how many frames it will output
-        num_samples = sample["X"].shape[1]
-        num_frames, _ = self.model.introspection(num_samples)
-        resolution = duration / num_frames
-        frames = SlidingWindow(start=0.0, duration=resolution, step=resolution)
-
         # gather all annotations of current file
         annotations = self.annotations[self.annotations["file_id"] == file_id]
 
@@ -186,19 +178,19 @@ def prepare_chunk(self, file_id: int, start_time: float, duration: float):
 
         # discretize chunk annotations at model output resolution
         start = np.maximum(chunk_annotations["start"], chunk.start) - chunk.start
-        start_idx = np.floor(start / resolution).astype(int)
+        start_idx = np.floor(start / self.frames.step).astype(int)
         end = np.minimum(chunk_annotations["end"], chunk.end) - chunk.start
-        end_idx = np.ceil(end / resolution).astype(int)
+        end_idx = np.ceil(end / self.frames.step).astype(int)
 
         # frame-level targets (-1 for un-annotated classes)
-        y = -np.ones((num_frames, len(self.classes)), dtype=np.int8)
+        y = -np.ones((self.num_frames_per_chunk, len(self.classes)), dtype=np.int8)
         y[:, self.annotated_classes[file_id]] = 0
         for start, end, label in zip(
             start_idx, end_idx, chunk_annotations["global_label_idx"]
         ):
             y[start:end, label] = 1
 
-        sample["y"] = SlidingWindowFeature(y, frames, labels=self.classes)
+        sample["y"] = SlidingWindowFeature(y, self.frames, labels=self.classes)
 
         metadata = self.metadata[file_id]
         sample["meta"] = {key: metadata[key] for key in metadata.dtype.names}
diff --git a/pyannote/audio/tasks/segmentation/overlapped_speech_detection.py b/pyannote/audio/tasks/segmentation/overlapped_speech_detection.py
index 8e6551447..492190938 100644
--- a/pyannote/audio/tasks/segmentation/overlapped_speech_detection.py
+++ b/pyannote/audio/tasks/segmentation/overlapped_speech_detection.py
@@ -24,7 +24,7 @@
 from typing import Dict, Sequence, Text, Tuple, Union
 
 import numpy as np
-from pyannote.core import Segment, SlidingWindow, SlidingWindowFeature
+from pyannote.core import Segment, SlidingWindowFeature
 from pyannote.database import Protocol
 from torch_audiomentations.core.transforms_interface import BaseWaveformTransform
 from torchmetrics import Metric
@@ -162,13 +162,6 @@ def prepare_chunk(self, file_id: int, start_time: float, duration: float):
         sample = dict()
         sample["X"], _ = self.model.audio.crop(file, chunk, duration=duration)
 
-        # use model introspection to predict how many frames it will output
-        # TODO: this should be cached
-        num_samples = sample["X"].shape[1]
-        num_frames, _ = self.model.introspection(num_samples)
-        resolution = duration / num_frames
-        frames = SlidingWindow(start=0.0, duration=resolution, step=resolution)
-
         # gather all annotations of current file
         annotations = self.annotations[self.annotations["file_id"] == file_id]
 
@@ -179,17 +172,17 @@ def prepare_chunk(self, file_id: int, start_time: float, duration: float):
 
         # discretize chunk annotations at model output resolution
         start = np.maximum(chunk_annotations["start"], chunk.start) - chunk.start
-        start_idx = np.floor(start / resolution).astype(int)
+        start_idx = np.floor(start / self.frames.step).astype(int)
         end = np.minimum(chunk_annotations["end"], chunk.end) - chunk.start
-        end_idx = np.ceil(end / resolution).astype(int)
+        end_idx = np.ceil(end / self.frames.step).astype(int)
 
         # frame-level targets
-        y = np.zeros((num_frames, 1), dtype=np.uint8)
+        y = np.zeros((self.num_frames_per_chunk, 1), dtype=np.uint8)
         for start, end in zip(start_idx, end_idx):
             y[start:end, 0] += 1
         y = 1 * (y > 1)
 
-        sample["y"] = SlidingWindowFeature(y, frames, labels=["speech"])
+        sample["y"] = SlidingWindowFeature(y, self.frames, labels=["speech"])
 
         metadata = self.metadata[file_id]
         sample["meta"] = {key: metadata[key] for key in metadata.dtype.names}
diff --git a/pyannote/audio/tasks/segmentation/speaker_diarization.py b/pyannote/audio/tasks/segmentation/speaker_diarization.py
index 3ef0b1a17..dc3a33025 100644
--- a/pyannote/audio/tasks/segmentation/speaker_diarization.py
+++ b/pyannote/audio/tasks/segmentation/speaker_diarization.py
@@ -29,7 +29,7 @@
 import torch
 import torch.nn.functional
 from matplotlib import pyplot as plt
-from pyannote.core import Segment, SlidingWindow, SlidingWindowFeature
+from pyannote.core import Segment, SlidingWindowFeature
 from pyannote.database.protocol import SpeakerDiarizationProtocol
 from pyannote.database.protocol.protocol import Scope, Subset
 from pytorch_lightning.loggers import MLFlowLogger, TensorBoardLogger
@@ -327,13 +327,6 @@ def prepare_chunk(self, file_id: int, start_time: float, duration: float):
         sample = dict()
         sample["X"], _ = self.model.audio.crop(file, chunk, duration=duration)
 
-        # use model introspection to predict how many frames it will output
-        # TODO: this should be cached
-        num_samples = sample["X"].shape[1]
-        num_frames, _ = self.model.introspection(num_samples)
-        resolution = duration / num_frames
-        frames = SlidingWindow(start=0.0, duration=resolution, step=resolution)
-
         # gather all annotations of current file
         annotations = self.annotations[self.annotations["file_id"] == file_id]
 
@@ -344,9 +337,9 @@ def prepare_chunk(self, file_id: int, start_time: float, duration: float):
 
         # discretize chunk annotations at model output resolution
         start = np.maximum(chunk_annotations["start"], chunk.start) - chunk.start
-        start_idx = np.floor(start / resolution).astype(int)
+        start_idx = np.floor(start / self.frames.step).astype(int)
         end = np.minimum(chunk_annotations["end"], chunk.end) - chunk.start
-        end_idx = np.ceil(end / resolution).astype(int)
+        end_idx = np.ceil(end / self.frames.step).astype(int)
 
         # get list and number of labels for current scope
         labels = list(np.unique(chunk_annotations[label_scope_key]))
@@ -356,7 +349,7 @@ def prepare_chunk(self, file_id: int, start_time: float, duration: float):
             pass
 
         # initial frame-level targets
-        y = np.zeros((num_frames, num_labels), dtype=np.uint8)
+        y = np.zeros((self.num_frames_per_chunk, num_labels), dtype=np.uint8)
 
         # map labels to indices
         mapping = {label: idx for idx, label in enumerate(labels)}
@@ -367,7 +360,7 @@ def prepare_chunk(self, file_id: int, start_time: float, duration: float):
             mapped_label = mapping[label]
             y[start:end, mapped_label] = 1
 
-        sample["y"] = SlidingWindowFeature(y, frames, labels=labels)
+        sample["y"] = SlidingWindowFeature(y, self.frames, labels=labels)
 
         metadata = self.metadata[file_id]
         sample["meta"] = {key: metadata[key] for key in metadata.dtype.names}
@@ -565,11 +558,7 @@ def training_step(self, batch, batch_idx: int):
         weight[:, num_frames - warm_up_right :] = 0.0
 
         if self.specifications.powerset:
-            powerset = torch.nn.functional.one_hot(
-                torch.argmax(prediction, dim=-1),
-                self.model.powerset.num_powerset_classes,
-            ).float()
-            multilabel = self.model.powerset.to_multilabel(powerset)
+            multilabel = self.model.powerset.to_multilabel(prediction)
             permutated_target, _ = permutate(multilabel, target)
             permutated_target_powerset = self.model.powerset.to_powerset(
                 permutated_target.float()
@@ -698,11 +687,7 @@ def validation_step(self, batch, batch_idx: int):
         weight[:, num_frames - warm_up_right :] = 0.0
 
         if self.specifications.powerset:
-            powerset = torch.nn.functional.one_hot(
-                torch.argmax(prediction, dim=-1),
-                self.model.powerset.num_powerset_classes,
-            ).float()
-            multilabel = self.model.powerset.to_multilabel(powerset)
+            multilabel = self.model.powerset.to_multilabel(prediction)
             permutated_target, _ = permutate(multilabel, target)
 
             # FIXME: handle case where target have too many speakers?
diff --git a/pyannote/audio/tasks/segmentation/voice_activity_detection.py b/pyannote/audio/tasks/segmentation/voice_activity_detection.py
index 4851b7455..d740427f0 100644
--- a/pyannote/audio/tasks/segmentation/voice_activity_detection.py
+++ b/pyannote/audio/tasks/segmentation/voice_activity_detection.py
@@ -23,7 +23,7 @@
 from typing import Dict, Sequence, Text, Tuple, Union
 
 import numpy as np
-from pyannote.core import Segment, SlidingWindow, SlidingWindowFeature
+from pyannote.core import Segment, SlidingWindowFeature
 from pyannote.database import Protocol
 from torch_audiomentations.core.transforms_interface import BaseWaveformTransform
 from torchmetrics import Metric
@@ -144,13 +144,6 @@ def prepare_chunk(self, file_id: int, start_time: float, duration: float):
         sample = dict()
         sample["X"], _ = self.model.audio.crop(file, chunk, duration=duration)
 
-        # use model introspection to predict how many frames it will output
-        # TODO: this should be cached
-        num_samples = sample["X"].shape[1]
-        num_frames, _ = self.model.introspection(num_samples)
-        resolution = duration / num_frames
-        frames = SlidingWindow(start=0.0, duration=resolution, step=resolution)
-
         # gather all annotations of current file
         annotations = self.annotations[self.annotations["file_id"] == file_id]
 
@@ -161,16 +154,16 @@ def prepare_chunk(self, file_id: int, start_time: float, duration: float):
 
         # discretize chunk annotations at model output resolution
         start = np.maximum(chunk_annotations["start"], chunk.start) - chunk.start
-        start_idx = np.floor(start / resolution).astype(int)
+        start_idx = np.floor(start / self.frames.step).astype(int)
         end = np.minimum(chunk_annotations["end"], chunk.end) - chunk.start
-        end_idx = np.ceil(end / resolution).astype(int)
+        end_idx = np.ceil(end / self.frames.step).astype(int)
 
         # frame-level targets
-        y = np.zeros((num_frames, 1), dtype=np.uint8)
+        y = np.zeros((self.num_frames_per_chunk, 1), dtype=np.uint8)
         for start, end in zip(start_idx, end_idx):
             y[start:end, 0] = 1
 
-        sample["y"] = SlidingWindowFeature(y, frames, labels=["speech"])
+        sample["y"] = SlidingWindowFeature(y, self.frames, labels=["speech"])
 
         metadata = self.metadata[file_id]
         sample["meta"] = {key: metadata[key] for key in metadata.dtype.names}
diff --git a/pyannote/audio/utils/multi_task.py b/pyannote/audio/utils/multi_task.py
new file mode 100644
index 000000000..3886a0eeb
--- /dev/null
+++ b/pyannote/audio/utils/multi_task.py
@@ -0,0 +1,59 @@
+# MIT License
+#
+# Copyright (c) 2023- CNRS
+#
+# Permission is hereby granted, free of charge, to any person obtaining a copy
+# of this software and associated documentation files (the "Software"), to deal
+# in the Software without restriction, including without limitation the rights
+# to use, copy, modify, merge, publish, distribute, sublicense, and/or sell
+# copies of the Software, and to permit persons to whom the Software is
+# furnished to do so, subject to the following conditions:
+#
+# The above copyright notice and this permission notice shall be included in all
+# copies or substantial portions of the Software.
+#
+# THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
+# IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
+# FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE
+# AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
+# LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM,
+# OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE
+# SOFTWARE.
+
+
+from typing import Any, Callable, Tuple, Union
+
+from pyannote.audio.core.model import Specifications
+
+
+def map_with_specifications(
+    specifications: Union[Specifications, Tuple[Specifications]],
+    func: Callable,
+    *iterables,
+) -> Union[Any, Tuple[Any]]:
+    """Compute the function using arguments from each of the iterables
+
+    Returns a tuple if provided `specifications` is a tuple,
+    otherwise returns the function return value.
+
+    Parameters
+    ----------
+    specifications : (tuple of) Specifications
+        Specifications or tuple of specifications
+    func : callable
+        Function called for each specification with
+        `func(*iterables[i], specifications=specifications[i])`
+    *iterables :
+        List of iterables with same length as `specifications`.
+
+    Returns
+    -------
+    output : (tuple of) `func` return value(s)
+    """
+
+    if isinstance(specifications, Specifications):
+        return func(*iterables, specifications=specifications)
+
+    return tuple(
+        func(*i, specifications=s) for s, *i in zip(specifications, *iterables)
+    )
diff --git a/pyannote/audio/utils/powerset.py b/pyannote/audio/utils/powerset.py
index 215cb7946..0f5cfb5bc 100644
--- a/pyannote/audio/utils/powerset.py
+++ b/pyannote/audio/utils/powerset.py
@@ -85,25 +85,29 @@ def build_cardinality(self) -> torch.Tensor:
         return cardinality
 
     def to_multilabel(self, powerset: torch.Tensor) -> torch.Tensor:
-        """Convert (hard) predictions from powerset to multi-label
+        """Convert predictions from (soft) powerset to (hard) multi-label
 
         Parameter
         ---------
         powerset : (batch_size, num_frames, num_powerset_classes) torch.Tensor
-            Hard predictions in "powerset" space.
+            Soft predictions in "powerset" space.
 
         Returns
         -------
         multi_label : (batch_size, num_frames, num_classes) torch.Tensor
             Hard predictions in "multi-label" space.
-
-        Note
-        ----
-        This method will not complain if `powerset` is provided a soft predictions
-        (e.g. the output of a softmax-ed classifier). However, in that particular
-        case, the resulting soft multi-label output will not make much sense.
         """
-        return torch.matmul(powerset, self.mapping)
+
+        hard_powerset = torch.nn.functional.one_hot(
+            torch.argmax(powerset, dim=-1),
+            self.num_powerset_classes,
+        ).float()
+
+        return torch.matmul(hard_powerset, self.mapping)
+
+    def forward(self, powerset: torch.Tensor) -> torch.Tensor:
+        """Alias for `to_multilabel`"""
+        return self.to_multilabel(powerset)
 
     def to_powerset(self, multilabel: torch.Tensor) -> torch.Tensor:
         """Convert (hard) predictions from multi-label to powerset
diff --git a/pyannote/audio/utils/preview.py b/pyannote/audio/utils/preview.py
index ac085b10f..0464b165f 100644
--- a/pyannote/audio/utils/preview.py
+++ b/pyannote/audio/utils/preview.py
@@ -196,7 +196,6 @@ def make_audio_frame(T: float):
     ylim = (-0.1, 1.1)
 
     def make_frame(T: float):
-
         # make sure all subsequent calls to notebook.plot_*
         # will only display the region center on current time
         t = T + segment.start
@@ -215,7 +214,6 @@ def make_frame(T: float):
         ax_wav.set_ylabel("waveform")
 
         for (name, view), ax_view in zip(views.items(), ax_views):
-
             ax_view.clear()
 
             if isinstance(view, Timeline):
@@ -258,7 +256,7 @@ def make_frame(T: float):
     return IPythonVideo(video_path, embed=True)
 
 
-def preview_training_samples(
+def BROKEN_preview_training_samples(
     model: Model,
     blank: float = 1.0,
     video_fps: int = 5,

From c12077c2adb220a31dd6dfeb685ba3bcdb57878b Mon Sep 17 00:00:00 2001
From: =?UTF-8?q?Herv=C3=A9=20BREDIN?= 
Date: Wed, 24 May 2023 16:14:39 +0200
Subject: [PATCH 082/112] chore(task): remove `stage` argument from Task.setup

---
 pyannote/audio/core/task.py                          |  2 +-
 pyannote/audio/tasks/embedding/mixins.py             |  4 ++--
 pyannote/audio/tasks/segmentation/mixins.py          | 12 +++---------
 pyannote/audio/tasks/segmentation/multilabel.py      |  4 ++--
 .../audio/tasks/segmentation/speaker_diarization.py  |  6 +++---
 5 files changed, 11 insertions(+), 17 deletions(-)

diff --git a/pyannote/audio/core/task.py b/pyannote/audio/core/task.py
index e8baee29f..de441590b 100644
--- a/pyannote/audio/core/task.py
+++ b/pyannote/audio/core/task.py
@@ -268,7 +268,7 @@ def prepare_data(self):
         """
         pass
 
-    def setup(self, stage: Optional[str] = None):
+    def setup(self):
         """Called at the beginning of training at the very beginning of Model.setup(stage="fit")
 
         Notes
diff --git a/pyannote/audio/tasks/embedding/mixins.py b/pyannote/audio/tasks/embedding/mixins.py
index b02ae7f71..d83009802 100644
--- a/pyannote/audio/tasks/embedding/mixins.py
+++ b/pyannote/audio/tasks/embedding/mixins.py
@@ -21,7 +21,7 @@
 # SOFTWARE.
 
 import math
-from typing import Dict, Optional, Sequence, Union
+from typing import Dict, Sequence, Union
 
 import torch
 import torch.nn.functional as F
@@ -75,7 +75,7 @@ def batch_size(self) -> int:
     def batch_size(self, batch_size: int):
         self.batch_size_ = batch_size
 
-    def setup(self, stage: Optional[str] = None):
+    def setup(self):
         # loop over the training set, remove annotated regions shorter than
         # chunk duration, and keep track of the reference annotations, per class.
 
diff --git a/pyannote/audio/tasks/segmentation/mixins.py b/pyannote/audio/tasks/segmentation/mixins.py
index 8dbb04488..016d2032d 100644
--- a/pyannote/audio/tasks/segmentation/mixins.py
+++ b/pyannote/audio/tasks/segmentation/mixins.py
@@ -26,7 +26,7 @@
 import warnings
 from collections import defaultdict
 from functools import cached_property
-from typing import Dict, Optional, Sequence, Union
+from typing import Dict, Sequence, Union
 
 import matplotlib.pyplot as plt
 import numpy as np
@@ -73,14 +73,8 @@ def get_file(self, file_id):
 
         return file
 
-    def setup(self, stage: Optional[str] = None):
-        """Setup method
-
-        Parameters
-        ----------
-        stage : {'fit', 'validate', 'test'}, optional
-            Setup stage. Defaults to 'fit'.
-        """
+    def setup(self):
+        """Setup"""
 
         # duration of training chunks
         # TODO: handle variable duration case
diff --git a/pyannote/audio/tasks/segmentation/multilabel.py b/pyannote/audio/tasks/segmentation/multilabel.py
index 70b1e1fc8..3afdd6bda 100644
--- a/pyannote/audio/tasks/segmentation/multilabel.py
+++ b/pyannote/audio/tasks/segmentation/multilabel.py
@@ -119,8 +119,8 @@ def __init__(
         # classes should be detected. therefore, we postpone the definition of
         # specifications to setup()
 
-    def setup(self, stage: Optional[str] = None):
-        super().setup(stage=stage)
+    def setup(self):
+        super().setup()
 
         self.specifications = Specifications(
             classes=self.classes,
diff --git a/pyannote/audio/tasks/segmentation/speaker_diarization.py b/pyannote/audio/tasks/segmentation/speaker_diarization.py
index dc3a33025..b5ffe3da1 100644
--- a/pyannote/audio/tasks/segmentation/speaker_diarization.py
+++ b/pyannote/audio/tasks/segmentation/speaker_diarization.py
@@ -23,7 +23,7 @@
 import math
 import warnings
 from collections import Counter
-from typing import Dict, Literal, Optional, Sequence, Text, Tuple, Union
+from typing import Dict, Literal, Sequence, Text, Tuple, Union
 
 import numpy as np
 import torch
@@ -186,8 +186,8 @@ def __init__(
         self.weight = weight
         self.vad_loss = vad_loss
 
-    def setup(self, stage: Optional[str] = None):
-        super().setup(stage=stage)
+    def setup(self):
+        super().setup()
 
         # estimate maximum number of speakers per chunk when not provided
         if self.max_speakers_per_chunk is None:

From d19a728a0c157491a50eedc31035957d75ef3d31 Mon Sep 17 00:00:00 2001
From: =?UTF-8?q?Herv=C3=A9=20BREDIN?= 
Date: Wed, 24 May 2023 17:17:08 +0200
Subject: [PATCH 083/112] fix(test): force test training to run on CPU

---
 tests/inference_test.py                     |   9 +-
 tests/test_train.py                         |  44 ++++-----
 tutorials/add_your_own_task.ipynb           | 100 ++++++++++----------
 tutorials/overlapped_speech_detection.ipynb |  18 +++-
 4 files changed, 92 insertions(+), 79 deletions(-)

diff --git a/tests/inference_test.py b/tests/inference_test.py
index 807f94cc1..bd5040394 100644
--- a/tests/inference_test.py
+++ b/tests/inference_test.py
@@ -1,13 +1,13 @@
 import numpy as np
 import pytest
 import pytorch_lightning as pl
+from pyannote.core import SlidingWindowFeature
+from pyannote.database import FileFinder, get_protocol
 
 from pyannote.audio import Inference, Model
 from pyannote.audio.core.task import Resolution
 from pyannote.audio.models.segmentation.debug import SimpleSegmentationModel
 from pyannote.audio.tasks import VoiceActivityDetection
-from pyannote.core import SlidingWindowFeature
-from pyannote.database import FileFinder, get_protocol
 
 HF_SAMPLE_MODEL_ID = "pyannote/TestModelForContinuousIntegration"
 
@@ -29,8 +29,8 @@ def trained():
     )
     vad = VoiceActivityDetection(protocol, duration=2.0, batch_size=16, num_workers=4)
     model = SimpleSegmentationModel(task=vad)
-    trainer = pl.Trainer(fast_dev_run=True)
-    trainer.fit(model, vad)
+    trainer = pl.Trainer(fast_dev_run=True, accelerator="cpu")
+    trainer.fit(model)
     return protocol, model
 
