C# (CSharp) DeepLearning NSM.Layer示例

示例#1

 public void Process(NSM nn, int index)
 {
     //Process Network
     if (H1Dim > 0)
     {
         for (int i = 0; i < XDim; i++)
         {
             X.SetValue(i, 0, nn.GetInput(EncodePivot + i));
         }
         nn.Layer(X, W0, b0, Y).ELU();
         nn.Layer(Y, W1, b1, Y).ELU();
     }
     else if (XDim != H2Dim)
     {
         Debug.Log("XDim need to be equal to H2Dim");
     }
     else
     {
         for (int i = 0; i < XDim; i++)
         {
             Y.SetValue(i, 0, nn.GetInput(EncodePivot + i));
         }
     }
 }

示例#2

            public void Process(NSM nn, int index)
            {
                //Generate Weights
                if (index == 0)
                {
                    W0 = Experts[0][0];
                    b0 = Experts[1][0];
                    W1 = Experts[2][0];
                    b1 = Experts[3][0];
                    W2 = Experts[4][0];
                    b2 = Experts[5][0];
                }
                else
                {
                    float[] weights = nn.Components[index - 1].Y.Flatten();
                    if (nn.Threading)
                    {
                        Task.WaitAll(
                            Task.Factory.StartNew(() => nn.BlendAll(W0, Experts[0], weights, weights.Length)),
                            Task.Factory.StartNew(() => nn.BlendAll(b0, Experts[1], weights, weights.Length)),
                            Task.Factory.StartNew(() => nn.BlendAll(W1, Experts[2], weights, weights.Length)),
                            Task.Factory.StartNew(() => nn.BlendAll(b1, Experts[3], weights, weights.Length)),
                            Task.Factory.StartNew(() => nn.BlendAll(W2, Experts[4], weights, weights.Length)),
                            Task.Factory.StartNew(() => nn.BlendAll(b2, Experts[5], weights, weights.Length))
                            );
                    }
                    else
                    {
                        nn.BlendAll(W0, Experts[0], weights, weights.Length);
                        nn.BlendAll(b0, Experts[1], weights, weights.Length);
                        nn.BlendAll(W1, Experts[2], weights, weights.Length);
                        nn.BlendAll(b1, Experts[3], weights, weights.Length);
                        nn.BlendAll(W2, Experts[4], weights, weights.Length);
                        nn.BlendAll(b2, Experts[5], weights, weights.Length);
                    }
                }

                //Set Input
                if (index == nn.Components.Length - 1 && nn.encoders.Length > 0)
                {
                    int dim_accumulated = 0;
                    for (int i = 0; i < nn.encoders.Length; i++)
                    {
                        for (int j = 0; j < nn.encoders[i].H2Dim; j++)
                        {
                            X.SetValue(j + dim_accumulated, 0, nn.encoders[i].GetLatent(j));
                        }
                        dim_accumulated += nn.encoders[i].H2Dim;
                    }
                }
                else
                {
                    for (int i = 0; i < XDim; i++)
                    {
                        X.SetValue(i, 0, nn.GetInput(GatingPivot + i));
                    }
                }

                //Process Network
                if (!Bias)
                {
                    b0.SetZero();
                    b1.SetZero();
                    b2.SetZero();
                }
                nn.Layer(X, W0, b0, Y).ELU();
                nn.Layer(Y, W1, b1, Y).ELU();
                nn.Layer(Y, W2, b2, Y);
                if (index < nn.Components.Length - 1)
                {
                    Y.SoftMax();
                }
            }