From 20d586a5c98e58e5863f11935737d53c5776991b Mon Sep 17 00:00:00 2001 From: hsharif3 <hsharif3@illinois.edu> Date: Thu, 25 Mar 2021 07:22:14 +0000 Subject: [PATCH] Update Keras Benchmarks README.md --- hpvm/test/dnn_benchmarks/keras/README.md | 190 +---------------------- 1 file changed, 1 insertion(+), 189 deletions(-) diff --git a/hpvm/test/dnn_benchmarks/keras/README.md b/hpvm/test/dnn_benchmarks/keras/README.md index f80ac8a387..c461aca09d 100644 --- a/hpvm/test/dnn_benchmarks/keras/README.md +++ b/hpvm/test/dnn_benchmarks/keras/README.md @@ -1,192 +1,4 @@ -# Keras Frontend - -Install Keras Frontend after moving to directory `/hpvm/hpvm/projects/keras` - -## Requirements - -* python == 3.6.x -* pip >= 18 - -If your system uses a different Python version, we recommend using the conda environment `keras_python36.yml`. Install this using: - -``` -conda env create -f keras_python36.yml --name keras_python36 -``` - -Activate the conda environment before installing the pip package (below) using: - -``` -conda activate keras_python36 -``` - -**NOTE:** This step must be performed each time (for each shell process) the frontend is to be used. - - -## Installing the Keras Frontend Package - -At the root of this project (`/projects/keras/`) install the Keras frontend pip package as: - -``` -pip3 install -e ./ -``` - -**NOTE:** If you are using the conda environment, activate it prior to this step. - -## Suppported Operations - -List of supported operations and limitations detailed in https://gitlab.engr.illinois.edu/llvm/hpvm/-/blob/approx_hpvm_reorg_keras/hpvm/projects/keras/docs/Support.md - - - - # Keras Benchmarks -Run the Keras benchmarks under `hpvm/hpvm/test/dnn_benchmarks/keras` - -## Download CNN Model Files - -Prior to running the benchmarks, ensure you download the CNN model data (inputs and weights) if not done in automatic build script. - -``` -wget https://databank.illinois.edu/datafiles/o3izd/download -O model_params.tar.gz -tar -xf model_params.tar.gz -``` - -Move extracted `model_params` directory to `/test/dnn_benchmarks/model_params` (Benchmarks expect data at this location) - - -## Running Benchmaks - -List of benchmarks and the expected accuracies: - -| Benchmark | Accuracy | -| ----------- | ----------- | -| alexnet.py | 79.28 | -| alexnet2.py | 84.98 | -| alexnet_imagenet.py | 56.30 | -| lenet.py | 98.70 | -| mobilenet_cifar10.py | 84.42 | -| resnet18_cifar10.py | 89.56 | -| resnet50_imagenet.py | 75.10 | -| vgg16_cifar10.py | 89.96 | -| vgg16_cifar100.py | 66.50 | -| vgg16_imagenet.py | 69.46 | - - -### Synopsis - -``` -python3 ${BENCH_NAME}.py [hpvm_reload|keras_reload] [frontend] [compile] - -``` - - -**Command-line Parameters** - -`hpvm_reload` : Reloads HPVM weights ('.bin' binary format used in `model_params` found here: https://gitlab.engr.illinois.edu/llvm/hpvm/-/tree/approx_hpvm_reorg_keras/hpvm/test/dnn_benchmarks/model_params) from directory path specified in the `reload_dir` parameter set in code - this is described in "Parameters to Change in Code" (below). - -`keras_reload`: Alternatively, reload weights in Keras `.h5` file format with path to file specified in `keras_model_file` described in "Parameters to Change in Code" (below). - -`frontend`: Invokes the HPVM frontend and dumps weights (in HPVM `.bin` format) in the output directory specified. The parameters that control where data and source files are dumped are specified by parameters `data_dir` and `src_dir`, respectively. These are described below. - -`compile`: Optional Parameter. When specified, it compiles the HPVM-C code generated by the frontend into an HPVM binary under the directory specified by `src_dir` (described below). If `src_dir` path exists, a unique directory (which appends a unique ID) is created. -The binary is built with the name `HPVM_binary`. - -**NOTE:** Before running `HPVM_binary` necessary to set CUDA and CUDNN paths with: - -``` -source ${PATH_TO_YOUR_HPVM_ROOT}/hpvm/set_paths.sh -``` - -**Parameters to Change in Code** - -The AlexNet source is commented with explanations on how to use the Keras frontend interface. AlexNet source is [here](https://gitlab.engr.illinois.edu/llvm/hpvm/-/blob/approx_hpvm_reorg_keras/hpvm/projects/keras/src/alexnet.py). - -* `NAME`: Benchmark Name - Can be set to any desired value - -* `reload_dir`: Path to directory from where to reload weights in HPVM format. This directory is used to reload weights if `hpvm_reload` command-line option is used. - -* `keras_model_file`: Path to Keras .h5 model file to reload weigths from. Either of `reload_dir` or `keras_model_file` can be used. -`keras_model_file` is used when `keras_reload` commad-line parameter is used with the Benchmark script. - -* `data_dir`: Directory to dump weights specified specified in [constructor](https://gitlab.engr.illinois.edu/llvm/hpvm/-/blob/approx_hpvm_reorg_keras/hpvm/projects/keras/src/Benchmark.py#L21) - -* `src_dir`: Directory to dump ApproxHPVM sources in HPVM-C (C with HPVM compiler intrinsics) specified in [constructor](https://gitlab.engr.illinois.edu/llvm/hpvm/-/blob/approx_hpvm_reorg_keras/hpvm/projects/keras/src/Benchmark.py#L22) - -* `num_classes`: number of output classes - dependent on the dataset used. For CIFAR10, `num_classes` is 10, CIFAR100 has 100 classes, - for ImageNet, number of classes is 1000. - -* `batch_size`: This parameter controls the size of each batch that is processed in HPVM. The batch size should be kept as large as the GPU memory -can support. This parameter should be adapted according to the memory size of the deployed device. - - - -### Using the Frontend with Custom (New) Benchmarks - -Any new benchmarks must inherit from the commom parent `Benchmark` class -and override the virtual functions for building the model, training, -and data preprocessing. These methods are described below: - - -`def buildModel(self)`: -Constructs and returns a keras model - -`def data_preprocess(self)`: -returns X_train, y_train, X_test, y_test, X_tuner, and y_tuner data (in that order): -These are described here: - -* `X_train:` Training data (fp32) in NCHW format -* `y_train:` Training labels (int32) - -* `X_test:` Testing/Evaluation data in NCHW format -* `y_test:` Testing/Evaluation labels - -* `X_tuner:` Data to be used for autotuning -* `y_tuner:` Labels corresponding to tuning data - - -`def trainModel(self, model, X_train, y_train, X_test, y_test)`: -Trains the Keras model constructed in `buildModel` and is expected to return the -trained keras model - training parameters should be tuned here. - -### Directly using Keras Frontend API - -Alternate to extending the `Benchmark` class, users may directly invoke the Keras Frontend API. This can be done as: - -```python - -from keras_frontend.approxhpvm_translator import translate_to_approxhpvm - -# Construct and train your Keras Model (or load pre-trained weights) - -translate_to_approxhpvm(model, data_dir, src_dir, test_data, test_labels, tune_data, tune_labels, batch_size, num_classes) - -``` - -## Running HPVM Binary - -Run the `HPVM_binary` generated under the directory specified by `src_dir` (described above). Usage: - -``` -./HPVM_binary -t {test|tune} -c ${config_file_path} -``` - -`test|tune`: Runs with either tune (autotuning data) or test set (for evaluation) - -`config_file_path`: Path to an HPVM tensor configuration file (includes approximation settings) - - -## Automated Tests - -`scripts/test_benchmarks.py` is an automated test script that evaluates the accuracy of each Benchmark in Keras and HPVM (after comilation using HPVM Compiler) and compares the accuracy of each binary to the known correct accuracy. Run from root of `/test/dnn_benchmarks/keras`: - -``` -python test_benchmarks.py -``` - - - - - - +Instructions on using the Keras benchmarks and the Keras Frontend can be found [here](../../../docs/KerasFrontend.md): -- GitLab