def main():
args = parse_arguments()
setup_logger(args.verbose)
logger.info(f"Arguments:{args}")
cache_dir = args.cache_dir
output_dir = args.output if not args.output.endswith(".onnx") else os.path.dirname(args.output)
prepare_environment(cache_dir, output_dir, args.use_gpu)
if args.precision != Precision.FLOAT32:
assert args.optimize_onnx, "fp16/int8 requires --optimize_onnx"
if args.precision == Precision.FLOAT16:
assert args.use_gpu, "fp16 requires --use_gpu"
if args.optimize_onnx:
logger.warn(f'Graph optimization for T5 is not implemented yet.')
with torch.no_grad():
merge_encoder_and_decoder_init = True # Merge encoder and decoder initialization into one model is recommended.
output_paths = export_onnx_models(args.model_name_or_path, cache_dir, output_dir, args.use_gpu,
args.use_external_data_format, args.optimize_onnx, args.precision,
args.verbose, args.use_decoder_start_token, merge_encoder_and_decoder_init,
args.overwrite)
logger.info(f"Done! Outputs: {output_paths}")
def main():
args = parse_arguments()
setup_logger(args.verbose)
logger.info(f"Arguments:{args}")
cache_dir = args.cache_dir
output_dir = args.output if not args.output.endswith(".onnx") else os.path.dirname(args.output)
prepare_environment(cache_dir, output_dir, args.use_gpu)
if args.precision != Precision.FLOAT32:
assert args.optimize_onnx, "fp16/int8 requires --optimize_onnx"
if args.precision == Precision.FLOAT16:
assert args.use_gpu, "fp16 requires --use_gpu"
if args.optimize_onnx:
logger.warning("Graph optimization for T5 is not implemented yet.")
output_paths = export_onnx_models(
args.model_name_or_path,
cache_dir,
output_dir,
args.use_gpu,
args.use_external_data_format,
args.optimize_onnx,
args.precision,
args.verbose,
args.use_decoder_start_token,
not args.separate_encoder_and_decoder_init,
args.overwrite,
args.disable_auto_mixed_precision,
not args.use_int64_inputs,
args.model_type,
)
logger.info(f"Done! Outputs: {output_paths}")
def main(args):
logger.info(f"Arguments:{args}")
if args.precision == Precision.FLOAT16:
assert args.optimize_onnx and args.use_gpu, "fp16 requires --optimize_onnx --use_gpu"
if args.precision == Precision.INT8:
assert not args.use_gpu, "quantization only supports CPU"
torch.set_num_threads(
psutil.cpu_count(
logical=True) if args.thread_num <= 0 else args.thread_num)
print(torch.__config__.parallel_info())
cache_dir = args.cache_dir
output_dir = args.onnx_dir
prepare_environment(cache_dir, output_dir, args.use_gpu)
model_class = MODEL_CLASSES[args.model_class][0]
config = AutoConfig.from_pretrained(args.model_name_or_path,
torchscript=args.torchscript,
cache_dir=cache_dir)
model = model_class.from_pretrained(args.model_name_or_path,
config=config,
cache_dir=cache_dir)
# This scirpt does not support float16 for PyTorch.
#if args.float16:
# model.half()
device = torch.device("cuda:0" if args.use_gpu else "cpu")
model.to(device)
use_external_data_format = (config.n_layer > 24
) #TODO: find a way to check model size > 2GB
onnx_model_paths = Gpt2Helper.get_onnx_paths(
output_dir,
args.model_name_or_path,
args.model_class,
has_past=True,
new_folder=use_external_data_format)
onnx_model_path = onnx_model_paths["raw"]
use_padding = MODEL_CLASSES[args.model_class][2]
Gpt2Helper.export_onnx(model,
device,
onnx_model_path,
args.verbose,
use_external_data_format,
has_position_ids=use_padding,
has_attention_mask=use_padding)
if args.optimize_onnx or args.precision != Precision.FLOAT32:
onnx_model_path = onnx_model_paths[str(
args.precision) if args.precision != Precision.INT8 else 'fp32']
Gpt2Helper.optimize_onnx(onnx_model_paths["raw"], onnx_model_path,
args.precision == Precision.FLOAT16,
model.config.num_attention_heads,
model.config.hidden_size,
use_external_data_format)
if args.precision == Precision.INT8:
logger.info("quantizing model...")
QuantizeHelper.quantize_onnx_model(onnx_model_path,
onnx_model_paths["int8"],
use_external_data_format)
model = QuantizeHelper.quantize_torch_model(model)
logger.info("finished quantizing model")
onnx_model_path = onnx_model_paths["int8"]
if args.torchscript:
model = Gpt2Helper.torchscript(model,
config,
device,
has_position_ids=use_padding,
has_attention_mask=use_padding)
session = create_onnxruntime_session(onnx_model_path,
args.use_gpu,
enable_all_optimization=False,
num_threads=args.thread_num,
verbose=args.verbose)
if session is None:
return
# Allocate output buffers for IO Binding
max_output_shapes = Gpt2Helper.get_output_shapes(
max(args.batch_sizes), max(args.past_sequence_lengths),
max(args.sequence_lengths), config, args.model_class)
output_buffers = Gpt2Helper.get_output_buffers(
max_output_shapes, device, args.precision == Precision.FLOAT16)
csv_filename = args.result_csv or "benchmark_result_{}.csv".format(
datetime.now().strftime("%Y%m%d-%H%M%S"))
with open(csv_filename, mode="a", newline='') as csv_file:
column_names = [
"model_name", "model_class", "gpu", "precision", "optimizer",
"torchscript", "batch_size", "sequence_length",
"past_sequence_length", "torch_latency", "onnxruntime_latency",
"onnxruntime_io_binding_latency"
]
csv_writer = csv.DictWriter(csv_file, fieldnames=column_names)
csv_writer.writeheader()
for batch_size in args.batch_sizes:
for sequence_length in args.sequence_lengths:
for past_sequence_length in args.past_sequence_lengths:
assert batch_size > 0 and sequence_length > 0 and past_sequence_length >= 0
logger.debug(
f"Running test for batch_size={batch_size} sequence_length={sequence_length} past_sequence_length={past_sequence_length}..."
