This is not an expected error message. Please reach out to tech support for help and any available workaround.
Deep Learning HDL Toolbox - Error using dnnfpga.compiler.codegenfpga Index exceeds the number of array elements. Index must not exceed 0.
조회 수: 3 (최근 30일)
이전 댓글 표시
Hello,
I have a Nerual Network imported from keras (TF 2.6). The model imported is working and I would like to configure an Intel Arria 10 FPGA using the Deep Learning HDL Toolbox. However, I get the following error while model is compiling with hW.compile:
### Compiling network for Deep Learning FPGA prototyping ...
### Targeting FPGA bitstream arria10soc_single.
### Optimizing network: Flatten layer ('flatten_1'), removed and fused into FC layer ('dense_1'). Weights of FC layer were modified to account for the flatten layer removal.
### Optimizing network: Fused 'nnet.keras.layer.ZeroPadding2dLayer' into 'nnet.cnn.layer.Convolution2DLayer'
### Notice: The layer 'conv2d_transpose' of type 'nnet.cnn.layer.TransposedConvolution2DLayer' is split into 'conv2d_transpose_insertZeros' and 'conv2d_transpose'.
### Notice: The layer 'conv2d_transpose_1' of type 'nnet.cnn.layer.TransposedConvolution2DLayer' is split into 'conv2d_transpose_1_insertZeros' and 'conv2d_transpose_1'.
### Notice: The layer 'conv2d_transpose_2' of type 'nnet.cnn.layer.TransposedConvolution2DLayer' is split into 'conv2d_transpose_2_insertZeros' and 'conv2d_transpose_2'.
### The network includes the following layers:
1 'input_1' Image Input 1×1×4 images (SW Layer)
2 'dense' Fully Connected 30 fully connected layer (HW Layer)
3 'batch_normalization' Batch Normalization Batch normalization with 30 channels (HW Layer)
4 'Sigmoid1' Sigmoid sigmoid (SW Layer)
5 'multiply' nnet.internal.cnn.coder.MultiplicationLayer nnet.internal.cnn.coder.MultiplicationLayer (HW Layer)
6 'conv2d_transpose' 2-D Transposed Convolution 1600 4×4×30 transposed convolutions with stride [1 1] and cropping [0 0 0 0] (HW Layer)
7 'batch_normalization_1' Batch Normalization Batch normalization with 1600 channels (HW Layer)
8 'Sigmoid2' Sigmoid sigmoid (SW Layer)
9 'multiply_1' nnet.internal.cnn.coder.MultiplicationLayer nnet.internal.cnn.coder.MultiplicationLayer (HW Layer)
10 'conv2d_transpose_1' 2-D Transposed Convolution 800 4×4×1600 transposed convolutions with stride [1 1] and cropping [0 0 0 0] (HW Layer)
11 'batch_normalization_2' Batch Normalization Batch normalization with 800 channels (HW Layer)
12 'Sigmoid3' Sigmoid sigmoid (SW Layer)
13 'multiply_2' nnet.internal.cnn.coder.MultiplicationLayer nnet.internal.cnn.coder.MultiplicationLayer (HW Layer)
14 'conv2d_transpose_2' 2-D Transposed Convolution 400 4×4×800 transposed convolutions with stride [1 1] and cropping [0 0 0 0] (HW Layer)
15 'batch_normalization_3' Batch Normalization Batch normalization with 400 channels (HW Layer)
16 'Sigmoid4' Sigmoid sigmoid (SW Layer)
17 'multiply_3' nnet.internal.cnn.coder.MultiplicationLayer nnet.internal.cnn.coder.MultiplicationLayer (HW Layer)
18 'conv2d' 2-D Convolution 200 3×3×400 convolutions with stride [1 1] and padding [1 1 1 1] (HW Layer)
19 'Sigmoid5' Sigmoid sigmoid (SW Layer)
20 'multiply_4' nnet.internal.cnn.coder.MultiplicationLayer nnet.internal.cnn.coder.MultiplicationLayer (HW Layer)
21 'conv2d_1' 2-D Convolution 1 3×3×200 convolutions with stride [1 1] and padding [1 1 1 1] (HW Layer)
22 'dense_1' Fully Connected 100 fully connected layer (HW Layer)
23 'Sigmoid' Sigmoid sigmoid (SW Layer)
24 'output' Classification Output crossentropyex with '1' and 99 other classes (SW Layer)
