Merge remote-tracking branch 'brutex-origin/master'

# Conflicts: # cavis-common-platform/build.gradle
2023-08-15 16:59:12 +02:00 · 2023-08-15 16:59:12 +02:00 · 99aed71ffa
parent 2df8ea06e0 090c5ab2eb
commit 99aed71ffa
15 changed files with 403 additions and 126 deletions
--- a/.docker/Dockerfile
+++ b/.docker/Dockerfile
@ -1,4 +1,4 @@
-FROM nvidia/cuda:11.4.3-cudnn8-devel-ubuntu20.04
+FROM nvidia/cuda:12.1.0-cudnn8-devel-ubuntu22.04
 RUN apt-get update &&  \
    DEBIAN_FRONTEND=noninteractive apt-get install -y openjdk-11-jdk wget build-essential checkinstall zlib1g-dev libssl-dev git
--- a/.jenkins/linux-x86_64-cpu-build.jenkinsfile
+++ b/.jenkins/linux-x86_64-cpu-build.jenkinsfile
@ -65,7 +65,7 @@ pipeline {
        }*/
        stage('publish-linux-cpu') {
            environment {
-                MAVEN = credentials('Internal Archiva')
+                MAVEN = credentials('Internal_Archiva')
                OSSRH = credentials('OSSRH')
            }
@ -79,4 +79,9 @@ pipeline {
            }
        }
    }
    post {
        always {
            junit '**/build/test-results/**/*.xml'
        }
    }
 }
--- a/.jenkins/linux-x86_64-cuda-build.jenkinsfile
+++ b/.jenkins/linux-x86_64-cuda-build.jenkinsfile
@ -59,4 +59,10 @@ pipeline {
            }
        }
    }
    post {
        always {
            junit '**/build/test-results/**/*.xml'
        }
    }
 }
--- a/.jenkins/linux-x86_64-docker-cpu-build.jenkinsfile
+++ b/.jenkins/linux-x86_64-docker-cpu-build.jenkinsfile
@ -85,4 +85,9 @@ pipeline {
            }
        }
    }
    post {
        always {
            junit '**/build/test-results/**/*.xml'
        }
    }
 }
--- a/.jenkins/linux-x86_64-docker-cuda-build.jenkinsfile
+++ b/.jenkins/linux-x86_64-docker-cuda-build.jenkinsfile
@ -72,4 +72,10 @@ pipeline {
            }
        }
    }
    post {
        always {
            junit '**/build/test-results/**/*.xml'
        }
    }
 }
--- a/brutex-extended-tests/src/test/java/net/brutex/ai/nd4j/tests/LoadBackendTests.java
+++ b/brutex-extended-tests/src/test/java/net/brutex/ai/nd4j/tests/LoadBackendTests.java
@ -36,9 +36,9 @@ import static org.junit.jupiter.api.Assertions.assertTrue;
 public class LoadBackendTests {
    @Test
-    public void loadBackend() throws ClassNotFoundException, NoSuchFieldException, IllegalAccessException {
+    public void loadBackend() throws NoSuchFieldException, IllegalAccessException {
        // check if Nd4j is there
-        //Logger.getLogger(LoadBackendTests.class.getName()).info("System java.library.path: " + System.getProperty("java.library.path"));
+        Logger.getLogger(LoadBackendTests.class.getName()).info("System java.library.path: " + System.getProperty("java.library.path"));
        final Field sysPathsField = ClassLoader.class.getDeclaredField("sys_paths");
        sysPathsField.setAccessible(true);
        sysPathsField.set(null, null);
--- a/brutex-extended-tests/src/test/java/net/brutex/gan/App2.java
+++ b/brutex-extended-tests/src/test/java/net/brutex/gan/App2.java
@ -37,6 +37,8 @@ import org.datavec.image.loader.NativeImageLoader;
 import org.datavec.image.recordreader.ImageRecordReader;
 import org.datavec.image.transform.*;
 import org.deeplearning4j.datasets.datavec.RecordReaderDataSetIterator;
 import org.deeplearning4j.datasets.iterator.ExistingDataSetIterator;
 import org.deeplearning4j.datasets.iterator.INDArrayDataSetIterator;
 import org.deeplearning4j.datasets.iterator.impl.MnistDataSetIterator;
 import org.deeplearning4j.nn.conf.GradientNormalization;
 import org.deeplearning4j.nn.conf.NeuralNetConfiguration;
@ -46,24 +48,27 @@ import org.deeplearning4j.nn.multilayer.MultiLayerNetwork;
 import org.deeplearning4j.optimize.listeners.PerformanceListener;
 import org.junit.jupiter.api.Tag;
 import org.junit.jupiter.api.Test;
 import org.nd4j.evaluation.classification.Evaluation;
 import org.nd4j.linalg.api.ndarray.INDArray;
 import org.nd4j.linalg.dataset.DataSet;