)
dummy_inputs = Gpt2Helper.get_dummy_inputs(
batch_size,
past_sequence_length,
sequence_length,
config.num_attention_heads,
config.hidden_size,
config.n_layer,
config.vocab_size,
device,
float16=(args.precision == Precision.FLOAT16),
has_position_ids=use_padding,
has_attention_mask=use_padding)
output_shapes = Gpt2Helper.get_output_shapes(
batch_size, past_sequence_length, sequence_length,
config, args.model_class)
try:
outputs, torch_latency = Gpt2Helper.pytorch_inference(
model, dummy_inputs, args.test_times)
ort_outputs, ort_latency = Gpt2Helper.onnxruntime_inference(
session, dummy_inputs, args.test_times)
ort_io_outputs, ort_io_latency = Gpt2Helper.onnxruntime_inference_with_binded_io(
session,
dummy_inputs,
output_buffers,
output_shapes,
args.test_times,
return_numpy=False,
include_copy_output_latency=args.
include_copy_output_latency)
if args.validate_onnx:
if Gpt2Helper.compare_outputs(
outputs,
ort_outputs,
rtol=DEFAULT_TOLERANCE[args.precision],
atol=DEFAULT_TOLERANCE[args.precision]):
logger.info(
f'Pytorch and ONNX Runtime outputs are all close (tolerance={DEFAULT_TOLERANCE[args.precision]}).'
)
# Results of IO binding might be in GPU. Copy outputs to CPU for comparison.
copy_outputs = []
for output in ort_io_outputs:
copy_outputs.append(output.cpu().numpy())
if Gpt2Helper.compare_outputs(
outputs,
copy_outputs,
rtol=DEFAULT_TOLERANCE[args.precision],
atol=DEFAULT_TOLERANCE[args.precision]):
logger.info(
f'Pytorch and ONNX Runtime IO Binding outputs are all close (tolerance={DEFAULT_TOLERANCE[args.precision]}).'
)
logger.info(
f"batch_size={batch_size}, sequence_length={sequence_length}, past_sequence_length={past_sequence_length}, torch_latency={torch_latency:.2f}, onnxruntime_latency={ort_latency:.2f}, onnxruntime_io_binding_latency={ort_io_latency:.2f}"
)
row = {
"model_name":
args.model_name_or_path,
"model_class":
args.model_class,
"gpu":
args.use_gpu,
"precision":
args.precision,
"optimizer":
args.optimize_onnx,
"torchscript":
args.torchscript,
"batch_size":
batch_size,
"sequence_length":
sequence_length,
"past_sequence_length":
past_sequence_length,
"torch_latency":
f"{torch_latency:.2f}",
"onnxruntime_latency":
f"{ort_latency:.2f}",
"onnxruntime_io_binding_latency":
f"{ort_io_latency:.2f}"
}
csv_writer.writerow(row)
except:
logger.error(f"Exception", exc_info=True)
logger.info(f"Results are saved to file {csv_filename}")
return csv_filename
def main():
args = parse_arguments()
setup_logger(args.verbose)
if args.tolerance == 0:
args.tolerance = DEFAULT_TOLERANCE[args.precision]
logger.info(f"Arguments:{args}")
cache_dir = args.cache_dir
output_dir = args.output if not args.output.endswith(
".onnx") else os.path.dirname(args.output)
prepare_environment(cache_dir, output_dir, args.use_gpu)
if args.precision != Precision.FLOAT32:
assert args.optimize_onnx, "fp16/int8 requires --optimize_onnx"
if args.precision == Precision.FLOAT16:
assert args.use_gpu, "fp16 requires --use_gpu"
if args.precision == Precision.INT8:
assert not args.use_gpu, "quantization only supports CPU"
model_class = MODEL_CLASSES[args.model_class][0]
config = AutoConfig.from_pretrained(args.model_name_or_path,
cache_dir=cache_dir)
if hasattr(config, 'return_tuple'):
config.return_tuple = True
model = model_class.from_pretrained(args.model_name_or_path,
config=config,
cache_dir=cache_dir)
device = torch.device("cuda:0" if args.use_gpu else "cpu")
model.eval().to(device)
onnx_model_paths = Gpt2Helper.get_onnx_paths(output_dir,
args.model_name_or_path,
args.model_class)
raw_onnx_model = args.output if args.output.endswith(
'.onnx') else onnx_model_paths["raw"]
output_path = raw_onnx_model if (
args.output.endswith('.onnx') or
(args.precision == Precision.FLOAT32 and not args.optimize_onnx)
) else onnx_model_paths[str(args.precision)]
Gpt2Helper.export_onnx(model, device, raw_onnx_model, args.verbose)
if args.optimize_onnx or args.precision != Precision.FLOAT32:
Gpt2Helper.optimize_onnx(raw_onnx_model, output_path,
args.precision == Precision.FLOAT16,
model.config.num_attention_heads,
model.config.hidden_size)
if args.precision == Precision.INT8:
logger.info("quantizing model...")
QuantizeHelper.quantize_onnx_model(output_path, output_path)
model = QuantizeHelper.quantize_torch_model(model)
logger.info("finished quantizing model")
session = create_onnxruntime_session(output_path,
args.use_gpu,
enable_all_optimization=False,
verbose=args.verbose)
if session is not None:
Gpt2Helper.test_parity(session,
model,
device,
args.precision == Precision.FLOAT16,
rtol=args.tolerance,
atol=args.tolerance,
model_class=args.model_class)
logger.info(f"Done. Output model: {output_path}")
def main():
from transformers import __version__ as transformers_version
if version.parse(transformers_version) < version.parse(
"3.1.0"): # past_key_values name does not exist in 3.0.2 or older
raise RuntimeError("This tool requires transformers 3.1.0 or later.")