### Notice: The layer 'input_1' with type 'nnet.cnn.layer.ImageInputLayer' is implemented in software.
### Notice: The layer 'Sigmoid1' with type 'nnet.cnn.layer.SigmoidLayer' is implemented in software.
### Notice: The layer 'Sigmoid2' with type 'nnet.cnn.layer.SigmoidLayer' is implemented in software.
### Notice: The layer 'Sigmoid3' with type 'nnet.cnn.layer.SigmoidLayer' is implemented in software.
### Notice: The layer 'Sigmoid4' with type 'nnet.cnn.layer.SigmoidLayer' is implemented in software.
### Notice: The layer 'Sigmoid5' with type 'nnet.cnn.layer.SigmoidLayer' is implemented in software.
### Notice: The layer 'Sigmoid' with type 'nnet.cnn.layer.SigmoidLayer' is implemented in software.
### Notice: The layer 'output' with type 'nnet.cnn.layer.ClassificationOutputLayer' is implemented in software.
### Compiling layer group: dense ...
### Compiling layer group: dense ... complete.
### Compiling layer group: batch_normalization ...
### Optimizing network: Replaced Batch Normalization layer batch_normalization with an equivalent Convolution layer.
### Compiling layer group: batch_normalization ... complete.
### Compiling layer group: conv2d_transpose_insertZeros ...
### Compiling layer group: conv2d_transpose_insertZeros ... complete.
### Compiling layer group: conv2d_transpose>>batch_normalization_1 ...
### Optimizing network: Fused 'nnet.cnn.layer.BatchNormalizationLayer' into 'nnet.cnn.layer.Convolution2DLayer'
### Compiling layer group: conv2d_transpose>>batch_normalization_1 ... complete.
### Compiling layer group: conv2d_transpose_1_insertZeros ...
### Compiling layer group: conv2d_transpose_1_insertZeros ... complete.
### Compiling layer group: conv2d_transpose_1>>batch_normalization_2 ...
### Optimizing network: Fused 'nnet.cnn.layer.BatchNormalizationLayer' into 'nnet.cnn.layer.Convolution2DLayer'
### Compiling layer group: conv2d_transpose_1>>batch_normalization_2 ... complete.
### Compiling layer group: conv2d_transpose_2_insertZeros ...
### Compiling layer group: conv2d_transpose_2_insertZeros ... complete.
### Compiling layer group: conv2d_transpose_2>>batch_normalization_3 ...
### Optimizing network: Fused 'nnet.cnn.layer.BatchNormalizationLayer' into 'nnet.cnn.layer.Convolution2DLayer'
### Compiling layer group: conv2d_transpose_2>>batch_normalization_3 ... complete.
### Compiling layer group: conv2d ...
### Compiling layer group: conv2d ... complete.
### Compiling layer group: conv2d_1 ...
### Compiling layer group: conv2d_1 ... complete.
### Compiling layer group: dense_1 ...
### Compiling layer group: dense_1 ... complete.
Error using dnnfpga.compiler.codegenfpga
Index exceeds the number of array elements. Index must not exceed 0.
Error in dnnfpga.apis.Workflow/compileNetwork
Error in dnnfpga.apis.Workflow/compile
Error in generate_HDL_from_NN (line 18)
hW.compile;
Could anyone help me to find the rootcause?
You can find the model imported here nn.mat
---------------------------
Software version:
Deep Learning HDL Toolbox Support Package For Intel FPGA And SoC Devices 23.1.1
Matlab R2023a Update 2 (9.14.0.2254940)
Ubuntu 20.04
---------------------------
댓글 수: 0
답변 (1개)
참고 항목
카테고리
Help Center 및 File Exchange에서 Deep Learning Toolbox에 대해 자세히 알아보기
Community Treasure Hunt
Find the treasures in MATLAB Central and discover how the community can help you!
Start Hunting!
Translated by 
또한 다음 목록에서 웹사이트를 선택하실 수도 있습니다.
미주
- América Latina (Español)
- Canada (English)
- United States (English)
유럽
- Belgium (English)
- Denmark (English)
- Deutschland (Deutsch)
- España (Español)
- Finland (English)
- France (Français)
- Ireland (English)
- Italia (Italiano)
- Luxembourg (English)
- Netherlands (English)
- Norway (English)
- Österreich (Deutsch)
- Portugal (English)
- Sweden (English)
- Switzerland
- United Kingdom(English)
아시아 태평양
- Australia (English)
- India (English)
- New Zealand (English)
- 中国
- 日本Japanese (日本語)
- 한국Korean (한국어)