 
@@ -91,7 +91,6 @@ def test_on_file_path(trained):
 
 
 def test_skip_aggregation(pretrained_model, dev_file):
-
     inference = Inference(pretrained_model, skip_aggregation=True)
     scores = inference(dev_file)
     assert len(scores.data.shape) == 3
diff --git a/tests/test_train.py b/tests/test_train.py
index 79e7f071a..7a7bfe338 100644
--- a/tests/test_train.py
+++ b/tests/test_train.py
@@ -20,125 +20,119 @@ def protocol():
 def test_train_segmentation(protocol):
     segmentation = SpeakerDiarization(protocol)
     model = SimpleSegmentationModel(task=segmentation)
-    trainer = Trainer(fast_dev_run=True)
+    trainer = Trainer(fast_dev_run=True, accelerator="cpu")
     trainer.fit(model)
 
 
 def test_train_voice_activity_detection(protocol):
     voice_activity_detection = VoiceActivityDetection(protocol)
     model = SimpleSegmentationModel(task=voice_activity_detection)
-    trainer = Trainer(fast_dev_run=True)
+    trainer = Trainer(fast_dev_run=True, accelerator="cpu")
     trainer.fit(model)
 
 
 def test_train_overlapped_speech_detection(protocol):
     overlapped_speech_detection = OverlappedSpeechDetection(protocol)
     model = SimpleSegmentationModel(task=overlapped_speech_detection)
-    trainer = Trainer(fast_dev_run=True)
+    trainer = Trainer(fast_dev_run=True, accelerator="cpu")
     trainer.fit(model)
 
 
 def test_finetune_with_task_that_does_not_need_setup_for_specs(protocol):
     voice_activity_detection = VoiceActivityDetection(protocol)
     model = SimpleSegmentationModel(task=voice_activity_detection)
-    trainer = Trainer(fast_dev_run=True)
+    trainer = Trainer(fast_dev_run=True, accelerator="cpu")
     trainer.fit(model)
 
     voice_activity_detection = VoiceActivityDetection(protocol)
     model.task = voice_activity_detection
-    trainer = Trainer(fast_dev_run=True)
+    trainer = Trainer(fast_dev_run=True, accelerator="cpu")
     trainer.fit(model)
 
 
 def test_finetune_with_task_that_needs_setup_for_specs(protocol):
     segmentation = SpeakerDiarization(protocol)
     model = SimpleSegmentationModel(task=segmentation)
-    trainer = Trainer(fast_dev_run=True)
+    trainer = Trainer(fast_dev_run=True, accelerator="cpu")
     trainer.fit(model)
 
     segmentation = SpeakerDiarization(protocol)
     model.task = segmentation
-    trainer = Trainer(fast_dev_run=True)
+    trainer = Trainer(fast_dev_run=True, accelerator="cpu")
     trainer.fit(model)
 
 
 def test_transfer_with_task_that_does_not_need_setup_for_specs(protocol):
-
     segmentation = SpeakerDiarization(protocol)
     model = SimpleSegmentationModel(task=segmentation)
-    trainer = Trainer(fast_dev_run=True)
+    trainer = Trainer(fast_dev_run=True, accelerator="cpu")
     trainer.fit(model)
 
     voice_activity_detection = VoiceActivityDetection(protocol)
     model.task = voice_activity_detection
-    trainer = Trainer(fast_dev_run=True)
+    trainer = Trainer(fast_dev_run=True, accelerator="cpu")
     trainer.fit(model)
 
 
 def test_transfer_with_task_that_needs_setup_for_specs(protocol):
-
     voice_activity_detection = VoiceActivityDetection(protocol)
     model = SimpleSegmentationModel(task=voice_activity_detection)
-    trainer = Trainer(fast_dev_run=True)
+    trainer = Trainer(fast_dev_run=True, accelerator="cpu")
     trainer.fit(model)
 
     segmentation = SpeakerDiarization(protocol)
     model.task = segmentation
-    trainer = Trainer(fast_dev_run=True)
+    trainer = Trainer(fast_dev_run=True, accelerator="cpu")
     trainer.fit(model)
 
 
 def test_finetune_freeze_with_task_that_needs_setup_for_specs(protocol):
-
     segmentation = SpeakerDiarization(protocol)
     model = SimpleSegmentationModel(task=segmentation)
-    trainer = Trainer(fast_dev_run=True)
+    trainer = Trainer(fast_dev_run=True, accelerator="cpu")
     trainer.fit(model)
 
     segmentation = SpeakerDiarization(protocol)
     model.task = segmentation
     model.freeze_up_to("mfcc")
-    trainer = Trainer(fast_dev_run=True)
+    trainer = Trainer(fast_dev_run=True, accelerator="cpu")
     trainer.fit(model)
 
 
 def test_finetune_freeze_with_task_that_does_not_need_setup_for_specs(protocol):
-
     vad = VoiceActivityDetection(protocol)
     model = SimpleSegmentationModel(task=vad)
-    trainer = Trainer(fast_dev_run=True)
+    trainer = Trainer(fast_dev_run=True, accelerator="cpu")
     trainer.fit(model)
 
     vad = VoiceActivityDetection(protocol)
     model.task = vad
     model.freeze_up_to("mfcc")
-    trainer = Trainer(fast_dev_run=True)
+    trainer = Trainer(fast_dev_run=True, accelerator="cpu")
     trainer.fit(model)
 
 
 def test_transfer_freeze_with_task_that_does_not_need_setup_for_specs(protocol):
-
     segmentation = SpeakerDiarization(protocol)
     model = SimpleSegmentationModel(task=segmentation)
-    trainer = Trainer(fast_dev_run=True)
+    trainer = Trainer(fast_dev_run=True, accelerator="cpu")
     trainer.fit(model)
 
     voice_activity_detection = VoiceActivityDetection(protocol)
     model.task = voice_activity_detection
     model.freeze_up_to("mfcc")
-    trainer = Trainer(fast_dev_run=True)
+    trainer = Trainer(fast_dev_run=True, accelerator="cpu")
     trainer.fit(model)
 
 
 def test_transfer_freeze_with_task_that_needs_setup_for_specs(protocol):
-
     voice_activity_detection = VoiceActivityDetection(protocol)
     model = SimpleSegmentationModel(task=voice_activity_detection)
-    trainer = Trainer(fast_dev_run=True)
+    trainer = Trainer(fast_dev_run=True, accelerator="cpu")
     trainer.fit(model)
 
     segmentation = SpeakerDiarization(protocol)
     model.task = segmentation
     model.freeze_up_to("mfcc")
-    trainer = Trainer(fast_dev_run=True)
+    trainer = Trainer(fast_dev_run=True, accelerator="cpu")
     trainer.fit(model)
diff --git a/tutorials/add_your_own_task.ipynb b/tutorials/add_your_own_task.ipynb
index b2053f459..251846957 100644
--- a/tutorials/add_your_own_task.ipynb
+++ b/tutorials/add_your_own_task.ipynb
@@ -1,6 +1,7 @@
 {
  "cells": [
   {
+   "attachments": {},
    "cell_type": "markdown",
    "metadata": {},
    "source": [
@@ -32,6 +33,7 @@
    ]
   },
   {
+   "attachments": {},
    "cell_type": "markdown",
    "metadata": {},
    "source": [
@@ -48,6 +50,7 @@
    ]
   },
   {
+   "attachments": {},
    "cell_type": "markdown",
    "metadata": {},
    "source": [
@@ -57,6 +60,7 @@
    ]
   },
   {
+   "attachments": {},
    "cell_type": "markdown",
    "metadata": {},
    "source": [
@@ -82,6 +86,7 @@
    ]
   },
   {
+   "attachments": {},
    "cell_type": "markdown",
    "metadata": {},
    "source": [
@@ -125,6 +130,7 @@
    ]
   },
   {
+   "attachments": {},
    "cell_type": "markdown",
    "metadata": {},
    "source": [
@@ -176,54 +182,52 @@
     "            augmentation=augmentation,\n",
     "        )\n",
     "\n",
-    "    def setup(self, stage=None):\n",
-    "\n",
-    "        if stage == \"fit\":\n",
-    "\n",
-    "            # load metadata for training subset\n",
-    "            self.train_metadata_ = list()\n",
-    "            for training_file in self.protocol.train():\n",
-    "                self.training_metadata_.append({\n",
-    "                    # path to audio file (str)\n",
-    "                    \"audio\": training_file[\"audio\"],\n",
-    "                    # duration of audio file (float)\n",
-    "                    \"duration\": training_file[\"duration\"],\n",
-    "                    # reference annotation (pyannote.core.Annotation)\n",
-    "                    \"annotation\": training_file[\"annotation\"],\n",
-    "                })\n",
-    "\n",
-    "            # gather the list of classes\n",
-    "            classes = set()\n",
-    "            for training_file in self.train_metadata_:\n",
-    "                classes.update(training_file[\"reference\"].labels())\n",
-    "            classes = sorted(classes)\n",
-    "\n",
-    "            # specify the addressed problem\n",
-    "            self.specifications = Specifications(\n",
-    "                # it is a multi-label classification problem\n",
-    "                problem=Problem.MULTI_LABEL_CLASSIFICATION,\n",
-    "                # we expect the model to output one prediction \n",
-    "                # for the whole chunk\n",
-    "                resolution=Resolution.CHUNK,\n",
-    "                # the model will ingest chunks with that duration (in seconds)\n",
-    "                duration=self.duration,\n",
-    "                # human-readable names of classes\n",
-    "                classes=classes)\n",
-    "\n",
-    "            # `has_validation` is True iff protocol defines a development set\n",
-    "            if not self.has_validation:\n",
-    "                return\n",
-    "\n",
-    "            # load metadata for validation subset\n",
-    "            self.validation_metadata_ = list()\n",
-    "            for validation_file in self.protocol.development():\n",
-    "                self.validation_metadata_.append({\n",
-    "                    \"audio\": validation_file[\"audio\"],\n",
-    "                    \"num_samples\": math.floor(validation_file[\"duration\"] / self.duration),\n",
-    "                    \"annotation\": validation_file[\"annotation\"],\n",
-    "                })\n",
-    "            \n",
-    "            \n",
+    "    def setup(self):\n",
+    "\n",
+    "        # load metadata for training subset\n",
+    "        self.train_metadata_ = list()\n",
+    "        for training_file in self.protocol.train():\n",
+    "            self.training_metadata_.append({\n",
+    "                # path to audio file (str)\n",
+    "                \"audio\": training_file[\"audio\"],\n",
+    "                # duration of audio file (float)\n",
+    "                \"duration\": training_file[\"duration\"],\n",
+    "                # reference annotation (pyannote.core.Annotation)\n",
+    "                \"annotation\": training_file[\"annotation\"],\n",
+    "            })\n",
+    "\n",
+    "        # gather the list of classes\n",
+    "        classes = set()\n",
+    "        for training_file in self.train_metadata_:\n",
+    "            classes.update(training_file[\"reference\"].labels())\n",
+    "        classes = sorted(classes)\n",
+    "\n",
+    "        # specify the addressed problem\n",
+    "        self.specifications = Specifications(\n",
+    "            # it is a multi-label classification problem\n",
+    "            problem=Problem.MULTI_LABEL_CLASSIFICATION,\n",
+    "            # we expect the model to output one prediction \n",
+    "            # for the whole chunk\n",
+    "            resolution=Resolution.CHUNK,\n",
+    "            # the model will ingest chunks with that duration (in seconds)\n",
+    "            duration=self.duration,\n",
+    "            # human-readable names of classes\n",
+    "            classes=classes)\n",
+    "\n",
+    "        # `has_validation` is True iff protocol defines a development set\n",
+    "        if not self.has_validation:\n",
+    "            return\n",
+    "\n",
+    "        # load metadata for validation subset\n",
+    "        self.validation_metadata_ = list()\n",
+    "        for validation_file in self.protocol.development():\n",
+    "            self.validation_metadata_.append({\n",
+    "                \"audio\": validation_file[\"audio\"],\n",
+    "                \"num_samples\": math.floor(validation_file[\"duration\"] / self.duration),\n",
+    "                \"annotation\": validation_file[\"annotation\"],\n",
+    "            })\n",
+    "        \n",
+    "        \n",
     "\n",
     "    def train__iter__(self):\n",
     "        # this method generates training samples, one at a time, \"ad infinitum\". each worker \n",
diff --git a/tutorials/overlapped_speech_detection.ipynb b/tutorials/overlapped_speech_detection.ipynb
index 78c6372cb..1ad5d4090 100644
--- a/tutorials/overlapped_speech_detection.ipynb
+++ b/tutorials/overlapped_speech_detection.ipynb
@@ -20,6 +20,7 @@
    ]
   },
   {
+   "attachments": {},
    "cell_type": "markdown",
    "metadata": {},
    "source": [
@@ -39,6 +40,7 @@
    ]
   },
   {
+   "attachments": {},
    "cell_type": "markdown",
    "metadata": {},
    "source": [
@@ -49,6 +51,7 @@
    ]
   },
   {
+   "attachments": {},
    "cell_type": "markdown",
    "metadata": {},
    "source": [
@@ -84,6 +87,7 @@
    ]
   },
   {
+   "attachments": {},
    "cell_type": "markdown",
    "metadata": {},
    "source": [
@@ -103,6 +107,7 @@
    ]
   },
   {
+   "attachments": {},
    "cell_type": "markdown",
    "metadata": {},
    "source": [
@@ -110,6 +115,7 @@
    ]
   },
   {
+   "attachments": {},
    "cell_type": "markdown",
    "metadata": {},
    "source": [
@@ -130,6 +136,7 @@
    ]
   },
   {
+   "attachments": {},
    "cell_type": "markdown",
    "metadata": {},
    "source": [
@@ -147,6 +154,7 @@
    ]
   },
   {
+   "attachments": {},
    "cell_type": "markdown",
    "metadata": {},
    "source": [
@@ -161,10 +169,11 @@
    "source": [
     "import pytorch_lightning as pl\n",
     "trainer = pl.Trainer(max_epochs=10)\n",
-    "trainer.fit(model, osd)"
+    "trainer.fit(model)"
    ]
   },
   {
+   "attachments": {},
    "cell_type": "markdown",
    "metadata": {},
    "source": [
@@ -185,6 +194,7 @@
    ]
   },
   {
+   "attachments": {},
    "cell_type": "markdown",
    "metadata": {},
    "source": [
@@ -212,6 +222,7 @@
    ]
   },
   {
+   "attachments": {},
    "cell_type": "markdown",
    "metadata": {},
    "source": [
@@ -219,6 +230,7 @@
    ]
   },
   {
+   "attachments": {},
    "cell_type": "markdown",
    "metadata": {},
    "source": [
@@ -242,6 +254,7 @@
    ]
   },
   {
+   "attachments": {},
    "cell_type": "markdown",
    "metadata": {},
    "source": [
@@ -258,6 +271,7 @@
    ]
   },
   {
+   "attachments": {},
    "cell_type": "markdown",
    "metadata": {},
    "source": [
@@ -265,6 +279,7 @@
    ]
   },
   {
+   "attachments": {},
    "cell_type": "markdown",
    "metadata": {},
    "source": [
@@ -297,6 +312,7 @@
    ]
   },
   {
+   "attachments": {},
    "cell_type": "markdown",
    "metadata": {},
    "source": [

From 7ea9c9ac72e07f6afc3a103256e0fe7d640adffc Mon Sep 17 00:00:00 2001
From: =?UTF-8?q?Herv=C3=A9=20BREDIN?= 
Date: Wed, 24 May 2023 17:24:31 +0200
Subject: [PATCH 084/112] fix(train): prevent metadata preparation to happen
 twice

cc @clement-pages
---
 CHANGELOG.md                             |  1 +
 pyannote/audio/core/model.py             |  5 +++--
 pyannote/audio/core/task.py              | 28 ++++++++++++++++++++++--
 pyannote/audio/tasks/embedding/mixins.py |  3 ---
 4 files changed, 30 insertions(+), 7 deletions(-)

diff --git a/CHANGELOG.md b/CHANGELOG.md
index 79a2e93ab..64eaea2ce 100644
--- a/CHANGELOG.md
+++ b/CHANGELOG.md
@@ -41,6 +41,7 @@
 
   - fix(pipeline): fix support for IOBase audio
   - fix(pipeline): fix corner case with no speaker
+  - fix(train): prevent metadata preparation to happen twice
 
 ### Dependencies
 
diff --git a/pyannote/audio/core/model.py b/pyannote/audio/core/model.py
index 199dcfb24..2286f010f 100644
--- a/pyannote/audio/core/model.py
+++ b/pyannote/audio/core/model.py
@@ -101,8 +101,8 @@ def task(self) -> Task:
 
     @task.setter
     def task(self, task: Task):
-        self._task = task
         del self.specifications
+        self._task = task
 
     def build(self):
         # use this method to add task-dependent layers to the model
@@ -225,7 +225,7 @@ def __output_dimension(example_output: torch.Tensor, **kwargs) -> int:
 
     def setup(self, stage=None):
         if stage == "fit":
-            self.task.setup()
+            self.task.setup_metadata()
 
         # list of layers before adding task-dependent layers
         before = set((name, id(module)) for name, module in self.named_modules())
@@ -311,6 +311,7 @@ def on_load_checkpoint(self, checkpoint: Dict[str, Any]):
 
         self.specifications = checkpoint["pyannote.audio"]["specifications"]
 
+        # add task-dependent (e.g. final classifier) layers
         self.setup()
 
     def forward(
diff --git a/pyannote/audio/core/task.py b/pyannote/audio/core/task.py
index de441590b..b7a626bd9 100644
--- a/pyannote/audio/core/task.py
+++ b/pyannote/audio/core/task.py
@@ -268,7 +268,28 @@ def prepare_data(self):
         """
         pass
 
-    def setup(self):
+    @property
+    def specifications(self) -> Union[Specifications, Tuple[Specifications]]:
+        # setup metadata on-demand the first time specifications are requested and missing
+        if not hasattr(self, "_specifications"):
+            self.setup_metadata()
+        return self._specifications
+
+    @specifications.setter
+    def specifications(
+        self, specifications: Union[Specifications, Tuple[Specifications]]
+    ):
+        self._specifications = specifications
+
+    @property
+    def has_setup_metadata(self):
+        return getattr(self, "_has_setup_metadata", False)
+
+    @has_setup_metadata.setter
+    def has_setup_metadata(self, value: bool):
+        self._has_setup_metadata = value
+
+    def setup_metadata(self):
         """Called at the beginning of training at the very beginning of Model.setup(stage="fit")
 
         Notes
@@ -278,7 +299,10 @@ def setup(self):
         If `specifications` attribute has not been set in `__init__`,
         `setup` is your last chance to set it.
         """
-        pass
+
+        if not self.has_setup_metadata:
+            self.setup()
+            self.has_setup_metadata = True
 
     def setup_loss_func(self):
         pass
diff --git a/pyannote/audio/tasks/embedding/mixins.py b/pyannote/audio/tasks/embedding/mixins.py
index d83009802..4bc51c9b5 100644
--- a/pyannote/audio/tasks/embedding/mixins.py
+++ b/pyannote/audio/tasks/embedding/mixins.py
@@ -79,9 +79,6 @@ def setup(self):
         # loop over the training set, remove annotated regions shorter than
         # chunk duration, and keep track of the reference annotations, per class.
 
-        # FIXME: it looks like this time consuming step is called multiple times.
-        # it should not be...
-
         self._train = dict()
 
         desc = f"Loading {self.protocol.name} training labels"

From 93ab70a33c228fd1bf8a50321ae8ae8b1cd8f0dd Mon Sep 17 00:00:00 2001
From: =?UTF-8?q?Herv=C3=A9=20BREDIN?= 
Date: Wed, 24 May 2023 22:22:07 +0200
Subject: [PATCH 085/112] fix: tentative fix for CUDA error

---
 CHANGELOG.md                                  |  4 +-
 pyannote/audio/core/inference.py              |  4 +-
 pyannote/audio/core/model.py                  | 70 +++++++++----------
 .../pipelines/overlapped_speech_detection.py  |  2 +-
 pyannote/audio/pipelines/resegmentation.py    |  2 +-
 .../audio/pipelines/speaker_diarization.py    |  2 +-
 .../audio/pipelines/speaker_verification.py   |  2 +-
 pyannote/audio/pipelines/utils/oracle.py      |  2 +-
 pyannote/audio/tasks/segmentation/mixins.py   | 11 ---
 .../audio/tasks/segmentation/multilabel.py    | 12 ++--
 .../overlapped_speech_detection.py            | 10 +--
 .../tasks/segmentation/speaker_diarization.py | 10 +--
 .../segmentation/voice_activity_detection.py  | 10 +--
 13 files changed, 68 insertions(+), 73 deletions(-)

diff --git a/CHANGELOG.md b/CHANGELOG.md
index 64eaea2ce..66a5a7f69 100644
--- a/CHANGELOG.md
+++ b/CHANGELOG.md
@@ -20,8 +20,8 @@
   - BREAKING(model): get rid of (flaky) `Model.introspection`
     If, for some weird reason, you wrote some custom code based on that, you should instead rely on:
     * `Model.example_output(duration=...)` to get example output(s)
-    * `Model.output_frames` to get output frame resolution(s)
-    * `Model.output_dimension` to get output dimension(s)
+    * `Model.example_output.frames` to get output frame resolution(s)
+    * `Model.example_output.dimension` to get output dimension(s)
 
 
 ### Features and improvements
diff --git a/pyannote/audio/core/inference.py b/pyannote/audio/core/inference.py
index 98f72f6e9..a4847b83e 100644
--- a/pyannote/audio/core/inference.py
+++ b/pyannote/audio/core/inference.py
@@ -256,7 +256,7 @@ def slide(
         step_size: int = round(self.step * sample_rate)
         _, num_samples = waveform.shape
 
-        frames = self.model.output_frames
+        frames = self.model.example_output.frames
 
         def __frames(
             frames, specifications: Optional[Specifications] = None
@@ -268,7 +268,7 @@ def __frames(
         frames: Union[SlidingWindow, Tuple[SlidingWindow]] = map_with_specifications(
             self.model.specifications,
             __frames,
-            self.model.output_frames,
+            self.model.example_output.frames,
         )
 
         # prepare complete chunks
diff --git a/pyannote/audio/core/model.py b/pyannote/audio/core/model.py
index 2286f010f..5cb6c0e6b 100644
--- a/pyannote/audio/core/model.py
+++ b/pyannote/audio/core/model.py
@@ -24,6 +24,8 @@
 
 import os
 import warnings
+from dataclasses import dataclass
+from functools import cached_property
 from importlib import import_module
 from pathlib import Path
 from typing import Any, Dict, List, Optional, Text, Tuple, Union
@@ -65,6 +67,13 @@ class Introspection:
     pass
 
 
+@dataclass
+class Output:
+    num_frames: int
+    dimension: int
+    frames: SlidingWindow
+
+
 class Model(pl.LightningModule):
     """Base model
 
@@ -101,7 +110,12 @@ def task(self) -> Task:
 
     @task.setter
     def task(self, task: Task):
+        # reset (cached) properties when task changes
         del self.specifications
+        try:
+            del self.example_output
+        except AttributeError:
+            pass
         self._task = task
 
     def build(self):
@@ -173,54 +187,33 @@ def __example_input_array(self, duration: Optional[float] = None) -> torch.Tenso
     def example_input_array(self) -> torch.Tensor:
         return self.__example_input_array()
 
-    def example_output(
-        self, duration: Optional[float] = None
-    ) -> Union[torch.Tensor, Tuple[torch.Tensor]]:
+    @cached_property
+    def example_output(self) -> Union[Output, Tuple[Output]]:
         """Example output"""
-        example_input_array = self.__example_input_array(duration=duration)
+        example_input_array = self.__example_input_array()
         with torch.inference_mode():
             example_output = self(example_input_array)
 
-        if not isinstance(example_output, (torch.Tensor, tuple)):
-            raise ValueError(
-                "Models must return either a torch.Tensor or a tuple of torch.Tensor"
-            )
-
-        return example_output
-
-    @property
-    def output_frames(
-        self,
-    ) -> Union[Optional[SlidingWindow], Tuple[Optional[SlidingWindow]]]:
-        """Output frames as (tuple of) SlidingWindow(s)"""
-
-        def __output_frames(
+        def __example_output(
             example_output: torch.Tensor,
             specifications: Specifications = None,
-        ) -> Optional[SlidingWindow]:
+        ) -> Output:
+            _, num_frames, dimension = example_output.shape
+
             if specifications.resolution == Resolution.FRAME:
-                _, num_frames, _ = example_output.shape
                 frame_duration = specifications.duration / num_frames
-                return SlidingWindow(step=frame_duration, duration=frame_duration)
-
-            return None
-
-        return map_with_specifications(
-            self.specifications, __output_frames, self.example_output()
-        )
-
-    @property
-    def output_dimension(self) -> Union[int, Tuple[int]]:
-        """Output dimension as (tuple of) int(s)"""
-
-        duration = next(iter(self.specifications)).duration
-        example_output = self.example_output(duration=duration)
+                frames = SlidingWindow(step=frame_duration, duration=frame_duration)
+            else:
+                frames = None
 
-        def __output_dimension(example_output: torch.Tensor, **kwargs) -> int:
-            return example_output.shape[-1]
+            return Output(
+                num_frames=num_frames,
+                dimension=dimension,
+                frames=frames,
+            )
 
         return map_with_specifications(
-            self.specifications, __output_dimension, example_output
+            self.specifications, __example_output, example_output
         )
 
     def setup(self, stage=None):
@@ -266,6 +259,9 @@ def setup(self, stage=None):
             # setup custom validation metrics
             self.task.setup_validation_metric()
 
