In the context of the EOSC-Nordic EasyBuild pilot, the following page provides instructions for how to benchmark different software configurations on typical problems that are likely to affect NLPL users. Relevant variation will typically contrast pre-compiled binary installations (e.g. `pip` wheels) vs. locally compiled modules, where architecture-specific optimizations are enabled and optimized libraries (e.g. Intel MKL) are used.
We use this Python script which runs multiple random matrix multiplications and singular value decompositions (SVD). Only CPU is employed.
After installing the NLPL software stack, load the NLPL-numpy module and run the commands below:
OpenBLAS on Saga
$ module load NLPL-numpy/1.18.1-foss-2019b-Python-3.7.4 $ python3 tests/numpy/numpy_test.py Multiplication took 78 seconds. SVD took 60 seconds.
IMKL on Saga
$ module load NLPL-numpy/1.18.1-gomkl-2019b-Python-3.7.4 $ python3 tests/numpy/numpy_test.py Multiplication took 55 seconds. SVD took 49 seconds.
We use training a toy BERT model on 4 GPUs as a benchmark. After installing the NLPL software stack, load the NLPL-nvidia_BERT module (see below) and run the following command:
$ train_bert.sh CORPUS VOCAB CONFIG
where CORPUS is a path to a directory with text files, VOCAB is a path to a WordPiece vocabulary, CONFIG is a path to a BERT configuration JSON (defining the model hyperparameters).
Ready-to-use toy data for Norwegian can be downloaded here, but in principle any plain text corpus can be fed to this code.
TF with OpenBLAS on Saga
module load NLPL-nvidia_BERT/20.06.8-foss-2019b-TensorFlow-1.15.2-Python-3.7.4 $ train_bert.sh no_wiki/ norwegian_wordpiece_vocab_20k.txt norbert_config.json
Training time: 00:46:27
TF with OpenMKL on Saga
module load NLPL-nvidia_BERT/20.06.8-gomkl-2019b-TensorFlow-1.15.2-Python-3.7.4 $ train_bert.sh no_wiki/ norwegian_wordpiece_vocab_20k.txt norbert_config.json
Training time: 00:46:19