args = parse_arguments()
setup_logger(args.verbose)
if args.tolerance == 0:
args.tolerance = DEFAULT_TOLERANCE[args.precision]
logger.info(f"Arguments:{args}")
cache_dir = args.cache_dir
output_dir = args.output if not args.output.endswith(".onnx") else os.path.dirname(args.output)
prepare_environment(cache_dir, output_dir, args.use_gpu)
if args.precision != Precision.FLOAT32:
assert args.optimize_onnx, "fp16/int8 requires --optimize_onnx"
if args.precision == Precision.FLOAT16:
assert args.use_gpu, "fp16 requires --use_gpu"
if args.precision == Precision.INT8:
assert not args.use_gpu, "quantization only supports CPU"
if args.use_external_data_format:
assert not args.output.endswith('.onnx'), "output shall be a directory for --use_external_data_format"
model_class = MODEL_CLASSES[args.model_class][0]
if args.model_class == "GPT2LMHeadModel_BeamSearchStep":
model_type = "beam_search_step"
elif args.model_class == "GPT2LMHeadModel_ConfigurableOneStepSearch":
model_type = "configurable_one_step_search"
else:
model_type = "default"
gpt2helper = Gpt2HelperFactory.create_helper(model_type)
gpt2tester = Gpt2TesterFactory.create_tester(model_type)
config = AutoConfig.from_pretrained(args.model_name_or_path, cache_dir=cache_dir)
if model_type == 'beam_search_step':
model = model_class.from_pretrained(args.model_name_or_path,
config=config,
batch_size=1,
beam_size=args.beam_size,
cache_dir=cache_dir)
elif model_type == 'configurable_one_step_search':
model = model_class.from_pretrained(args.model_name_or_path,
config=config,
batch_size=1,
beam_size=args.beam_size,
ignore_eos=args.ignore_eos,
temperature=args.temperature,
repetition_penalty=args.repetition_penalty,
excluded_token_ids=args.excluded_token_ids,
length_penalty=args.length_penalty,
do_sample=args.do_sample,
do_sample_top_p=args.do_sample_top_p,
do_sample_top_k=args.do_sample_top_k,
cache_dir=cache_dir)
else:
model = model_class.from_pretrained(args.model_name_or_path, config=config, cache_dir=cache_dir)
device = torch.device("cuda:0" if args.use_gpu else "cpu")
model.eval().to(device)
if (not args.use_external_data_format) and (config.n_layer > 24):
logger.info(f"Try --use_external_data_format when model size > 2GB")
onnx_model_paths = gpt2helper.get_onnx_paths(output_dir,
args.model_name_or_path,
args.model_class,
new_folder=args.use_external_data_format)
raw_onnx_model = onnx_model_paths["raw"]
logger.info(f"Exporting ONNX model to {raw_onnx_model}")
use_padding = MODEL_CLASSES[args.model_class][2]
gpt2helper.export_onnx(model,
device,
raw_onnx_model,
args.verbose,
args.use_external_data_format,
has_position_ids=use_padding,
has_attention_mask=use_padding)
if args.optimize_onnx or args.precision != Precision.FLOAT32:
output_path = onnx_model_paths[str(args.precision) if args.precision != Precision.INT8 else 'fp32']
logger.info(f"Optimizing model to {output_path}")
gpt2helper.optimize_onnx(raw_onnx_model, output_path, args.precision == Precision.FLOAT16,
model.config.num_attention_heads, model.config.hidden_size,
args.use_external_data_format)
else:
output_path = raw_onnx_model
if args.precision == Precision.INT8:
logger.info("quantizing model...")
QuantizeHelper.quantize_onnx_model(output_path, onnx_model_paths['int8'], args.use_external_data_format)
model = QuantizeHelper.quantize_torch_model(model)
logger.info("finished quantizing model")
output_path = onnx_model_paths['int8']
if args.output.endswith('.onnx') and output_path != args.output and not args.use_external_data_format:
import shutil
shutil.move(output_path, args.output)
output_path = args.output
logger.info(f"Output path: {output_path}")
session = create_onnxruntime_session(output_path, args.use_gpu, enable_all_optimization=True, verbose=args.verbose)
if session is not None:
gpt2helper.test_parity(session,
model,
device,
args.precision == Precision.FLOAT16,
rtol=args.tolerance,
atol=args.tolerance,
model_class=args.model_class,
has_position_ids=use_padding,
has_attention_mask=use_padding)
if args.input_test_file:
test_inputs = []
# Each line of test file is a JSON string like:
# {"input_ids": [[14698, 257, 1310, 13688, 319, 326]]}
with open(args.input_test_file) as read_f:
for _, line in enumerate(read_f):
line = line.rstrip()
data = json.loads(line)
input_ids = torch.from_numpy(numpy.asarray(data["input_ids"], dtype=numpy.int64)).to(device)
if use_padding:
if "attention_mask" in data:
numpy_float = numpy.float16 if args.precision == Precision.FLOAT16 else numpy.float32
attention_mask = torch.from_numpy(numpy.asarray(data["attention_mask"],
dtype=numpy_float)).to(device)
else:
padding = -1
attention_mask = (
input_ids !=
padding).type(torch.float16 if args.precision == Precision.FLOAT16 else torch.float32)
input_ids.masked_fill_(input_ids == padding, 0)
if "position_ids" in data:
position_ids = torch.from_numpy(numpy.asarray(data["position_ids"],
dtype=numpy.int64)).to(device)
else:
position_ids = (attention_mask.long().cumsum(-1) - 1)
position_ids.masked_fill_(position_ids < 0, 0)
inputs = {"input_ids": input_ids, "position_ids": position_ids, "attention_mask": attention_mask}
else:
inputs = {"input_ids": input_ids}
if model_type == "beam_search_step" or model_type == "configurable_one_step_search":
beam_select_idx = torch.zeros([1, input_ids.shape[0]]).long()
input_log_probs = torch.zeros([input_ids.shape[0], 1])
input_unfinished_sents = torch.ones([input_ids.shape[0], 1], dtype=torch.bool)
inputs.update({
"beam_select_idx": beam_select_idx,
"input_log_probs": input_log_probs,
"input_unfinished_sents": input_unfinished_sents,
})
test_inputs.append(inputs)
gpt2tester.test_generation(session,
model,
device,
test_inputs,
precision=args.precision,
model_class=args.model_class,
top_k=20,
top_k_no_order=True,
max_steps=24,
max_inputs=0,
verbose=args.verbose,
save_test_data=3,
save_test_data_dir=Path(output_path).parent)
logger.info(f"Done. Output model: {output_path}")
def main():
args = parse_arguments()
setup_logger(args.verbose)
if args.tolerance == 0:
args.tolerance = DEFAULT_TOLERANCE[args.precision]
logger.info(f"Arguments:{args}")
cache_dir = args.cache_dir
output_dir = args.output if not args.output.endswith(
".onnx") else os.path.dirname(args.output)
prepare_environment(cache_dir, output_dir, args.use_gpu)
if args.precision != Precision.FLOAT32:
assert args.optimize_onnx, "fp16/int8 requires --optimize_onnx"
if args.precision == Precision.FLOAT16:
assert args.use_gpu, "fp16 requires --use_gpu"
if args.precision == Precision.INT8:
assert not args.use_gpu, "quantization only supports CPU"
model_class = MODEL_CLASSES[args.model_class][0]
config = AutoConfig.from_pretrained(args.model_name_or_path,
cache_dir=cache_dir)
if hasattr(config, 'return_tuple'):
config.return_tuple = True
model = model_class.from_pretrained(args.model_name_or_path,
config=config,
cache_dir=cache_dir)
device = torch.device("cuda:0" if args.use_gpu else "cpu")
model.eval().to(device)
onnx_model_paths = Gpt2Helper.get_onnx_paths(output_dir,
args.model_name_or_path,
args.model_class)
raw_onnx_model = args.output if args.output.endswith(
'.onnx') else onnx_model_paths["raw"]
output_path = raw_onnx_model if (
args.output.endswith('.onnx') or
(args.precision == Precision.FLOAT32 and not args.optimize_onnx)
) else onnx_model_paths[str(args.precision)]
Gpt2Helper.export_onnx(model, device, raw_onnx_model, args.verbose)
if args.optimize_onnx or args.precision != Precision.FLOAT32:
Gpt2Helper.optimize_onnx(raw_onnx_model, output_path,
args.precision == Precision.FLOAT16,
model.config.num_attention_heads,
model.config.hidden_size)
if args.precision == Precision.INT8:
logger.info("quantizing model...")