+            # cache for later (and to avoid later CUDA error with multiprocessing)
+            _ = self.example_output
+
         # list of layers after adding task-dependent layers
         after = set((name, id(module)) for name, module in self.named_modules())
 
diff --git a/pyannote/audio/pipelines/overlapped_speech_detection.py b/pyannote/audio/pipelines/overlapped_speech_detection.py
index a326b8786..064cae1be 100644
--- a/pyannote/audio/pipelines/overlapped_speech_detection.py
+++ b/pyannote/audio/pipelines/overlapped_speech_detection.py
@@ -128,7 +128,7 @@ def __init__(
         # load model
         model = get_model(segmentation, use_auth_token=use_auth_token)
 
-        if model.output_dimension > 1:
+        if model.example_output.dimension > 1:
             inference_kwargs["pre_aggregation_hook"] = lambda scores: np.partition(
                 scores, -2, axis=-1
             )[:, :, -2, np.newaxis]
diff --git a/pyannote/audio/pipelines/resegmentation.py b/pyannote/audio/pipelines/resegmentation.py
index 468d5087d..bb71abf22 100644
--- a/pyannote/audio/pipelines/resegmentation.py
+++ b/pyannote/audio/pipelines/resegmentation.py
@@ -95,7 +95,7 @@ def __init__(
 
         model: Model = get_model(segmentation, use_auth_token=use_auth_token)
         self._segmentation = Inference(model)
-        self._frames = self._segmentation.model.output_frames
+        self._frames = self._segmentation.model.example_output.frames
 
         self._audio = model.audio
 
diff --git a/pyannote/audio/pipelines/speaker_diarization.py b/pyannote/audio/pipelines/speaker_diarization.py
index 038bd4676..8cf30f3b9 100644
--- a/pyannote/audio/pipelines/speaker_diarization.py
+++ b/pyannote/audio/pipelines/speaker_diarization.py
@@ -136,7 +136,7 @@ def __init__(
             skip_aggregation=True,
             batch_size=segmentation_batch_size,
         )
-        self._frames: SlidingWindow = self._segmentation.model.output_frames
+        self._frames: SlidingWindow = self._segmentation.model.example_output.frames
 
         if self._segmentation.model.specifications.powerset:
             self.segmentation = ParamDict(
diff --git a/pyannote/audio/pipelines/speaker_verification.py b/pyannote/audio/pipelines/speaker_verification.py
index f928aabbb..a672e2017 100644
--- a/pyannote/audio/pipelines/speaker_verification.py
+++ b/pyannote/audio/pipelines/speaker_verification.py
@@ -419,7 +419,7 @@ def sample_rate(self) -> int:
 
     @cached_property
     def dimension(self) -> int:
-        return self.model_.output_dimension
+        return self.model_.example_output.dimension
 
     @cached_property
     def metric(self) -> str:
diff --git a/pyannote/audio/pipelines/utils/oracle.py b/pyannote/audio/pipelines/utils/oracle.py
index 0b6b58f85..44b4ded61 100644
--- a/pyannote/audio/pipelines/utils/oracle.py
+++ b/pyannote/audio/pipelines/utils/oracle.py
@@ -39,7 +39,7 @@ def oracle_segmentation(
     Simulates inference based on an (imaginary) oracle segmentation model:
 
     >>> oracle = Model.from_pretrained("oracle")
-    >>> assert frames == oracle.output_frames
+    >>> assert frames == oracle.example_output.frames
     >>> inference = Inference(oracle, duration=window.duration, step=window.step, skip_aggregation=True)
     >>> oracle_segmentation = inference(file)
 
diff --git a/pyannote/audio/tasks/segmentation/mixins.py b/pyannote/audio/tasks/segmentation/mixins.py
index 016d2032d..f071488ab 100644
--- a/pyannote/audio/tasks/segmentation/mixins.py
+++ b/pyannote/audio/tasks/segmentation/mixins.py
@@ -25,13 +25,11 @@
 import random
 import warnings
 from collections import defaultdict
-from functools import cached_property
 from typing import Dict, Sequence, Union
 
 import matplotlib.pyplot as plt
 import numpy as np
 import torch
-from pyannote.core import SlidingWindow
 from pyannote.database.protocol import SegmentationProtocol, SpeakerDiarizationProtocol
 from pyannote.database.protocol.protocol import Scope, Subset
 from pytorch_lightning.loggers import MLFlowLogger, TensorBoardLogger
@@ -386,15 +384,6 @@ def setup(self):
         dtype = [("file_id", "i"), ("start", "f"), ("duration", "f")]
         self.validation_chunks = np.array(validation_chunks, dtype=dtype)
 
-    @cached_property
-    def frames(self) -> SlidingWindow:
-        return self.model.output_frames
-
-    @cached_property
-    def num_frames_per_chunk(self) -> int:
-        batch_size, num_frames, num_classes = self.model.example_output().shape
-        return num_frames
-
     def default_metric(
         self,
     ) -> Union[Metric, Sequence[Metric], Dict[str, Metric]]:
diff --git a/pyannote/audio/tasks/segmentation/multilabel.py b/pyannote/audio/tasks/segmentation/multilabel.py
index 3afdd6bda..1917d2806 100644
--- a/pyannote/audio/tasks/segmentation/multilabel.py
+++ b/pyannote/audio/tasks/segmentation/multilabel.py
@@ -178,19 +178,23 @@ def prepare_chunk(self, file_id: int, start_time: float, duration: float):
 
         # discretize chunk annotations at model output resolution
         start = np.maximum(chunk_annotations["start"], chunk.start) - chunk.start
-        start_idx = np.floor(start / self.frames.step).astype(int)
+        start_idx = np.floor(start / self.model.example_output.frames.step).astype(int)
         end = np.minimum(chunk_annotations["end"], chunk.end) - chunk.start
-        end_idx = np.ceil(end / self.frames.step).astype(int)
+        end_idx = np.ceil(end / self.model.example_output.frames.step).astype(int)
 
         # frame-level targets (-1 for un-annotated classes)
-        y = -np.ones((self.num_frames_per_chunk, len(self.classes)), dtype=np.int8)
+        y = -np.ones(
+            (self.model.example_output.num_frames, len(self.classes)), dtype=np.int8
+        )
         y[:, self.annotated_classes[file_id]] = 0
         for start, end, label in zip(
             start_idx, end_idx, chunk_annotations["global_label_idx"]
         ):
             y[start:end, label] = 1
 
-        sample["y"] = SlidingWindowFeature(y, self.frames, labels=self.classes)
+        sample["y"] = SlidingWindowFeature(
+            y, self.model.example_output.frames, labels=self.classes
+        )
 
         metadata = self.metadata[file_id]
         sample["meta"] = {key: metadata[key] for key in metadata.dtype.names}
diff --git a/pyannote/audio/tasks/segmentation/overlapped_speech_detection.py b/pyannote/audio/tasks/segmentation/overlapped_speech_detection.py
index 492190938..cd3711d61 100644
--- a/pyannote/audio/tasks/segmentation/overlapped_speech_detection.py
+++ b/pyannote/audio/tasks/segmentation/overlapped_speech_detection.py
@@ -172,17 +172,19 @@ def prepare_chunk(self, file_id: int, start_time: float, duration: float):
 
         # discretize chunk annotations at model output resolution
         start = np.maximum(chunk_annotations["start"], chunk.start) - chunk.start
-        start_idx = np.floor(start / self.frames.step).astype(int)
+        start_idx = np.floor(start / self.model.example_output.frames.step).astype(int)
         end = np.minimum(chunk_annotations["end"], chunk.end) - chunk.start
-        end_idx = np.ceil(end / self.frames.step).astype(int)
+        end_idx = np.ceil(end / self.model.example_output.frames.step).astype(int)
 
         # frame-level targets
-        y = np.zeros((self.num_frames_per_chunk, 1), dtype=np.uint8)
+        y = np.zeros((self.model.example_output.num_frames, 1), dtype=np.uint8)
         for start, end in zip(start_idx, end_idx):
             y[start:end, 0] += 1
         y = 1 * (y > 1)
 
-        sample["y"] = SlidingWindowFeature(y, self.frames, labels=["speech"])
+        sample["y"] = SlidingWindowFeature(
+            y, self.model.example_output.frames, labels=["speech"]
+        )
 
         metadata = self.metadata[file_id]
         sample["meta"] = {key: metadata[key] for key in metadata.dtype.names}
diff --git a/pyannote/audio/tasks/segmentation/speaker_diarization.py b/pyannote/audio/tasks/segmentation/speaker_diarization.py
index b5ffe3da1..27c4b2dc9 100644
--- a/pyannote/audio/tasks/segmentation/speaker_diarization.py
+++ b/pyannote/audio/tasks/segmentation/speaker_diarization.py
@@ -337,9 +337,9 @@ def prepare_chunk(self, file_id: int, start_time: float, duration: float):
 
         # discretize chunk annotations at model output resolution
         start = np.maximum(chunk_annotations["start"], chunk.start) - chunk.start
-        start_idx = np.floor(start / self.frames.step).astype(int)
+        start_idx = np.floor(start / self.model.example_output.frames.step).astype(int)
         end = np.minimum(chunk_annotations["end"], chunk.end) - chunk.start
-        end_idx = np.ceil(end / self.frames.step).astype(int)
+        end_idx = np.ceil(end / self.model.example_output.frames.step).astype(int)
 
         # get list and number of labels for current scope
         labels = list(np.unique(chunk_annotations[label_scope_key]))
@@ -349,7 +349,7 @@ def prepare_chunk(self, file_id: int, start_time: float, duration: float):
             pass
 
         # initial frame-level targets
-        y = np.zeros((self.num_frames_per_chunk, num_labels), dtype=np.uint8)
+        y = np.zeros((self.model.example_output.num_frames, num_labels), dtype=np.uint8)
 
         # map labels to indices
         mapping = {label: idx for idx, label in enumerate(labels)}
@@ -360,7 +360,9 @@ def prepare_chunk(self, file_id: int, start_time: float, duration: float):
             mapped_label = mapping[label]
             y[start:end, mapped_label] = 1
 
-        sample["y"] = SlidingWindowFeature(y, self.frames, labels=labels)
+        sample["y"] = SlidingWindowFeature(
+            y, self.model.example_output.frames, labels=labels
+        )
 
         metadata = self.metadata[file_id]
         sample["meta"] = {key: metadata[key] for key in metadata.dtype.names}
diff --git a/pyannote/audio/tasks/segmentation/voice_activity_detection.py b/pyannote/audio/tasks/segmentation/voice_activity_detection.py
index d740427f0..967ea1f9b 100644
--- a/pyannote/audio/tasks/segmentation/voice_activity_detection.py
+++ b/pyannote/audio/tasks/segmentation/voice_activity_detection.py
@@ -154,16 +154,18 @@ def prepare_chunk(self, file_id: int, start_time: float, duration: float):
 
         # discretize chunk annotations at model output resolution
         start = np.maximum(chunk_annotations["start"], chunk.start) - chunk.start
-        start_idx = np.floor(start / self.frames.step).astype(int)
+        start_idx = np.floor(start / self.model.example_output.frames.step).astype(int)
         end = np.minimum(chunk_annotations["end"], chunk.end) - chunk.start
-        end_idx = np.ceil(end / self.frames.step).astype(int)
+        end_idx = np.ceil(end / self.model.example_output.frames.step).astype(int)
 
         # frame-level targets
-        y = np.zeros((self.num_frames_per_chunk, 1), dtype=np.uint8)
+        y = np.zeros((self.model.example_output.num_frames, 1), dtype=np.uint8)
         for start, end in zip(start_idx, end_idx):
             y[start:end, 0] = 1
 
-        sample["y"] = SlidingWindowFeature(y, self.frames, labels=["speech"])
+        sample["y"] = SlidingWindowFeature(
+            y, self.model.example_output.frames, labels=["speech"]
+        )
 
         metadata = self.metadata[file_id]
         sample["meta"] = {key: metadata[key] for key in metadata.dtype.names}

From f4337641260fae097aea38409c11bf25123ceaed Mon Sep 17 00:00:00 2001
From: =?UTF-8?q?Herv=C3=A9=20BREDIN?= 
Date: Wed, 24 May 2023 22:39:10 +0200
Subject: [PATCH 086/112] doc: update changelog

---
 CHANGELOG.md | 8 +++-----
 1 file changed, 3 insertions(+), 5 deletions(-)

diff --git a/CHANGELOG.md b/CHANGELOG.md
index 66a5a7f69..15e11405a 100644
--- a/CHANGELOG.md
+++ b/CHANGELOG.md
@@ -18,15 +18,13 @@
     * replace `Audio(mono=True)` by `Audio(mono="downmix")`;
     * replace `Audio(mono=False)` by `Audio()`.
   - BREAKING(model): get rid of (flaky) `Model.introspection`
-    If, for some weird reason, you wrote some custom code based on that, you should instead rely on:
-    * `Model.example_output(duration=...)` to get example output(s)
-    * `Model.example_output.frames` to get output frame resolution(s)
-    * `Model.example_output.dimension` to get output dimension(s)
+    If, for some weird reason, you wrote some custom code based on that,
+    you should instead rely on `Model.example_output`.
 
 
 ### Features and improvements
 
-  - feat(task): add support for multi-task models (for inference)
+  - feat(task): add support for multi-task models
   - feat(pipeline): send pipeline to device with `pipeline.to(device)`
   - feat(pipeline): make `segmentation_batch_size` and `embedding_batch_size` mutable in `SpeakerDiarization` pipeline (they now default to `1`)
   - feat(task): add [powerset](https://arxiv.org/PLACEHOLDER) support to `SpeakerDiarization` task

From 9d500dc9957da91147797d06823a6e7b2a780ab4 Mon Sep 17 00:00:00 2001
From: =?UTF-8?q?Herv=C3=A9=20BREDIN?= 
Date: Fri, 26 May 2023 13:38:43 +0200
Subject: [PATCH 087/112] fix(pipeline): fix reproducibility issue with Ampere
 CUDA device (#1381)

---
 CHANGELOG.md                            | 10 +++
 pyannote/audio/core/inference.py        |  6 ++
 pyannote/audio/core/pipeline.py         |  7 ++-
 pyannote/audio/utils/reproducibility.py | 83 +++++++++++++++++++++++++
 4 files changed, 104 insertions(+), 2 deletions(-)
 create mode 100644 pyannote/audio/utils/reproducibility.py

diff --git a/CHANGELOG.md b/CHANGELOG.md
index cf525f958..d53a906cc 100644
--- a/CHANGELOG.md
+++ b/CHANGELOG.md
@@ -2,6 +2,15 @@
 
 ## Version 3.0 (xxxx-xx-xx)
 
+### Highlights
+
+- *"Harder"*. Fixed [major reproducibility issue](https://github.com/pyannote/pyannote-audio/issues/1370) with Ampere (A100) NVIDIA GPUs
+    In case you tried `pyannote.audio` pretrained pipelines in the past on Ampera (A100) NVIDIA GPUs
+    and were disappointed by the accuracy, please give it another try with this new version.
+- "Better".
+- "Faster".
+- "Stronger".
+
 ### Breaking changes
 
   - BREAKING(task): rename `Segmentation` task to `SpeakerDiarization`
@@ -32,6 +41,7 @@
 
 ### Fixes and improvements
 
+  - fix(pipeline): fix reproducibility issue with Ampere CUDA devices
   - fix(pipeline): fix support for IOBase audio
   - fix(pipeline): fix corner case with no speaker
 
diff --git a/pyannote/audio/core/inference.py b/pyannote/audio/core/inference.py
index 9243babc1..c38fef0f9 100644
--- a/pyannote/audio/core/inference.py
+++ b/pyannote/audio/core/inference.py
@@ -36,6 +36,7 @@
 from pyannote.audio.core.task import Resolution
 from pyannote.audio.utils.permutation import mae_cost_func, permutate
 from pyannote.audio.utils.powerset import Powerset
+from pyannote.audio.utils.reproducibility import fix_reproducibility
 
 TaskName = Union[Text, None]
 
@@ -356,6 +357,9 @@ def __call__(
             and `np.ndarray` if is set to "whole".
 
         """
+
+        fix_reproducibility(self.device)
+
         waveform, sample_rate = self.model.audio(file)
 
         if self.window == "sliding":
@@ -408,6 +412,8 @@ def crop(
         >>> inference.crop(file, extended_chunk).crop(chunk_of_interest, returns_data=False)
         """
 
+        fix_reproducibility(self.device)
+
         if self.window == "sliding":
 
             if not isinstance(chunk, Segment):
diff --git a/pyannote/audio/core/pipeline.py b/pyannote/audio/core/pipeline.py
index fb404d107..a5b4b1bc5 100644
--- a/pyannote/audio/core/pipeline.py
+++ b/pyannote/audio/core/pipeline.py
@@ -40,6 +40,7 @@
 from pyannote.audio.core.inference import BaseInference
 from pyannote.audio.core.io import AudioFile
 from pyannote.audio.core.model import CACHE_DIR, Model
+from pyannote.audio.utils.reproducibility import fix_reproducibility
 from pyannote.audio.utils.version import check_version
 
 PIPELINE_PARAMS_NAME = "config.yaml"
@@ -148,7 +149,6 @@ def from_pretrained(
         if "preprocessors" in config:
             preprocessors = {}
             for key, preprocessor in config.get("preprocessors", {}).items():
-
                 # preprocessors:
                 #    key:
                 #       name: package.module.ClassName
@@ -253,7 +253,6 @@ def remove_from(*dicts):
         super().__setattr__(name, value)
 
     def __delattr__(self, name):
-
         if name in self._models:
             del self._models[name]
 
@@ -295,6 +294,8 @@ def classes(self) -> Union[List, Iterator]:
         raise NotImplementedError()
 
     def __call__(self, file: AudioFile, **kwargs):
+        fix_reproducibility(getattr(self, "device", torch.device("cpu")))
+
         if not self.instantiated:
             # instantiate with default parameters when available
             try:
@@ -336,4 +337,6 @@ def to(self, device):
         for _, inference in self._inferences.items():
             _ = inference.to(device)
 
+        self.device = device
+
         return self
diff --git a/pyannote/audio/utils/reproducibility.py b/pyannote/audio/utils/reproducibility.py
new file mode 100644
index 000000000..5997b7bd5
--- /dev/null
+++ b/pyannote/audio/utils/reproducibility.py
@@ -0,0 +1,83 @@
+# MIT License
+#
+# Copyright (c) 2023- CNRS
+#
+# Permission is hereby granted, free of charge, to any person obtaining a copy
+# of this software and associated documentation files (the "Software"), to deal
+# in the Software without restriction, including without limitation the rights
+# to use, copy, modify, merge, publish, distribute, sublicense, and/or sell
+# copies of the Software, and to permit persons to whom the Software is
+# furnished to do so, subject to the following conditions:
+#
+# The above copyright notice and this permission notice shall be included in all
+# copies or substantial portions of the Software.
+#
+# THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
+# IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
+# FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE
+# AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
+# LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM,
+# OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE
+# SOFTWARE.
+
+# Context: https://github.com/pyannote/pyannote-audio/issues/1370
+
+import warnings
+
+import torch
+
+
+class ReproducibilityError(Exception):
+    ...
+
+
+class ReproducibilityWarning(UserWarning):
+    ...
+
+
+def raise_reproducibility(device: torch.device):
+    if (device.type == "cuda") and (
+        torch.backends.cuda.matmul.allow_tf32 or torch.backends.cudnn.allow_tf32
+    ):
+        raise ReproducibilityError(
+            "Please disable TensorFloat-32 (TF32) by calling\n"
+            "   >>> import torch\n"
+            "   >>> torch.backends.cuda.matmul.allow_tf32 = False\n"
+            "   >>> torch.backends.cudnn.allow_tf32 = False\n"
+            "or you might face reproducibility issues and obtain lower accuracy.\n"
+            "See https://github.com/pyannote/pyannote-audio/issues/1370 for more details."
+        )
+
+
+def warn_reproducibility(device: torch.device):
+    if (device.type == "cuda") and (
+        torch.backends.cuda.matmul.allow_tf32 or torch.backends.cudnn.allow_tf32
+    ):
+        warnings.warn(
+            ReproducibilityWarning(
+                "Please disable TensorFloat-32 (TF32) by calling\n"
+                "   >>> import torch\n"
+                "   >>> torch.backends.cuda.matmul.allow_tf32 = False\n"
+                "   >>> torch.backends.cudnn.allow_tf32 = False\n"
+                "or you might face reproducibility issues and obtain lower accuracy.\n"
+                "See https://github.com/pyannote/pyannote-audio/issues/1370 for more details."
+            )
+        )
+
+
+def fix_reproducibility(device: torch.device):
+    if (device.type == "cuda") and (
+        torch.backends.cuda.matmul.allow_tf32 or torch.backends.cudnn.allow_tf32
+    ):
+        torch.backends.cuda.matmul.allow_tf32 = False
+        torch.backends.cudnn.allow_tf32 = False
+        warnings.warn(
+            ReproducibilityWarning(
+                "TensorFloat-32 (TF32) has been disabled as it might lead to reproducibility issues and lower accuracy.\n"
+                "It can be re-enabled by calling\n"
+                "   >>> import torch\n"
+                "   >>> torch.backends.cuda.matmul.allow_tf32 = True\n"
+                "   >>> torch.backends.cudnn.allow_tf32 = True\n"
+                "See https://github.com/pyannote/pyannote-audio/issues/1370 for more details.\n"
+            )
+        )

From 7379f1c82be093078354449100e1a84cbdfbafdf Mon Sep 17 00:00:00 2001
From: =?UTF-8?q?Herv=C3=A9=20BREDIN?= 
Date: Fri, 26 May 2023 15:31:12 +0200
Subject: [PATCH 088/112] improve(task): shorten and improve structure of
 logging tags (#1385)

---
 CHANGELOG.md                                  |  1 +
 pyannote/audio/cli/train.py                   |  6 +-
 pyannote/audio/core/task.py                   | 19 +----
 pyannote/audio/tasks/embedding/mixins.py      | 17 +----
 pyannote/audio/tasks/segmentation/mixins.py   | 21 +-----
 .../audio/tasks/segmentation/multilabel.py    | 12 ++--
 .../tasks/segmentation/speaker_diarization.py | 70 ++++++-------------
 pyannote/audio/utils/preview.py               |  4 +-
 8 files changed, 41 insertions(+), 109 deletions(-)

diff --git a/CHANGELOG.md b/CHANGELOG.md
index d53a906cc..d7e50dba7 100644
--- a/CHANGELOG.md
+++ b/CHANGELOG.md
@@ -44,6 +44,7 @@
   - fix(pipeline): fix reproducibility issue with Ampere CUDA devices
   - fix(pipeline): fix support for IOBase audio
   - fix(pipeline): fix corner case with no speaker
+  - improve(task): shorten and improve structure of Tensorboard tags
 
 ### Dependencies
 
diff --git a/pyannote/audio/cli/train.py b/pyannote/audio/cli/train.py
index 4b2611d37..9ab8b1658 100644
--- a/pyannote/audio/cli/train.py
+++ b/pyannote/audio/cli/train.py
@@ -99,7 +99,11 @@ def configure_optimizers(self):
 
     model.configure_optimizers = MethodType(configure_optimizers, model)
 
-    callbacks = [RichProgressBar(), LearningRateMonitor(logging_interval="step")]
+    # avoid creating big log files
+    callbacks = [
+        RichProgressBar(refresh_rate=20, leave=True),
+        LearningRateMonitor(),
+    ]
 
     if fine_tuning:
         # TODO: configure layer freezing
diff --git a/pyannote/audio/core/task.py b/pyannote/audio/core/task.py
index a46308f88..9bf93bf1c 100644
--- a/pyannote/audio/core/task.py
+++ b/pyannote/audio/core/task.py
@@ -96,7 +96,6 @@ class Specifications:
 
     @cached_property
     def powerset(self):
-
         if self.powerset_max_classes is None:
             return False
 
@@ -300,18 +299,6 @@ def train_dataloader(self) -> DataLoader:
             collate_fn=partial(self.collate_fn, stage="train"),
         )
 
-    @cached_property
-    def logging_prefix(self):
-
-        prefix = f"{self.__class__.__name__}-"
-        if hasattr(self.protocol, "name"):
-            # "." has a special meaning for pytorch-lightning checkpointing
-            # so we remove dots from protocol names
-            name_without_dots = "".join(self.protocol.name.split("."))
-            prefix += f"{name_without_dots}-"
-
-        return prefix
-
     def default_loss(
         self, specifications: Specifications, target, prediction, weight=None
     ) -> torch.Tensor:
@@ -406,11 +393,11 @@ def common_step(self, batch, batch_idx: int, stage: Literal["train", "val"]):
             return None
 
         self.model.log(
-            f"{self.logging_prefix}{stage.capitalize()}Loss",
+            f"loss/{stage}",
             loss,
             on_step=False,
             on_epoch=True,
-            prog_bar=True,
+            prog_bar=False,
             logger=True,
         )
         return {"loss": loss}
@@ -458,7 +445,7 @@ def metric(self) -> MetricCollection:
         if self._metric is None:
             self._metric = self.default_metric()
 
-        return MetricCollection(self._metric, prefix=self.logging_prefix)
+        return MetricCollection(self._metric)
 
     def setup_validation_metric(self):
         metric = self.metric
diff --git a/pyannote/audio/tasks/embedding/mixins.py b/pyannote/audio/tasks/embedding/mixins.py
index 00aa7e608..f5e41d3ee 100644
--- a/pyannote/audio/tasks/embedding/mixins.py
+++ b/pyannote/audio/tasks/embedding/mixins.py
@@ -76,7 +76,6 @@ def batch_size(self, batch_size: int):
         self.batch_size_ = batch_size
 
     def setup(self, stage: Optional[str] = None):
-
         # loop over the training set, remove annotated regions shorter than
         # chunk duration, and keep track of the reference annotations, per class.
 
