9.7 KiB
Checkout and build from source
Check out the code
git clone https://github.com/llvm/torch-mlir
cd torch-mlir
git submodule update --init
Setup your Python VirtualEnvironment and Dependencies
Also, ensure that you have the appropriate python-dev
package installed
to access the Python development libraries / headers.
python -m venv mlir_venv
source mlir_venv/bin/activate
# Some older pip installs may not be able to handle the recent PyTorch deps
python -m pip install --upgrade pip
# Install latest PyTorch nightlies and build requirements.
python -m pip install -r requirements.txt
Build Python Packages
We have preliminary support for building Python packages. This can be done with the following commands:
python -m pip install --upgrade pip
python -m pip install -r requirements.txt
CMAKE_GENERATOR=Ninja python setup.py bdist_wheel
CMake Build
Two setups are possible to build: in-tree and out-of-tree. The in-tree setup is the most straightforward, as it will build LLVM dependencies as well.
Building torch-mlir in-tree
The following command generates configuration files to build the project in-tree, that is, using llvm/llvm-project as the main build. This will build LLVM as well as torch-mlir and its subprojects.
cmake -GNinja -Bbuild \
-DCMAKE_BUILD_TYPE=Release \
-DCMAKE_C_COMPILER=clang \
-DCMAKE_CXX_COMPILER=clang++ \
-DPython3_FIND_VIRTUALENV=ONLY \
-DLLVM_ENABLE_PROJECTS=mlir \
-DLLVM_EXTERNAL_PROJECTS="torch-mlir;torch-mlir-dialects" \
-DLLVM_EXTERNAL_TORCH_MLIR_SOURCE_DIR=`pwd` \
-DLLVM_EXTERNAL_TORCH_MLIR_DIALECTS_SOURCE_DIR=`pwd`/externals/llvm-external-projects/torch-mlir-dialects \
-DMLIR_ENABLE_BINDINGS_PYTHON=ON \
-DLLVM_TARGETS_TO_BUILD=host \
externals/llvm-project/llvm
The following additional quality of life flags can be used to reduce build time:
- Enabling ccache:
-DCMAKE_C_COMPILER_LAUNCHER=ccache -DCMAKE_CXX_COMPILER_LAUNCHER=ccache
- Enabling LLD (links in seconds compared to minutes)
-DCMAKE_EXE_LINKER_FLAGS_INIT="-fuse-ld=lld" -DCMAKE_MODULE_LINKER_FLAGS_INIT="-fuse-ld=lld" -DCMAKE_SHARED_LINKER_FLAGS_INIT="-fuse-ld=lld"
# Use --ld-path= instead of -fuse-ld=lld for clang > 13
- Enabling libtorch binary cache
By default we download the latest version of libtorch everytime you build so we are always on the latest version. Set
-DLIBTORCH_CACHE=ON
to not download the latest version everytime. If libtorch gets out of date and you test against a newer PyTorch you may notice failures.
-DLIBTORCH_CACHE=ON
- Enabling building libtorch as part of your build By default we download the latest version of libtorch. We have an experimental path to build libtorch (and PyTorch wheels) from source.
-DLIBTORCH_SRC_BUILD=ON # Build Libtorch from source
-DLIBTORCH_VARIANT=shared # Set the variant of libtorch to build / link against. (`shared`|`static` and optionally `cxxabi11`)
Building against a pre-built LLVM
If you have built llvm-project separately in the directory $LLVM_INSTALL_DIR
, you can also build the project out-of-tree using the following command as template:
cmake -GNinja -Bbuild \
-DCMAKE_BUILD_TYPE=Release \
-DCMAKE_C_COMPILER=clang \
-DCMAKE_CXX_COMPILER=clang++ \
-DPython3_FIND_VIRTUALENV=ONLY \
-DMLIR_DIR="$LLVM_INSTALL_DIR/lib/cmake/mlir/" \
-DLLVM_DIR="$LLVM_INSTALL_DIR/lib/cmake/llvm/" \
-DMLIR_ENABLE_BINDINGS_PYTHON=ON \
-DLLVM_TARGETS_TO_BUILD=host \
.
The same QoL CMake flags can be used to enable ccache and lld. Be sure to have built LLVM with -DLLVM_ENABLE_PROJECTS=mlir
.
Be aware that the installed version of LLVM needs in general to match the committed version in externals/llvm-project
. Using a different version may or may not work.