 import org.nd4j.linalg.dataset.api.iterator.DataSetIterator;
 import org.nd4j.linalg.factory.Nd4j;
 import static net.brutex.gan.App2Config.BATCHSIZE;
@Slf4j
 public class App2 {
    final int INPUT = CHANNELS*DIMENSIONS*DIMENSIONS;
-    static final float COLORSPACE = 255f;
+
    static final int DIMENSIONS = 28;
    static final int CHANNELS = 1;
    final int ARRAY_SIZE_PER_SAMPLE = DIMENSIONS*DIMENSIONS*CHANNELS;
-    final int OUTPUT_PER_PANEL = 10;
+
    final boolean BIAS = true;
-    static final int BATCHSIZE=128;
+
    private JFrame frame2, frame;
    static final String OUTPUT_DIR = "d:/out/";
@ -76,7 +81,7 @@ public class App2 {
        Nd4j.getMemoryManager().setAutoGcWindow(15 * 1000);
        MnistDataSetIterator mnistIter = new MnistDataSetIterator(20, 200);
-        FileSplit fileSplit = new FileSplit(new File("c:/users/brian/downloads/humans2"), NativeImageLoader.getALLOWED_FORMATS());
+        FileSplit fileSplit = new FileSplit(new File("c:/users/brian/downloads/humans3"), NativeImageLoader.getALLOWED_FORMATS());
        ImageTransform transform = new ColorConversionTransform(new Random(42), 7 );
        ImageTransform transform2 = new ShowImageTransform("Tester", 30);
        ImageTransform transform3 = new ResizeImageTransform(DIMENSIONS, DIMENSIONS);
@ -129,12 +134,94 @@ public class App2 {
        log.info("Generator Summary:\n{}", gen.summary());
        log.info("GAN Summary:\n{}", gan.summary());
-        dis.addTrainingListeners(new PerformanceListener(10, true, "DIS"));
+        dis.addTrainingListeners(new PerformanceListener(3, true, "DIS"));
-        gen.addTrainingListeners(new PerformanceListener(10, true, "GEN"));
+        //gen.addTrainingListeners(new PerformanceListener(3, true, "GEN")); //is never trained separately from GAN
-        gan.addTrainingListeners(new PerformanceListener(10, true, "GAN"));
+        gan.addTrainingListeners(new PerformanceListener(3, true, "GAN"));
 /*
    Thread vt =
        new Thread(
            new Runnable() {
              @Override
              public void run() {
                while (true) {
                  visualize(0, 0, gen);
                    try {
                        Thread.sleep(10000);
                    } catch (InterruptedException e) {
                        throw new RuntimeException(e);
                    }
                }
              }
            });
        vt.start();
 */
-        int j = 0;
+        App2Display display = new App2Display();
-        for (int i = 0; i < 51; i++) { //epoch
+        //Repack training data with new fake/real label. Original MNist has 10 labels, one for each digit
        DataSet data = null;
        int j =0;
        for(int i=0;i<App2Config.EPOCHS;i++) {
            log.info("Epoch {}", i);
            data = new DataSet(Nd4j.rand(BATCHSIZE, 784), label_fake);
            while (trainData.hasNext()) {
                j++;
                INDArray real = trainData.next().getFeatures();
                INDArray fakeIn = Nd4j.rand(BATCHSIZE, App2Config.INPUT);
                INDArray fake = gan.activateSelectedLayers(0, gen.getLayers().length - 1,
                        Nd4j.rand(BATCHSIZE, App2Config.INPUT));
                //sigmoid output is -1 to 1
                fake.addi(1f).divi(2f);
                if (j % 50 == 1) {
                  display.visualize(new INDArray[] {fake}, App2Config.OUTPUT_PER_PANEL, false);
                  display.visualize(new INDArray[] {real}, App2Config.OUTPUT_PER_PANEL, true);
                }
                DataSet realSet = new DataSet(real, label_real);
                DataSet fakeSet = new DataSet(fake, label_fake);
                //start next round if there are not enough images left to have a full batchsize dataset
                if(real.length() < ARRAY_SIZE_PER_SAMPLE*BATCHSIZE) {
                    log.warn("Your total number of input images is not a multiple of {}, "
                            + "thus skipping {} images to make it fit", BATCHSIZE, real.length()/ARRAY_SIZE_PER_SAMPLE);