QuantizeHelper.quantize_onnx_model(output_path, output_path)
model = QuantizeHelper.quantize_torch_model(model)
logger.info("finished quantizing model")
session = create_onnxruntime_session(output_path,
args.use_gpu,
enable_all_optimization=False,
verbose=args.verbose)
if session is not None:
Gpt2Helper.test_parity(session,
model,
device,
args.precision == Precision.FLOAT16,
rtol=args.tolerance,
atol=args.tolerance,
model_class=args.model_class)
if args.input_test_file:
test_inputs = []
with open(args.input_test_file) as read_f:
for i, line in enumerate(read_f):
line = line.rstrip()
data = json.loads(line)
input_ids = torch.from_numpy(
numpy.asarray(data["input_ids"],
dtype=numpy.int64)).to(device)
position_ids = torch.from_numpy(
numpy.asarray(data["position_ids"],
dtype=numpy.int64)).to(device)
numpy_float = numpy.float16 if args.precision == Precision.FLOAT16 else numpy.float32
attention_mask = torch.from_numpy(
numpy.asarray(data["attention_mask"],
dtype=numpy_float)).to(device)
inputs = {
"input_ids": input_ids,
"position_ids": position_ids,
"attention_mask": attention_mask
}
test_inputs.append(inputs)
Gpt2Tester.test_generation(session,
model,
device,
test_inputs,
precision=args.precision,
model_class=args.model_class,
top_k=20,
top_k_no_order=True,
max_steps=24,
max_inputs=0,
verbose=args.verbose)
logger.info(f"Done. Output model: {output_path}")
def main(argv=None,
experiment_name="",
run_id=0,
csv_filename="gpt2_parity_results.csv"):
result = {}
from transformers import __version__ as transformers_version
if version.parse(transformers_version) < version.parse(
"3.1.0"): # past_key_values name does not exist in 3.0.2 or older
raise RuntimeError("This tool requires transformers 3.1.0 or later.")
args = parse_arguments(argv)
setup_logger(args.verbose)
if not experiment_name:
import sys
experiment_name = " ".join(argv if argv else sys.argv[1:])
if args.tolerance == 0:
args.tolerance = DEFAULT_TOLERANCE[args.precision]
logger.info(f"Arguments:{args}")
cache_dir = args.cache_dir
output_dir = args.output if not args.output.endswith(
".onnx") else os.path.dirname(args.output)
prepare_environment(cache_dir, output_dir, args.use_gpu)
if args.precision != Precision.FLOAT32:
assert args.optimize_onnx, "fp16/int8 requires --optimize_onnx"
if args.precision == Precision.FLOAT16:
assert args.use_gpu, "fp16 requires --use_gpu"
if args.precision == Precision.INT8:
assert not args.use_gpu, "quantization only supports CPU"
if args.use_external_data_format:
assert not args.output.endswith(
'.onnx'
), "output shall be a directory for --use_external_data_format"
model_class = MODEL_CLASSES[args.model_class][0]
use_padding = MODEL_CLASSES[args.model_class][2]
if args.model_class == "GPT2LMHeadModel_BeamSearchStep":
model_type = "beam_search_step"
elif args.model_class == "GPT2LMHeadModel_ConfigurableOneStepSearch":
model_type = "configurable_one_step_search"
else:
model_type = "default"
gpt2helper = Gpt2HelperFactory.create_helper(model_type)
gpt2tester = Gpt2TesterFactory.create_tester(model_type)
config = AutoConfig.from_pretrained(args.model_name_or_path,
cache_dir=cache_dir)
if model_type == 'beam_search_step':
model = model_class.from_pretrained(args.model_name_or_path,
config=config,
batch_size=1,
beam_size=args.beam_size,
cache_dir=cache_dir)
elif model_type == 'configurable_one_step_search':
model = model_class.from_pretrained(
args.model_name_or_path,
config=config,
batch_size=1,
beam_size=args.beam_size,
ignore_eos=args.ignore_eos,
temperature=args.temperature,
repetition_penalty=args.repetition_penalty,
excluded_token_ids=args.excluded_token_ids,
length_penalty=args.length_penalty,
do_sample=args.do_sample,
do_sample_top_p=args.do_sample_top_p,
do_sample_top_k=args.do_sample_top_k,
cache_dir=cache_dir)
else:
model = model_class.from_pretrained(args.model_name_or_path,
config=config,
cache_dir=cache_dir)
device = torch.device("cuda:0" if args.use_gpu else "cpu")
model.eval().to(device)
if (not args.use_external_data_format) and (config.n_layer > 24):
logger.info(f"Try --use_external_data_format when model size > 2GB")
onnx_model_paths = gpt2helper.get_onnx_paths(
output_dir,
args.model_name_or_path,
args.model_class,
new_folder=args.use_external_data_format,
remove_existing=[
"fp32", "fp16", "int8"
]) # Do not remove raw model to save time in parity test
raw_onnx_model = onnx_model_paths["raw"]
if os.path.exists(raw_onnx_model):
logger.warning(
f"Skip exporting ONNX model since it existed: {raw_onnx_model}")
else:
logger.info(f"Exporting ONNX model to {raw_onnx_model}")
gpt2helper.export_onnx(model,
device,
raw_onnx_model,
args.verbose,
args.use_external_data_format,
has_position_ids=use_padding,
has_attention_mask=use_padding,
input_ids_dtype=torch.int32
if args.use_int32_inputs else torch.int64,
position_ids_dtype=torch.int32
if args.use_int32_inputs else torch.int64,
attention_mask_dtype=torch.int32
if args.use_int32_inputs else torch.int64)
fp16_params = {"keep_io_types": args.keep_io_types}
if args.io_block_list:
fp16_params["keep_io_types"] = args.io_block_list
if args.node_block_list:
fp16_params["node_block_list"] = args.node_block_list
if args.op_block_list:
fp16_params["op_block_list"] = args.op_block_list
if args.force_fp16_initializers:
fp16_params["force_fp16_initializers"] = args.force_fp16_initializers
is_io_float16 = (args.precision == Precision.FLOAT16
and not args.keep_io_types)
if args.optimize_onnx or args.precision != Precision.FLOAT32:
output_path = onnx_model_paths[str(args.precision) if args.