Build commands
After either cmake run (in-tree/out-of-tree), use one of the following commands to build the project:
# Build just torch-mlir (not all of LLVM)
cmake --build build --target tools/torch-mlir/all
# Run unit tests.
cmake --build build --target check-torch-mlir
# Run Python regression tests.
cmake --build build --target check-torch-mlir-python
# Build everything (including LLVM if in-tree)
cmake --build build
Setup Python Environment to export the built Python packages
export PYTHONPATH=`pwd`/build/tools/torch-mlir/python_packages/torch_mlir:`pwd`/examples
Jupyter
Jupyter notebook:
python -m ipykernel install --user --name=torch-mlir --env PYTHONPATH "$PYTHONPATH"
# Open in jupyter, and then navigate to
# `examples/resnet_inference.ipynb` and use the `torch-mlir` kernel to run.
jupyter notebook
Example IR for a simple 1 layer MLP to show the compilation steps from TorchScript.
Interactive Use
The build_tools/write_env_file.sh
script will output a .env
file in the workspace folder with the correct PYTHONPATH set. This allows
tools like VSCode to work by default for debugging. This file can also be
manually source
'd in a shell.
Bazel Build
NOTE Our Bazel build follows LLVM's Bazel build policy: only the subcommunity interested in Bazel is responsible for fixing it. Average Torch-MLIR developers should not be notified of any Bazel build issues and are not responsible for fixing any breakages (though any help is, of course, welcome). For more info, see LLVM's Peripheral Support Tier definition.
Torch-MLIR can also be built using Bazel (apart from the official CMake build) for users that depend on Bazel in their workflows. To build torch-mlir-opt
using Bazel, follow these steps:
cd utils/bazel
bazel build @torch-mlir//...
- Find the built binary at
bazel-bin/external/torch-mlir/torch-mlir-opt
.
Testing
Torch-MLIR has two types of tests:
-
End-to-end execution tests. These compile and run a program and check the result against the expected output from execution on native Torch. These use a homegrown testing framework (see
python/torch_mlir_e2e_test/torchscript/framework.py
) and the test suite lives atpython/torch_mlir_e2e_test/test_suite/__init__.py
. -
Compiler and Python API unit tests. These use LLVM's
lit
testing framework. For example, these might involve usingtorch-mlir-opt
to run a pass and check the output withFileCheck
.
Running execution (end-to-end) tests:
# Run all tests on the reference backend
./tools/torchscript_e2e_test.sh
# Run tests that match the regex `Conv2d`, with verbose errors.
./tools/torchscript_e2e_test.sh --filter Conv2d --verbose
# Run tests on the TOSA backend.
./tools/torchscript_e2e_test.sh --config tosa
Running unit tests.
To run all of the unit tests, run:
ninja check-torch-mlir-all
This can be broken down into
ninja check-torch-mlir check-torch-mlir-dialects check-torch-mlir-python
To run more fine-grained tests, you can do, for check-torch-mlir
:
cd $TORCH_MLIR_BUILD_DIR/tools/torch-mlir/test
$TORCH_MLIR_BUILD_DIR/bin/llvm-lit $TORCH_MLIR_SRC_ROOT/test -v --filter=canonicalize
See the lit
documentation for details on the available lit args.
For example, if you wanted to test just test/Dialect/Torch/canonicalize.mlir
,
then you might do
cd $TORCH_MLIR_BUILD_DIR/tools/torch-mlir/test
$TORCH_MLIR_BUILD_DIR/bin/llvm-lit $TORCH_MLIR_SRC_ROOT/test -v --filter=canonicalize.mlir
Most of the unit tests use the FileCheck
tool to verify expected outputs.
PyTorch source builds and custom PyTorch versions
Torch-MLIR by default builds with the latest nightly PyTorch version. This can be toggled to build from latest PyTorch source with
-DTORCH_MLIR_USE_INSTALLED_PYTORCH=OFF
-DPYTORCH_REPO=vivekkhandelwal1/pytorch # Optional Github path. Defaults to pytorch/pytorch
-DPYTORCH_BRANCH=master #Optional. Defaults to PyTorch's main branch
Updating the LLVM submodule
Torch-MLIR maintains llvm-project
(which contains, among other things,
upstream MLIR) as a submodule in externals/llvm-project
. We aim to update this
at least weekly to new LLVM revisions to bring in the latest features and spread
out over time the effort of updating our code for MLIR API breakages.
Updating the LLVM submodule is done by:
- In the
externals/llvm-project
directory, rungit pull
to update to the upstream revision of interest (such as a particular upstream change that is needed for your Torch-MLIR PR). - Rebuild and test Torch-MLIR (see above), fixing any issues that arise. This might involve fixing various API breakages introduced upstream (they are likely unrelated to what you are working on). If these fixes are too complex, please file a work-in-progress PR explaining the issues you are running into asking for help so that someone from the community can help.
- Run
build_tools/update_shape_lib.sh
to update the shape library -- this is sometimes needed because upstream changes can affect canonicalization and other minor details of the IR in the shape library. See docs/shape_lib.md for more details on the shape library.
Here are some examples of PR's updating the LLVM submodule:
Other docs
- GitHub wiki: https://github.com/llvm/torch-mlir/wiki
- Of particular interest in the How to add end-to-end support for new Torch ops doc.