@@ -87,9 +86,7 @@ def setup(self, stage: Optional[str] = None):
 
         desc = f"Loading {self.protocol.name} training labels"
         for f in tqdm(iterable=self.protocol.train(), desc=desc, unit="file"):
-
             for klass in f["annotation"].labels():
-
                 # keep class's (long enough) speech turns...
                 speech_turns = [
                     segment
@@ -133,7 +130,6 @@ def setup(self, stage: Optional[str] = None):
     def default_metric(
         self,
     ) -> Union[Metric, Sequence[Metric], Dict[str, Metric]]:
-
         return [
             EqualErrorRate(compute_on_cpu=True, distances=False),
             BinaryAUROC(compute_on_cpu=True),
@@ -159,7 +155,6 @@ def train__iter__(self):
         num_samples = 0
 
         while True:
-
             # shuffle classes so that we don't always have the same
             # groups of classes in a batch (which might be especially
             # problematic for contrast-based losses like contrastive
@@ -167,13 +162,11 @@ def train__iter__(self):
             rng.shuffle(classes)
 
             for klass in classes:
-
                 # class index in original sorted order
                 y = self.specifications.classes.index(klass)
 
                 # multiple chunks per class
                 for _ in range(self.num_chunks_per_class):
-
                     # select one file at random (with probability proportional to its class duration)
                     file, *_ = rng.choices(
                         self._train[klass],
@@ -227,7 +220,6 @@ def train__len__(self):
         return max(self.batch_size, math.ceil(duration / avg_chunk_duration))
 
     def collate_fn(self, batch, stage="train"):
-
         collated = default_collate(batch)
 
         if stage == "train":
@@ -241,7 +233,6 @@ def collate_fn(self, batch, stage="train"):
         return collated
 
     def training_step(self, batch, batch_idx: int):
-
         X, y = batch["X"], batch["y"]
         loss = self.model.loss_func(self.model(X), y)
 
@@ -250,18 +241,17 @@ def training_step(self, batch, batch_idx: int):
             return None
 
         self.model.log(
-            f"{self.logging_prefix}TrainLoss",
+            "loss/train",
             loss,
             on_step=False,
             on_epoch=True,
-            prog_bar=True,
+            prog_bar=False,
             logger=True,
         )
 
         return {"loss": loss}
 
     def val__getitem__(self, idx):
-
         if isinstance(self.protocol, SpeakerVerificationProtocol):
             trial = self._validation[idx]
 
@@ -291,7 +281,6 @@ def val__getitem__(self, idx):
             pass
 
     def val__len__(self):
-
         if isinstance(self.protocol, SpeakerVerificationProtocol):
             return len(self._validation)
 
@@ -299,9 +288,7 @@ def val__len__(self):
             return 0
 
     def validation_step(self, batch, batch_idx: int):
-
         if isinstance(self.protocol, SpeakerVerificationProtocol):
-
             with torch.no_grad():
                 emb1 = self.model(batch["X1"]).detach()
                 emb2 = self.model(batch["X2"]).detach()
diff --git a/pyannote/audio/tasks/segmentation/mixins.py b/pyannote/audio/tasks/segmentation/mixins.py
index 1cdb9840d..3db93824d 100644
--- a/pyannote/audio/tasks/segmentation/mixins.py
+++ b/pyannote/audio/tasks/segmentation/mixins.py
@@ -49,7 +49,6 @@ class SegmentationTaskMixin:
     """Methods common to most segmentation tasks"""
 
     def get_file(self, file_id):
-
         file = dict()
 
         file["audio"] = str(self.audios[file_id], encoding="utf-8")
@@ -121,7 +120,6 @@ def setup(self, stage: Optional[str] = None):
             files_iter = self.protocol.train()
 
         for file_id, file in enumerate(files_iter):
-
             # gather metadata and update metadata_unique_values so that each metadatum
             # (e.g. source database or label) is represented by an integer.
             metadatum = dict()
@@ -142,7 +140,6 @@ def setup(self, stage: Optional[str] = None):
             # Different files may be annotated using a different set of classes
             # (e.g. one database for speech/music/noise, and another one for male/female/child)
             if isinstance(self.protocol, SegmentationProtocol):
-
                 if "classes" in file:
                     local_classes = file["classes"]
                 else:
@@ -191,7 +188,6 @@ def setup(self, stage: Optional[str] = None):
             # keep track of any other (integer or string) metadata provided by the protocol
             # (e.g. a "domain" key for domain-adversarial training)
             for key in remaining_metadata_keys:
-
                 value = file[key]
 
                 if isinstance(value, str):
@@ -233,7 +229,6 @@ def setup(self, stage: Optional[str] = None):
             # annotated regions and duration
             _annotated_duration = 0.0
             for segment in file["annotated"]:
-
                 # skip annotated regions that are shorter than training chunk duration
                 if segment.duration < duration:
                     continue
@@ -255,13 +250,11 @@ def setup(self, stage: Optional[str] = None):
 
             # annotations
             for segment, _, label in file["annotation"].itertracks(yield_label=True):
-
                 # "scope" is provided by speaker diarization protocols to indicate
                 # whether speaker labels are local to the file ('file'), consistent across
                 # all files in a database ('database'), or globally consistent ('global')
 
                 if "scope" in file:
-
                     # 0 = 'file'
                     # 1 = 'database'
                     # 2 = 'global'
@@ -276,7 +269,6 @@ def setup(self, stage: Optional[str] = None):
                     database_label_idx = global_label_idx = -1
 
                     if scope > 0:  # 'database' or 'global'
-
                         # update list of database-scope labels
                         if label not in database_unique_labels:
                             database_unique_labels.append(label)
@@ -285,7 +277,6 @@ def setup(self, stage: Optional[str] = None):
                         database_label_idx = database_unique_labels.index(label)
 
                     if scope > 1:  # 'global'
-
                         # update list of global-scope labels
                         if label not in unique_labels:
                             unique_labels.append(label)
@@ -381,7 +372,6 @@ def setup(self, stage: Optional[str] = None):
 
         # iterate over files in the validation subset
         for file_id in validation_file_ids:
-
             # get annotated regions in file
             annotated_regions = self.annotated_regions[
                 self.annotated_regions["file_id"] == file_id
@@ -389,7 +379,6 @@ def setup(self, stage: Optional[str] = None):
 
             # iterate over annotated regions
             for annotated_region in annotated_regions:
-
                 # number of chunks in annotated region
                 num_chunks = round(annotated_region["duration"] // duration)
 
@@ -450,13 +439,11 @@ def train__iter__helper(self, rng: random.Random, **filters):
         num_chunks_per_file = getattr(self, "num_chunks_per_file", 1)
 
         while True:
-
             # select one file at random (with probability proportional to its annotated duration)
             file_id = np.random.choice(file_ids, p=prob_annotated_duration)
 
             # generate `num_chunks_per_file` chunks from this file
             for _ in range(num_chunks_per_file):
-
                 # find indices of annotated regions in this file
                 annotated_region_indices = np.where(
                     self.annotated_regions["file_id"] == file_id
@@ -510,7 +497,6 @@ def train__iter__(self):
                 subchunks[product] = self.train__iter__helper(rng, **filters)
 
         while True:
-
             # select one subchunk generator at random (with uniform probability)
             # so that it is balanced on average
             if balance is not None:
@@ -686,7 +672,6 @@ def validation_step(self, batch, batch_idx: int):
 
         # plot each sample
         for sample_idx in range(num_samples):
-
             # find where in the grid it should be plotted
             row_idx = sample_idx // nrows
             col_idx = sample_idx % ncols
@@ -716,14 +701,12 @@ def validation_step(self, batch, batch_idx: int):
 
         for logger in self.model.loggers:
             if isinstance(logger, TensorBoardLogger):
-                logger.experiment.add_figure(
-                    f"{self.logging_prefix}ValSamples", fig, self.model.current_epoch
-                )
+                logger.experiment.add_figure("samples", fig, self.model.current_epoch)
             elif isinstance(logger, MLFlowLogger):
                 logger.experiment.log_figure(
                     run_id=logger.run_id,
                     figure=fig,
-                    artifact_file=f"{self.logging_prefix}ValSamples_epoch{self.model.current_epoch}.png",
+                    artifact_file=f"samples_epoch{self.model.current_epoch}.png",
                 )
 
         plt.close(fig)
diff --git a/pyannote/audio/tasks/segmentation/multilabel.py b/pyannote/audio/tasks/segmentation/multilabel.py
index 19270e26f..da6104386 100644
--- a/pyannote/audio/tasks/segmentation/multilabel.py
+++ b/pyannote/audio/tasks/segmentation/multilabel.py
@@ -95,7 +95,6 @@ def __init__(
         augmentation: BaseWaveformTransform = None,
         metric: Union[Metric, Sequence[Metric], Dict[str, Metric]] = None,
     ):
-
         if not isinstance(protocol, SegmentationProtocol):
             raise ValueError(
                 f"MultiLabelSegmentation task expects a SegmentationProtocol but you gave {type(protocol)}. "
@@ -121,7 +120,6 @@ def __init__(
         # specifications to setup()
 
     def setup(self, stage: Optional[str] = None):
-
         super().setup(stage=stage)
 
         self.specifications = Specifications(
@@ -208,7 +206,6 @@ def prepare_chunk(self, file_id: int, start_time: float, duration: float):
         return sample
 
     def training_step(self, batch, batch_idx: int):
-
         X = batch["X"]
         y_pred = self.model(X)
         y_true = batch["y"]
@@ -228,17 +225,16 @@ def training_step(self, batch, batch_idx: int):
             return None
 
         self.model.log(
-            f"{self.logging_prefix}TrainLoss",
+            "loss/train",
             loss,
             on_step=False,
             on_epoch=True,
-            prog_bar=True,
+            prog_bar=False,
             logger=True,
         )
         return {"loss": loss}
 
     def validation_step(self, batch, batch_idx: int):
-
         X = batch["X"]
         y_pred = self.model(X)
         y_true = batch["y"]
@@ -256,7 +252,7 @@ def validation_step(self, batch, batch_idx: int):
         loss = F.binary_cross_entropy(y_pred, y_true.type(torch.float))
 
         self.model.log(
-            f"{self.logging_prefix}ValLoss",
+            "loss/val",
             loss,
             on_step=False,
             on_epoch=True,
@@ -284,4 +280,4 @@ def val_monitor(self):
         pytorch_lightning.callbacks.EarlyStopping
         """
 
-        return f"{self.logging_prefix}ValLoss", "min"
+        return "ValLoss", "min"
diff --git a/pyannote/audio/tasks/segmentation/speaker_diarization.py b/pyannote/audio/tasks/segmentation/speaker_diarization.py
index 21f4416cc..b6838a71c 100644
--- a/pyannote/audio/tasks/segmentation/speaker_diarization.py
+++ b/pyannote/audio/tasks/segmentation/speaker_diarization.py
@@ -143,7 +143,6 @@ def __init__(
         max_num_speakers: int = None,  # deprecated in favor of `max_speakers_per_chunk``
         loss: Literal["bce", "mse"] = None,  # deprecated
     ):
-
         super().__init__(
             protocol,
             duration=duration,
@@ -188,12 +187,10 @@ def __init__(
         self.vad_loss = vad_loss
 
     def setup(self, stage: Optional[str] = None):
-
         super().setup(stage=stage)
 
         # estimate maximum number of speakers per chunk when not provided
         if self.max_speakers_per_chunk is None:
-
             training = self.metadata["subset"] == Subsets.index("train")
 
             num_unique_speakers = []
@@ -201,7 +198,6 @@ def setup(self, stage: Optional[str] = None):
             for file_id in track(
                 np.where(training)[0], description=progress_description
             ):
-
                 annotations = self.annotations[
                     np.where(self.annotations["file_id"] == file_id)[0]
                 ]
@@ -448,7 +444,6 @@ def segmentation_loss(
         """
 
         if self.specifications.powerset:
-
             # `clamp_min` is needed to set non-speech weight to 1.
             class_weight = (
                 torch.clamp_min(self.model.powerset.cardinality, 1.0)
@@ -534,17 +529,6 @@ def training_step(self, batch, batch_idx: int):
         target = target[keep]
         waveform = waveform[keep]
 
-        # log effective batch size
-        self.model.log(
-            f"{self.logging_prefix}BatchSize",
-            keep.sum(),
-            prog_bar=False,
-            logger=True,
-            on_step=False,
-            on_epoch=True,
-            reduce_fx="mean",
-        )
-
         # corner case
         if not keep.any():
             return None
@@ -569,7 +553,6 @@ def training_step(self, batch, batch_idx: int):
         weight[:, num_frames - warm_up_right :] = 0.0
 
         if self.specifications.powerset:
-
             powerset = torch.nn.functional.one_hot(
                 torch.argmax(prediction, dim=-1),
                 self.model.powerset.num_powerset_classes,
@@ -590,7 +573,7 @@ def training_step(self, batch, batch_idx: int):
             )
 
         self.model.log(
-            f"{self.logging_prefix}TrainSegLoss",
+            "loss/train/segmentation",
             seg_loss,
             on_step=False,
             on_epoch=True,
@@ -602,7 +585,6 @@ def training_step(self, batch, batch_idx: int):
             vad_loss = 0.0
 
         else:
-
             # TODO: vad_loss probably does not make sense in powerset mode
             # because first class (empty set of labels) does exactly this...
             if self.specifications.powerset:
@@ -616,7 +598,7 @@ def training_step(self, batch, batch_idx: int):
                 )
 
             self.model.log(
-                f"{self.logging_prefix}TrainVADLoss",
+                "loss/train/vad",
                 vad_loss,
                 on_step=False,
                 on_epoch=True,
@@ -631,11 +613,11 @@ def training_step(self, batch, batch_idx: int):
             return None
 
         self.model.log(
-            f"{self.logging_prefix}TrainLoss",
+            "loss/train",
             loss,
             on_step=False,
             on_epoch=True,
-            prog_bar=True,
+            prog_bar=False,
             logger=True,
         )
 
@@ -647,20 +629,20 @@ def default_metric(
         """Returns diarization error rate and its components"""
 
         if self.specifications.powerset:
-            return [
-                DiarizationErrorRate(0.5),
-                SpeakerConfusionRate(0.5),
-                MissedDetectionRate(0.5),
-                FalseAlarmRate(0.5),
-            ]
-
-        return [
-            OptimalDiarizationErrorRate(),
-            OptimalDiarizationErrorRateThreshold(),
-            OptimalSpeakerConfusionRate(),
-            OptimalMissedDetectionRate(),
-            OptimalFalseAlarmRate(),
-        ]
+            return {
+                "DiarizationErrorRate": DiarizationErrorRate(0.5),
+                "DiarizationErrorRate/Confusion": SpeakerConfusionRate(0.5),
+                "DiarizationErrorRate/Miss": MissedDetectionRate(0.5),
+                "DiarizationErrorRate/FalseAlarm": FalseAlarmRate(0.5),
+            }
+
+        return {
+            "DiarizationErrorRate": OptimalDiarizationErrorRate(),
+            "DiarizationErrorRate/Threshold": OptimalDiarizationErrorRateThreshold(),
+            "DiarizationErrorRate/Confusion": OptimalSpeakerConfusionRate(),
+            "DiarizationErrorRate/Miss": OptimalMissedDetectionRate(),
+            "DiarizationErrorRate/FalseAlarm": OptimalFalseAlarmRate(),
+        }
 
     # TODO: no need to compute gradient in this method
     def validation_step(self, batch, batch_idx: int):
@@ -704,7 +686,6 @@ def validation_step(self, batch, batch_idx: int):
         weight[:, num_frames - warm_up_right :] = 0.0
 
         if self.specifications.powerset:
-
             powerset = torch.nn.functional.one_hot(
                 torch.argmax(prediction, dim=-1),
                 self.model.powerset.num_powerset_classes,
@@ -728,7 +709,7 @@ def validation_step(self, batch, batch_idx: int):
             )
 
         self.model.log(
-            f"{self.logging_prefix}ValSegLoss",
+            "loss/val/segmentation",
             seg_loss,
             on_step=False,
             on_epoch=True,
@@ -740,7 +721,6 @@ def validation_step(self, batch, batch_idx: int):
             vad_loss = 0.0
 
         else:
-
             # TODO: vad_loss probably does not make sense in powerset mode
             # because first class (empty set of labels) does exactly this...
             if self.specifications.powerset:
@@ -754,7 +734,7 @@ def validation_step(self, batch, batch_idx: int):
                 )
 
             self.model.log(
-                f"{self.logging_prefix}ValVADLoss",
+                "loss/val/vad",
                 vad_loss,
                 on_step=False,
                 on_epoch=True,
@@ -765,7 +745,7 @@ def validation_step(self, batch, batch_idx: int):
         loss = seg_loss + vad_loss
 
         self.model.log(
-            f"{self.logging_prefix}ValLoss",
+            "loss/val",
             loss,
             on_step=False,
             on_epoch=True,
@@ -833,7 +813,6 @@ def validation_step(self, batch, batch_idx: int):
 
         # plot each sample
         for sample_idx in range(num_samples):
-
             # find where in the grid it should be plotted
             row_idx = sample_idx // nrows
             col_idx = sample_idx % ncols
@@ -863,14 +842,12 @@ def validation_step(self, batch, batch_idx: int):
 
         for logger in self.model.loggers:
             if isinstance(logger, TensorBoardLogger):
-                logger.experiment.add_figure(
-                    f"{self.logging_prefix}ValSamples", fig, self.model.current_epoch
-                )
+                logger.experiment.add_figure("samples", fig, self.model.current_epoch)
             elif isinstance(logger, MLFlowLogger):
                 logger.experiment.log_figure(
                     run_id=logger.run_id,
                     figure=fig,
-                    artifact_file=f"{self.logging_prefix}ValSamples_epoch{self.model.current_epoch}.png",
+                    artifact_file=f"samples_epoch{self.model.current_epoch}.png",
                 )
 
         plt.close(fig)
@@ -893,7 +870,6 @@ def main(protocol: str, subset: str = "test", model: str = "pyannote/segmentatio
     files = list(getattr(protocol, subset)())
 
     with Progress() as progress:
-
         main_task = progress.add_task(protocol.name, total=len(files))
         file_task = progress.add_task("Processing", total=1.0)
 
diff --git a/pyannote/audio/utils/preview.py b/pyannote/audio/utils/preview.py
index ac085b10f..6094c71cd 100644
--- a/pyannote/audio/utils/preview.py
+++ b/pyannote/audio/utils/preview.py
@@ -196,7 +196,6 @@ def make_audio_frame(T: float):
     ylim = (-0.1, 1.1)
 
     def make_frame(T: float):
-
         # make sure all subsequent calls to notebook.plot_*
         # will only display the region center on current time
         t = T + segment.start
@@ -215,7 +214,6 @@ def make_frame(T: float):
         ax_wav.set_ylabel("waveform")
 
         for (name, view), ax_view in zip(views.items(), ax_views):
-
             ax_view.clear()
 
             if isinstance(view, Timeline):
@@ -313,7 +311,7 @@ def preview_training_samples(
     audio_file = {
         "waveform": waveform,
         "sample_rate": sample_rate,
-        "uri": model.task.logging_prefix + "TrainingSamples",
+        "uri": "TrainingSamples",
     }
 
     return preview(

From f13dc1bd75b1f1a99bbc37904bf1b921f5eb68dd Mon Sep 17 00:00:00 2001
From: chai3 <16031581+chai3@users.noreply.github.com>
Date: Thu, 8 Jun 2023 15:42:15 +0900
Subject: [PATCH 089/112] fix: raise TypeError on wrong device type in
 Pipeline.to and Inference.to

Fixes 1397
---
 pyannote/audio/core/inference.py                 |  5 +++++
 pyannote/audio/core/pipeline.py                  |  7 ++++++-
 pyannote/audio/pipelines/speaker_verification.py | 15 +++++++++++++++
 3 files changed, 26 insertions(+), 1 deletion(-)

diff --git a/pyannote/audio/core/inference.py b/pyannote/audio/core/inference.py
index 339cef0b3..703aa06cb 100644
--- a/pyannote/audio/core/inference.py
+++ b/pyannote/audio/core/inference.py
@@ -186,6 +186,11 @@ def __init__(
     def to(self, device: torch.device) -> "Inference":
         """Send internal model to `device`"""
 
+        if not isinstance(device, torch.device):
+            raise TypeError(
+                f"`device` must be an instance of `torch.device`, got `{type(device).__name__}`"
+            )
+
         self.model.to(device)
         self.conversion.to(device)
         self.device = device
diff --git a/pyannote/audio/core/pipeline.py b/pyannote/audio/core/pipeline.py
index a5b4b1bc5..f844d584f 100644
--- a/pyannote/audio/core/pipeline.py
+++ b/pyannote/audio/core/pipeline.py
@@ -324,9 +324,14 @@ def __call__(self, file: AudioFile, **kwargs):
 
         return self.apply(file, **kwargs)
 
-    def to(self, device):
+    def to(self, device: torch.device):
         """Send pipeline to `device`"""
 
+        if not isinstance(device, torch.device):
+            raise TypeError(
+                f"`device` must be an instance of `torch.device`, got `{type(device).__name__}`"
+            )
+
         for _, pipeline in self._pipelines.items():
             if hasattr(pipeline, "to"):
                 _ = pipeline.to(device)
diff --git a/pyannote/audio/pipelines/speaker_verification.py b/pyannote/audio/pipelines/speaker_verification.py
index a672e2017..005c8964f 100644
--- a/pyannote/audio/pipelines/speaker_verification.py
+++ b/pyannote/audio/pipelines/speaker_verification.py
@@ -79,6 +79,11 @@ def __init__(
         self.model_.to(self.device)
 
     def to(self, device: torch.device):
+        if not isinstance(device, torch.device):
+            raise TypeError(
+                f"`device` must be an instance of `torch.device`, got `{type(device).__name__}`"
+            )
+
         self.model_.to(device)
         self.device = device
         return self
@@ -250,6 +255,11 @@ def __init__(
         )
 
     def to(self, device: torch.device):
+        if not isinstance(device, torch.device):
+            raise TypeError(
+                f"`device` must be an instance of `torch.device`, got `{type(device).__name__}`"
+            )
+
         self.classifier_ = SpeechBrain_EncoderClassifier.from_hparams(
             source=self.embedding,
             savedir=f"{CACHE_DIR}/speechbrain",
@@ -409,6 +419,11 @@ def __init__(
         self.model_.to(self.device)
 
     def to(self, device: torch.device):
+        if not isinstance(device, torch.device):
+            raise TypeError(
+                f"`device` must be an instance of `torch.device`, got `{type(device).__name__}`"
+            )
+
         self.model_.to(device)
         self.device = device
         return self

