SAS Viya: Package for Python API for deep learning and image processing: DLPy

0

Editor's Note: This article was translated and edited by SAS USA and was originally written by Makoto Unemi. The original text is here.

SAS previously provided SAS Scripting Wrapper for Analytics Transfer (SWAT), a package for using SAS Viya functions from various general-purpose programming languages ​​such as Python.

In addition to SWAT, SAS launched Deep Learning Python (DLPy), a higher-level API package for Python, making it possible to use SAS Viya functions more efficiently from Python. In this article I outline more about what DLPy is and how it's implementation.

About DLPy

DLPy is a high-level package for the Python API created for deep learning and image action set after Viya3.3. DLPy provides an API similar to Keras to improve the efficiency of deep learning and image processing coding. With just a little rewriting of the existing Keras code, it is possible to execute the processing on SAS Viya.

For example, below is an example of a Convolutional Neural Network (CNN) layer definition; you can see that it is very similar to Keras.

The layers supported by DLPy are: InputLayer, Conv2d, Pooling, Dense, Recurrent, BN, Res, Proj, and OutputLayer. The following is an example of learning.

DLPy functions

Introducing DLPy's functions (partial excerpts), taking as an example the learning of multiple dolphins and giraffe images using CNN and applying test images to the model.

Implementation of major deep learning networks

DLPy offers the following pre-built deep learning models: VGG11/13/16/19, ResNet34/50/101/152, wide_resnet, and dense_net.

The following models also offer pre-trained weights using ImageNet data (these weights can be used for unique tasks by transfer learning): VGG16, VGG19, ResNet50, ResNet101, and ResNet152. The following is an example of transferring ResNet50 pre-trained weights.

CNN judgment basis information

Using the heat_map_analysis() method, you can output a colorful heat map and check where you focused on the image.

In addition, the get_feature_maps() method is used to get the feature map of each layer of CNN, and feature_maps.display() method is used to specify and display the obtained feature map layer and check can also do.

The following is the output result of layer 1 feature map.

The following is the output result of layer 18 feature map.

Deep learning & image processing related task support function

resize() method: Resize image data

as_patches() method: Image data expansion (generates a patch from the original image)

two_way_split() method: Data split (learning, testing)

plot_network() method: draws the structure of the defined deep learning layer (network) as a graphical diagram

plot_training_history() method: Iterative learning history display

predict() method: Display prediction (scoring) results

plot_predict_res() method: Display classification results

And of course, you can use DLPy to get data from a SAS Viya in-memory session, pass it to your local client, and convert it to common data formats like numpy arrays and Pandas DataFrames. The converted data can be smoothly supplied to models of other open source packages such as scikit-learn.

Regarding image classification using DLPy, videos are also available in the Deep Learning with Python (DLPy) Demo Series section of the DLPy product page.

Share

About Author

SAS Users

Leave A Reply

This site uses Akismet to reduce spam. Learn how your comment data is processed.

Back to Top