This page describes how to reproduce with Pyserini the DistilSPLADE-max experiments in the following paper:
Thibault Formal, Carlos Lassance, Benjamin Piwowarski, Stéphane Clinchant. SPLADE v2: Sparse Lexical and Expansion Model for Information Retrieval. arXiv:2109.10086.
Here, we start with a version of the MS MARCO passage corpus that has already been processed with SPLADE, i.e., gone through document expansion and term reweighting. Thus, no neural inference is involved. As SPLADE weights are given in fp16, they have been converted to integer by taking the round of weight*100.
You can skip the data prep and indexing steps if you use our pre-built indexes. Skip directly down to the "Retrieval" section below.
We're going to use the repository's root directory as the working directory. First, we need to download and extract the MS MARCO passage dataset with SPLADE processing:
# Alternate mirrors of the same data, pick one:
wget https://rgw.cs.uwaterloo.ca/JIMMYLIN-bucket0/data/msmarco-passage-distill-splade-max.tar -P collections/
wget https://vault.cs.uwaterloo.ca/s/poCLbJDMm7JxwPk/download -O collections/msmarco-passage-distill-splade-max.tar
tar xvf collections/msmarco-passage-distill-splade-max.tar -C collections/To confirm, msmarco-passage-distill-splade-max.tar is 9.9 GB and has MD5 checksum 95b89a7dfd88f3685edcc2d1ffb120d1.
We can now index these documents:
python -m pyserini.index.lucene \
--collection JsonVectorCollection \
--input collections/msmarco-passage-distill-splade-max \
--index indexes/lucene-index.msmarco-passage-distill-splade-max \
--generator DefaultLuceneDocumentGenerator \
--threads 12 \
--impact --pretokenizedThe important indexing options to note here are --impact --pretokenized: the first tells Anserini not to encode BM25 doc lengths into Lucene's norms (which is the default) and the second option says not to apply any additional tokenization on the SPLADEv2 tokens.
Upon completion, we should have an index with 8,841,823 documents. The indexing speed may vary; on a modern desktop with an SSD (using 12 threads, per above), indexing takes around 30 minutes.
If you've skipped the data prep and indexing steps and wish to directly use our pre-built indexes, use
--index msmarco-passage-distill-splade-maxin the command below.
Before we run retrieval, we need to download the model for encoding the queries. This checkpoint is not available on Huggingface's model hub, and needs to be fetched from NAVER's website:
wget https://download-de.europe.naverlabs.com/Splade_Release_Jan22/distilsplade_max.tar.gz
tar -xvf distilsplade_max.tar.gz
mv distilsplade_max distill-splade-maxWe can now run retrieval using the local distill-splade-max model to encode the queries:
python -m pyserini.search.lucene \
--index indexes/lucene-index.msmarco-passage-distill-splade-max \
--topics msmarco-passage-dev-subset \
--encoder distill-splade-max \
--output runs/run.msmarco-passage-distill-splade-max.tsv \
--output-format msmarco \
--batch 36 --threads 12 \
--hits 1000 \
--impactHere, we are using the transformer model to encode the queries on the fly using the CPU.
Note that the important option here is --impact, where we specify impact scoring.
With these impact scores, query evaluation is already slower than bag-of-words BM25; on top of that we're adding neural inference on the CPU.
A complete run can take around an hour.
Note from authors: We are still investigating why it takes so long using Pyserini, while the same model (including distilbert query encoder forward pass in CPU) takes only 10 minutes on similar hardware using a numba implementation for the inverted index and using sequential processing (only one query at a time).
The output is in MS MARCO output format, so we can directly evaluate:
python -m pyserini.eval.msmarco_passage_eval msmarco-passage-dev-subset runs/run.msmarco-passage-distill-splade-max.tsvThe results should be as follows:
#####################
MRR @10: 0.3684321417201083
QueriesRanked: 6980
#####################
The final evaluation metric is the same as the score reported in the paper (0.368). There might be small differences in score due to non-determinism in neural inference; see these notes for detail.
Alternatively, we can use pre-tokenized queries with pre-computed weights, which are already included in Pyserini. We can run retrieval as follows:
python -m pyserini.search.lucene \
--index indexes/lucene-index.msmarco-passage-distill-splade-max \
--topics msmarco-passage-dev-subset-distill-splade-max \
--output runs/run.msmarco-passage-distill-splade-max.tsv \
--output-format msmarco \
--batch 36 --threads 12 \
--hits 1000 \
--impactHere, we also specify --impact for impact scoring.
Since we're not applying neural inference over the queries, retrieval is faster.
The output is in MS MARCO output format, so we can directly evaluate:
python -m pyserini.eval.msmarco_passage_eval msmarco-passage-dev-subset runs/run.msmarco-passage-distill-splade-max.tsvThe results should be as follows:
#####################
MRR @10: 0.36852691363078205
QueriesRanked: 6980
#####################
Note that in this case, the results should be deterministic.