precision != Precision.INT8 else 'fp32']
logger.info(f"Optimizing model to {output_path}")
gpt2helper.optimize_onnx(
raw_onnx_model,
output_path,
args.precision == Precision.FLOAT16,
model.config.num_attention_heads,
model.config.hidden_size,
args.use_external_data_format,
auto_mixed_precision=args.auto_mixed_precision,
**fp16_params)
else:
output_path = raw_onnx_model
if args.precision == Precision.INT8:
logger.info("quantizing model...")
QuantizeHelper.quantize_onnx_model(output_path,
onnx_model_paths['int8'],
args.use_external_data_format)
model = QuantizeHelper.quantize_torch_model(model)
logger.info("finished quantizing model")
output_path = onnx_model_paths['int8']
if args.output.endswith(
'.onnx'
) and output_path != args.output and not args.use_external_data_format:
import shutil
shutil.move(output_path, args.output)
output_path = args.output
logger.info(f"Output path: {output_path}")
model_size_in_MB = int(
get_onnx_model_size(output_path, args.use_external_data_format) /
1024 / 1024)
session = create_onnxruntime_session(output_path,
args.use_gpu,
enable_all_optimization=True,
verbose=args.verbose)
if args.model_class == "GPT2LMHeadModel" and session is not None:
parity_result = gpt2helper.test_parity(
session,
model,
device,
is_io_float16,
rtol=args.tolerance,
atol=args.tolerance,
model_class=args.model_class,
has_position_ids=use_padding,
has_attention_mask=use_padding,
input_ids_dtype=torch.int32
if args.use_int32_inputs else torch.int64,
position_ids_dtype=torch.int32
if args.use_int32_inputs else torch.int64,
attention_mask_dtype=torch.int32
if args.use_int32_inputs else torch.int64,
test_cases_per_run=args.test_cases,
total_runs=args.test_runs,
verbose=args.verbose)
latency = gpt2helper.test_performance(
session,
model,
device,
is_io_float16,
total_runs=100,
use_io_binding=True,
model_class=args.model_class,
has_position_ids=use_padding,
has_attention_mask=use_padding,
input_ids_dtype=torch.int32
if args.use_int32_inputs else torch.int64,
position_ids_dtype=torch.int32
if args.use_int32_inputs else torch.int64,
attention_mask_dtype=torch.int32
if args.use_int32_inputs else torch.int64,
batch_size=8,
sequence_length=1,
past_sequence_length=32)
if args.precision == Precision.FLOAT16:
logger.info(f"fp16 conversion parameters:{fp16_params}")
# Write results to file
import csv
from onnxruntime import __version__ as ort_version
latency_name = get_latency_name()
csv_file_existed = os.path.exists(csv_filename)
with open(csv_filename, mode="a", newline='') as csv_file:
column_names = [
"experiment", "run_id", "model_name", "model_class", "gpu",
"precision", "optimizer", "test_cases", "runs",
"keep_io_types", "io_block_list", "op_block_list",
"node_block_list", "force_fp16_initializers",
"auto_mixed_precision", "ORT_TRANSFORMER_OPTIONS",
"ORT_CUDA_GEMM_OPTIONS", "onnxruntime", latency_name,
"top1_match_rate", "onnx_size_in_MB", "diff_50_percentile",
"diff_90_percentile", "diff_95_percentile",
"diff_99_percentile", "diff_pass_rate", "nan_rate",
"top1_match_rate_per_run"
]
csv_writer = csv.DictWriter(csv_file, fieldnames=column_names)
if not csv_file_existed:
csv_writer.writeheader()
row = {
"experiment": experiment_name,
"run_id": run_id,
"model_name": args.model_name_or_path,
"model_class": args.model_class,
"gpu": args.use_gpu,
"precision": args.precision,
"optimizer": args.optimize_onnx,
"test_cases": args.test_cases,
"runs": args.test_runs,
"keep_io_types": args.keep_io_types,
"io_block_list": args.io_block_list,
"op_block_list": args.op_block_list,
"node_block_list": args.node_block_list,
"force_fp16_initializers": args.force_fp16_initializers,
"auto_mixed_precision": args.auto_mixed_precision,
"ORT_TRANSFORMER_OPTIONS":
os.getenv('ORT_TRANSFORMER_OPTIONS'),
"ORT_CUDA_GEMM_OPTIONS": os.getenv('ORT_CUDA_GEMM_OPTIONS'),
"onnxruntime": ort_version,
latency_name: f"{latency:.2f}",
"diff_50_percentile": parity_result["max_diff_percentile_50"],
"diff_90_percentile": parity_result["max_diff_percentile_90"],
"diff_95_percentile": parity_result["max_diff_percentile_95"],
"diff_99_percentile": parity_result["max_diff_percentile_99"],
"diff_pass_rate": parity_result["diff_pass_rate"],
"nan_rate": parity_result["nan_rate"],
"top1_match_rate": parity_result["top1_match_rate"],
"top1_match_rate_per_run":
parity_result["top1_match_rate_per_run"],
"onnx_size_in_MB": "{}".format(model_size_in_MB),
}
logger.info(f"result: {row}")
result.update(row)
csv_writer.writerow(row)
if args.input_test_file:
test_inputs = []
# Each line of test file is a JSON string like:
# {"input_ids": [[14698, 257, 1310, 13688, 319, 326]]}
with open(args.input_test_file) as read_f:
for _, line in enumerate(read_f):
line = line.rstrip()
data = json.loads(line)
input_ids = torch.from_numpy(
numpy.asarray(data["input_ids"],
dtype=numpy.int64)).to(device)
