Tensort之uff
作者:互联网
# This sample uses a UFF MNIST model to create a TensorRT Inference Engine from random import randint from PIL import Image import numpy as np import pycuda.driver as cuda # This import causes pycuda to automatically manage CUDA context creation and cleanup. import pycuda.autoinit import tensorrt as trt import time import sys, os sys.path.insert(1, os.path.join(sys.path[0], "..")) import common # You can set the logger severity higher to suppress messages (or lower to display more messages). TRT_LOGGER = trt.Logger(trt.Logger.WARNING) batch_size = 128 class ModelData(object): MODEL_FILE = os.path.join(os.path.dirname(__file__), "model2/frozen_model.uff") INPUT_NAME ="input_1" INPUT_SHAPE = (3, 256, 256) OUTPUT_NAME = 'predictions/Softmax' DTYPE = trt.float32 def build_engine(model_file): # For more information on TRT basics, refer to the introductory samples. with trt.Builder(TRT_LOGGER) as builder, builder.create_network() as network, trt.UffParser() as parser: builder.max_batch_size = batch_size builder.max_workspace_size = common.GiB(1) # Parse the Uff Network parser.register_input(ModelData.INPUT_NAME, ModelData.INPUT_SHAPE) parser.register_output(ModelData.OUTPUT_NAME) parser.parse(model_file, network) # Build and return an engine. return builder.build_cuda_engine(network) # Loads a test case into the provided pagelocked_buffer. def load_normalized_test_case(data_path, pagelocked_buffer, case_num=randint(0, 9)): # test_case_path = os.path.join(data_path, str(case_num) + ".pgm") # Flatten the image into a 1D array, normalize, and copy to pagelocked memory. def normalize_image(image): # Resize, antialias and transpose the image to CHW. c, h, w = ModelData.INPUT_SHAPE return np.asarray(image.resize((w, h), Image.ANTIALIAS)).transpose([2, 0, 1]).astype(trt.nptype(ModelData.DTYPE)) test_case_path = "lena.jpg" img = normalize_image(Image.open(test_case_path)) img_array = [] for i in range(batch_size): img_array.append(img) img_array = np.array(img_array, dtype=trt.nptype(ModelData.DTYPE)) img_array = img_array.ravel() np.copyto(pagelocked_buffer, img_array) return case_num def main(): # data_path = common.find_sample_data(description="Runs an MNIST network using a UFF model file", subfolder="mnist") data_path = "/home/bjxiangboren/tools/TensorRT-5.0.2.6/data/mnist/" model_file = ModelData.MODEL_FILE # with open("inception_batch.engine", "rb") as f, trt.Runtime(TRT_LOGGER) as runtime: # engine = runtime.deserialize_cuda_engine(f.read()) with build_engine(model_file) as engine: # Build an engine, allocate buffers and create a stream. # For more information on buffer allocation, refer to the introductory samples. with open("inception_batch.engine", "wb") as f: f.write(engine.serialize()) inputs, outputs, bindings, stream = common.allocate_buffers(engine) with engine.create_execution_context() as context: case_num = load_normalized_test_case(data_path, pagelocked_buffer=inputs[0].host) # For more information on performing inference, refer to the introductory samples. # The common.do_inference function will return a list of outputs - we only have one in this case. while True: start_time = time.time() [output] = common.do_inference(context, bindings=bindings, inputs=inputs, outputs=outputs, stream=stream, batch_size=batch_size) end_time = time.time() print("time dis is %s" % (end_time - start_time)) # output = output.reshape((30,1001)) # print output # print output.shape # print np.argmax(output, axis=1) # pred = np.argmax(output) # print("Test Case: " + str(case_num)) # print("Prediction: " + str(pred)) if __name__ == '__main__': main()
1、首先将pb转为uff格式的模型
python /usr/lib/python3.5/dist-packages/uff/bin/convert_to_uff.py --input_file models/lenet5.pb
2、使用trt engine加速
这个加速还是挺明显的,但转换后的模型无法使用tfservign了,只能用tensorrt自己的engine。
参考:https://devtalk.nvidia.com/default/topic/1044466/tensorrt/uff-inference-time-large-than-pb-time-when-process-vgg-19/
https://blog.csdn.net/zong596568821xp/article/details/86077553
https://blog.csdn.net/g11d111/article/details/92061884
标签:engine,case,import,uff,time,path,Tensort,trt 来源: https://www.cnblogs.com/573177885qq/p/11944607.html