Exemplo n.º 1
0
        partial void TappedTestSet(UIButton sender)
        {
            // placeholder to count number of correct detections on the test set
            var correctDetections = 0;
            var total             = 10000f;

            AccuracyLabel.Hidden = false;

            Atomics.Reset();

            // validate NeuralNetwork was initialized properly
            if (runningNet == null)
            {
                throw new InvalidProgramException();
            }

            for (int i = 0; i < total; i++)
            {
                Inference(i, Mnistdata.LabelsCount);

                if (i % 100 == 0)
                {
                    AccuracyLabel.Text = $"{i / 100}% Done";
                    // this command helps update the UI in the loop regularly
                    NSRunLoop.Current.RunUntil(NSRunLoopMode.Default, NSDate.DistantPast);
                }
            }
            // display accuracy of the network on the MNIST test set
            correctDetections = Atomics.GetCount();

            AccuracyLabel.Hidden = false;
            AccuracyLabel.Text   = $"Accuracy = {(correctDetections * 100) / total}%";
        }
Exemplo n.º 2
0
        /// <summary>
        /// This function encodes all the layers of the network into given commandBuffer, it calls subroutines for each piece of the network
        /// Returns: Guess of the network as to what the digit is as uint
        /// </summary>
        /// <param name="inputImage">Image coming in on which the network will run</param>
        /// <param name="imageNum">If the test set is being used we will get a value between 0 and 9999 for which of the 10,000 images is being evaluated</param>
        /// <param name="correctLabel">The correct label for the inputImage while testing</param>
        public override uint Forward(MPSImage inputImage = null, int imageNum = 9999, int correctLabel = 10)
        {
            uint label = 99;

            // Get command buffer to use in MetalPerformanceShaders.
            using (var commandBuffer = commandQueue.CommandBuffer()) {
                // output will be stored in this image
                var finalLayer = new MPSImage(commandBuffer.Device, DID);

                // encode layers to metal commandBuffer
                if (inputImage == null)
                {
                    conv1.EncodeToCommandBuffer(commandBuffer, SrcImage, c1Image);
                }
                else
                {
                    conv1.EncodeToCommandBuffer(commandBuffer, inputImage, c1Image);
                }

                pool.EncodeToCommandBuffer(commandBuffer, c1Image, p1Image);
                conv2.EncodeToCommandBuffer(commandBuffer, p1Image, c2Image);
                pool.EncodeToCommandBuffer(commandBuffer, c2Image, p2Image);
                fc1.EncodeToCommandBuffer(commandBuffer, p2Image, fc1Image);
                fc2.EncodeToCommandBuffer(commandBuffer, fc1Image, dstImage);
                softmax.EncodeToCommandBuffer(commandBuffer, dstImage, finalLayer);

                // add a completion handler to get the correct label the moment GPU is done and compare it to the correct output or return it
                commandBuffer.AddCompletedHandler(buffer => {
                    label = GetLabel(finalLayer);

                    if (correctLabel == label)
                    {
                        Atomics.Increment();
                    }
                });

                // commit commandbuffer to run on GPU and wait for completion
                commandBuffer.Commit();
                if (imageNum == 9999 || inputImage == null)
                {
                    commandBuffer.WaitUntilCompleted();
                }
            }

            return(label);
        }