from rknn.api import RKNN
import cv2
import time
import numpy as np
import cv2
import time
import numpy as np
if __name__ == '__main__':
# Create RKNN object
rknn = RKNN()
# pre-process config
print('--> config model')
# 配置模型输入,用于NPU对数据输入的预处理
# channel_mean_value='0 0 0 255',那么模型推理时,将会对RGB数据做如下转换
# (R - 0)/255, (G - 0)/255, (B - 0)/255。推理时,RKNN模型会自动做均值和归一化处理
# reorder_channel=’0 1 2’用于指定是否调整RBG顺序,设置成0 1 2即按输入的RGB顺序不做调整
# reorder_channel=’2 1 0’表示交换0和2通道,如果输入是RGB,将会被调整为BGR。如果是BGR将会被
# 调整为BGR
rknn.config(channel_mean_value='0 0 0 255', reorder_channel='2 1 0')
print('done')
rknn = RKNN()
# pre-process config
print('--> config model')
# 配置模型输入,用于NPU对数据输入的预处理
# channel_mean_value='0 0 0 255',那么模型推理时,将会对RGB数据做如下转换
# (R - 0)/255, (G - 0)/255, (B - 0)/255。推理时,RKNN模型会自动做均值和归一化处理
# reorder_channel=’0 1 2’用于指定是否调整RBG顺序,设置成0 1 2即按输入的RGB顺序不做调整
# reorder_channel=’2 1 0’表示交换0和2通道,如果输入是RGB,将会被调整为BGR。如果是BGR将会被
# 调整为BGR
rknn.config(channel_mean_value='0 0 0 255', reorder_channel='2 1 0')
print('done')
# Load tensorflow model
print('--> Loading model')
ret = rknn.load_caffe(model='E:\usb_test\example\yolov3\openpose_keras_18key\pose\coco\pose_deploy_linevec.prototxt', proto='caffe',
blobs='E:\usb_test\example\yolov3\openpose_keras_18key\pose\coco\pose_iter_440000.caffemodel')
if ret != 0:
print('Load model failed!')
exit(ret)
print('done')
print('--> Loading model')
ret = rknn.load_caffe(model='E:\usb_test\example\yolov3\openpose_keras_18key\pose\coco\pose_deploy_linevec.prototxt', proto='caffe',
blobs='E:\usb_test\example\yolov3\openpose_keras_18key\pose\coco\pose_iter_440000.caffemodel')
if ret != 0:
print('Load model failed!')
exit(ret)
print('done')
# Build model
print('--> Building model')
print('--> Building model')
ret = rknn.build(do_quantization=True, dataset='./dataset.txt')
#ret = rknn.build(do_quantization=False)
if ret != 0:
print('Build model failed!')
exit(ret)
print('done')
# Export rknn model
print('--> Export RKNN model')
ret = rknn.export_rknn('./coco_quantization_368_654.rknn')
if ret != 0:
print('Export model failed!')
exit(ret)
print('done')
#ret = rknn.build(do_quantization=False)
if ret != 0:
print('Build model failed!')
exit(ret)
print('done')
# Export rknn model
print('--> Export RKNN model')
ret = rknn.export_rknn('./coco_quantization_368_654.rknn')
if ret != 0:
print('Export model failed!')
exit(ret)
print('done')
rknn.release()
