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Image Classification Based on Resnet18

1. Configure Docker development environment

Refer to here. After configuring the Docker development environment, return here to continue the next step.

2. Prepare the working directory in Docker

Create and enter the resnet18 working directory, note that it is a directory at the same level as tpu-mlir.

# mkdir resnet18 && cd resnet18

Get the original model

# wget

Extract resnet18-v1-7.tar.gz

# tar -zxvf resnet18-v1-7.tar.gz

After extraction is complete, the resnet18-v1-7 folder will be generated in the current directory, which contains the resnet18-v1-7.onnx model file.

Copy test image:

# cp -rf ${TPUC_ROOT}/regression/dataset/ILSVRC2012/ .
# cp -rf ${TPUC_ROOT}/regression/image/ .

${TPUC_ROOT} here is an environment variable, corresponding to the tpu-mlir directory, which is loaded in the source ./tpu-mlir/ step in the previous configuration of the Docker development environment.

Create and enter the work working directory to store compiled files such as MLIR and cvimodel

# mkdir work && cd work

3. ONNX Model Conversion


The Duo development board is equipped with the CV1800B chip, which supports the ONNX series and Caffe models. Currently, it does not support TFLite models. In terms of quantized data types, it supports quantization in BF16 format and asymmetric quantization in INT8 format.

The steps for model conversion are as follows:

  • Convert ONNX model to MLIR
  • Generate calibration tables required for quantification
  • MLIR quantization into INT8 asymmetric cvimodel

ONNX model converted to MLIR

The model in this example is RGB input, mean and scale are 123.675,116.28,103.53 and 0.0171,0.0175,0.0174 respectively.

The command to convert an ONNX model to an MLIR model is as follows: \
--model_name resnet18 \
--model_def ../resnet18-v1-7/resnet18-v1-7.onnx \
--test_input ../image/cat.jpg \
--input_shapes [[1,3,224,224]] \
--resize_dims 256,256 \
--mean 123.675,116.28,103.53 \
--scale 0.0171,0.0175,0.0174 \
--pixel_format rgb \
--test_result resnet18_top_outputs.npz \
--mlir resnet18.mlir

Example of successful operation


After converting to the MLIR model, a resnet18.mlir file will be generated, which is the MLIR model file. A resnet18_in_f32.npz file and a resnet18_top_outputs.npz file will also be generated, which are the input files for subsequent model conversion.


MLIR to INT8 model

Generate calibration tables required for quantification

Before converting to the INT8 model, you need to generate a calibration table. Here we use the existing 100 pictures from ILSVRC2012 as an example and execute the calibration command: resnet18.mlir \
--dataset ../ILSVRC2012 \
--input_num 100 \
-o resnet18_cali_table

Example of successful operation


After the operation is completed, the resnet18_cali_table file will be generated, which is used for subsequent compilation of the INT8 model.


MLIR quantized into INT8 asymmetric cvimodel

The command to convert MLIR model to INT8 model is as follows: \
--mlir resnet18.mlir \
--quantize INT8 \
--calibration_table resnet18_cali_table \
--chip cv180x \
--test_input ../image/cat.jpg \
--test_reference resnet18_top_outputs.npz \
--compare_all \
--fuse_preprocess \
--model resnet18_cv180x_int8_fuse.cvimodel

Example of successful operation


After compilation is completed, the resnet18_cv180x_int8_fuse.cvimodel file will be generated.


4. Validate on Development Board Duo

Connecting the Duo development board

Complete the connection between the Duo development board and the computer according to the previous tutorial, and use tools such as mobaxterm or Xshell to open a terminal to operate the Duo development board.

Get tpu-sdk

Switch to the /workspace directory in the Docker terminal

cd /workspace

Download tpu-sdk

git clone

Copy tpu-sdk and model files to Duo

In the terminal of the Duo board, create a new directory /mnt/tpu/

# mkdir -p /mnt/tpu && cd /mnt/tpu

In the Docker terminal, copy tpu-sdk and model files to the Duo

# scp -r /workspace/tpu-sdk [email protected]:/mnt/tpu/
# scp /workspace/resnet18/work/resnet18_cv180x_int8_fuse.cvimodel [email protected]:/mnt/tpu/tpu-sdk/

Set environment variables

In the terminal of the Duo board, set the environment variables

# cd /mnt/tpu/tpu-sdk
# source ./

Perform Image Classification

On the Duo board, perform Image Classification on the image


Image classification using resnet18_cv180x_int8_fuse.cvimodel model:

./samples/bin/cvi_sample_classifier_fused_preprocess \
./resnet18_cv180x_int8_fuse.cvimodel \
./samples/data/cat.jpg \

Example of successful classification results


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