From a675a55c0dc5d9665eeea75bd698426a8284e228 Mon Sep 17 00:00:00 2001
From: =?UTF-8?q?Herv=C3=A9=20BREDIN?= 
Date: Mon, 12 Jun 2023 12:21:09 +0200
Subject: [PATCH 090/112] feat(task): add support for multi-task models (#1374)

BREAKING(model): get rid of (flaky) `Model.introspection`

From 3c9e23f36bbe89fba84aaf0a2908bd0ee9555fbf Mon Sep 17 00:00:00 2001
From: =?UTF-8?q?Herv=C3=A9=20BREDIN?= 
Date: Mon, 12 Jun 2023 13:10:50 +0200
Subject: [PATCH 091/112] fix(inference): fix multi-task inference

---
 pyannote/audio/core/inference.py | 8 +++-----
 1 file changed, 3 insertions(+), 5 deletions(-)

diff --git a/pyannote/audio/core/inference.py b/pyannote/audio/core/inference.py
index 703aa06cb..dcf21868d 100644
--- a/pyannote/audio/core/inference.py
+++ b/pyannote/audio/core/inference.py
@@ -262,19 +262,17 @@ def slide(
         step_size: int = round(self.step * sample_rate)
         _, num_samples = waveform.shape
 
-        frames = self.model.example_output.frames
-
         def __frames(
-            frames, specifications: Optional[Specifications] = None
+            example_output, specifications: Optional[Specifications] = None
         ) -> SlidingWindow:
             if specifications.resolution == Resolution.CHUNK:
                 return SlidingWindow(start=0.0, duration=self.duration, step=self.step)
-            return frames
+            return example_output.frames
 
         frames: Union[SlidingWindow, Tuple[SlidingWindow]] = map_with_specifications(
             self.model.specifications,
             __frames,
-            self.model.example_output.frames,
+            self.model.example_output,
         )
 
         # prepare complete chunks

From 524881c44854b0a5029d1acd5047c0818f51be33 Mon Sep 17 00:00:00 2001
From: =?UTF-8?q?Herv=C3=A9=20BREDIN?= 
Date: Thu, 15 Jun 2023 13:53:04 +0200
Subject: [PATCH 092/112] feat: update FAQtory default answer

---
 .faq/suggest.md | 24 ++++++++++++++++++------
 1 file changed, 18 insertions(+), 6 deletions(-)

diff --git a/.faq/suggest.md b/.faq/suggest.md
index 0a9233998..5fd8b252f 100644
--- a/.faq/suggest.md
+++ b/.faq/suggest.md
@@ -1,3 +1,5 @@
+Thank you for your issue. 
+
 {%- if questions -%}
 {% if questions|length == 1 %}
 We found the following entry in the [FAQ]({{ faq_url }}) which you may find helpful:
@@ -9,12 +11,22 @@ We found the following entries in the [FAQ]({{ faq_url }}) which you may find he
 - [{{ question.title }}]({{ faq_url }}#{{ question.slug }})
 {%- endfor %}
 
-Feel free to close this issue if you found an answer in the FAQ. Otherwise, please give us a little time to review.
-
 {%- else -%}
-Thank you for your issue. Give us a little time to review it.
-
-PS. You might want to check the [FAQ]({{ faq_url }}) if you haven't done so already.
+You might want to check the [FAQ]({{ faq_url }}) if you haven't done so already.
 {%- endif %}
 
-This is an automated reply, generated by [FAQtory](https://github.com/willmcgugan/faqtory)
+Feel free to close this issue if you found an answer in the FAQ. 
+
+If your issue is a feature request, please read [this](https://xyproblem.info/) first and update your request accordingly, if needed.
+
+If your issue is a bug report, please provide a [minimum reproducible example](https://stackoverflow.com/help/minimal-reproducible-example) as a link to a self-contained [Google Colab](https://colab.research.google.com/) notebook containing everthing needed to reproduce the bug: 
+  - installation
+  - data preparation
+  - model download
+  - etc.
+  
+Providing an MRE will increase your chance of getting an answer from the community (either maintainers or other power users).
+
+[We](https://herve.niderb.fr) also offer paid scientific consulting services around speaker diarization (and speech processing in general).
+
+> This is an automated reply, generated by [FAQtory](https://github.com/willmcgugan/faqtory)

From e9a92740a0931a31da0ed9dff374f9949ad55c72 Mon Sep 17 00:00:00 2001
From: =?UTF-8?q?Herv=C3=A9=20BREDIN?= 
Date: Thu, 22 Jun 2023 17:32:59 +0200
Subject: [PATCH 093/112] improve(test): use pyannote.database.registry (#1413)

---
 .github/workflows/test.yml |  1 -
 README.md                  |  5 ++---
 tests/conftest.py          | 32 ++++++++++++++++++++++++++++++++
 3 files changed, 34 insertions(+), 4 deletions(-)
 create mode 100644 tests/conftest.py

diff --git a/.github/workflows/test.yml b/.github/workflows/test.yml
index b266179eb..df1182cf3 100644
--- a/.github/workflows/test.yml
+++ b/.github/workflows/test.yml
@@ -29,5 +29,4 @@ jobs:
           pip install -e .[dev,testing]
       - name: Test with pytest
         run: |
-          export PYANNOTE_DATABASE_CONFIG=$GITHUB_WORKSPACE/tests/data/database.yml
           pytest
diff --git a/README.md b/README.md
index c3f9a8dcc..3bf1b2c8a 100644
--- a/README.md
+++ b/README.md
@@ -126,9 +126,8 @@ pip install -e .[dev,testing]
 pre-commit install
 ```
 
-Tests rely on a set of debugging files available in [`test/data`](test/data) directory.
-Set `PYANNOTE_DATABASE_CONFIG` environment variable to `test/data/database.yml` before running tests:
+## Test
 