                    break;
                }
                //if(real.length()/BATCHSIZE!=784) break;
                data = DataSet.merge(Arrays.asList(data, realSet, fakeSet));
            }
            //fit the discriminator
            dis.fit(data);
            dis.fit(data);
            // Update the discriminator in the GAN network
            updateGan(gen, dis, gan);
            //reset the training data and fit the complete GAN
            if (trainData.resetSupported()) {
                trainData.reset();
            } else {
                log.error("Trainingdata {} does not support reset.", trainData.toString());
            }
            gan.fit(new DataSet(Nd4j.rand(BATCHSIZE, App2Config.INPUT), label_real));
            if (trainData.resetSupported()) {
                trainData.reset();
            } else {
                log.error("Trainingdata {} does not support reset.", trainData.toString());
            }
            log.info("Updated GAN's generator from gen.");
            updateGen(gen, gan);
            gen.save(new File("mnist-mlp-generator.dlj"));
        }
        //vt.stop();
 /*
        int j;
        for (int i = 0; i < App2Config.EPOCHS; i++) { //epoch
            j=0;
            while (trainData.hasNext()) {
                j++;
                DataSet next = trainData.next();
@ -212,122 +299,25 @@ public class App2 {
            log.info("Updated GAN's generator from gen.");
            gen.save(new File("mnist-mlp-generator.dlj"));
        }
-    }
+        */
    private static JFrame visualize(INDArray[] samples, int batchElements, JFrame frame, boolean isOrig) {
        if (isOrig) {
            frame.setTitle("Viz Original");
        } else {
            frame.setTitle("Generated");
        }
        frame.setDefaultCloseOperation(WindowConstants.DISPOSE_ON_CLOSE);
        frame.setLayout(new BorderLayout());
        JPanel panelx = new JPanel();
        panelx.setLayout(new GridLayout(4, 4, 8, 8));
        for (INDArray sample : samples) {
            for(int i = 0; i<batchElements; i++) {
                panelx.add(getImage(sample, i, isOrig));
            }
        }
        frame.add(panelx, BorderLayout.CENTER);
        frame.setVisible(true);
        frame.revalidate();
        frame.setMinimumSize(new Dimension(300, 20));
        frame.pack();
        return frame;
    }
    private static JLabel getImage(INDArray tensor, int batchElement, boolean isOrig) {
        final BufferedImage bi;
        if(CHANNELS >1) {
            bi = new BufferedImage(DIMENSIONS, DIMENSIONS, BufferedImage.TYPE_INT_RGB); //need to change here based on channels
        } else {
            bi = new BufferedImage(DIMENSIONS, DIMENSIONS, BufferedImage.TYPE_BYTE_GRAY); //need to change here based on channels
        }
        final int imageSize = DIMENSIONS * DIMENSIONS;
        final int offset = batchElement * imageSize;
        int pxl = offset * CHANNELS; //where to start in the INDArray
        //Image in NCHW - channels first format
        for (int c = 0; c < CHANNELS; c++) { //step through the num channels for each pixel
            for (int y = 0; y < DIMENSIONS; y++) { // step through the columns x
                for (int x = 0; x < DIMENSIONS; x++) { //step through the rows y
                    float f_pxl = tensor.getFloat(pxl) * COLORSPACE;
                    if(isOrig) log.trace("'{}.' Image (x,y,c): ({}, {}, {}) with INDArray with index {} and value '{}'", batchElement, x, y, c, pxl, f_pxl);
                    bi.getRaster().setSample(x, y, c, f_pxl);
                    pxl++; //next item in INDArray
                }
            }
        }
        ImageIcon orig = new ImageIcon(bi);
        Image imageScaled = orig.getImage().getScaledInstance((4 * DIMENSIONS), (4 * DIMENSIONS), Image.SCALE_DEFAULT);
        ImageIcon scaled = new ImageIcon(imageScaled);
        if(! isOrig)  saveImage(imageScaled, batchElement, isOrig);
