If you'd like to build the DeepSpeech binaries yourself, you'll need the following pre-requisites downloaded and installed:
It is required to use our fork of TensorFlow since it includes fixes for common problems encountered when building the native client files.
If you'd like to build the language bindings or the decoder package, you'll also need:
- SWIG >= 3.0.12
- node-pre-gyp (for Node.JS bindings only)
If you follow these instructions, you should compile your own binaries of DeepSpeech (built on TensorFlow using Bazel).
For more information on configuring TensorFlow, read the docs up to the end of "Configure the Build".
Clone our fork of TensorFlow and checkout the correct version:
git clone https://github.com/mozilla/tensorflow.git
git checkout origin/r1.14
First, find the version of Bazel you need for this TensorFlow release. Next, download and install the correct version of Bazel.
After you have installed the correct version of Bazel, configure TensorFlow:
cd tensorflow
./configure
Within your TensorFlow checkout, create a symbolic link to the DeepSpeech native_client
directory. Assuming DeepSpeech and TensorFlow checkouts are in the same directory, do:
cd tensorflow
ln -s ../DeepSpeech/native_client ./
You can now use Bazel to build the main DeepSpeech library, libdeepspeech.so
, as well as the generate_trie
binary. Add --config=cuda
if you want a CUDA build.
bazel build --workspace_status_command="bash native_client/bazel_workspace_status_cmd.sh" --config=monolithic -c opt --copt=-O3 --copt="-D_GLIBCXX_USE_CXX11_ABI=0" --copt=-fvisibility=hidden //native_client:libdeepspeech.so //native_client:generate_trie
The generated binaries will be saved to bazel-bin/native_client/
.
Now, cd
into the DeepSpeech/native_client
directory and use the Makefile
to build all the language bindings (C++ client, Python package, Nodejs package, etc.). Set the environment variable TFDIR
to point to your TensorFlow checkout.
TFDIR=~/tensorflow
cd ../DeepSpeech/native_client
make deepspeech
After building, the library files and binary can optionally be installed to a system path for ease of development. This is also a required step for bindings generation.
PREFIX=/usr/local sudo make install
It is assumed that $PREFIX/lib
is a valid library path, otherwise you may need to alter your environment.
Included are a set of generated Python bindings. After following the above build and installation instructions, these can be installed by executing the following commands (or equivalent on your system):
cd native_client/python
make bindings
pip install dist/deepspeech*
The API mirrors the C++ API and is demonstrated in client.py. Refer to deepspeech.h for documentation.
After following the above build and installation instructions, the Node.JS bindings can be built:
cd native_client/javascript
make build
make npm-pack
This will create the package deepspeech-VERSION.tgz
in native_client/javascript
.
To build the ds_ctcdecoder
package, you'll need the general requirements listed above (in particular SWIG). The command below builds the bindings using eight (8) processes for compilation. Adjust the parameter accordingly for more or less parallelism.
cd native_client/ctcdecode
make bindings NUM_PROCESSES=8
pip install dist/*.whl
We do support cross-compilation. Please refer to our mozilla/tensorflow
fork, where we define the following --config
flags:
--config=rpi3
and--config=rpi3_opt
for Raspbian / ARMv7--config=rpi3-armv8
and--config=rpi3-armv8_opt
for ARMBian / ARM64
So your command line for RPi3
and ARMv7
should look like:
bazel build --workspace_status_command="bash native_client/bazel_workspace_status_cmd.sh" --config=monolithic --config=rpi3 --config=rpi3_opt -c opt --copt=-O3 --copt=-fvisibility=hidden //native_client:libdeepspeech.so //native_client:generate_trie
And your command line for LePotato
and ARM64
should look like:
bazel build --workspace_status_command="bash native_client/bazel_workspace_status_cmd.sh" --config=monolithic --config=rpi3-armv8 --config=rpi3-armv8_opt -c opt --copt=-O3 --copt=-fvisibility=hidden //native_client:libdeepspeech.so //native_client:generate_trie
While we test only on RPi3 Raspbian Stretch and LePotato ARMBian stretch, anything compatible with armv7-a cortex-a53
or armv8-a cortex-a53
should be fine.
The deepspeech
binary can also be cross-built, with TARGET=rpi3
or TARGET=rpi3-armv8
. This might require you to setup a system tree using the tool multistrap
and the multitrap configuration files: native_client/multistrap_armbian64_stretch.conf
and native_client/multistrap_raspbian_stretch.conf
.
The path of the system tree can be overridden from the default values defined in definitions.mk
through the RASPBIAN
make
variable.
cd ../DeepSpeech/native_client
make TARGET=<system> deepspeech
We have preliminary support for Android relying on TensorFlow Lite, with Java and JNI bindinds. For more details on how to experiment with those, please refer to native_client/java/README.md
.
Please refer to TensorFlow documentation on how to setup the environment to build for Android (SDK and NDK required).
You can build the libdeepspeech.so
using (ARMv7):
bazel build --workspace_status_command="bash native_client/bazel_workspace_status_cmd.sh" --config=monolithic --config=android --config=android_arm --define=runtime=tflite --action_env ANDROID_NDK_API_LEVEL=21 --cxxopt=-std=c++11 --copt=-D_GLIBCXX_USE_C99 //native_client:libdeepspeech.so
Or (ARM64):
bazel build --workspace_status_command="bash native_client/bazel_workspace_status_cmd.sh" --config=monolithic --config=android --config=android_arm64 --define=runtime=tflite --action_env ANDROID_NDK_API_LEVEL=21 --cxxopt=-std=c++11 --copt=-D_GLIBCXX_USE_C99 //native_client:libdeepspeech.so
Building the deepspeech
binary will happen through ndk-build
(ARMv7):
cd ../DeepSpeech/native_client
$ANDROID_NDK_HOME/ndk-build APP_PLATFORM=android-21 APP_BUILD_SCRIPT=$(pwd)/Android.mk NDK_PROJECT_PATH=$(pwd) APP_STL=c++_shared TFDIR=$(pwd)/../../tensorflow/ TARGET_ARCH_ABI=armeabi-v7a
And (ARM64):
cd ../DeepSpeech/native_client
$ANDROID_NDK_HOME/ndk-build APP_PLATFORM=android-21 APP_BUILD_SCRIPT=$(pwd)/Android.mk NDK_PROJECT_PATH=$(pwd) APP_STL=c++_shared TFDIR=$(pwd)/../../tensorflowx/ TARGET_ARCH_ABI=arm64-v8a