This patch fixes the error in issue #75434. The crash was being caused
by not checking for a lack of target attributes in a GPU module. It's
now considered an error to invoke the pass with a GPU module with no
target attributes.
This commit implements gpu::TargetAttrInterface for SPIR-V target
attribute. The plan is to use this to enable GPU compilation pipeline
for OpenCL kernels later.
The changes do not impact Vulkan shaders using milr-vulkan-runner.
New GPU Dialect transform pass spirv-attach-target is implemented for
attaching attribute from CLI.
gpu-module-to-binary pass now works with GPU module that has SPIR-V
module with OpenCL kernel functions inside.
This patch adds an NVPTX compilation path that enables JIT compilation
on NVIDIA targets. The following modifications were performed:
1. Adding a format field to the GPU object attribute, allowing the
translation attribute to use the correct runtime function to load the
module. Likewise, a dictionary attribute was added to add any possible
extra options.
2. Adding the `createObject` method to `GPUTargetAttrInterface`; this
method returns a GPU object from a binary string.
3. Adding the function `mgpuModuleLoadJIT`, which is only available for
NVIDIA GPUs, as there is no equivalent for AMD.
4. Adding the CMake flag `MLIR_GPU_COMPILATION_TEST_FORMAT` to specify
the format to use during testing.
This patch adds the option of building an optional symbol table for the
top operation in the `gpu-module-to-binary` pass. The table is not
created by default as most targets don't need it; instead, it is lazily
built. The table is passed through a callback in `TargetOptions`.
This patch is required to integrate #65539 .
Currently, the NVPTX tool compilation path only calls `ptxas`; thus, the
GPU running the binary must be an exact match of the arch of the target,
or else the runtime throws an error due to the arch mismatch.
This patch adds a call to `fatbinary`, creating a fat binary with the
cubin object and the PTX code, allowing the driver to JIT the PTX at
runtime if there's an arch mismatch.
This revision avoids the registration of dialect extensions in Pass::getDependentDialects.
Such registration of extensions can be dangerous because `DialectRegistry::isSubsetOf` is
always guaranteed to return false for extensions (i.e. there is no mechanism to track
whether a lambda is already in the list of already registered extensions).
When the context is already in a multi-threaded mode, this is guaranteed to assert.
Arguably a more structured registration mechanism for extensions with a unique ExtensionID
could be envisioned in the future.
In the process of cleaning this up, multiple usage inconsistencies surfaced around the
registration of translation extensions that this revision also cleans up.
Reviewed By: springerm
Differential Revision: https://reviews.llvm.org/D157703
**For an explanation of these patches see D154153.**
Commit message:
This pass converts GPU modules into GPU binaries, serializing all targets present
in a GPU module by invoking the `serializeToObject` target attribute method.
Depends on D154147
Reviewed By: mehdi_amini
Differential Revision: https://reviews.llvm.org/D154149