        return new JLabel(scaled);
    }
    private static void saveImage(Image image, int batchElement, boolean isOrig) {
        String outputDirectory = OUTPUT_DIR; // Set the output directory where the images will be saved
        try {
            // Save the images to disk
            saveImage(image, outputDirectory, UUID.randomUUID().toString()+".png");
            log.debug("Images saved successfully.");
        } catch (IOException e) {
            log.error("Error saving the images: {}", e.getMessage());
        }
    }
    private static void saveImage(Image image, String outputDirectory, String fileName) throws IOException {
        File directory = new File(outputDirectory);
        if (!directory.exists()) {
            directory.mkdir();
        }
        File outputFile = new File(directory, fileName);
        ImageIO.write(imageToBufferedImage(image), "png", outputFile);
    }
    public static BufferedImage imageToBufferedImage(Image image) {
        if (image instanceof BufferedImage) {
            return (BufferedImage) image;
        }
    // Create a buffered image with the same dimensions and transparency as the original image
        BufferedImage bufferedImage;
    if (CHANNELS > 1) {
      bufferedImage =
          new BufferedImage(
              image.getWidth(null), image.getHeight(null), BufferedImage.TYPE_INT_ARGB);
        } else {
        bufferedImage =
                new BufferedImage(
                        image.getWidth(null), image.getHeight(null), BufferedImage.TYPE_BYTE_GRAY);
        }
        // Draw the original image onto the buffered image
        Graphics2D g2d = bufferedImage.createGraphics();
        g2d.drawImage(image, 0, 0, null);
        g2d.dispose();
-        return bufferedImage;
+
-    }
+
    private static void updateGen(MultiLayerNetwork gen, MultiLayerNetwork gan) {
        for (int i = 0; i < gen.getLayers().length; i++) {
            gen.getLayer(i).setParams(gan.getLayer(i).getParams());
@ -341,4 +331,41 @@ public class App2 {
        }
    }
    @Test
    void testDiskriminator() throws IOException {
        MultiLayerNetwork net = new MultiLayerNetwork(App2Config.discriminator());
        net.init();
        net.addTrainingListeners(new PerformanceListener(10, true, "DIS"));
        DataSetIterator trainData = new MnistDataSetIterator(BATCHSIZE, true, 42);
        DataSet data = null;
        for(int i=0;i<App2Config.EPOCHS;i++) {
            log.info("Epoch {}", i);
            data = new DataSet(Nd4j.rand(BATCHSIZE, 784), label_fake);
            while (trainData.hasNext()) {
                INDArray real = trainData.next().getFeatures();
                long[] l = new long[]{BATCHSIZE, real.length() / BATCHSIZE};
                INDArray fake = Nd4j.rand(l );
                DataSet realSet = new DataSet(real, label_real);
                DataSet fakeSet = new DataSet(fake, label_fake);
                if(real.length()/BATCHSIZE!=784) break;
                data = DataSet.merge(Arrays.asList(data, realSet, fakeSet));
            }
            net.fit(data);
            trainData.reset();
        }
        long[] l = new long[]{BATCHSIZE, 784};
        INDArray fake = Nd4j.rand(l );
        DataSet fakeSet = new DataSet(fake, label_fake);
        data = DataSet.merge(Arrays.asList(data, fakeSet));
        ExistingDataSetIterator iter = new ExistingDataSetIterator(data);
        Evaluation eval = net.evaluate(iter);
        log.info( "\n" + eval.confusionMatrix());
    }
 }
--- a/brutex-extended-tests/src/test/java/net/brutex/gan/App2Config.java
+++ b/brutex-extended-tests/src/test/java/net/brutex/gan/App2Config.java
@ -36,10 +36,17 @@ import org.nd4j.linalg.lossfunctions.LossFunctions;
 public class App2Config {
  public static final int INPUT = 100;
  public static final int BATCHSIZE=150;
  public static final int X_DIM = 28;
-  public static final int y_DIM = 28;
+  public static final int Y_DIM = 28;
