DeepSpeech 0.8.2
General
This is the 0.8.2 release of Deep Speech, an open speech-to-text engine. In accord with semantic versioning, this version is not completely backwards compatible with earlier versions. However, models exported for 0.7.X should work with this release. As with previous releases, this release includes the source code:
and the acoustic models:
deepspeech-0.8.2-models.pbmm
deepspeech-0.8.2-models.tflite
all under the MPL-2.0 license.
The model with the ".pbmm" extension is memory mapped and thus memory efficient and fast to load. The model with the ".tflite" extension is converted to use TFLite, has post-training quantization enabled, and is more suitable for resource constrained environments.
The acoustic models were trained on American English and the pbmm model achieves an 5.97% word error rate on the LibriSpeech clean test corpus.
Note that the model currently performs best in low-noise environments with clear recordings and has a bias towards US male accents. This does not mean the model cannot be used outside of these conditions, but that accuracy may be lower. Some users may need to train the model further to meet their intended use-case.
In addition we release the scorer:
deepspeech-0.8.2-models.scorer
which takes the place of the language model and trie in older releases and which is also under the MPL-2.0 license.
We also include example audio files:
which can be used to test the engine, and checkpoint files:
deepspeech-0.8.2-checkpoint.tar.gz
which are under the MPL-2.0 license and can be used as the basis for further fine-tuning.
Notable changes from the previous release
- Fixed incorrect minimum OS version in macOS binaries (#3259)
- Fixed bug in metadata output for Python package client (#3264)
- Added ElectronJS v9.2 support (#3266)
Training Regimen + Hyperparameters for fine-tuning
The hyperparameters used to train the model are useful for fine tuning. Thus, we document them here along with the training regimen, hardware used (a server with 8 Quadro RTX 6000 GPUs each with 24GB of VRAM), and our use of cuDNN RNN.
In contrast to some previous releases, training for this release occurred in several phases each phase with a lower learning rate than the phase before it.
The initial phase used the hyperparameters:
train_files
Fisher, LibriSpeech, Switchboard, Common Voice English, and approximately 1700 hours of transcribed WAMU (NPR) radio shows explicitly licensed to use as training corpora.dev_files
LibriSpeech clean dev corpus.test_files
LibriSpeech clean test corpustrain_batch_size
128dev_batch_size
128test_batch_size
128n_hidden
2048learning_rate
0.0001dropout_rate
0.40epochs
125
The weights with the best validation loss were selected at the end of 125 epochs using --noearly_stop
.
The second phase was started using the weights with the best validation loss from the previous phase. This second phase used the same hyperparameters as the first but with the following changes:
learning_rate
0.00001epochs
100
The weights with the best validation loss were selected at the end of 100 epochs using --noearly_stop
.
Like the second, the third phase was started using the weights with the best validation loss from the previous phase. This third phase used the same hyperparameters as the second but with the following changes:
learning_rate
0.000005
The weights with the best validation loss were selected at the end of 100 epochs using --noearly_stop
. The model selected under this process was trained for a sum total of 732522 steps over all phases.
Subsequent to this the lm_optimizer.py
was used with the following parameters:
lm_alpha_max
5lm_beta_max
5n_trials
2400test_files
LibriSpeech clean dev corpus.
to determine the optimal lm_alpha
and lm_beta
with respect to the LibriSpeech clean dev corpus. This resulted in:
lm_alpha
0.931289039105002lm_beta
1.1834137581510284
Bindings
This release also includes a Python based command line tool deepspeech
, installed through
pip install deepspeech
Alternatively, quicker inference can be performed using a supported NVIDIA GPU on Linux. (See below to find which GPU's are supported.) This is done by instead installing the GPU specific package:
pip install deepspeech-gpu
On Linux, macOS and Windows, the DeepSpeech package does not use TFLite by default. A TFLite version of the package on those platforms is available as:
pip install deepspeech-tflite
Also, it exposes bindings for the following languages
-
Python (Versions 3.5, 3.6, 3.7 and 3.8) installed via
pip install deepspeech
Alternatively, quicker inference can be performed using a supported NVIDIA GPU on Linux. (See below to find which GPU's are supported.) This is done by instead installing the GPU specific package:
pip install deepspeech-gpu
On Linux (AMD64), macOS and Windows, the DeepSpeech package does not use TFLite by default. A TFLite version of the package on those platforms is available as:
pip install deepspeech-tflite
-
NodeJS (Versions 10.x, 11.x, 12.x, 13.x and 14.x) installed via
npm install deepspeech
Alternatively, quicker inference can be performed using a supported NVIDIA GPU on Linux. (See below to find which GPU's are supported.) This is done by instead installing the GPU specific package:
npm install deepspeech-gpu
On Linux (AMD64), macOS and Windows, the DeepSpeech package does not use TFLite by default. A TFLite version of the package on those platforms is available as:
npm install deepspeech-tflite
-
ElectronJS versions 5.0, 6.0, 6.1, 7.0, 7.1, 8.0, 9.0, 9.1 and 9.2 are also supported
-
C which requires the appropriate shared objects are installed from
native_client.tar.xz
(See the section in the main README which describesnative_client.tar.xz
installation.) -
.NET which is installed by following the instructions on the NuGet package page.
In addition there are third party bindings that are supported by external developers, for example
- Rust which is installed by following the instructions on the external Rust repo.
- Go which is installed by following the instructions on the external Go repo.
- V which is installed by following the instructions on the external Vlang repo.
Supported Platforms
-
Windows 8.1, 10, and Server 2012 R2 64-bits (at least AVX support, requires
Redistribuable Visual C++ 2015 Update 3 (64-bits)
for runtime). -
OS X 10.10, 10.11, 10.12, 10.13, 10.14, and 10.15
-
Linux x86 64 bit with a modern CPU (at least AVX/FMA)
-
Linux x86 64 bit with a modern CPU (at least AVX/FMA) + NVIDIA GPU (Compute Capability at least 3.0, see NVIDIA docs)
-
Raspbian Buster on Raspberry Pi 3, Pi 4
-
Linux/ARM64 built against Debian/ARMbian Buster and tested on LePotato boards
-
Java Android (7.0-11.0) bindings (+ demo app). Tested on Google Pixel 2 ; Sony Xperia Z Premium ; Nokia 1.3, TF Lite model only.
-
iOS with Swift bindings (experimental). Tested on iPhone Xs.
-
TFLite Delegation API is here as a preview: do not expect released models to work out-of-the box, but feedback / PRs is welcome.
Documentation
Documentation is available on deepspeech.readthedocs.io.
Contact/Getting Help
- FAQ - We have a list of common questions, and their answers, in our FAQ. When just getting started, it's best to first check the FAQ to see if your question is addressed.
- Discourse Forums - If your question is not addressed in the FAQ, the Discourse Forums is the next place to look. They contain conversations on General Topics, Using Deep Speech, Alternative Platforms, and Deep Speech Development.
- Matrix - If your question is not addressed by either the FAQ or Discourse Forums, you can contact us on the
#machinelearning:mozilla.org
channel on Mozilla Matrix; people there can try to answer/help - Issues - Finally, if all else fails, you can open an issue in our repo if there is a bug with the current code base.