| Proposal ID | CP008 |
|---|---|
| Name | Buffer tied to a Context |
| Date of Creation | 14 March 2017 |
| Target | SYCL 2.2 |
| Current Status | Work In Progress |
| Reply-to | Ruyman Reyes ruyman@codeplay.com |
| Original author | Ruyman Reyes ruyman@codeplay.com |
| Contributors | Gordon Brown gordon@codeplay.com, Mehdi Goli mehdi.goli@codeplay.com |
This proposal aims to offer a buffer object that is tied to a specific SYCL
context, which allow users to provide extra information to the SYCL
implementation to optimize usage for a single context and device.
This concept vaguely exists when using Shared Virtual Memory constructors
on buffers, but it is defined as a specific use case for SVM buffers.
With a specific tied_buffer class we aim to take advantage of
the lower-overhead of a single-context buffer and simplify the
usage of SVM memory on SYCL 2.2
This revision uses buffer properties instead of a separate buffer class to describe the behaviour of the tied buffer.
This proposal adds a new property for buffers, buffer::property::context_bound. A SYCL buffer with the context bound property can only be used with one context, and its values are only accessible from queues that are associated with said context.
A separate buffer property makes a clear distinction between the normal SYCL buffer and this context-specific variant:
struct context_bound {
context_bound(cl::sycl::context context);
cl::sycl::context get_context();
};In case of an error, such as a tied buffer being used on the wrong
context, the runtime_error exception should be thrown.
The current SYCL 2.2 specification adds an extra constructor to the buffer
class that takes a context, but it is only enabled when using the specific
svm::allocator type.
However, this constructor uses an entirely different set of rules
than the rest of the buffer constructors, effectively behaving like a
separate object.
If a buffer is constructed this way, then the contents of the
SVM are invalidated. However, the user has no way of knowing that this
has happened, and may expect the data on the SVM pointer to be valid.
When passing the buffer across libraries, this situation may occur
even without the user knowledge.
By enabling the usage of the svm_allocator only in buffers with
the context_bound property,
we avoid accidental invalidation of SVM pointers by presenting
a clear differentiation between a buffer tied to a context
and a buffer that can move across multiple ones.
The following example is a simplification of a reduction kernel
that uses a temporary storage to avoid modifying the input buffer.
The intermediate buffer only needs to be used on the context associated
with the queue, hence developer uses a tied_buffer to hint to the SYCL
runtime that this storage is only required on a single context.
context deviceContext;
queue q{context};
range<3> myRange{3, 3, 3};
/* A normal buffer that holds the data for
* the execution.
*/
buffer<float> myBuffer{someHostPointer, myRange};
/**
* We can use the normal buffer on any other queue,
* SYCL will migrate transparently across contexts if required.
*/
std::experimental::for_each(sycl_named_policy<example>(otherQueue),
std::begin(myBuffer), std::end(myBuffer),
[=](float &elem) {
elem = 1.0
});
/* This temporary memory only needs to exist
* on the context where the operation will be
* performed.
*/
buffer<float, 1> tmp{deviceContext, myRange,
property::buffer::context_bound(deviceContext)};
bool firstIter = true;
auto length = tmp.get_size();
do {
auto f = [&](handler &h) mutable {
auto aIn = myBuffer.template get_access<access::mode::read>(h);
auto aInOut = tmp.template get_access<access::mode::read_write>(h);
accessor<float, 1, access::mode::read_write, access::target::local>
scratch(range<1>(local), h);
if (first) {
h.parallel_for(r, ReductionKernel(aIn, aInOut));
first = false;
} else {
h.parallel_for(r, ReductionKernel(aInOut, aInOut));
}
};
q.submit(f);
length = length / local;
} while (length > 1);
// Retrieve the result from the tmp buffer
{
auto h = tmp.get_accessor<access::mode::read>(h);
std::cout << " Reduction value " << h[0] << std::endl;
}An implementation may decide to not take advantage of this hint and simply construct a normal buffer object underneath. However, if the bound buffer is used on an invalid context, this must raise an error.
The original approach was to use a derived class, but has now been updated to use the new properties mechanism.
- SYCL 1.2 specification
- SYCL 2.2 specification