  public static final int CHANNELS = 1;
  public static final int EPOCHS = 50;
  public static final IUpdater UPDATER = Adam.builder().learningRate(0.0002).beta1(0.5).build();
  public static final IUpdater UPDATER_DIS = Adam.builder().learningRate(0.02).beta1(0.5).build();
  public static final boolean SHOW_GENERATED = true;
  public static final float COLORSPACE = 255f;
  final static int OUTPUT_PER_PANEL = 10;
  static LayerConfiguration[] genLayerConfig() {
    return new LayerConfiguration[] {
@ -158,7 +165,7 @@ public class App2Config {
                    .gradientNormalization(GradientNormalization.RenormalizeL2PerLayer)
                    .gradientNormalizationThreshold(100)
                    .seed(42)
-                    .updater(UPDATER)
+                    .updater(UPDATER_DIS)
                    .weightInit(WeightInit.XAVIER)
                    // .weightNoise(new WeightNoise(new NormalDistribution(0.5, 0.5)))
                    .weightNoise(null)
--- a/brutex-extended-tests/src/test/java/net/brutex/gan/App2Display.java
+++ b/brutex-extended-tests/src/test/java/net/brutex/gan/App2Display.java
@ -0,0 +1,160 @@
 /*
 *
 *    ******************************************************************************
 *    *
 *    * This program and the accompanying materials are made available under the
 *    * terms of the Apache License, Version 2.0 which is available at
 *    * https://www.apache.org/licenses/LICENSE-2.0.
 *    *
 *    *  See the NOTICE file distributed with this work for additional
 *    *  information regarding copyright ownership.
 *    * Unless required by applicable law or agreed to in writing, software
 *    * distributed under the License is distributed on an "AS IS" BASIS, WITHOUT
 *    * WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. See the
 *    * License for the specific language governing permissions and limitations
 *    * under the License.
 *    *
 *    * SPDX-License-Identifier: Apache-2.0
 *    *****************************************************************************
 *
 */
 package net.brutex.gan;
 import com.google.inject.Singleton;
 import lombok.extern.slf4j.Slf4j;
 import org.nd4j.linalg.api.ndarray.INDArray;
 import javax.imageio.ImageIO;
 import javax.swing.*;
 import java.awt.*;
 import java.awt.color.ColorSpace;
 import java.awt.image.BufferedImage;
 import java.io.File;
 import java.io.IOException;
 import java.util.UUID;
 import static net.brutex.gan.App2.OUTPUT_DIR;
 import static net.brutex.gan.App2Config.*;
@Slf4j
@Singleton
 public class App2Display {
    private final JFrame frame = new JFrame();
  private final App2GUI display = new App2GUI();
  private final JPanel real_panel;
  private final JPanel fake_panel;
    public App2Display() {
        frame.setDefaultCloseOperation(WindowConstants.DISPOSE_ON_CLOSE);
        frame.setContentPane(display.getOverall_panel());
        frame.setMinimumSize(new Dimension(300, 20));
        frame.pack();
        frame.setVisible(true);
        real_panel = display.getReal_panel();
        fake_panel = display.getGen_panel();
        real_panel.setLayout(new GridLayout(4, 4, 8, 8));
        fake_panel.setLayout(new GridLayout(4, 4, 8, 8));
    }
    public void visualize(INDArray[] samples, int batchElements, boolean isOrig) {
        for (INDArray sample : samples) {
            for(int i = 0; i<batchElements; i++) {
                final Image img = this.getImage(sample, i, isOrig);
                final ImageIcon icon = new ImageIcon(img);
                if(isOrig) {
                    if(real_panel.getComponents().length>=OUTPUT_PER_PANEL) {
                        real_panel.remove(0);
                    }
                    real_panel.add(new JLabel(icon));
                } else {
                        if(fake_panel.getComponents().length>=OUTPUT_PER_PANEL) {
                            fake_panel.remove(0);
                        }
                    fake_panel.add(new JLabel(icon));
                }