 ```bash
-PYANNOTE_DATABASE_CONFIG=tests/data/database.yml pytest
+pytest
 ```
diff --git a/tests/conftest.py b/tests/conftest.py
new file mode 100644
index 000000000..fe2a00e12
--- /dev/null
+++ b/tests/conftest.py
@@ -0,0 +1,32 @@
+# MIT License
+#
+# Copyright (c) 2020- CNRS
+#
+# Permission is hereby granted, free of charge, to any person obtaining a copy
+# of this software and associated documentation files (the "Software"), to deal
+# in the Software without restriction, including without limitation the rights
+# to use, copy, modify, merge, publish, distribute, sublicense, and/or sell
+# copies of the Software, and to permit persons to whom the Software is
+# furnished to do so, subject to the following conditions:
+#
+# The above copyright notice and this permission notice shall be included in all
+# copies or substantial portions of the Software.
+#
+# THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
+# IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
+# FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE
+# AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
+# LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM,
+# OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE
+# SOFTWARE.
+
+
+def pytest_sessionstart(session):
+    """
+    Called after the Session object has been created and
+    before performing collection and entering the run test loop.
+    """
+
+    from pyannote.database import registry
+
+    registry.load_database("tests/data/database.yml")

From ef029bccd2d5d7698c753945f487c9ce896a3e1f Mon Sep 17 00:00:00 2001
From: Dmitry Mukhutdinov 
Date: Fri, 23 Jun 2023 22:11:54 +0800
Subject: [PATCH 094/112] feat(pipeline): add `return_embeddings` option to
 `SpeakerDiarization` pipeline
MIME-Version: 1.0
Content-Type: text/plain; charset=UTF-8
Content-Transfer-Encoding: 8bit

Co-authored-by: Hervé BREDIN 
---
 CHANGELOG.md                                  |  4 +-
 pyannote/audio/pipelines/clustering.py        | 61 ++++++++------
 .../audio/pipelines/speaker_diarization.py    | 81 +++++++++++++++----
 pyannote/audio/pipelines/utils/diarization.py | 28 +++++--
 4 files changed, 128 insertions(+), 46 deletions(-)

diff --git a/CHANGELOG.md b/CHANGELOG.md
index bc51c0e9c..6e7d220fd 100644
--- a/CHANGELOG.md
+++ b/CHANGELOG.md
@@ -30,13 +30,13 @@
     If, for some weird reason, you wrote some custom code based on that,
     you should instead rely on `Model.example_output`.
 
-
 ### Features and improvements
 
   - feat(task): add support for multi-task models
   - feat(pipeline): send pipeline to device with `pipeline.to(device)`
   - feat(pipeline): make `segmentation_batch_size` and `embedding_batch_size` mutable in `SpeakerDiarization` pipeline (they now default to `1`)
   - feat(task): add [powerset](https://arxiv.org/PLACEHOLDER) support to `SpeakerDiarization` task
+  - feat(pipeline): add `return_embeddings` option to `SpeakerDiarization` pipeline
   - feat(pipeline): add progress hook to pipelines
   - feat(pipeline): check version compatibility at load time
   - feat(task): add support for label scope in speaker diarization task
@@ -88,7 +88,7 @@
 
   - last release before complete rewriting
 
-## Version 1.0.1 (2018--07-19)
+## Version 1.0.1 (2018-07-19)
 
   - fix: fix regression in Precomputed.__call__ (#110, #105)
 
diff --git a/pyannote/audio/pipelines/clustering.py b/pyannote/audio/pipelines/clustering.py
index f282ea39c..3c2786232 100644
--- a/pyannote/audio/pipelines/clustering.py
+++ b/pyannote/audio/pipelines/clustering.py
@@ -48,7 +48,6 @@ def __init__(
         max_num_embeddings: int = 1000,
         constrained_assignment: bool = False,
     ):
-
         super().__init__()
         self.metric = metric
         self.max_num_embeddings = max_num_embeddings
@@ -61,7 +60,6 @@ def set_num_clusters(
         min_clusters: int = None,
         max_clusters: int = None,
     ):
-
         min_clusters = num_clusters or min_clusters or 1
         min_clusters = max(1, min(num_embeddings, min_clusters))
         max_clusters = num_clusters or max_clusters or num_embeddings
@@ -113,7 +111,6 @@ def filter_embeddings(
         return embeddings[chunk_idx, speaker_idx], chunk_idx, speaker_idx
 
     def constrained_argmax(self, soft_clusters: np.ndarray) -> np.ndarray:
-
         soft_clusters = np.nan_to_num(soft_clusters, nan=np.nanmin(soft_clusters))
         num_chunks, num_speakers, num_clusters = soft_clusters.shape
         # num_chunks, num_speakers, num_clusters
@@ -156,6 +153,8 @@ def assign_embeddings(
         -------
         soft_clusters : (num_chunks, num_speakers, num_clusters)-shaped array
         hard_clusters : (num_chunks, num_speakers)-shaped array
+        centroids : (num_clusters, dimension)-shaped array
+            Clusters centroids
         """
 
         # TODO: option to add a new (dummy) cluster in case num_clusters < max(frame_speaker_count)
@@ -194,7 +193,7 @@ def assign_embeddings(
         # TODO: add a flag to revert argmax for trainign subset
         # hard_clusters[train_chunk_idx, train_speaker_idx] = train_clusters
 
-        return hard_clusters, soft_clusters
+        return hard_clusters, soft_clusters, centroids
 
     def __call__(
         self,
@@ -230,6 +229,8 @@ def __call__(
         soft_clusters : (num_chunks, num_speakers, num_clusters) array
             Soft cluster assignment (the higher soft_clusters[c, s, k], the most likely
             the sth speaker of cth chunk belongs to kth cluster)
+        centroids : (num_clusters, dimension) array
+            Centroid vectors of each cluster
         """
 
         train_embeddings, train_chunk_idx, train_speaker_idx = self.filter_embeddings(
@@ -250,7 +251,9 @@ def __call__(
             num_chunks, num_speakers, _ = embeddings.shape
             hard_clusters = np.zeros((num_chunks, num_speakers), dtype=np.int8)
             soft_clusters = np.ones((num_chunks, num_speakers, 1))
-            return hard_clusters, soft_clusters
+            centroids = np.mean(train_embeddings, axis=0, keepdims=True)
+
+            return hard_clusters, soft_clusters, centroids
 
         train_clusters = self.cluster(
             train_embeddings,
@@ -259,7 +262,7 @@ def __call__(
             num_clusters=num_clusters,
         )
 
-        hard_clusters, soft_clusters = self.assign_embeddings(
+        hard_clusters, soft_clusters, centroids = self.assign_embeddings(
             embeddings,
             train_chunk_idx,
             train_speaker_idx,
@@ -267,7 +270,7 @@ def __call__(
             constrained=self.constrained_assignment,
         )
 
-        return hard_clusters, soft_clusters
+        return hard_clusters, soft_clusters, centroids
 
 
 class AgglomerativeClustering(BaseClustering):
@@ -286,19 +289,6 @@ class AgglomerativeClustering(BaseClustering):
         Clustering threshold.
     min_cluster_size : int in range [1, 20]
         Minimum cluster size
-
-    Usage
-    -----
-    >>> clustering = AgglomerativeClustering(metric="cosine")
-    >>> clustering.instantiate({"method": "average",
-    ...                         "threshold": 1.0,
-    ...                         "min_cluster_size": 1})
-    >>> clusters, _  = clustering(embeddings,           # shape
-    ...                           num_clusters=None,
-    ...                           min_clusters=None,
-    ...                           max_clusters=None)
-    where `embeddings` is a np.ndarray with shape (num_embeddings, embedding_dimension)
-    and `clusters` is a np.ndarray with shape (num_embeddings, )
     """
 
     def __init__(
@@ -307,7 +297,6 @@ def __init__(
         max_num_embeddings: int = np.inf,
         constrained_assignment: bool = False,
     ):
-
         super().__init__(
             metric=metric,
             max_num_embeddings=max_num_embeddings,
@@ -397,7 +386,6 @@ def cluster(
             num_clusters = max_clusters
 
         if num_clusters is not None:
-
             # switch stopping criterion from "inter-cluster distance" stopping to "iteration index"
             _dendrogram = np.copy(dendrogram)
             _dendrogram[:, 2] = np.arange(num_embeddings - 1)
@@ -409,7 +397,6 @@ def cluster(
             # from the "optimal" threshold
 
             for iteration in np.argsort(np.abs(dendrogram[:, 2] - self.threshold)):
-
                 # only consider iterations that might have resulted
                 # in changing the number of (large) clusters
                 new_cluster_size = _dendrogram[iteration, 3]
@@ -481,6 +468,7 @@ class OracleClustering(BaseClustering):
 
     def __call__(
         self,
+        embeddings: np.ndarray = None,
         segmentations: SlidingWindowFeature = None,
         file: AudioFile = None,
         frames: SlidingWindow = None,
@@ -490,6 +478,9 @@ def __call__(
 
         Parameters
         ----------
+        embeddings : (num_chunks, num_speakers, dimension) array, optional
+            Sequence of embeddings. When provided, compute speaker centroids
+            based on these embeddings.
         segmentations : (num_chunks, num_frames, num_speakers) array
             Binary segmentations.
         file : AudioFile
@@ -503,6 +494,8 @@ def __call__(
         soft_clusters : (num_chunks, num_speakers, num_clusters) array
             Soft cluster assignment (the higher soft_clusters[c, s, k], the most likely
             the sth speaker of cth chunk belongs to kth cluster)
+        centroids : (num_clusters, dimension), optional
+            Clusters centroids if `embeddings` is provided, None otherwise.
         """
 
         num_chunks, num_frames, num_speakers = segmentations.data.shape
@@ -532,7 +525,27 @@ def __call__(
                 hard_clusters[c, i] = j
                 soft_clusters[c, i, j] = 1.0
 
-        return hard_clusters, soft_clusters
+        if embeddings is None:
+            return hard_clusters, soft_clusters, None
+
+        (
+            train_embeddings,
+            train_chunk_idx,
+            train_speaker_idx,
+        ) = self.filter_embeddings(
+            embeddings,
+            segmentations=segmentations,
+        )
+
+        train_clusters = hard_clusters[train_chunk_idx, train_speaker_idx]
+        centroids = np.vstack(
+            [
+                np.mean(train_embeddings[train_clusters == k], axis=0)
+                for k in range(num_clusters)
+            ]
+        )
+
+        return hard_clusters, soft_clusters, centroids
 
 
 class Clustering(Enum):
diff --git a/pyannote/audio/pipelines/speaker_diarization.py b/pyannote/audio/pipelines/speaker_diarization.py
index 8cf30f3b9..f59551176 100644
--- a/pyannote/audio/pipelines/speaker_diarization.py
+++ b/pyannote/audio/pipelines/speaker_diarization.py
@@ -89,11 +89,20 @@ class SpeakerDiarization(SpeakerDiarizationMixin, Pipeline):
 
     Usage
     -----
-    >>> pipeline = SpeakerDiarization()
+    # perform (unconstrained) diarization
     >>> diarization = pipeline("/path/to/audio.wav")
+
+    # perform diarization, targetting exactly 4 speakers
     >>> diarization = pipeline("/path/to/audio.wav", num_speakers=4)
+
+    # perform diarization, with at least 2 speakers and at most 10 speakers
     >>> diarization = pipeline("/path/to/audio.wav", min_speakers=2, max_speakers=10)
 
+    # perform diarization and get one representative embedding per speaker
+    >>> diarization, embeddings = pipeline("/path/to/audio.wav", return_embedding=True)
+    >>> for s, speaker in enumerate(diarization.labels()):
+    ...     # embeddings[s] is the embedding of speaker `speaker`
+
     Hyper-parameters
     ----------------
     segmentation.threshold
@@ -417,6 +426,7 @@ def apply(
         num_speakers: int = None,
         min_speakers: int = None,
         max_speakers: int = None,
+        return_embeddings: bool = False,
         hook: Optional[Callable] = None,
     ) -> Annotation:
         """Apply speaker diarization
@@ -431,6 +441,8 @@ def apply(
             Minimum number of speakers. Has no effect when `num_speakers` is provided.
         max_speakers : int, optional
             Maximum number of speakers. Has no effect when `num_speakers` is provided.
+        return_embeddings : bool, optional
+            Return representative speaker embeddings.
         hook : callable, optional
             Callback called after each major steps of the pipeline as follows:
                 hook(step_name,      # human-readable name of current step
@@ -444,6 +456,10 @@ def apply(
         -------
         diarization : Annotation
             Speaker diarization
+        embeddings : np.array, optional
+            Representative speaker embeddings such that `embeddings[i]` is the
+            speaker embedding for i-th speaker in diarization.labels().
+            Only returned when `return_embeddings` is True.
         """
 
         # setup hook (e.g. for debugging purposes)
@@ -473,7 +489,11 @@ def apply(
 
         # exit early when no speaker is ever active
         if np.nanmax(count.data) == 0.0:
-            return Annotation(uri=file["uri"])
+            diarization = Annotation(uri=file["uri"])
+            if return_embeddings:
+                return diarization, np.zeros((0, self._embedding.dimension))
+
+            return diarization
 
         # binarize segmentation
         if self._segmentation.model.specifications.powerset:
@@ -485,7 +505,7 @@ def apply(
                 initial_state=False,
             )
 
-        if self.klustering == "OracleClustering":
+        if self.klustering == "OracleClustering" and not return_embeddings:
             embeddings = None
         else:
             embeddings = self.get_embeddings(
@@ -497,7 +517,7 @@ def apply(
             hook("embeddings", embeddings)
             #   shape: (num_chunks, local_num_speakers, dimension)
 
-        hard_clusters, _ = self.clustering(
+        hard_clusters, _, centroids = self.clustering(
             embeddings=embeddings,
             segmentations=binarized_segmentations,
             num_clusters=num_speakers,
@@ -506,7 +526,8 @@ def apply(
             file=file,  # <== for oracle clustering
             frames=self._frames,  # <== for oracle clustering
         )
-        #   hard_clusters: (num_chunks, num_speakers)
+        # hard_clusters: (num_chunks, num_speakers)
+        # centroids: (num_speakers, dimension)
 
         # reconstruct discrete diarization from raw hard clusters
 
@@ -530,20 +551,52 @@ def apply(
         )
         diarization.uri = file["uri"]
 
-        # when reference is available, use it to map hypothesized speakers
-        # to reference speakers (this makes later error analysis easier
-        # but does not modify the actual output of the diarization pipeline)
+        # at this point, `diarization` speaker labels are integers
+        # from 0 to `num_speakers - 1`, aligned with `centroids` rows.
+
         if "annotation" in file and file["annotation"]:
-            return self.optimal_mapping(file["annotation"], diarization)
+            # when reference is available, use it to map hypothesized speakers
+            # to reference speakers (this makes later error analysis easier
+            # but does not modify the actual output of the diarization pipeline)
+            _, mapping = self.optimal_mapping(
+                file["annotation"], diarization, return_mapping=True
+            )
+
+            # in case there are more speakers in the hypothesis than in
+            # the reference, those extra speakers are missing from `mapping`.
+            # we add them back here
+            mapping = {key: mapping.get(key, key) for key in diarization.labels()}
 
-        # when reference is not available, rename hypothesized speakers
-        # to human-readable SPEAKER_00, SPEAKER_01, ...
-        return diarization.rename_labels(
-            {
+        else:
+            # when reference is not available, rename hypothesized speakers
+            # to human-readable SPEAKER_00, SPEAKER_01, ...
+            mapping = {
                 label: expected_label
                 for label, expected_label in zip(diarization.labels(), self.classes())
             }
-        )
+
+        diarization = diarization.rename_labels(mapping=mapping)
+
+        # at this point, `diarization` speaker labels are strings (or mix of
+        # strings and integers when reference is available and some hypothesis
+        # speakers are not present in the reference)
+
+        if not return_embeddings:
+            return diarization
+
+        # re-order centroids so that they match
+        # the order given by diarization.labels()
+        inverse_mapping = {label: index for index, label in mapping.items()}
+        centroids = centroids[
+            [inverse_mapping[label] for label in diarization.labels()]
+        ]
+
+        # FIXME: the number of centroids may be smaller than the number of speakers
+        # in the annotation. This can happen if the number of active speakers
+        # obtained from `speaker_count` for some frames is larger than the number
+        # of clusters obtained from `clustering`. Will be fixed in the future
+
+        return diarization, centroids
 
     def get_metric(self) -> GreedyDiarizationErrorRate:
         return GreedyDiarizationErrorRate(**self.der_variant)
diff --git a/pyannote/audio/pipelines/utils/diarization.py b/pyannote/audio/pipelines/utils/diarization.py
index de07524e6..f494c6073 100644
--- a/pyannote/audio/pipelines/utils/diarization.py
+++ b/pyannote/audio/pipelines/utils/diarization.py
@@ -20,10 +20,11 @@
 # OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE
 # SOFTWARE.
 
-from typing import Mapping, Tuple, Union
+from typing import Dict, Mapping, Tuple, Union
 
 import numpy as np
 from pyannote.core import Annotation, SlidingWindow, SlidingWindowFeature
+from pyannote.core.utils.types import Label
 from pyannote.metrics.diarization import DiarizationErrorRate
 
 from pyannote.audio.core.inference import Inference
@@ -74,8 +75,10 @@ def set_num_speakers(
 
     @staticmethod
     def optimal_mapping(
-        reference: Union[Mapping, Annotation], hypothesis: Annotation
-    ) -> Annotation:
+        reference: Union[Mapping, Annotation],
+        hypothesis: Annotation,
+        return_mapping: bool = False,
+    ) -> Union[Annotation, Tuple[Annotation, Dict[Label, Label]]]:
         """Find the optimal bijective mapping between reference and hypothesis labels
 
         Parameters
@@ -84,13 +87,19 @@ def optimal_mapping(
             Reference annotation. Can be an Annotation instance or
             a mapping with an "annotation" key.
         hypothesis : Annotation
+            Hypothesized annotation.
+        return_mapping : bool, optional
+            Return the label mapping itself along with the mapped annotation. Defaults to False.
 
         Returns
         -------
         mapped : Annotation
             Hypothesis mapped to reference speakers.
-
+        mapping : dict, optional
+            Mapping between hypothesis (key) and reference (value) labels
+            Only returned if `return_mapping` is True.
         """
+
         if isinstance(reference, Mapping):
             reference = reference["annotation"]
             annotated = reference["annotated"] if "annotated" in reference else None
@@ -100,7 +109,13 @@ def optimal_mapping(
         mapping = DiarizationErrorRate().optimal_mapping(
             reference, hypothesis, uem=annotated
         )
-        return hypothesis.rename_labels(mapping=mapping)
+        mapped_hypothesis = hypothesis.rename_labels(mapping=mapping)
+
+        if return_mapping:
+            return mapped_hypothesis, mapping
+
+        else:
+            return mapped_hypothesis
 
     # TODO: get rid of onset/offset (binarization should be applied before calling speaker_count)
     # TODO: get rid of warm-up parameter (trimming should be applied before calling speaker_count)
@@ -171,7 +186,8 @@ def to_annotation(
         Returns
         -------
         continuous_diarization : Annotation
-            Continuous diarization
+            Continuous diarization, with speaker labels as integers,
+            corresponding to the speaker indices in the discrete diarization.
         """
 
         binarize = Binarize(

From f53e00bec5deafff25c635d38d6c6a82cba38211 Mon Sep 17 00:00:00 2001
From: =?UTF-8?q?Herv=C3=A9=20BREDIN?= 
Date: Tue, 27 Jun 2023 13:41:41 +0200
Subject: [PATCH 095/112] fix: fix missed speech at the very beginning/end

---
 pyannote/audio/pipelines/speaker_diarization.py | 1 +
 1 file changed, 1 insertion(+)

diff --git a/pyannote/audio/pipelines/speaker_diarization.py b/pyannote/audio/pipelines/speaker_diarization.py
index f59551176..0bc0f449a 100644
--- a/pyannote/audio/pipelines/speaker_diarization.py
+++ b/pyannote/audio/pipelines/speaker_diarization.py
@@ -482,6 +482,7 @@ def apply(
             if self._segmentation.model.specifications.powerset
             else self.segmentation.threshold,
             frames=self._frames,
+            warm_up=(0.0, 0.0),
         )
         hook("speaker_counting", count)
         #   shape: (num_frames, 1)

From 8d65777dbe6ec7b06ac80e89230e2a63135f8162 Mon Sep 17 00:00:00 2001
From: =?UTF-8?q?Herv=C3=A9=20BREDIN?= 
Date: Wed, 28 Jun 2023 09:09:53 +0200
Subject: [PATCH 096/112] doc: add note to self regarding cluster reassignment
 (#1419)

---
 pyannote/audio/pipelines/clustering.py | 5 +++--
 1 file changed, 3 insertions(+), 2 deletions(-)

diff --git a/pyannote/audio/pipelines/clustering.py b/pyannote/audio/pipelines/clustering.py
index 3c2786232..a779016cb 100644
--- a/pyannote/audio/pipelines/clustering.py
+++ b/pyannote/audio/pipelines/clustering.py
@@ -190,8 +190,9 @@ def assign_embeddings(
         else:
             hard_clusters = np.argmax(soft_clusters, axis=2)
 
-        # TODO: add a flag to revert argmax for trainign subset
-        # hard_clusters[train_chunk_idx, train_speaker_idx] = train_clusters
+        # NOTE: train_embeddings might be reassigned to a different cluster
+        # in the process. based on experiments, this seems to lead to better
+        # results than sticking to the original assignment.
 
         return hard_clusters, soft_clusters, centroids
 

From 3c5e81aaa3bf38d83f653d99c502719eddbdb93e Mon Sep 17 00:00:00 2001
From: ~/trisqwit <34287923+DiaaAj@users.noreply.github.com>
Date: Sun, 9 Jul 2023 15:07:35 +0300
Subject: [PATCH 097/112] fix(doc): fix typo in diarization docstring

---
 pyannote/audio/pipelines/speaker_diarization.py | 2 +-
 1 file changed, 1 insertion(+), 1 deletion(-)

diff --git a/pyannote/audio/pipelines/speaker_diarization.py b/pyannote/audio/pipelines/speaker_diarization.py
index 0bc0f449a..18b6565d3 100644
--- a/pyannote/audio/pipelines/speaker_diarization.py
+++ b/pyannote/audio/pipelines/speaker_diarization.py
@@ -99,7 +99,7 @@ class SpeakerDiarization(SpeakerDiarizationMixin, Pipeline):
     >>> diarization = pipeline("/path/to/audio.wav", min_speakers=2, max_speakers=10)
 
     # perform diarization and get one representative embedding per speaker
-    >>> diarization, embeddings = pipeline("/path/to/audio.wav", return_embedding=True)
+    >>> diarization, embeddings = pipeline("/path/to/audio.wav", return_embeddings=True)
     >>> for s, speaker in enumerate(diarization.labels()):
     ...     # embeddings[s] is the embedding of speaker `speaker`
 

From 339e66310f55a798b1bd9883f5096f72688da498 Mon Sep 17 00:00:00 2001
From: =?UTF-8?q?Herv=C3=A9=20BREDIN?= 
Date: Sun, 16 Jul 2023 15:48:03 +0200
Subject: [PATCH 098/112] ci: update suggest.md (#1435)

---
 .faq/suggest.md | 4 +++-
 1 file changed, 3 insertions(+), 1 deletion(-)

diff --git a/.faq/suggest.md b/.faq/suggest.md
index 5fd8b252f..19e7b6d69 100644
--- a/.faq/suggest.md
+++ b/.faq/suggest.md
@@ -27,6 +27,8 @@ If your issue is a bug report, please provide a [minimum reproducible example](h
   
 Providing an MRE will increase your chance of getting an answer from the community (either maintainers or other power users).
 
-[We](https://herve.niderb.fr) also offer paid scientific consulting services around speaker diarization (and speech processing in general).
+Companies relying on `pyannote.audio` in production may contact [me](https://herve.niderb.fr) via email regarding:
+* paid scientific consulting around speaker diarization and speech processing in general;
+* custom models and tailored features (via the local tech transfer office).
 
 > This is an automated reply, generated by [FAQtory](https://github.com/willmcgugan/faqtory)

From c18fd1414642012508f55fb740cd6f49d6a4777f Mon Sep 17 00:00:00 2001
From: =?UTF-8?q?Herv=C3=A9=20BREDIN?= 
Date: Wed, 2 Aug 2023 23:56:20 +0200
Subject: [PATCH 099/112] feat: add support for WeSpeaker embeddings (#1444)

---
 .../audio/pipelines/speaker_verification.py   | 219 ++++++++++++++++++
 1 file changed, 219 insertions(+)

diff --git a/pyannote/audio/pipelines/speaker_verification.py b/pyannote/audio/pipelines/speaker_verification.py
index 005c8964f..b30ea2b21 100644
--- a/pyannote/audio/pipelines/speaker_verification.py
+++ b/pyannote/audio/pipelines/speaker_verification.py
@@ -28,6 +28,7 @@
 import torch
 import torch.nn.functional as F
 import torchaudio
+import torchaudio.compliance.kaldi as kaldi
 from torch.nn.utils.rnn import pad_sequence
 
 from pyannote.audio import Inference, Model, Pipeline
@@ -57,6 +58,13 @@
 except ImportError:
     NEMO_IS_AVAILABLE = False
 
+try:
+    import onnxruntime as ort
+
+    ONNX_IS_AVAILABLE = True
+except ImportError:
+    ONNX_IS_AVAILABLE = False
+
 
 class NeMoPretrainedSpeakerEmbedding(BaseInference):
     def __init__(
@@ -375,6 +383,214 @@ def __call__(
         return embeddings
 
 
+class WeSpeakerPretrainedSpeakerEmbedding(BaseInference):
+    """Pretrained WeSpeaker speaker embedding
+
+    Parameters
+    ----------
+    embedding : str
+        Path to WeSpeaker pretrained speaker embedding
+    device : torch.device, optional
+        Device
+
+    Usage
+    -----
+    >>> get_embedding = WeSpeakerPretrainedSpeakerEmbedding("wespeaker.xxxx.onnx")
+    >>> assert waveforms.ndim == 3
+    >>> batch_size, num_channels, num_samples = waveforms.shape
+    >>> assert num_channels == 1
+    >>> embeddings = get_embedding(waveforms)
+    >>> assert embeddings.ndim == 2
+    >>> assert embeddings.shape[0] == batch_size
+
+    >>> assert binary_masks.ndim == 1
+    >>> assert binary_masks.shape[0] == batch_size
+    >>> embeddings = get_embedding(waveforms, masks=binary_masks)
+    """
+
+    def __init__(
+        self,
+        embedding: Text = "speechbrain/spkrec-ecapa-voxceleb",
+        device: torch.device = None,
+    ):
+        if not ONNX_IS_AVAILABLE:
+            raise ImportError(
+                f"'onnxruntime' must be installed to use '{embedding}' embeddings. "
+            )
+
+        super().__init__()
+
+        self.embedding = embedding
+
+        self.to(device or torch.device("cpu"))
+
+    def to(self, device: torch.device):
+        if not isinstance(device, torch.device):
+            raise TypeError(
+                f"`device` must be an instance of `torch.device`, got `{type(device).__name__}`"
+            )
+
+        if device.type == "cpu":
+            providers = ["CPUExecutionProvider"]
+        elif device.type == "cuda":
+            providers = ["CUDAExecutionProvider"]
+        else:
+            warnings.warn(
+                f"Unsupported device type: {device.type}, falling back to CPU"
+            )
+            device = torch.device("cpu")
+            providers = ["CPUExecutionProvider"]
+
+        sess_options = ort.SessionOptions()
+        sess_options.inter_op_num_threads = 1
+        sess_options.intra_op_num_threads = 1
+        self.session_ = ort.InferenceSession(
+            self.embedding, sess_options=sess_options, providers=providers
+        )
+
+        self.device = device
+        return self
+
+    @cached_property
+    def sample_rate(self) -> int:
+        return 16000
+
+    @cached_property
+    def dimension(self) -> int:
+        dummy_waveforms = torch.rand(1, 1, 16000)
+        features = self.compute_fbank(dummy_waveforms)
+        embeddings = self.session_.run(
+            output_names=["embs"], input_feed={"feats": features.numpy()}
+        )[0]
+        _, dimension = embeddings.shape
+        return dimension
+
+    @cached_property
+    def metric(self) -> str:
+        return "cosine"
+
+    @cached_property
+    def min_num_samples(self) -> int:
+        lower, upper = 2, round(0.5 * self.sample_rate)
+        middle = (lower + upper) // 2
+        while lower + 1 < upper:
+            try:
+                features = self.compute_fbank(torch.randn(1, 1, middle))
+
+            except AssertionError:
+                lower = middle
+                middle = (lower + upper) // 2
+                continue
+
+            embeddings = self.session_.run(
+                output_names=["embs"], input_feed={"feats": features.numpy()}
+            )[0]
+
+            if np.any(np.isnan(embeddings)):
+                lower = middle
+            else:
+                upper = middle
+            middle = (lower + upper) // 2
+
+        return upper
+
+    @cached_property
+    def min_num_frames(self) -> int:
+        return self.compute_fbank(torch.randn(1, 1, self.min_num_samples)).shape[1]
+
+    def compute_fbank(
+        self,
+        waveforms: torch.Tensor,
+        num_mel_bins: int = 80,
+        frame_length: int = 25,
+        frame_shift: int = 10,
+        dither: float = 0.0,
+    ) -> torch.Tensor:
+        """Extract fbank features
+
+        Parameters
+        ----------
+        waveforms : (batch_size, num_channels, num_samples)
+
+        Returns
+        -------