if use_padding:
if "attention_mask" in data:
numpy_float = numpy.float16 if is_io_float16 else numpy.float32
attention_mask = torch.from_numpy(
numpy.asarray(data["attention_mask"],
dtype=numpy_float)).to(device)
else:
padding = -1
attention_mask = (input_ids != padding).type(
torch.float16 if is_io_float16 else torch.float32)
input_ids.masked_fill_(input_ids == padding, 0)
if "position_ids" in data:
position_ids = torch.from_numpy(
numpy.asarray(data["position_ids"],
dtype=numpy.int64)).to(device)
else:
position_ids = (attention_mask.long().cumsum(-1) - 1)
position_ids.masked_fill_(position_ids < 0, 0)
inputs = {
"input_ids":
input_ids.to(torch.int32)
if args.use_int32_inputs else input_ids,
"position_ids":
position_ids.to(torch.int32)
if args.use_int32_inputs else position_ids,
"attention_mask":
attention_mask.to(torch.int32)
if args.use_int32_inputs else attention_mask
}
else:
inputs = {
"input_ids":
input_ids.to(torch.int32)
if args.use_int32_inputs else input_ids
}
if model_type == "beam_search_step" or model_type == "configurable_one_step_search":
beam_select_idx = torch.zeros([1,
input_ids.shape[0]]).long()
input_log_probs = torch.zeros([input_ids.shape[0], 1])
input_unfinished_sents = torch.ones(
[input_ids.shape[0], 1], dtype=torch.bool)
inputs.update({
"beam_select_idx":
beam_select_idx,
"input_log_probs":
input_log_probs,
"input_unfinished_sents":
input_unfinished_sents,
})
test_inputs.append(inputs)
gpt2tester.test_generation(session,
model,
device,
test_inputs,
precision=args.precision,
model_class=args.model_class,
top_k=20,
top_k_no_order=True,
max_steps=24,
max_inputs=0,
verbose=args.verbose,
save_test_data=3,
save_test_data_dir=Path(output_path).parent)
logger.info(f"Done. Output model: {output_path}")
return result
def main():
args = parse_arguments()
setup_logger(args.verbose)
logger.info(f"Arguments:{args}")
if args.precision == Precision.FLOAT16:
assert args.optimize_onnx and args.use_gpu, "fp16 requires --optimize_onnx --use_gpu"
if args.precision == Precision.INT8:
assert not args.use_gpu, "quantization only supports CPU"
torch.set_num_threads(
psutil.cpu_count(
logical=True) if args.thread_num <= 0 else args.thread_num)
print(torch.__config__.parallel_info())
cache_dir = args.cache_dir
output_dir = args.onnx_dir
prepare_environment(cache_dir, output_dir, args.use_gpu)
model_class = MODEL_CLASSES[args.model_class][0]
config = AutoConfig.from_pretrained(args.model_name,
torchscript=args.torchscript,
cache_dir=cache_dir)
if hasattr(config, 'return_tuple'):
config.return_tuple = True
model = model_class.from_pretrained(args.model_name,
config=config,
cache_dir=cache_dir)
# This scirpt does not support float16 for PyTorch.
#if args.float16:
# model.half()
device = torch.device("cuda:0" if args.use_gpu else "cpu")
model.to(device)
onnx_model_paths = Gpt2Helper.get_onnx_paths(output_dir, args.model_name,
args.model_class)
onnx_model_path = onnx_model_paths["raw"]
Gpt2Helper.export_onnx(model, device, onnx_model_path, args.verbose)
if args.optimize_onnx or args.precision != Precision.FLOAT32:
onnx_model_path = onnx_model_paths[str(args.precision)]
Gpt2Helper.optimize_onnx(onnx_model_paths["raw"], onnx_model_path,
args.precision == Precision.FLOAT16,
model.config.num_attention_heads,
model.config.hidden_size)
if args.precision == Precision.INT8:
logger.info("quantizing model...")
QuantizeHelper.quantize_onnx_model(onnx_model_path,
onnx_model_path)
model = QuantizeHelper.quantize_torch_model(model)
logger.info("finished quantizing model")
if args.torchscript:
model = Gpt2Helper.torchscript(model, config, device)
session = create_onnxruntime_session(onnx_model_path,
args.use_gpu,
enable_all_optimization=False,
num_threads=args.thread_num,
verbose=args.verbose)
if session is None:
return
# One word is generated for each inference. This length does not include that of past state.
sequence_length = 1
# Allocate output buffers for IO Binding
max_output_shapes = Gpt2Helper.get_output_shapes(
max(args.batch_sizes), max(args.past_sequence_lengths),
sequence_length, config, args.model_class)
output_buffers = Gpt2Helper.get_output_buffers(
max_output_shapes, device, args.precision == Precision.FLOAT16)
csv_filename = args.result_csv or "benchmark_result_{}.csv".format(
datetime.now().strftime("%Y%m%d-%H%M%S"))
with open(csv_filename, mode="a", newline='') as csv_file:
column_names = [
"model_name", "model_class", "gpu", "precision", "optimizer",
"torchscript", "batch_size", "past_sequence_length",
"torch_latency", "ort_latency", "ort_io_latency"
]
csv_writer = csv.DictWriter(csv_file, fieldnames=column_names)
csv_writer.writeheader()
for batch_size in args.batch_sizes:
for past_sequence_length in args.past_sequence_lengths:
logger.debug(
f"Running test for batch_size={batch_size} past_sequence_length={past_sequence_length}..."