            }
        }
        frame.pack();
        frame.repaint();
    }
    public Image getImage(INDArray tensor, int batchElement, boolean isOrig) {
        final BufferedImage bi;
        if(CHANNELS >1) {
            bi = new BufferedImage(X_DIM, Y_DIM, BufferedImage.TYPE_INT_RGB); //need to change here based on channels
        } else {
            bi = new BufferedImage(X_DIM, Y_DIM, BufferedImage.TYPE_BYTE_GRAY); //need to change here based on channels
        }
        final int imageSize = X_DIM * Y_DIM;
        final int offset = batchElement * imageSize;
        int pxl = offset * CHANNELS; //where to start in the INDArray
        //Image in NCHW - channels first format
        for (int c = 0; c < CHANNELS; c++) { //step through the num channels for each pixel
            for (int y = 0; y < X_DIM; y++) { // step through the columns x
                for (int x = 0; x < Y_DIM; x++) { //step through the rows y
                    float f_pxl = tensor.getFloat(pxl) * COLORSPACE;
                    if(isOrig) log.trace("'{}.'{} Image (x,y,c): ({}, {}, {}) with INDArray with index {} and value '{}'", batchElement, isOrig ? "Real" : "Fake", x, y, c, pxl, f_pxl);
                    bi.getRaster().setSample(x, y, c, f_pxl);
                    pxl++; //next item in INDArray
                }
            }
        }
        ImageIcon orig = new ImageIcon(bi);
        Image imageScaled = orig.getImage().getScaledInstance((4 * X_DIM), (4 * Y_DIM), Image.SCALE_DEFAULT);
        ImageIcon scaled = new ImageIcon(imageScaled);
        //if(! isOrig)  saveImage(imageScaled, batchElement, isOrig);
        return imageScaled;
    }
    private static void saveImage(Image image, int batchElement, boolean isOrig) {
        String outputDirectory = OUTPUT_DIR; // Set the output directory where the images will be saved
        try {
            // Save the images to disk
            saveImage(image, outputDirectory, UUID.randomUUID().toString()+".png");
            log.debug("Images saved successfully.");
        } catch (IOException e) {
            log.error("Error saving the images: {}", e.getMessage());
        }
    }
    private static void saveImage(Image image, String outputDirectory, String fileName) throws IOException {
        File directory = new File(outputDirectory);
        if (!directory.exists()) {
            directory.mkdir();
        }
        File outputFile = new File(directory, fileName);
        ImageIO.write(imageToBufferedImage(image), "png", outputFile);
    }
    public static BufferedImage imageToBufferedImage(Image image) {
        if (image instanceof BufferedImage) {
            return (BufferedImage) image;
        }
        // Create a buffered image with the same dimensions and transparency as the original image
        BufferedImage bufferedImage;
        if (CHANNELS > 1) {
            bufferedImage =
                    new BufferedImage(
                            image.getWidth(null), image.getHeight(null), BufferedImage.TYPE_INT_ARGB);
        } else {
            bufferedImage =
                    new BufferedImage(
                            image.getWidth(null), image.getHeight(null), BufferedImage.TYPE_BYTE_GRAY);
        }
        // Draw the original image onto the buffered image
        Graphics2D g2d = bufferedImage.createGraphics();
        g2d.drawImage(image, 0, 0, null);
        g2d.dispose();
        return bufferedImage;
    }
 }
--- a/brutex-extended-tests/src/test/java/net/brutex/gan/App2GUI.java
+++ b/brutex-extended-tests/src/test/java/net/brutex/gan/App2GUI.java
@ -0,0 +1,61 @@
 package net.brutex.gan;
 import javax.swing.JPanel;
 import javax.swing.JSplitPane;
 import javax.swing.JLabel;
 import java.awt.BorderLayout;
 public class App2GUI extends JPanel {
 	/**
 	 * 
 	 */
 	private static final long serialVersionUID = 1L;
 	private JPanel overall_panel;
 	private JPanel real_panel;
 	private JPanel gen_panel;
 	/**
 	 * Create the panel.