+        fbank : (batch_size, num_frames, num_mel_bins)
+
+        Source: https://github.com/wenet-e2e/wespeaker/blob/45941e7cba2c3ea99e232d02bedf617fc71b0dad/wespeaker/bin/infer_onnx.py#L30C1-L50
+        """
+
+        waveforms = waveforms * (1 << 15)
+        features = torch.stack(
+            [
+                kaldi.fbank(
+                    waveform,
+                    num_mel_bins=num_mel_bins,
+                    frame_length=frame_length,
+                    frame_shift=frame_shift,
+                    dither=dither,
+                    sample_frequency=self.sample_rate,
+                    window_type="hamming",
+                    use_energy=False,
+                )
+                for waveform in waveforms
+            ]
+        )
+        return features - torch.mean(features, dim=1, keepdim=True)
+
+    def __call__(
+        self, waveforms: torch.Tensor, masks: torch.Tensor = None
+    ) -> np.ndarray:
+        """
+
+        Parameters
+        ----------
+        waveforms : (batch_size, num_channels, num_samples)
+            Only num_channels == 1 is supported.
+        masks : (batch_size, num_samples), optional
+
+        Returns
+        -------
+        embeddings : (batch_size, dimension)
+
+        """
+
+        batch_size, num_channels, num_samples = waveforms.shape
+        assert num_channels == 1
+
+        features = self.compute_fbank(waveforms)
+        _, num_frames, _ = features.shape
+
+        if masks is None:
+            embeddings = self.session_.run(
+                output_names=["embs"], input_feed={"feats": features.numpy()}
+            )[0]
+
+            return embeddings
+
+        batch_size_masks, _ = masks.shape
+        assert batch_size == batch_size_masks
+
+        imasks = F.interpolate(
+            masks.unsqueeze(dim=1), size=num_frames, mode="nearest"
+        ).squeeze(dim=1)
+
+        imasks = imasks > 0.5
+
+        embeddings = np.NAN * np.zeros((batch_size, self.dimension))
+
+        for f, (feature, imask) in enumerate(zip(features, imasks)):
+            masked_feature = feature[imask]
+            if masked_feature.shape[0] < self.min_num_frames:
+                continue
+
+            embeddings[f] = self.session_.run(
+                output_names=["embs"],
+                input_feed={"feats": masked_feature.numpy()[None]},
+            )[0][0]
+
+        return embeddings
+
+
 class PyannoteAudioPretrainedSpeakerEmbedding(BaseInference):
     """Pretrained pyannote.audio speaker embedding
 
@@ -515,6 +731,9 @@ def PretrainedSpeakerEmbedding(
     elif isinstance(embedding, str) and "nvidia" in embedding:
         return NeMoPretrainedSpeakerEmbedding(embedding, device=device)
 
+    elif isinstance(embedding, str) and "wespeaker" in embedding:
+        return WeSpeakerPretrainedSpeakerEmbedding(embedding, device=device)
+
     else:
         return PyannoteAudioPretrainedSpeakerEmbedding(
             embedding, device=device, use_auth_token=use_auth_token

From 1cc43c091466ea86acb7ee712deba6fad919ae21 Mon Sep 17 00:00:00 2001
From: Aashish Malhotra <74505547+aashish-19@users.noreply.github.com>
Date: Mon, 7 Aug 2023 13:37:10 +0400
Subject: [PATCH 100/112] fix: fix security issue in FAQtory bot

---
 .github/workflows/new_issue.yml | 4 +++-
 1 file changed, 3 insertions(+), 1 deletion(-)

diff --git a/.github/workflows/new_issue.yml b/.github/workflows/new_issue.yml
index a67bcdcd5..b8477dc16 100644
--- a/.github/workflows/new_issue.yml
+++ b/.github/workflows/new_issue.yml
@@ -14,7 +14,9 @@ jobs:
       - name: Install FAQtory
         run: pip install FAQtory
       - name: Run Suggest
-        run: faqtory suggest "${{ github.event.issue.title }}" > suggest.md
+        env: 
+           TITLE: ${{ github.event.issue.title }}
+        run: faqtory suggest "$TITLE" > suggest.md
       - name: Read suggest.md
         id: suggest
         uses: juliangruber/read-file-action@v1

From a1e075d646d9d0f9c6cc9f186d151aeb73d047bc Mon Sep 17 00:00:00 2001
From: =?UTF-8?q?Herv=C3=A9=20BREDIN?= 
Date: Wed, 30 Aug 2023 17:39:57 +0200
Subject: [PATCH 101/112] Update README.md

---
 README.md | 5 ++++-
 1 file changed, 4 insertions(+), 1 deletion(-)

diff --git a/README.md b/README.md
index 3bf1b2c8a..3b77bfe46 100644
--- a/README.md
+++ b/README.md
@@ -1,4 +1,7 @@
-# Neural speaker diarization with `pyannote.audio`
+> [!IMPORTANT]
+> I propose (paid) scientific [consulting services](https://herve.niderb.fr/consulting.html) to companies willing to make the most of their data and open-source speech processing toolkits (and pyannote in particular). 
+
+# Speaker diarization with `pyannote.audio`
 
 `pyannote.audio` is an open-source toolkit written in Python for speaker diarization. Based on [PyTorch](pytorch.org) machine learning framework, it provides a set of trainable end-to-end neural building blocks that can be combined and jointly optimized to build speaker diarization pipelines.
 

From 28a247dd1401bbe5de64cb4cd516ac8a483e85f2 Mon Sep 17 00:00:00 2001
From: =?UTF-8?q?Herv=C3=A9=20BREDIN?= 
Date: Wed, 30 Aug 2023 17:40:28 +0200
Subject: [PATCH 102/112] Update README.md

---
 README.md | 2 +-
 1 file changed, 1 insertion(+), 1 deletion(-)

diff --git a/README.md b/README.md
index 3b77bfe46..1d314cd92 100644
--- a/README.md
+++ b/README.md
@@ -1,5 +1,5 @@
 > [!IMPORTANT]
-> I propose (paid) scientific [consulting services](https://herve.niderb.fr/consulting.html) to companies willing to make the most of their data and open-source speech processing toolkits (and pyannote in particular). 
+> I propose (paid) scientific [consulting services](https://herve.niderb.fr/consulting.html) to companies willing to make the most of their data and open-source speech processing toolkits (and `pyannote` in particular). 
 
 # Speaker diarization with `pyannote.audio`
 

From 610fd8b9d6fd9394dde11980d406f18467e016b4 Mon Sep 17 00:00:00 2001
From: FrenchKrab <14005967+FrenchKrab@users.noreply.github.com>
Date: Fri, 15 Sep 2023 17:19:04 +0200
Subject: [PATCH 103/112]  fix(task): fix MultiLabelSegmentation.val_monitor

---
 pyannote/audio/tasks/segmentation/multilabel.py | 2 +-
 1 file changed, 1 insertion(+), 1 deletion(-)

diff --git a/pyannote/audio/tasks/segmentation/multilabel.py b/pyannote/audio/tasks/segmentation/multilabel.py
index 5588ccdff..4265d5e86 100644
--- a/pyannote/audio/tasks/segmentation/multilabel.py
+++ b/pyannote/audio/tasks/segmentation/multilabel.py
@@ -277,4 +277,4 @@ def val_monitor(self):
         pytorch_lightning.callbacks.EarlyStopping
         """
 
-        return "ValLoss", "min"
+        return "loss/val", "min"

From 6740db2b8fe0d571b889147df7a2b85edbc3602f Mon Sep 17 00:00:00 2001
From: =?UTF-8?q?Herv=C3=A9=20BREDIN?= 
Date: Sat, 16 Sep 2023 15:50:40 +0200
Subject: [PATCH 104/112] fix(core): fix Model.example_output for embedding
 models

---
 pyannote/audio/core/model.py | 5 +++--
 1 file changed, 3 insertions(+), 2 deletions(-)

diff --git a/pyannote/audio/core/model.py b/pyannote/audio/core/model.py
index 5cb6c0e6b..bedb7f6c4 100644
--- a/pyannote/audio/core/model.py
+++ b/pyannote/audio/core/model.py
@@ -198,12 +198,13 @@ def __example_output(
             example_output: torch.Tensor,
             specifications: Specifications = None,
         ) -> Output:
-            _, num_frames, dimension = example_output.shape
-
             if specifications.resolution == Resolution.FRAME:
+                _, num_frames, dimension = example_output.shape
                 frame_duration = specifications.duration / num_frames
                 frames = SlidingWindow(step=frame_duration, duration=frame_duration)
             else:
+                _, dimension = example_output.shape
+                num_frames = None
                 frames = None
 
             return Output(

From b9548a75e44a523000f1eb5644d588b96686095f Mon Sep 17 00:00:00 2001
From: =?UTF-8?q?S=C3=A9verin?= <123748182+SevKod@users.noreply.github.com>
Date: Mon, 18 Sep 2023 10:24:59 +0200
Subject: [PATCH 105/112] feat(model) : add segmentation model based on
 self-supervised representation (#1362)
MIME-Version: 1.0
Content-Type: text/plain; charset=UTF-8
Content-Transfer-Encoding: 8bit

Co-authored-by: Hervé BREDIN 
---
 CHANGELOG.md                                  |   9 +-
 .../cli/train_config/model/SSeRiouSS.yaml     |  13 +
 .../audio/models/segmentation/SSeRiouSS.py    | 234 ++++++++++++++++++
 .../audio/models/segmentation/__init__.py     |   5 +-
 4 files changed, 255 insertions(+), 6 deletions(-)
 create mode 100644 pyannote/audio/cli/train_config/model/SSeRiouSS.yaml
 create mode 100644 pyannote/audio/models/segmentation/SSeRiouSS.py

diff --git a/CHANGELOG.md b/CHANGELOG.md
index 6e7d220fd..a6f2161c5 100644
--- a/CHANGELOG.md
+++ b/CHANGELOG.md
@@ -32,15 +32,16 @@
 
 ### Features and improvements
 
+  - feat(task): add [powerset](https://www.isca-speech.org/archive/interspeech_2023/plaquet23_interspeech.html) support to `SpeakerDiarization` task
   - feat(task): add support for multi-task models
+  - feat(task): add support for label scope in speaker diarization task
+  - feat(task): add support for missing classes in multi-label segmentation task
+  - feat(model): add segmentation model based on torchaudio self-supervised representation
   - feat(pipeline): send pipeline to device with `pipeline.to(device)`
-  - feat(pipeline): make `segmentation_batch_size` and `embedding_batch_size` mutable in `SpeakerDiarization` pipeline (they now default to `1`)
-  - feat(task): add [powerset](https://arxiv.org/PLACEHOLDER) support to `SpeakerDiarization` task
   - feat(pipeline): add `return_embeddings` option to `SpeakerDiarization` pipeline
+  - feat(pipeline): make `segmentation_batch_size` and `embedding_batch_size` mutable in `SpeakerDiarization` pipeline (they now default to `1`)
   - feat(pipeline): add progress hook to pipelines
   - feat(pipeline): check version compatibility at load time
-  - feat(task): add support for label scope in speaker diarization task
-  - feat(task): add support for missing classes in multi-label segmentation task
   - improve(task): load metadata as tensors rather than pyannote.core instances
   - improve(task): improve error message on missing specifications
 
diff --git a/pyannote/audio/cli/train_config/model/SSeRiouSS.yaml b/pyannote/audio/cli/train_config/model/SSeRiouSS.yaml
new file mode 100644
index 000000000..73f7f963a
--- /dev/null
+++ b/pyannote/audio/cli/train_config/model/SSeRiouSS.yaml
@@ -0,0 +1,13 @@
+# @package _group_
+_target_: pyannote.audio.models.segmentation.SSeRiouSS
+wav2vec: WAVLM_BASE
+wav2vec_layer: -1
+lstm:
+  hidden_size: 128
+  num_layers: 4
+  bidirectional: true
+  monolithic: true
+  dropout: 0.5
+linear:
+  hidden_size: 128
+  num_layers: 2
diff --git a/pyannote/audio/models/segmentation/SSeRiouSS.py b/pyannote/audio/models/segmentation/SSeRiouSS.py
new file mode 100644
index 000000000..7cd545177
--- /dev/null
+++ b/pyannote/audio/models/segmentation/SSeRiouSS.py
@@ -0,0 +1,234 @@
+# MIT License
+#
+# Copyright (c) 2023- CNRS
+#
+# Permission is hereby granted, free of charge, to any person obtaining a copy
+# of this software and associated documentation files (the "Software"), to deal
+# in the Software without restriction, including without limitation the rights
+# to use, copy, modify, merge, publish, distribute, sublicense, and/or sell
+# copies of the Software, and to permit persons to whom the Software is
+# furnished to do so, subject to the following conditions:
+#
+# The above copyright notice and this permission notice shall be included in all
+# copies or substantial portions of the Software.
+#
+# THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
+# IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
+# FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE
+# AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
+# LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM,
+# OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE
+# SOFTWARE.
+
+
+from typing import Optional, Union
+
+import torch
+import torch.nn as nn
+import torch.nn.functional as F
+import torchaudio
+from pyannote.core.utils.generators import pairwise
+
+from pyannote.audio.core.model import Model
+from pyannote.audio.core.task import Task
+from pyannote.audio.utils.params import merge_dict
+
+
+class SSeRiouSS(Model):
+    """Self-Supervised Representation for Speaker Segmentation
+
+    wav2vec > LSTM > Feed forward > Classifier
+
+    Parameters
+    ----------
+    sample_rate : int, optional
+        Audio sample rate. Defaults to 16kHz (16000).
+    num_channels : int, optional
+        Number of channels. Defaults to mono (1).
+    wav2vec: dict or str, optional
+        Defaults to "WAVLM_BASE".
+    wav2vec_layer: int, optional
+        Index of layer to use as input to the LSTM.
+        Defaults (-1) to use average of all layers (with learnable weights).
+    lstm : dict, optional
+        Keyword arguments passed to the LSTM layer.
+        Defaults to {"hidden_size": 128, "num_layers": 4, "bidirectional": True},
+        i.e. two bidirectional layers with 128 units each.
+        Set "monolithic" to False to split monolithic multi-layer LSTM into multiple mono-layer LSTMs.
+        This may proove useful for probing LSTM internals.
+    linear : dict, optional
+        Keyword arugments used to initialize linear layers
+        Defaults to {"hidden_size": 128, "num_layers": 2},
+        i.e. two linear layers with 128 units each.
+    """
+
+    WAV2VEC_DEFAULTS = "WAVLM_BASE"
+
+    LSTM_DEFAULTS = {
+        "hidden_size": 128,
+        "num_layers": 4,
+        "bidirectional": True,
+        "monolithic": True,
+        "dropout": 0.0,
+    }
+    LINEAR_DEFAULTS = {"hidden_size": 128, "num_layers": 2}
+
+    def __init__(
+        self,
+        wav2vec: Union[dict, str] = None,
+        wav2vec_layer: int = -1,
+        lstm: dict = None,
+        linear: dict = None,
+        sample_rate: int = 16000,
+        num_channels: int = 1,
+        task: Optional[Task] = None,
+    ):
+        super().__init__(sample_rate=sample_rate, num_channels=num_channels, task=task)
+
+        if isinstance(wav2vec, str):
+            # `wav2vec` is one of the supported pipelines from torchaudio (e.g. "WAVLM_BASE")
+            if hasattr(torchaudio.pipelines, wav2vec):
+                bundle = getattr(torchaudio.pipelines, wav2vec)
+                if sample_rate != bundle._sample_rate:
+                    raise ValueError(
+                        f"Expected {bundle._sample_rate}Hz, found {sample_rate}Hz."
+                    )
+                wav2vec_dim = bundle._params["encoder_embed_dim"]
+                wav2vec_num_layers = bundle._params["encoder_num_layers"]
+                self.wav2vec = bundle.get_model()
+
+            # `wav2vec` is a path to a self-supervised representation checkpoint
+            else:
+                _checkpoint = torch.load(wav2vec)
+                wav2vec = _checkpoint.pop("config")
+                self.wav2vec = torchaudio.models.wav2vec2_model(**wav2vec)
+                state_dict = _checkpoint.pop("state_dict")
+                self.wav2vec.load_state_dict(state_dict)
+                wav2vec_dim = wav2vec["encoder_embed_dim"]
+                wav2vec_num_layers = wav2vec["encoder_num_layers"]
+
+        # `wav2vec` is a config dictionary understood by `wav2vec2_model`
+        # this branch is typically used by Model.from_pretrained(...)
+        elif isinstance(wav2vec, dict):
+            self.wav2vec = torchaudio.models.wav2vec2_model(**wav2vec)
+            wav2vec_dim = wav2vec["encoder_embed_dim"]
+            wav2vec_num_layers = wav2vec["encoder_num_layers"]
+
+        if wav2vec_layer < 0:
+            self.wav2vec_weights = nn.Parameter(
+                data=torch.ones(wav2vec_num_layers), requires_grad=True
+            )
+
+        lstm = merge_dict(self.LSTM_DEFAULTS, lstm)
+        lstm["batch_first"] = True
+        linear = merge_dict(self.LINEAR_DEFAULTS, linear)
+
+        self.save_hyperparameters("wav2vec", "wav2vec_layer", "lstm", "linear")
+
+        monolithic = lstm["monolithic"]
+        if monolithic:
+            multi_layer_lstm = dict(lstm)
+            del multi_layer_lstm["monolithic"]
+            self.lstm = nn.LSTM(wav2vec_dim, **multi_layer_lstm)
+
+        else:
+            num_layers = lstm["num_layers"]
+            if num_layers > 1:
+                self.dropout = nn.Dropout(p=lstm["dropout"])
+
+            one_layer_lstm = dict(lstm)
+            one_layer_lstm["num_layers"] = 1
+            one_layer_lstm["dropout"] = 0.0
+            del one_layer_lstm["monolithic"]
+
+            self.lstm = nn.ModuleList(
+                [
+                    nn.LSTM(
+                        wav2vec_dim
+                        if i == 0
+                        else lstm["hidden_size"] * (2 if lstm["bidirectional"] else 1),
+                        **one_layer_lstm,
+                    )
+                    for i in range(num_layers)
+                ]
+            )
+
+        if linear["num_layers"] < 1:
+            return
+
+        lstm_out_features: int = self.hparams.lstm["hidden_size"] * (
+            2 if self.hparams.lstm["bidirectional"] else 1
+        )
+        self.linear = nn.ModuleList(
+            [
+                nn.Linear(in_features, out_features)
+                for in_features, out_features in pairwise(
+                    [
+                        lstm_out_features,
+                    ]
+                    + [self.hparams.linear["hidden_size"]]
+                    * self.hparams.linear["num_layers"]
+                )
+            ]
+        )
+
+    def build(self):
+        if self.hparams.linear["num_layers"] > 0:
+            in_features = self.hparams.linear["hidden_size"]
+        else:
+            in_features = self.hparams.lstm["hidden_size"] * (
+                2 if self.hparams.lstm["bidirectional"] else 1
+            )
+
+        if isinstance(self.specifications, tuple):
+            raise ValueError("SSeRiouSS model does not support multi-tasking.")
+
+        if self.specifications.powerset:
+            out_features = self.specifications.num_powerset_classes
+        else:
+            out_features = len(self.specifications.classes)
+
+        self.classifier = nn.Linear(in_features, out_features)
+        self.activation = self.default_activation()
+
+    def forward(self, waveforms: torch.Tensor) -> torch.Tensor:
+        """Pass forward
+
+        Parameters
+        ----------
+        waveforms : (batch, channel, sample)
+
+        Returns
+        -------
+        scores : (batch, frame, classes)
+        """
+
+        num_layers = (
+            None if self.hparams.wav2vec_layer < 0 else self.hparams.wav2vec_layer
+        )
+
+        with torch.no_grad():
+            outputs, _ = self.wav2vec.extract_features(
+                waveforms.squeeze(1), num_layers=num_layers
+            )
+
+        if num_layers is None:
+            outputs = torch.stack(outputs, dim=-1) @ F.softmax(
+                self.wav2vec_weights, dim=0
+            )
+        else:
+            outputs = outputs[-1]
+
+        if self.hparams.lstm["monolithic"]:
+            outputs, _ = self.lstm(outputs)
+        else:
+            for i, lstm in enumerate(self.lstm):
+                outputs, _ = lstm(outputs)
+                if i + 1 < self.hparams.lstm["num_layers"]:
+                    outputs = self.dropout(outputs)
+
+        if self.hparams.linear["num_layers"] > 0:
+            for linear in self.linear:
+                outputs = F.leaky_relu(linear(outputs))
+
+        return self.activation(self.classifier(outputs))
diff --git a/pyannote/audio/models/segmentation/__init__.py b/pyannote/audio/models/segmentation/__init__.py
index 82e149853..9f6f5f6e3 100644
--- a/pyannote/audio/models/segmentation/__init__.py
+++ b/pyannote/audio/models/segmentation/__init__.py
@@ -1,6 +1,6 @@
 # MIT License
 #
-# Copyright (c) 2020 CNRS
+# Copyright (c) 2020- CNRS
 #
 # Permission is hereby granted, free of charge, to any person obtaining a copy
 # of this software and associated documentation files (the "Software"), to deal
@@ -21,5 +21,6 @@
 # SOFTWARE.
 
 from .PyanNet import PyanNet
+from .SSeRiouSS import SSeRiouSS
 
-__all__ = ["PyanNet"]
+__all__ = ["PyanNet", "SSeRiouSS"]

From 1af9d44309f4317bc5d74774c2f2acdfc1642002 Mon Sep 17 00:00:00 2001
From: =?UTF-8?q?Herv=C3=A9=20BREDIN?= 
Date: Wed, 20 Sep 2023 21:01:11 +0200
Subject: [PATCH 106/112] github: fix test action (#1464)

---
 .github/workflows/test.yml | 1 +
 1 file changed, 1 insertion(+)

diff --git a/.github/workflows/test.yml b/.github/workflows/test.yml
index df1182cf3..90a4302c6 100644
--- a/.github/workflows/test.yml
+++ b/.github/workflows/test.yml
@@ -23,6 +23,7 @@ jobs:
       - name: Install libsndfile
         if: matrix.os == 'ubuntu-latest'
         run: |
+          sudo apt-get update
           sudo apt-get install libsndfile1
       - name: Install pyannote.audio
         run: |

From 71f012bfd4c24d42331af0928ea64020a08aef44 Mon Sep 17 00:00:00 2001
From: FrenchKrab <14005967+FrenchKrab@users.noreply.github.com>
Date: Wed, 20 Sep 2023 21:08:31 +0200
Subject: [PATCH 107/112] fix(task): fix support for "balance" option

---
 CHANGELOG.md                                           |  1 +
 pyannote/audio/tasks/segmentation/mixins.py            |  9 ++++++---
 pyannote/audio/tasks/segmentation/multilabel.py        | 10 +++++-----
 .../tasks/segmentation/overlapped_speech_detection.py  | 10 +++++-----
 .../audio/tasks/segmentation/speaker_diarization.py    | 10 +++++-----
 .../tasks/segmentation/voice_activity_detection.py     | 10 +++++-----
 6 files changed, 27 insertions(+), 23 deletions(-)

diff --git a/CHANGELOG.md b/CHANGELOG.md
index a6f2161c5..8bfc4be3e 100644
--- a/CHANGELOG.md
+++ b/CHANGELOG.md
@@ -51,6 +51,7 @@
   - fix(pipeline): fix support for IOBase audio
   - fix(pipeline): fix corner case with no speaker
   - fix(train): prevent metadata preparation to happen twice
+  - fix(task): fix support for "balance" option
   - improve(task): shorten and improve structure of Tensorboard tags
 
 ### Dependencies
diff --git a/pyannote/audio/tasks/segmentation/mixins.py b/pyannote/audio/tasks/segmentation/mixins.py
index 142245ae8..018e8db70 100644
--- a/pyannote/audio/tasks/segmentation/mixins.py
+++ b/pyannote/audio/tasks/segmentation/mixins.py
@@ -421,7 +421,7 @@ def train__iter__helper(self, rng: random.Random, **filters):
         # indices of training files that matches domain filters
         training = self.metadata["subset"] == Subsets.index("train")
         for key, value in filters.items():
-            training &= self.metadata[key] == value
+            training &= self.metadata[key] == self.metadata_unique_values[key].index(value)
         file_ids = np.where(training)[0]
 
         # turn annotated duration into a probability distribution
@@ -485,8 +485,11 @@ def train__iter__(self):
             # create a subchunk generator for each combination of "balance" keys
             subchunks = dict()
             for product in itertools.product(
-                [self.metadata_unique_values[key] for key in balance]
+                *[self.metadata_unique_values[key] for key in balance]
             ):
+                # we iterate on the cartesian product of the values in metadata_unique_values
+                # eg: for balance=["database", "split"], with 2 databases and 2 splits:
+                # ("DIHARD", "A"), ("DIHARD", "B"), ("REPERE", "A"), ("REPERE", "B")
                 filters = {key: value for key, value in zip(balance, product)}
                 subchunks[product] = self.train__iter__helper(rng, **filters)
 
@@ -494,7 +497,7 @@ def train__iter__(self):
             # select one subchunk generator at random (with uniform probability)
             # so that it is balanced on average
             if balance is not None:
-                chunks = subchunks[rng.choice(subchunks)]
+                chunks = subchunks[rng.choice(list(subchunks))]
 
             # generate random chunk
             yield next(chunks)
diff --git a/pyannote/audio/tasks/segmentation/multilabel.py b/pyannote/audio/tasks/segmentation/multilabel.py
index 4265d5e86..c1d58431a 100644
--- a/pyannote/audio/tasks/segmentation/multilabel.py
+++ b/pyannote/audio/tasks/segmentation/multilabel.py
@@ -58,10 +58,10 @@ class MultiLabelSegmentation(SegmentationTaskMixin, Task):
         parts, only the remaining central part of each chunk is used for computing the
         loss during training, and for aggregating scores during inference.
         Defaults to 0. (i.e. no warm-up).
-    balance: str, optional
-        When provided, training samples are sampled uniformly with respect to that key.
-        For instance, setting `balance` to "uri" will make sure that each file will be
-        equally represented in the training samples.
+    balance: Sequence[Text], optional
+        When provided, training samples are sampled uniformly with respect to these keys.
+        For instance, setting `balance` to ["database","subset"] will make sure that each
+        database & subset combination will be equally represented in the training samples.
     weight: str, optional
         When provided, use this key to as frame-wise weight in loss function.
     batch_size : int, optional
@@ -87,7 +87,7 @@ def __init__(
         classes: Optional[List[str]] = None,
         duration: float = 2.0,
         warm_up: Union[float, Tuple[float, float]] = 0.0,
-        balance: Text = None,
+        balance: Sequence[Text] = None,
         weight: Text = None,
         batch_size: int = 32,
         num_workers: int = None,
diff --git a/pyannote/audio/tasks/segmentation/overlapped_speech_detection.py b/pyannote/audio/tasks/segmentation/overlapped_speech_detection.py
index cd3711d61..0b7209c5c 100644
--- a/pyannote/audio/tasks/segmentation/overlapped_speech_detection.py
+++ b/pyannote/audio/tasks/segmentation/overlapped_speech_detection.py
@@ -59,10 +59,10 @@ class OverlappedSpeechDetection(SegmentationTaskMixin, Task):
         parts, only the remaining central part of each chunk is used for computing the
         loss during training, and for aggregating scores during inference.
         Defaults to 0. (i.e. no warm-up).
-    balance: str, optional
-        When provided, training samples are sampled uniformly with respect to that key.
-        For instance, setting `balance` to "uri" will make sure that each file will be
-        equally represented in the training samples.
+    balance: Sequence[Text], optional
+        When provided, training samples are sampled uniformly with respect to these keys.
+        For instance, setting `balance` to ["database","subset"] will make sure that each
+        database & subset combination will be equally represented in the training samples.
     overlap: dict, optional
         Controls how artificial chunks with overlapping speech are generated:
         - "probability" key is the probability of artificial overlapping chunks. Setting
@@ -98,7 +98,7 @@ def __init__(
         duration: float = 2.0,
         warm_up: Union[float, Tuple[float, float]] = 0.0,
         overlap: dict = OVERLAP_DEFAULTS,
-        balance: Text = None,
+        balance: Sequence[Text] = None,
         weight: Text = None,
         batch_size: int = 32,
         num_workers: int = None,
diff --git a/pyannote/audio/tasks/segmentation/speaker_diarization.py b/pyannote/audio/tasks/segmentation/speaker_diarization.py
index eac795a47..1094672ed 100644
--- a/pyannote/audio/tasks/segmentation/speaker_diarization.py
+++ b/pyannote/audio/tasks/segmentation/speaker_diarization.py
@@ -86,10 +86,10 @@ class SpeakerDiarization(SegmentationTaskMixin, Task):
         parts, only the remaining central part of each chunk is used for computing the
         loss during training, and for aggregating scores during inference.
         Defaults to 0. (i.e. no warm-up).
-    balance: str, optional
-        When provided, training samples are sampled uniformly with respect to that key.
-        For instance, setting `balance` to "database" will make sure that each database
-        will be equally represented in the training samples.
+    balance: Sequence[Text], optional
+        When provided, training samples are sampled uniformly with respect to these keys.
+        For instance, setting `balance` to ["database","subset"] will make sure that each
+        database & subset combination will be equally represented in the training samples.
     weight: str, optional
         When provided, use this key as frame-wise weight in loss function.
     batch_size : int, optional
@@ -132,7 +132,7 @@ def __init__(
         max_speakers_per_frame: int = None,
         weigh_by_cardinality: bool = False,
         warm_up: Union[float, Tuple[float, float]] = 0.0,
-        balance: Text = None,
+        balance: Sequence[Text] = None,
         weight: Text = None,
         batch_size: int = 32,
         num_workers: int = None,
diff --git a/pyannote/audio/tasks/segmentation/voice_activity_detection.py b/pyannote/audio/tasks/segmentation/voice_activity_detection.py
index 967ea1f9b..fd9eb8e75 100644
--- a/pyannote/audio/tasks/segmentation/voice_activity_detection.py
+++ b/pyannote/audio/tasks/segmentation/voice_activity_detection.py
@@ -53,10 +53,10 @@ class VoiceActivityDetection(SegmentationTaskMixin, Task):
         parts, only the remaining central part of each chunk is used for computing the
         loss during training, and for aggregating scores during inference.
         Defaults to 0. (i.e. no warm-up).
-    balance: str, optional
-        When provided, training samples are sampled uniformly with respect to that key.
