apps/benchmark/mobile_gpu_imagenet_bench.py - tvm - Git at Google

 """Benchmark script for ImageNet models on mobile GPU.
 see README.md for the usage and results of this script.
 """
 import argparse

 import numpy as np

 import tvm
 from tvm.contrib.util import tempdir
 import tvm.contrib.graph_runtime as runtime
 import nnvm.compiler
 import nnvm.testing

 from util import get_network, print_progress

 def evaluate_network(network, target, target_host, dtype, repeat):
     # connect to remote device
     tracker = tvm.rpc.connect_tracker(args.host, args.port)
     remote = tracker.request(args.rpc_key)

     print_progress(network)
     net, params, input_shape, output_shape = get_network(network, batch_size=1, dtype=dtype)

     print_progress("%-20s building..." % network)
     with nnvm.compiler.build_config(opt_level=3):
         graph, lib, params = nnvm.compiler.build(
             net, target=target, target_host=target_host,
             shape={'data': input_shape}, params=params, dtype=dtype)

     tmp = tempdir()
     if 'android' in str(target) or 'android' in str(target_host):
         from tvm.contrib import ndk
         filename = "%s.so" % network
         lib.export_library(tmp.relpath(filename), ndk.create_shared)
     else:
         filename = "%s.tar" % network
         lib.export_library(tmp.relpath(filename))

     # upload library and params
     print_progress("%-20s uploading..." % network)
     ctx = remote.context(str(target), 0)
     remote.upload(tmp.relpath(filename))

     rlib = remote.load_module(filename)
     module = runtime.create(graph, rlib, ctx)
     data_tvm = tvm.nd.array((np.random.uniform(size=input_shape)).astype(dtype))
     module.set_input('data', data_tvm)
     module.set_input(**params)

     # evaluate
     print_progress("%-20s evaluating..." % network)
     ftimer = module.module.time_evaluator("run", ctx, number=1, repeat=repeat)
     prof_res = np.array(ftimer().results) * 1000  # multiply 1000 for converting to millisecond
     print("%-20s %-19s (%s)" % (network, "%.2f ms" % np.mean(prof_res), "%.2f ms" % np.std(prof_res)))


 if __name__ == "__main__":
     parser = argparse.ArgumentParser()
     parser.add_argument("--network", type=str, choices=
                         ['resnet-18', 'resnet-34', 'resnet-50',
                          'vgg-16', 'vgg-19', 'densenet-121', 'inception_v3',
                          'mobilenet', 'mobilenet_v2', 'squeezenet_v1.0', 'squeezenet_v1.1'],
                         help='The name of neural network')
     parser.add_argument("--model", type=str, choices=
                         ['rk3399'], default='rk3399',
                         help="The model of the test device. If your device is not listed in "
                              "the choices list, pick the most similar one as argument.")
     parser.add_argument("--host", type=str, default='localhost')
     parser.add_argument("--port", type=int, default=9190)
     parser.add_argument("--rpc-key", type=str, required=True)
     parser.add_argument("--repeat", type=int, default=30)
     parser.add_argument("--dtype", type=str, default='float32')
     args = parser.parse_args()

     if args.network is None:
         networks = ['squeezenet_v1.1', 'mobilenet', 'resnet-18', 'vgg-16']
     else:
         networks = [args.network]

     target = tvm.target.mali(model=args.model)
     target_host = tvm.target.arm_cpu(model=args.model)

     print("--------------------------------------------------")
     print("%-20s %-20s" % ("Network Name", "Mean Inference Time (std dev)"))
     print("--------------------------------------------------")

     for network in networks:
         evaluate_network(network, target, target_host, args.dtype, args.repeat)
	"""Benchmark script for ImageNet models on mobile GPU.
	see README.md for the usage and results of this script.
	"""
	import argparse

	import numpy as np

	import tvm
	from tvm.contrib.util import tempdir
	import tvm.contrib.graph_runtime as runtime
	import nnvm.compiler
	import nnvm.testing

	from util import get_network, print_progress

	def evaluate_network(network, target, target_host, dtype, repeat):
	# connect to remote device
	tracker = tvm.rpc.connect_tracker(args.host, args.port)
	remote = tracker.request(args.rpc_key)

	print_progress(network)
	net, params, input_shape, output_shape = get_network(network, batch_size=1, dtype=dtype)

	print_progress("%-20s building..." % network)
	with nnvm.compiler.build_config(opt_level=3):
	graph, lib, params = nnvm.compiler.build(
	net, target=target, target_host=target_host,
	shape={'data': input_shape}, params=params, dtype=dtype)

	tmp = tempdir()
	if 'android' in str(target) or 'android' in str(target_host):
	from tvm.contrib import ndk
	filename = "%s.so" % network
	lib.export_library(tmp.relpath(filename), ndk.create_shared)
	else:
	filename = "%s.tar" % network
	lib.export_library(tmp.relpath(filename))

	# upload library and params
	print_progress("%-20s uploading..." % network)
	ctx = remote.context(str(target), 0)
	remote.upload(tmp.relpath(filename))

	rlib = remote.load_module(filename)
	module = runtime.create(graph, rlib, ctx)
	data_tvm = tvm.nd.array((np.random.uniform(size=input_shape)).astype(dtype))
	module.set_input('data', data_tvm)
	module.set_input(**params)

	# evaluate
	print_progress("%-20s evaluating..." % network)
	ftimer = module.module.time_evaluator("run", ctx, number=1, repeat=repeat)
	prof_res = np.array(ftimer().results) * 1000 # multiply 1000 for converting to millisecond
	print("%-20s %-19s (%s)" % (network, "%.2f ms" % np.mean(prof_res), "%.2f ms" % np.std(prof_res)))


	if __name__ == "__main__":
	parser = argparse.ArgumentParser()
	parser.add_argument("--network", type=str, choices=
	['resnet-18', 'resnet-34', 'resnet-50',
	'vgg-16', 'vgg-19', 'densenet-121', 'inception_v3',
	'mobilenet', 'mobilenet_v2', 'squeezenet_v1.0', 'squeezenet_v1.1'],
	help='The name of neural network')
	parser.add_argument("--model", type=str, choices=
	['rk3399'], default='rk3399',
	help="The model of the test device. If your device is not listed in "
	"the choices list, pick the most similar one as argument.")
	parser.add_argument("--host", type=str, default='localhost')
	parser.add_argument("--port", type=int, default=9190)
	parser.add_argument("--rpc-key", type=str, required=True)
	parser.add_argument("--repeat", type=int, default=30)
	parser.add_argument("--dtype", type=str, default='float32')
	args = parser.parse_args()

	if args.network is None:
	networks = ['squeezenet_v1.1', 'mobilenet', 'resnet-18', 'vgg-16']
	else:
	networks = [args.network]

	target = tvm.target.mali(model=args.model)
	target_host = tvm.target.arm_cpu(model=args.model)

	print("--------------------------------------------------")
	print("%-20s %-20s" % ("Network Name", "Mean Inference Time (std dev)"))
	print("--------------------------------------------------")

	for network in networks:
	evaluate_network(network, target, target_host, args.dtype, args.repeat)