 	 */
 	public App2GUI() {
 		overall_panel = new JPanel();
 		add(overall_panel);
 		JSplitPane splitPane = new JSplitPane();
 		overall_panel.add(splitPane);
 		JPanel p1 = new JPanel();
 		splitPane.setLeftComponent(p1);
 		p1.setLayout(new BorderLayout(0, 0));
 		JLabel lblNewLabel = new JLabel("Generator");
 		p1.add(lblNewLabel, BorderLayout.NORTH);
 		gen_panel = new JPanel();
 		p1.add(gen_panel, BorderLayout.SOUTH);
 		JPanel p2 = new JPanel();
 		splitPane.setRightComponent(p2);
 		p2.setLayout(new BorderLayout(0, 0));
 		JLabel lblNewLabel_1 = new JLabel("Real");
 		p2.add(lblNewLabel_1, BorderLayout.NORTH);
 		real_panel = new JPanel();
 		p2.add(real_panel, BorderLayout.SOUTH);
 	}
 	public JPanel getOverall_panel() {
 		return overall_panel;
 	}
 	public JPanel getReal_panel() {
 		return real_panel;
 	}
 	public JPanel getGen_panel() {
 		return gen_panel;
 	}
 }
--- a/brutex-extended-tests/src/test/java/net/brutex/gan/simplelogger.properties
+++ b/brutex-extended-tests/src/test/java/net/brutex/gan/simplelogger.properties
--- a/cavis-dnn/cavis-dnn-nn/src/test/java/net/brutex/ai/dnn/api/dnnTest.java
+++ b/cavis-dnn/cavis-dnn-nn/src/test/java/net/brutex/ai/dnn/api/dnnTest.java
@ -78,7 +78,7 @@ class dnnTest {
     * DenseLayer.Builder().nIn(X_DIM*Y_DIM).nOut(X_DIM*Y_DIM*CHANNELS).activation(Activation.TANH)
     */
    NeuralNetConfiguration network =
-        NN.net()
+        NN.nn()
            .seed(42)
            .updater(Adam.builder().learningRate(0.0002).beta1(0.5).build())
            .gradientNormalization(GradientNormalization.RenormalizeL2PerLayer)
--- a/cavis-dnn/cavis-dnn-spark/cavis-dnn-spark-core/build.gradle
+++ b/cavis-dnn/cavis-dnn-spark/cavis-dnn-spark-core/build.gradle
@ -31,7 +31,7 @@ dependencies {
    implementation projects.cavisDnn.cavisDnnData.cavisDnnDataDatasets
    implementation projects.cavisDnn.cavisDnnData.cavisDnnDataDatavecIterators
    implementation projects.cavisDnn.cavisDnnData.cavisDnnDataUtilityIterators
-    implementation "org.apache.hadoop:hadoop-common:3.2.0"
+    implementation "org.apache.hadoop:hadoop-common:3.2.4"
    implementation "com.fasterxml.jackson.dataformat:jackson-dataformat-yaml"
    implementation projects.cavisDatavec.cavisDatavecApi
    implementation projects.cavisDatavec.cavisDatavecSpark.cavisDatavecSparkCore
--- a/cavis-native/cavis-native-lib/build.gradle
+++ b/cavis-native/cavis-native-lib/build.gradle
@ -52,8 +52,8 @@ buildscript {
        classpath platform(project(":cavis-common-platform"))
        classpath group: "org.bytedeco", name: "openblas"
        classpath group: "org.bytedeco", name: "openblas", classifier: "${javacppPlatform}"
-        classpath group: "org.bytedeco", name:"mkl-dnn"
+        classpath group: "org.bytedeco", name:"mkl"
-        classpath group: "org.bytedeco", name:"mkl-dnn", classifier: "${javacppPlatform}"
+        classpath group: "org.bytedeco", name:"mkl", classifier: "${javacppPlatform}"
        classpath group: "org.bytedeco", name: "javacpp"
        classpath group: "org.bytedeco", name: "javacpp", classifier: "${javacppPlatform}"
    }
--- a/cavis-nd4j/cavis-nd4j-tensorflow/build.gradle
+++ b/cavis-nd4j/cavis-nd4j-tensorflow/build.gradle
@ -28,7 +28,7 @@ dependencies {
    implementation group: "org.bytedeco", name: "tensorflow"
    testRuntimeOnly group: "org.bytedeco", name: "tensorflow", classifier: buildTarget
    if(buildTarget.contains("windows") || buildTarget.contains("linux")) {
-        testRuntimeOnly group: "org.bytedeco", name: "tensorflow", classifier: "${buildTarget}-gpu"
+        testRuntimeOnly group: "org.bytedeco", name: 'tensorflow', classifier: "${buildTarget}-gpu", version: ''
    }
    implementation "commons-io:commons-io"
    implementation "com.google.code.gson:gson"