9c9a240354
FBGEMM based Int8 model - working with the master 1. Added int8 implementation into packed_gemm.h/cpp with FBGEMM 2. Update FBGEMM library to make it work on windows 3. Split 'ispacked' into packed8 and packed16 4. Change all names for PackFp32 to PackFp16 which is more accurate |
||
---|---|---|
.. | ||
.gitignore | ||
BuildRelease.bat | ||
CheckDeps.bat | ||
CreateVSProjects.bat | ||
Marian.sln | ||
Marian.vcxproj | ||
Marian.vcxproj.filters | ||
README.md |
README.md
How to build Marian on Windows with GPU support
Install prerequisites
The following SDK are required to build Marian with GPU support. At least one of them needs to be installed. If only CUDA is installed but not MKL, a GPU-only version will be build. If only MKL is installed and not CUDA, only the CPU version will be built. So if you are interested in only one functionality, you can ommit one of them. Install both for full functionality.
Note: Patch for CUDA 9.2 error: Unsupported Visual Studio Version Error
This seems to work fine with CUDA 10.0.
When using CUDA 9.2, the latest versions of Visual Studio 2017 are not officially supported by CUDA. Two fixes are proposed:
-
Downgrade Visual Studio to a supported version
-
Edit the file
<CUDA install path>\include\crt\host_config.h
and change the line 131:131 #if _MSC_VER < 1600 || _MSC_VER > 1914
into:
131 #if _MSC_VER < 1600 || _MSC_VER > 1915
For more information, read this nVidia forum
Check dependencies : CheckDeps.bat
In addition to the 2 previous prerequisites, Marian needs 2 libraries that you may already have on your system:
- Boost (1.58+)
- OpenSSL (optional for server)
The script CheckDeps.bat
can be used to verify that all dependencies are found on your system. If not, it will use the vcpkg
library manager to download and manage your dependencies for CMake.
If you already have a working vcpkg
installation, this script can use it:
- If vcpkg is in your
PATH
environment variable, the script will find it and use it automatically. - Otherwise, you need to edit the script and set the
VCPKG_ROOT
variable to the directory that contains the vcpkg.exe
If you prefer to manage yourself the dependencies, you can edit the script file to set the following variables to the respective installation paths. These variable can also be already set in your environment.
BOOST_INCLUDE_PATH
andBOOST_LIB_PATH
OPENSSL_PATH
Build the project
There are 3 alternatives to build the project:
- Use Visual Studio 2017 built-in support for CMake
- Create a Solution file for Visual Studio
- Use a script (MSBuild)
1. Use VS2017 with built-in support for CMake
VS2017 now allows to develop projects built with CMake without the need to generate VS projects and solutions. For more information, please read this article from the Visual C++ Team.
You just need to open the root folder of the git repository in VS (which contains the file CMakeSettings.json
):
- In an Explorer window, right-click then
Open in Visual Studio
- In a VS2017 instance,
File > Open > Folder...
You may need to edit the file CMakeSettings.json
to set the environment variable for the dependencies.
The developing experience is very similar than when using a solution file (Intellisense, build project with F7
, debug, set breakpoints and watch variables, ...), except that the project configuration is done in 3 different files:
-
CMakeList.txt
: this is the CMake source file from the original project.
It is used to configure the build targets, add/remove files to compile and configure the compiler flags. -
CMakeSettings.json
: this file is required to enable CMake integration in VS2017.
Use this file to configure the environment variables and the parameters passed to CMake to generate the project. -
.vs\launch.vs.json
: this is a user specific file and it is not commited in the Git repo
Use this file to configure the debugging targets.
For example:{ "version": "0.2.1", "defaults": {}, "configurations": [ { "type": "default", "name": "Training Basics", "project": "CMakeLists.txt", "projectTarget": "marian.exe", "currentDir": "D:\\Perso\\github\\marian\\marian-examples\\training-basics", "args": [ "--devices 0", "--type amun", "--model model/model.npz", "--train-sets data/corpus.bpe.ro data/corpus.bpe.en", "--vocabs model/vocab.ro.yml model/vocab.en.yml", "--dim-vocabs 66000 50000", "--mini-batch-fit", "-w 3000", "--layer-normalization", "--dropout-rnn 0.2", "--dropout-src 0.1", "--dropout-trg 0.1", "--early-stopping 5", "--valid-freq 100", "--save-freq 10000", "--disp-freq 100", "--valid-metrics cross-entropy translation", "--valid-sets data/newsdev2016.bpe.ro data/newsdev2016.bpe.en", "--valid-script-path .\\scripts\\validate.bat", "--log model/train.log", "--valid-log model/valid.log", "--overwrite", "--keep-best", "--seed 1111", "--exponential-smoothing", "--normalize=1", "--beam-size=12", "--quiet-translation" ] } ] }
2. Create solution and projects files for Visual Studio : CreateVSProjects.bat
If you have a previous version of Visual Studio, you will need to use CMake to generate the projects files.
The provided script CreateVSProjects.bat
runs the dependency checks then invokes CMake with the right parameters to create the solutions for Visual Studio.
3. Use MSBuild : BuildRelease.bat
The last alternative is to use the script BuildRelease.bat
that will:
- Check the dependencies
- Create the VS project files
- Invoke MSBuild on these projects to build the targets in Release.