Rules for using Intel Open Image Denoise in your Bazel builds.
Open Image Denoise can be used to denoise your images. Given a noisy input image Open Image Denoise can produce a denoised output image:
More comparison images can be found here.
rules_oidn helps you to embed Open Image Denoise 1.4.3 into your Bazel builds.
Currently, these rules compile on Ubuntu 22.04 (other Linux distributions should also work), Windows and macOS (Intel and arm64).
The goal of rules_oidn is not to reproduce a 1:1 binary compatible library that is equal to a CMake build.
The focus is on the compilation of a working library that can be used in Bazel projects and is close to the CMake build.
The following table compares the precompiled version of OIDN to this Bazel build:
| Dependency | Bazel | Precompiled Open Image Denoise v1.4.3 |
|---|---|---|
| oneDNN | 2.7.3 | 2.2.4 |
| Intel® Implicit SPMD Program Compiler | v1.19.0 | ? |
| ComputeLibrary | 22.11 | ? |
| oneTBB | 5b2a49008c32c7ba3df7c9e137a894ff53710b64 | oneTBB 2021.5.0 |
Prerequisites:
The following tools should be installed:
Checkout, build, and run:
All platforms:
git clone https://github.com/Vertexwahn/rules_oidn.git
cd rules_oidn
cd testsRun example with Ubuntu 22.04:
bazel run --config=gcc11 //:exampleRun example with Visual Studio 2022:
bazel run --config=vs2022 //:exampleRun example with macOS:
bazel run --config=macos //:exampleSee tests/.bazelrc for other supported build configs.
You can also provide the filenames of the input and output image as an argument, e.g. on Ubuntu 22.04:
bazel run --config=gcc11 //:example -- --input=${HOME}/rules_oidn/tests/data/cornell_box.naive_diffuse.box_filter.spp64.embree.exr --output=${HOME}/denoised_spp64.exrThe example provides a noisy rendering of the Cornell Box.
Additionally, there is a corresponding albedo image:
And a normal image:
Currently, only the noisy rendering serves as an input for the example. The albedo and normal images are not used. But the example code can be easily modified to use them.
python3 .\scripts\blob_to_cpp.py .\weights\rt_alb.tza -o .\weights\rt_alb.tza.cpp -H .\weights\rt_alb.tza.h
python3 .\scripts\blob_to_cpp.py .\weights\rt_hdr.tza -o .\weights\rt_hdr.tza.cpp -H .\weights\rt_hdr.tza.h
python3 .\scripts\blob_to_cpp.py .\weights\rt_hdr_alb.tza -o .\weights\rt_hdr_alb.tza.cpp -H .\weights\rt_hdr_alb.tza.h
python3 .\scripts\blob_to_cpp.py .\weights\rt_hdr_alb_nrm.tza -o .\weights\rt_hdr_alb_nrm.tza.cpp -H .\weights\rt_hdr_alb_nrm.tza.h
python3 .\scripts\blob_to_cpp.py .\weights\rt_hdr_calb_cnrm.tza -o .\weightsrt_hdr_calb_cnrm.tza.cpp -H .\weights\rt_hdr_calb_cnrm.tza.h
python3 .\scripts\blob_to_cpp.py .\weights\rt_ldr.tza -o .\weights\rt_ldr.tza.cpp -H .\weights\rt_ldr.tza.h
python3 .\scripts\blob_to_cpp.py .\weights\rt_ldr_alb.tza -o .\weights\rt_ldr_alb.tza.cpp -H .\weights\rt_ldr_alb.tza.h
python3 .\scripts\blob_to_cpp.py .\weights\rt_ldr_alb_nrm.tza -o .\weights\rt_ldr_alb_nrm.tza.cpp -H .\weights\rt_ldr_alb_nrm.tza.h
python3 .\scripts\blob_to_cpp.py .\weights\rt_ldr_calb_cnrm.tza -o .\weights\rt_ldr_calb_cnrm.tza.cpp -H .\weights\rt_ldr_calb_cnrm.tza.h
python3 .\scripts\blob_to_cpp.py .\weights\rt_nrm.tza -o .\weights\rt_nrm.tza.cpp -H .\weights\rt_nrm.tza.h
python3 .\scripts\blob_to_cpp.py .\weights\rtlightmap_dir.tza -o .\weights\rtlightmap_dir.tza.cpp -H .\weights\rtlightmap_dir.tza.h
python3 .\scripts\blob_to_cpp.py .\weights\rtlightmap_hdr.tza -o .\weights\rtlightmap_hdr.tza.cpp -H .\weights\rtlightmap_hdr.tza.h- DNND 1: a Deep Neural Network Dive
- Declan Russell's blog: Intels Open Image AI denoiser
- Bazelizing Open Image Denoise — Part 1: The journey begins
- Bazelizing Open Image Denoise — Part 2: More details about the bazelization
- Bazelizing Open Image Denoise — Part 3: A failing unit test
- Bazelizing Open Image Denoise — Part 4: Issue with black stipes solved
This work is published under the Apache 2.0 License.
This repository contains code copied from TensorFlow which is also under the Apache 2.0 License. The copyright of the corresponding files belongs to the TensorFlow authors.