-        For instance, setting `balance` to "uri" will make sure that each file will be
-        equally represented in the training samples.
+    balance: Sequence[Text], optional
+        When provided, training samples are sampled uniformly with respect to these keys.
+        For instance, setting `balance` to ["database","subset"] will make sure that each
+        database & subset combination will be equally represented in the training samples.
     weight: str, optional
         When provided, use this key to as frame-wise weight in loss function.
     batch_size : int, optional
@@ -81,7 +81,7 @@ def __init__(
         protocol: Protocol,
         duration: float = 2.0,
         warm_up: Union[float, Tuple[float, float]] = 0.0,
-        balance: Text = None,
+        balance: Sequence[Text] = None,
         weight: Text = None,
         batch_size: int = 32,
         num_workers: int = None,

From 9297c0c8766879f92dd13582b6e4de3372aeb037 Mon Sep 17 00:00:00 2001
From: =?UTF-8?q?Herv=C3=A9=20BREDIN?= 
Date: Fri, 22 Sep 2023 17:45:40 +0200
Subject: [PATCH 108/112] feat: add support for WeSpeaker models on Huggingface
 (#1466)

---
 .../audio/pipelines/speaker_verification.py    | 18 ++++++++++++++++--
 1 file changed, 16 insertions(+), 2 deletions(-)

diff --git a/pyannote/audio/pipelines/speaker_verification.py b/pyannote/audio/pipelines/speaker_verification.py
index b30ea2b21..594a4823c 100644
--- a/pyannote/audio/pipelines/speaker_verification.py
+++ b/pyannote/audio/pipelines/speaker_verification.py
@@ -22,6 +22,7 @@
 
 import warnings
 from functools import cached_property
+from pathlib import Path
 from typing import Text, Union
 
 import numpy as np
@@ -29,6 +30,8 @@
 import torch.nn.functional as F
 import torchaudio
 import torchaudio.compliance.kaldi as kaldi
+from huggingface_hub import hf_hub_download
+from huggingface_hub.utils import RepositoryNotFoundError
 from torch.nn.utils.rnn import pad_sequence
 
 from pyannote.audio import Inference, Model, Pipeline
@@ -395,7 +398,7 @@ class WeSpeakerPretrainedSpeakerEmbedding(BaseInference):
 
     Usage
     -----
-    >>> get_embedding = WeSpeakerPretrainedSpeakerEmbedding("wespeaker.xxxx.onnx")
+    >>> get_embedding = WeSpeakerPretrainedSpeakerEmbedding("hbredin/wespeaker-voxceleb-resnet34-LM")
     >>> assert waveforms.ndim == 3
     >>> batch_size, num_channels, num_samples = waveforms.shape
     >>> assert num_channels == 1
@@ -410,7 +413,7 @@ class WeSpeakerPretrainedSpeakerEmbedding(BaseInference):
 
     def __init__(
         self,
-        embedding: Text = "speechbrain/spkrec-ecapa-voxceleb",
+        embedding: Text = "hbredin/wespeaker-voxceleb-resnet34-LM",
         device: torch.device = None,
     ):
         if not ONNX_IS_AVAILABLE:
@@ -420,6 +423,17 @@ def __init__(
 
         super().__init__()
 
+        if not Path(embedding).exists():
+            try:
+                embedding = hf_hub_download(
+                    repo_id=embedding,
+                    filename="speaker-embedding.onnx",
+                )
+            except RepositoryNotFoundError:
+                raise ValueError(
+                    f"Could not find '{embedding}' on huggingface.co nor on local disk."
+                )
+
         self.embedding = embedding
 
         self.to(device or torch.device("cpu"))

From b7960890aefda70e9595609d52e61e7e61fb16d7 Mon Sep 17 00:00:00 2001
From: =?UTF-8?q?Herv=C3=A9=20BREDIN?= 
Date: Fri, 22 Sep 2023 18:50:48 +0200
Subject: [PATCH 109/112] feat: add support for powerset in VAD and OSD
 pipelines (#1467)

---
 .../pipelines/overlapped_speech_detection.py  | 19 ++++++++++++++----
 .../pipelines/voice_activity_detection.py     | 20 ++++++++++++++-----
 2 files changed, 30 insertions(+), 9 deletions(-)

diff --git a/pyannote/audio/pipelines/overlapped_speech_detection.py b/pyannote/audio/pipelines/overlapped_speech_detection.py
index 064cae1be..1c9790feb 100644
--- a/pyannote/audio/pipelines/overlapped_speech_detection.py
+++ b/pyannote/audio/pipelines/overlapped_speech_detection.py
@@ -134,9 +134,13 @@ def __init__(
             )[:, :, -2, np.newaxis]
         self._segmentation = Inference(model, **inference_kwargs)
 
-        #  hyper-parameters used for hysteresis thresholding
-        self.onset = Uniform(0.0, 1.0)
-        self.offset = Uniform(0.0, 1.0)
+        if model.specifications.powerset:
+            self.onset = self.offset = 0.5
+
+        else:
+            #  hyper-parameters used for hysteresis thresholding
+            self.onset = Uniform(0.0, 1.0)
+            self.offset = Uniform(0.0, 1.0)
 
         # hyper-parameters used for post-processing i.e. removing short overlapped regions
         # or filling short gaps between overlapped regions
@@ -152,14 +156,21 @@ def __init__(
         self.recall = recall
 
     def default_parameters(self):
-        # parameters optimized on DIHARD 3 development set
         if self.segmentation == "pyannote/segmentation":
+            # parameters optimized on DIHARD 3 development set
             return {
                 "onset": 0.430,
                 "offset": 0.320,
                 "min_duration_on": 0.091,
                 "min_duration_off": 0.144,
             }
+
+        elif self.segmentation == "pyannote/segmentation-3.0.0":
+            return {
+                "min_duration_on": 0.0,
+                "min_duration_off": 0.0,
+            }
+
         raise NotImplementedError()
 
     def classes(self):
diff --git a/pyannote/audio/pipelines/voice_activity_detection.py b/pyannote/audio/pipelines/voice_activity_detection.py
index 0edbea42f..f67489b64 100644
--- a/pyannote/audio/pipelines/voice_activity_detection.py
+++ b/pyannote/audio/pipelines/voice_activity_detection.py
@@ -121,14 +121,18 @@ def __init__(
 
         # load model and send it to GPU (when available and not already on GPU)
         model = get_model(segmentation, use_auth_token=use_auth_token)
+
         inference_kwargs["pre_aggregation_hook"] = lambda scores: np.max(
             scores, axis=-1, keepdims=True
         )
         self._segmentation = Inference(model, **inference_kwargs)
 
-        #  hyper-parameters used for hysteresis thresholding
-        self.onset = Uniform(0.0, 1.0)
-        self.offset = Uniform(0.0, 1.0)
+        if model.specifications.powerset:
+            self.onset = self.offset = 0.5
+        else:
+            #  hyper-parameters used for hysteresis thresholding
+            self.onset = Uniform(0.0, 1.0)
+            self.offset = Uniform(0.0, 1.0)
 
         # hyper-parameters used for post-processing i.e. removing short speech regions
         # or filling short gaps between speech regions
@@ -136,14 +140,21 @@ def __init__(
         self.min_duration_off = Uniform(0.0, 1.0)
 
     def default_parameters(self):
-        # parameters optimized on DIHARD 3 development set
         if self.segmentation == "pyannote/segmentation":
+            # parameters optimized for DIHARD 3 development set
             return {
                 "onset": 0.767,
                 "offset": 0.377,
                 "min_duration_on": 0.136,
                 "min_duration_off": 0.067,
             }
+
+        elif self.segmentation == "pyannote/segmentation-3.0.0":
+            return {
+                "min_duration_on": 0.0,
+                "min_duration_off": 0.0,
+            }
+
         raise NotImplementedError()
 
     def classes(self):
@@ -289,7 +300,6 @@ def __init__(
         self.learning_rate = LogUniform(1e-6, 1)
 
     def apply(self, file: AudioFile) -> Annotation:
-
         # create a copy of file
         file = dict(file)
 

From d169fd37708d5f913b71841f84e93dd8cbefd174 Mon Sep 17 00:00:00 2001
From: =?UTF-8?q?Herv=C3=A9=20BREDIN?= 
Date: Fri, 22 Sep 2023 22:19:36 +0200
Subject: [PATCH 110/112] setup: switch to pyannote-pipeline 3.0.1

---
 CHANGELOG.md     | 2 +-
 requirements.txt | 2 +-
 2 files changed, 2 insertions(+), 2 deletions(-)

diff --git a/CHANGELOG.md b/CHANGELOG.md
index 8bfc4be3e..0da78ec6c 100644
--- a/CHANGELOG.md
+++ b/CHANGELOG.md
@@ -57,7 +57,7 @@
 ### Dependencies
 
   - setup: switch to torch 2.0+, torchaudio 2.0+, soundfile 0.12+, lightning 2.0+, torchmetrics 0.11+
-  - setup: switch to pyannote.core 5.0+ and pyannote.database 5.0+
+  - setup: switch to pyannote.core 5.0+, pyannote.database 5.0+, and pyannote.pipeline 3.0+
   - setup: switch to speechbrain 0.5.14+
 
 ## Version 2.1.1 (2022-10-27)
diff --git a/requirements.txt b/requirements.txt
index e4c72019f..7e71fe024 100644
--- a/requirements.txt
+++ b/requirements.txt
@@ -6,7 +6,7 @@ omegaconf >=2.1,<3.0
 pyannote.core >= 5.0.0
 pyannote.database >= 5.0.1
 pyannote.metrics >= 3.2
-pyannote.pipeline >= 2.3   # 2.4
+pyannote.pipeline >= 3.0.1
 pytorch_metric_learning >= 2.1.0
 rich >= 12.0.0
 semver >= 3.0.0

From 76d86fa97a20a8a67b55281cee498d376441d963 Mon Sep 17 00:00:00 2001
From: =?UTF-8?q?Herv=C3=A9=20BREDIN?= 
Date: Tue, 26 Sep 2023 10:09:28 +0200
Subject: [PATCH 111/112] chore: remove prodigy support (#1469)

---
 README.md                                     |    1 -
 .../audio/interactive/common/commands.png     |  Bin 138093 -> 0 bytes
 .../audio/interactive/common/controller.js    |  367 -
 .../interactive/common/instructions.html      |   69 -
 pyannote/audio/interactive/common/regions.js  | 1362 ----
 .../audio/interactive/common/template.css     |   41 -
 .../audio/interactive/common/template.html    |    3 -
 pyannote/audio/interactive/common/utils.py    |  169 -
 .../audio/interactive/common/wavesurfer.js    | 6541 -----------------
 pyannote/audio/interactive/diff/controller.js |  231 -
 pyannote/audio/interactive/diff/legend.html   |    5 -
 pyannote/audio/interactive/diff/recipe.py     |  258 -
 pyannote/audio/interactive/pipeline/recipe.py |  231 -
 .../audio/interactive/review/controller.js    |  228 -
 pyannote/audio/interactive/review/recipe.py   |  220 -
 setup.cfg                                     |    6 -
 tutorials/prodigy.md                          |  151 -
 17 files changed, 9883 deletions(-)
 delete mode 100755 pyannote/audio/interactive/common/commands.png
 delete mode 100644 pyannote/audio/interactive/common/controller.js
 delete mode 100644 pyannote/audio/interactive/common/instructions.html
 delete mode 100644 pyannote/audio/interactive/common/regions.js
 delete mode 100644 pyannote/audio/interactive/common/template.css
 delete mode 100644 pyannote/audio/interactive/common/template.html
 delete mode 100644 pyannote/audio/interactive/common/utils.py
 delete mode 100644 pyannote/audio/interactive/common/wavesurfer.js
 delete mode 100644 pyannote/audio/interactive/diff/controller.js
 delete mode 100644 pyannote/audio/interactive/diff/legend.html
 delete mode 100644 pyannote/audio/interactive/diff/recipe.py
 delete mode 100644 pyannote/audio/interactive/pipeline/recipe.py
 delete mode 100644 pyannote/audio/interactive/review/controller.js
 delete mode 100644 pyannote/audio/interactive/review/recipe.py
 delete mode 100644 tutorials/prodigy.md

diff --git a/README.md b/README.md
index 1d314cd92..721323b6d 100644
--- a/README.md
+++ b/README.md
@@ -74,7 +74,6 @@ pip install -qq https://github.com/pyannote/pyannote-audio/archive/refs/heads/de
     - 2021-08-05 > ["Streaming voice activity detection with pyannote.audio"](https://herve.niderb.fr/fastpages/2021/08/05/Streaming-voice-activity-detection-with-pyannote.html)
 - Miscellaneous
     - [Training with `pyannote-audio-train` command line tool](tutorials/training_with_cli.md)
-    - [Annotating your own data with Prodigy](tutorials/prodigy.md)
     - [Speaker verification](tutorials/speaker_verification.ipynb)
     - Visualization and debugging
 
diff --git a/pyannote/audio/interactive/common/commands.png b/pyannote/audio/interactive/common/commands.png
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diff --git a/pyannote/audio/interactive/common/controller.js b/pyannote/audio/interactive/common/controller.js
deleted file mode 100644
index cbffc2899..000000000
--- a/pyannote/audio/interactive/common/controller.js
+++ /dev/null
@@ -1,367 +0,0 @@
-// The MIT License (MIT)
-//
-// Copyright (c) 2021 CNRS
-//
-// Permission is hereby granted, free of charge, to any person obtaining a copy
-// of this software and associated documentation files (the "Software"), to deal
-// in the Software without restriction, including without limitation the rights
-// to use, copy, modify, merge, publish, distribute, sublicense, and/or sell
-// copies of the Software, and to permit persons to whom the Software is
-// furnished to do so, subject to the following conditions:
-//
-// The above copyright notice and this permission notice shall be included in
-// all copies or substantial portions of the Software.
-//
-// THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
-// IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
-// FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE
-// AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
-// LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM,
-// OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE
-// SOFTWARE.
-
-// Can't create constant because prodigy reload this file every batch
-var currentRegion = 0;
-var regions = null;
-var ids = null;
-var refresh = true;
-
-var left = 'ArrowLeft';
-var right = 'ArrowRight';
-var startR = 'Shift';
-var endR = 'Control';
-
-var PRECISION = (prodigy.config.precision / 1000);
-var BEEP = prodigy.config.beep;
-var EXCERPT = 1;
-
-var keysMap = {};
-
-/**
-* Handle web audio for beep
-* @see beep()
-*/
-var audioCtx = new(window.AudioContext || window.webkitAudioContext)();
-
-/**
-* Makes sure that the document is loaded before executing waitForElement()
-* Add a small timeout if wavesurfer is already defined (useful when a new batch is coming),
-* the time for prodigy to update wavesurfer.
-* @see waitForElement()
-*/
-if(document.readyState !== 'loading') {
-    if(typeof window.wavesurfer !== "undefined"){
-        setTimeout(waitForElement,25);
-    }else{
-        waitForElement();
-    }
-} else {
-    document.addEventListener('DOMContentLoaded', function () {
-        waitForElement();
-    });
-}
-
-/**
-* Compare if a region is before or after another one
-* Useful to sort global variable 'ids'
-* @see reloadWave()
-* @param {region1} Region object
-* @param {region2} Region Object
-* @return {number} -1 if region1 start before, 1 otherwise, 0 if the identical
-*/
-function compare(region1, region2){
-  if(region1.start < region2.start){
-    return -1;
-  }else if (region1.start > region2.start){
-    return 1;
-  }else{
-    return 0;
-  }
-}
-
-/**
-* Simulate a click on prodigy's label radio button
-* Only useful for "review recipe"
-* Note: might break with future versions of Prodigy
-* @param {label} Label to click on
-*/
-function clickOnLabel(label){
-  document.querySelector("input[type=radio][value=\'"+label+"\']").click()
-}
-
-/**
-* Update prodigy.content with all regions from window.wavesurfer.regions.list (thus, all regions that can be seen in the interface)
-* Discuss in this issue :
-* https://support.prodi.gy/t/weird-interaction-between-window-prodigy-update-and-wavesurfer/5450
-*/
-function updateContent(){
-  var regions = window.wavesurfer.regions.list;
-  var content = [];
-  for (var id in regions){
-    var region = regions[id];
-    content.push({start : region.start, end : region.end, label : region.label, id : region.id, color : region.color});
-  }
-  window.prodigy.update({audio_spans : content});
-}
-
-/**
-* Create a beep sound from scratch
-* You can adjust the gain, frequency (here its A 440) and duration
-*/
-function beep() {
-  if(BEEP){
-    var oscillator = audioCtx.createOscillator();
-    var gainNode = audioCtx.createGain();
-
-    oscillator.connect(gainNode);
-    gainNode.connect(audioCtx.destination);
-
-    gainNode.gain.value = 0.1;
-    oscillator.frequency.value = 440;
-    oscillator.type = "square";
-
-    oscillator.start();
-
-    setTimeout(
-      function() {
-        oscillator.stop();
-      },
-      150  // FIXME: should depend on the value of "precision"
-    );
-  }
-}
-
-/**
-* Change CSS style for the selected region
-* @param {e} Region object
-*/
-function activeRegion(e){
-  e.element.style.borderTop = "3px solid";
-  e.element.style.borderBottom = "3px solid";
-}
-
-/**
-* @see activeRegion()
-* Undo CSS change
-* @param {e} Region object
-*/
-function deactiveRegion(e){
-  e.element.style.borderTop = "";
-  e.element.style.borderBottom = "";
-}
-
-/**
-* Update global variables 'regions' and 'ids' with regions in window.wavesurfer.regions.list
-* Put the first one as "active" and update the variable currentRegion
-*/
-function reloadWave(){
-  regions = window.wavesurfer.regions.list;
-  ids = Object.values(regions);
-  ids.sort(compare);
-  if(ids.length > 0){
-    currentRegion = 0;
-    activeRegion(ids[0]);
-  }
-}
-
-/**
-* Switch selected region
-* Update var currentRegion
-* Place wavesurfer cursor at the beginning of the new region or the beginning of the file if it's a new prodigy task
-* @see activeRegion() / deactiveRegion()
-* @param {ids} Ids of the region to be selected
-*/
-function switchCurrent(newId){
-  if(ids.length > 0){
-    deactiveRegion(ids[currentRegion]);
-    currentRegion = newId;
-    activeRegion(ids[newId])
-    if(refresh){
-       window.wavesurfer.seekTo(0);
-    }else{
-      var time = (ids[currentRegion].start) / (window.wavesurfer.getDuration());
-      window.wavesurfer.seekTo(time);
-    }
-  }
-}
-
-/**
-* Handle wavesurfer regions
-* Add event listener to some wavesurfer event
-*/
-function waitForElement(){
-    if(typeof window.wavesurfer !== "undefined"){
-        reloadWave();
-        // Select created region or the first one if it's a new task
-        window.wavesurfer.on('region-created', function(e){
-          setTimeout(function(){
-            if(ids.length > 0) deactiveRegion(ids[currentRegion]);
-            reloadWave();
-            if(refresh){
-              switchCurrent(0);
-            }else{
-              switchCurrent(ids.indexOf(e));
-            }
-          }, 5);
-        });
-        // Change region label (by remove the old one and create a new one with proper label)
-        window.wavesurfer.on('region-dblclick',function(e){
-          re = window.wavesurfer.addRegion({'start' : e.start,'end' : e.end});
-          e.remove();
-          window.wavesurfer.fireEvent('region-update-end',re);
-        });
-        // Select region on click
-        window.wavesurfer.on('region-click',function(e){
-          switchCurrent(ids.indexOf(e));
-        });
-        // Beep when region end
-        window.wavesurfer.on('region-out',function(e){
-          beep();
-        });
-        // @see updateContent()
-        window.wavesurfer.on('region-update-end', function(e){
-          updateContent();
-        });
-        // @see updateContent()
-        // Switch selected region when deleted
-        window.wavesurfer.on('region-removed',function(e){
-          updateContent();
-          if(currentRegion == (ids.length - 1)){
-            var newId = 0;
-          }else{
-            var newId = currentRegion;
-          }
-          reloadWave();
-          if(ids.length > 0) switchCurrent(newId);
-        });
-    }else{
-       setTimeout(waitForElement, 250);
-    }
-}
-
-// Check if it's a new prodigy task
-document.addEventListener('prodigyanswer', e => {
-  refresh = true;
-})
-
-/**
-*  Keyboard controller
-* | Key 1             | Key 2              | Command                                          |
-* | -------------     | -------------      | ------------                                     |
-* | Arrows left/right | [W]                | Move Cursor [speed up]                           |
-* | Shift             | Arrows left/right  | Change start of current segment                  |
-* | Control           | Arrows left/right  | Change end of current segment                    |
-* | Arrows up/down    |                    | Change current segment to the next/precedent one |
-* | Shift             | Arrows up/[down]   | Create [or remove] segment                       |
-* | Backspace         |                    | Remove current segment                           |
-*/
-document.querySelector('#root').onkeydown = document.querySelector('#root').onkeyup = function(e){
-    e = e || event;
-    keysMap[e.key] = e.type == 'keydown';
-    var pos = window.wavesurfer.getCurrentTime();
-    var audioEnd = window.wavesurfer.getDuration();
-    var region = ids[currentRegion];
-    refresh = false;
-
-    // If Left is pressed
-    if(keysMap[left] && !keysMap[right]){
-      // If Shift is pressed
-      if(keysMap[startR] && !keysMap[endR]){
-        // Shortens start if possible
-        if((region.start - PRECISION) <= 0){
-          region.update({'start' : 0});
-          window.wavesurfer.fireEvent('region-update-end',region);
-          window.wavesurfer.play(0, region.end);
-       }else{
-          region.update({'start' : region.start - PRECISION });
-          window.wavesurfer.fireEvent('region-update-end',region);
-          window.wavesurfer.play(region.start, region.end);
-        }
-      // If Ctrl is pressed
-      }else if(keysMap[endR] && !keysMap[startR]){
-        var startTime = region.end - EXCERPT;
-        if(startTime < region.start) startTime = region.start;
-        // Shortens end if possible
-        if((region.end - PRECISION) > region.start){
-          region.update({'end' : region.end - PRECISION });
-          window.wavesurfer.fireEvent('region-update-end',region);
-          window.wavesurfer.play(startTime, region.end);
-        }
-      }else{
-        // Else change cursor position
-        // Speed up naviguation if W is pressed
-        if(keysMap['w']){
-          var time = (pos - PRECISION*2) / audioEnd;
-        }else{
-          var time = (pos - PRECISION) / audioEnd;
-        }
-        if(time < 0) time = 0;
-        window.wavesurfer.pause();
-        window.wavesurfer.seekTo(time);
-      }
-    // If Right is pressed
-    }else if(keysMap[right] && !keysMap[left]){
-      // If Shift is pressed
-      if(keysMap[startR] && !keysMap[endR]){
-        // Extend start if possible
-        if(region.start + PRECISION < region.end){
-          region.update({'start' : region.start + PRECISION });
-          window.wavesurfer.fireEvent('region-update-end',region);
-          window.wavesurfer.play(region.start, region.end);
-        }
-      // If Ctrl is pressed
-      }else if(keysMap[endR] && !keysMap[startR]){
-        // Extend end if possible (while keep playing the audio)
-        if(!window.wavesurfer.isPlaying()){
-          var startTime = region.end - EXCERPT;
-          if(startTime < region.start) startTime = region.start;
-        }else{
-          var startTime = pos;
-        }
-        if((region.end + PRECISION) >= audioEnd){
-           region.update({'end' : audioEnd });
-           window.wavesurfer.fireEvent('region-update-end',region);
-        }else{
-          region.update({'end' : region.end + PRECISION });
-          window.wavesurfer.fireEvent('region-update-end',region);
-        }
-        window.wavesurfer.play(startTime, region.end);
-      }else{
-        // Else change cursor position
-        // Speed up naviguation if W is pressed
-        if(keysMap['w']){
-          var time = (pos + PRECISION*2) / audioEnd;
-        }else{
-          var time = (pos + PRECISION) / audioEnd;
-        }
-        if(time > 1) time = 1;
-        window.wavesurfer.pause();
-        window.wavesurfer.seekTo(time);
-      }
-    // If Up and shift is pressed : new region
-    }else if (keysMap['ArrowUp'] && keysMap['Shift']){
-      var fin = pos + 1;
-      if(fin > audioEnd) fin = audioEnd;
-      re = window.wavesurfer.addRegion({'start' : pos,'end' : fin});
-      window.wavesurfer.fireEvent('region-update-end',re);
-    // If Down and Shift or Backspace: delete region
-    // Check backspace for diarization text field
-    }else if(keysMap['Backspace'] || (keysMap['ArrowDown'] && keysMap['Shift'])){
-      ids[currentRegion].remove();
-    // If Up/Down @see switchCurrent
-    }else if(keysMap['ArrowUp']){
-      if(currentRegion == (ids.length - 1)){
-        switchCurrent(0);
-      }else{
-        switchCurrent(currentRegion + 1);
-      }
-    }else if(keysMap['ArrowDown']){
-      if(currentRegion == 0){
-        switchCurrent(ids.length - 1);
-      }else{
-        switchCurrent(currentRegion - 1);
-      }
-    }else if(keysMap['u']){
-      reloadWave();
-    }
-}
diff --git a/pyannote/audio/interactive/common/instructions.html b/pyannote/audio/interactive/common/instructions.html
deleted file mode 100644
index 0b75a98c1..000000000
--- a/pyannote/audio/interactive/common/instructions.html
+++ /dev/null
@@ -1,69 +0,0 @@
-
-
-	
-		
Commands

-	
-	
-	You have to mark the speech moments with bounding boxes.
-	

-        
-	


-        
-          
-            
-            
-            
-          
-          
-            
-            
-            
-          
-          
-            
-            
-            
-          
-          
-            
-            
-            
-          
-          
-            
-            
-            
-          
-          
-            
-            
-            
-          
-          
-            
-            
-            
-          
-          
-            
-            
-            
-          
-          
-            
-            
-            
-          
-          
-            
-            
-            
-          
-          
-            
-            
-            
-          
-        
Key 1Key 2Command
Arrows left/right[W]Move Cursor [speed up]
ShiftArrow left/rightChange start of current segment
ControlArrow left/rightChange end of current segment
Arrows up/downChange current segment to the next/precedent one
ShiftArrow up/[down]Create or [remove] segment
BackspaceRemove current segment
SpacebarPlay/pause audio
UUndo all actions
EscapeIgnore this sample
EnterValidate annotation

-	
-
diff --git a/pyannote/audio/interactive/common/regions.js b/pyannote/audio/interactive/common/regions.js
deleted file mode 100644
index c40b15cd1..000000000
--- a/pyannote/audio/interactive/common/regions.js
+++ /dev/null
@@ -1,1362 +0,0 @@
-/*!
- * wavesurfer.js regions plugin 5.2.0 (2021-08-16)
- * https://wavesurfer-js.org
- * @license BSD-3-Clause
- */
-(function webpackUniversalModuleDefinition(root, factory) {
-	if(typeof exports === 'object' && typeof module === 'object')
-		module.exports = factory();
-	else if(typeof define === 'function' && define.amd)
-		define("WaveSurfer", [], factory);
-	else if(typeof exports === 'object')
-		exports["WaveSurfer"] = factory();
-	else
-		root["WaveSurfer"] = root["WaveSurfer"] || {}, root["WaveSurfer"]["regions"] = factory();
-})(self, function() {
-return /******/ (() => { // webpackBootstrap
-/******/ 	"use strict";
-/******/ 	var __webpack_modules__ = ({
-
-/***/ "./src/plugin/regions/index.js":
-/*!*************************************!*\
-  !*** ./src/plugin/regions/index.js ***!
-  \*************************************/
-/***/ ((module, exports, __webpack_require__) => {
-
-
-
-Object.defineProperty(exports, "__esModule", ({
-  value: true
-}));
-exports.default = void 0;
-
-var _region = __webpack_require__(/*! ./region.js */ "./src/plugin/regions/region.js");
-
-function ownKeys(object, enumerableOnly) { var keys = Object.keys(object); if (Object.getOwnPropertySymbols) { var symbols = Object.getOwnPropertySymbols(object); if (enumerableOnly) { symbols = symbols.filter(function (sym) { return Object.getOwnPropertyDescriptor(object, sym).enumerable; }); } keys.push.apply(keys, symbols); } return keys; }
-
-function _objectSpread(target) { for (var i = 1; i < arguments.length; i++) { var source = arguments[i] != null ? arguments[i] : {}; if (i % 2) { ownKeys(Object(source), true).forEach(function (key) { _defineProperty(target, key, source[key]); }); } else if (Object.getOwnPropertyDescriptors) { Object.defineProperties(target, Object.getOwnPropertyDescriptors(source)); } else { ownKeys(Object(source)).forEach(function (key) { Object.defineProperty(target, key, Object.getOwnPropertyDescriptor(source, key)); }); } } return target; }
-
-function _defineProperty(obj, key, value) { if (key in obj) { Object.defineProperty(obj, key, { value: value, enumerable: true, configurable: true, writable: true }); } else { obj[key] = value; } return obj; }
-
-function _classCallCheck(instance, Constructor) { if (!(instance instanceof Constructor)) { throw new TypeError("Cannot call a class as a function"); } }
-
-function _defineProperties(target, props) { for (var i = 0; i < props.length; i++) { var descriptor = props[i]; descriptor.enumerable = descriptor.enumerable || false; descriptor.configurable = true; if ("value" in descriptor) descriptor.writable = true; Object.defineProperty(target, descriptor.key, descriptor); } }
-
-function _createClass(Constructor, protoProps, staticProps) { if (protoProps) _defineProperties(Constructor.prototype, protoProps); if (staticProps) _defineProperties(Constructor, staticProps); return Constructor; }
-
-/**
- * Regions are visual overlays on waveform that can be used to play and loop
- * portions of audio. Regions can be dragged and resized.
- *
- * Visual customization is possible via CSS (using the selectors
- * `.wavesurfer-region` and `.wavesurfer-handle`).
- *
- * @implements {PluginClass}
- * @extends {Observer}
- *
- * @example
- * // es6
- * import RegionsPlugin from 'wavesurfer.regions.js';
- *
- * // commonjs
- * var RegionsPlugin = require('wavesurfer.regions.js');
- *
- * // if you are using