)
dummy_inputs = Gpt2Helper.get_dummy_inputs(
batch_size, past_sequence_length, sequence_length,
config.num_attention_heads, config.hidden_size,
config.n_layer, config.vocab_size, device,
args.precision == Precision.FLOAT16)
output_shapes = Gpt2Helper.get_output_shapes(
batch_size, past_sequence_length, sequence_length, config,
args.model_class)
try:
outputs, torch_latency = Gpt2Helper.pytorch_inference(
model, dummy_inputs, args.test_times)
ort_outputs, ort_latency = Gpt2Helper.onnxruntime_inference(
session, dummy_inputs, args.test_times)
ort_io_outputs, ort_io_latency = Gpt2Helper.onnxruntime_inference_with_binded_io(
session, dummy_inputs, output_buffers, output_shapes,
args.test_times)
if args.validate_onnx:
if Gpt2Helper.compare_outputs(
outputs,
ort_outputs,
rtol=DEFAULT_TOLERANCE[args.precision],
atol=DEFAULT_TOLERANCE[args.precision]):
logger.info(
f'Pytorch and ONNX Runtime outputs are all close (tolerance={DEFAULT_TOLERANCE[args.precision]}).'
)
if Gpt2Helper.compare_outputs(
outputs,
ort_io_outputs,
rtol=DEFAULT_TOLERANCE[args.precision],
atol=DEFAULT_TOLERANCE[args.precision]):
logger.info(
f'Pytorch and ONNX Runtime IO Binding outputs are all close (tolerance={DEFAULT_TOLERANCE[args.precision]}).'
)
logger.info(
f"batch_size={batch_size}, past_sequence_length={past_sequence_length}, torch_latency={torch_latency:.2f}, ort_latency={ort_latency:.2f}, ort_io_latency={ort_io_latency:.2f}"
)
row = {
"model_name": args.model_name,
"model_class": args.model_class,
"gpu": args.use_gpu,
"precision": args.precision,
"optimizer": args.optimize_onnx,
"torchscript": args.torchscript,
"batch_size": batch_size,
"past_sequence_length": past_sequence_length,
"torch_latency": f"{torch_latency:.2f}",
"ort_latency": f"{ort_latency:.2f}",
"ort_io_latency": f"{ort_io_latency:.2f}"
}
csv_writer.writerow(row)
except:
logger.error(f"Exception", exc_info=True)
logger.info(f"Results are saved to file {csv_filename}")
def main():
args = parse_arguments()
setup_logger(args.verbose)
if args.tolerance == 0:
args.tolerance = DEFAULT_TOLERANCE[args.precision]
logger.info(f"Arguments:{args}")
cache_dir = args.cache_dir
output_dir = args.output if not args.output.endswith(
".onnx") else os.path.dirname(args.output)
prepare_environment(cache_dir, output_dir, args.use_gpu)
if args.precision != Precision.FLOAT32:
assert args.optimize_onnx, "fp16/int8 requires --optimize_onnx"
if args.precision == Precision.FLOAT16:
assert args.use_gpu, "fp16 requires --use_gpu"
if args.precision == Precision.INT8:
assert not args.use_gpu, "quantization only supports CPU"
model_class = MODEL_CLASSES[args.model_class][0]
config = AutoConfig.from_pretrained(args.model_name_or_path,
cache_dir=cache_dir)
model = model_class.from_pretrained(args.model_name_or_path,
config=config,
cache_dir=cache_dir)
device = torch.device("cuda:0" if args.use_gpu else "cpu")
model.eval().to(device)
use_external_data_format = (config.n_layer > 24
) #TODO: find a way to check model size > 2GB
onnx_model_paths = Gpt2Helper.get_onnx_paths(
output_dir,
args.model_name_or_path,
args.model_class,
new_folder=use_external_data_format)
raw_onnx_model = args.output if args.output.endswith(
'.onnx') else onnx_model_paths["raw"]
output_path = raw_onnx_model if (
args.output.endswith('.onnx') or
(args.precision == Precision.FLOAT32 and not args.optimize_onnx)
) else onnx_model_paths[str(args.precision)]
logger.info(f"Exporting ONNX model to {raw_onnx_model}")
use_padding = MODEL_CLASSES[args.model_class][2]
Gpt2Helper.export_onnx(model,
device,
raw_onnx_model,
args.verbose,
use_external_data_format,
has_position_ids=use_padding,
has_attention_mask=use_padding)
if args.optimize_onnx or args.precision != Precision.FLOAT32:
logger.info(f"Optimizing model to {output_path}")
Gpt2Helper.optimize_onnx(raw_onnx_model, output_path,
args.precision == Precision.FLOAT16,
model.config.num_attention_heads,
model.config.hidden_size)
if args.precision == Precision.INT8:
logger.info("quantizing model...")
QuantizeHelper.quantize_onnx_model(output_path, output_path)
model = QuantizeHelper.quantize_torch_model(model)
logger.info("finished quantizing model")
session = create_onnxruntime_session(output_path,
args.use_gpu,
enable_all_optimization=True,
verbose=args.verbose)
if session is not None:
Gpt2Helper.test_parity(session,
model,
device,
args.precision == Precision.FLOAT16,
rtol=args.tolerance,
atol=args.tolerance,
model_class=args.model_class,
has_position_ids=use_padding,
has_attention_mask=use_padding)
if args.input_test_file:
test_inputs = []
# Each line of test file is a JSON string like:
# {"input_ids": [[14698, 257, 1310, 13688, 319, 326]]}
with open(args.input_test_file) as read_f:
for i, line in enumerate(read_f):
line = line.rstrip()
data = json.loads(line)
input_ids = torch.from_numpy(
numpy.asarray(data["input_ids"],
dtype=numpy.int64)).to(device)
if use_padding:
if "attention_mask" in data:
numpy_float = numpy.float16 if args.precision == Precision.FLOAT16 else numpy.float32
attention_mask = torch.from_numpy(
numpy.asarray(data["attention_mask"],
dtype=numpy_float)).to(device)
else:
padding = -1
attention_mask = (
input_ids !=
padding).type(torch.float16 if args.precision ==
Precision.FLOAT16 else torch.float32)
input_ids.masked_fill_(input_ids == padding, 0)
if "position_ids" in data:
position_ids = torch.from_numpy(
numpy.asarray(data["position_ids"],
dtype=numpy.int64)).to(device)
else:
position_ids = (attention_mask.long().cumsum(-1) - 1)
position_ids.masked_fill_(position_ids < 0, 0)
inputs = {
"input_ids": input_ids,
"position_ids": position_ids,
"attention_mask": attention_mask
}
else:
inputs = {"input_ids": input_ids}
test_inputs.append(inputs)
Gpt2Tester.test_generation(session,
model,
device,
test_inputs,
precision=args.precision,
model_class=args.model_class,
top_k=20,
top_k_no_order=True,
max_steps=24,
max_inputs=0,
verbose=args.verbose)
logger.info(f"Done. Output model: {output_path}")
def main(args):
from transformers import __version__ as transformers_version
if version.parse(transformers_version) < version.parse(
"3.1.0"): # past_key_values name does not exist in 3.0.2 or older
raise RuntimeError("This tool requires transformers 3.1.0 or later.")
logger.info(f"Arguments:{args}")
if args.precision == Precision.FLOAT16:
assert args.optimize_onnx and args.use_gpu, "fp16 requires --optimize_onnx --use_gpu"
if args.precision == Precision.INT8:
assert not args.use_gpu, "quantization only supports CPU"
torch.set_num_threads(
psutil.cpu_count(
logical=True) if args.thread_num <= 0 else args.thread_num)
print(torch.__config__.parallel_info())
cache_dir = args.cache_dir
output_dir = args.onnx_dir
prepare_environment(cache_dir, output_dir, args.use_gpu)
model_class = MODEL_CLASSES[args.model_class][0]
if args.model_class == "GPT2LMHeadModel_BeamSearchStep":
model_type = "beam_search_step"
elif args.model_class == "GPT2LMHeadModel_ConfigurableOneStepSearch":
model_type = "configurable_one_step_search"
else:
model_type = "default"
gpt2helper = Gpt2HelperFactory.create_helper(model_type)
config = AutoConfig.from_pretrained(args.model_name_or_path,
torchscript=args.torchscript,
cache_dir=cache_dir)
if model_type == "beam_search_step":
model = model_class.from_pretrained(
args.model_name_or_path,
config=config,
batch_size=1,
beam_size=args.beam_size,
cache_dir=cache_dir,
)
elif model_type == "configurable_one_step_search":
model = model_class.from_pretrained(
args.model_name_or_path,
config=config,
batch_size=1,
beam_size=args.beam_size,
ignore_eos=args.ignore_eos,
temperature=args.temperature,
repetition_penalty=args.repetition_penalty,
excluded_token_ids=args.excluded_token_ids,
length_penalty=args.length_penalty,
do_sample=args.do_sample,
do_sample_top_p=args.do_sample_top_p,
do_sample_top_k=args.do_sample_top_k,
cache_dir=cache_dir,
)
else:
model = model_class.from_pretrained(args.model_name_or_path,
config=config,
cache_dir=cache_dir)
# This scirpt does not support float16 for PyTorch.
# if args.float16:
# model.half()
device = torch.device("cuda:0" if args.use_gpu else "cpu")
model.to(device)
use_external_data_format = config.n_layer > 24 # TODO: find a way to check model size > 2GB
onnx_model_paths = gpt2helper.get_onnx_paths(
output_dir,
args.model_name_or_path,
args.model_class,
has_past=True,
new_folder=use_external_data_format,
)
onnx_model_path = onnx_model_paths["raw"]
use_padding = MODEL_CLASSES[args.model_class][2]
gpt2helper.export_onnx(
model,
device,
onnx_model_path,
args.verbose,
use_external_data_format,
has_position_ids=use_padding,
has_attention_mask=use_padding,
)
if args.optimize_onnx or args.precision != Precision.FLOAT32:
onnx_model_path = onnx_model_paths[str(
args.precision) if args.precision != Precision.INT8 else "fp32"]
gpt2helper.optimize_onnx(
onnx_model_paths["raw"],
onnx_model_path,
args.precision == Precision.FLOAT16,
model.config.num_attention_heads,
model.config.hidden_size,
use_external_data_format,
auto_mixed_precision=True,
)
if args.precision == Precision.INT8:
logger.info("quantizing model...")
QuantizeHelper.quantize_onnx_model(onnx_model_path,
onnx_model_paths["int8"],
use_external_data_format)
model = QuantizeHelper.quantize_torch_model(model)
logger.info("finished quantizing model")
onnx_model_path = onnx_model_paths["int8"]
if args.torchscript:
model = gpt2helper.torchscript(
model,
config,
device,
has_position_ids=use_padding,
has_attention_mask=use_padding,
)
session = create_onnxruntime_session(
onnx_model_path,
args.use_gpu,
enable_all_optimization=False,
num_threads=args.thread_num,
verbose=args.verbose,
)
if session is None:
return
# Allocate output buffers for IO Binding
if model_type == "beam_search_step" or model_type == "configurable_one_step_search":
max_output_shapes = gpt2helper.get_output_shapes(
max(args.batch_sizes),
context_len=max(args.past_sequence_lengths),
past_sequence_length=max(args.past_sequence_lengths),
sequence_length=max(args.sequence_lengths),
beam_size=args.beam_size,
step=0,
config=config,
model_class=args.model_class,
)
output_buffers = gpt2helper.get_output_buffers(
max_output_shapes, device, args.precision == Precision.FLOAT16)
else:
max_output_shapes = gpt2helper.get_output_shapes(
max(args.batch_sizes),
max(args.past_sequence_lengths),
max(args.sequence_lengths),
config,
args.model_class,
)
output_buffers = gpt2helper.get_output_buffers(
max_output_shapes, device, args.precision == Precision.FLOAT16)
csv_filename = args.result_csv or "benchmark_result_{}.csv".format(
datetime.now().strftime("%Y%m%d-%H%M%S"))
with open(csv_filename, mode="a", newline="") as csv_file:
column_names = [
"model_name",
"model_class",
"gpu",
"precision",
"optimizer",
"torchscript",
"batch_size",
"sequence_length",
"past_sequence_length",
"torch_latency",
"onnxruntime_latency",
"onnxruntime_io_binding_latency",
]
csv_writer = csv.DictWriter(csv_file, fieldnames=column_names)
csv_writer.writeheader()
for batch_size in args.batch_sizes:
for sequence_length in args.sequence_lengths:
for past_sequence_length in args.past_sequence_lengths:
assert batch_size > 0 and sequence_length > 0 and past_sequence_length >= 0
logger.debug(
f"Running test for batch_size={batch_size} sequence_length={sequence_length} past_sequence_length={past_sequence_length}..."
)
if model_type == "beam_search_step" or model_type == "configurable_one_step_search":
dummy_inputs = gpt2helper.get_dummy_inputs(
batch_size,
past_sequence_length,
sequence_length,
config.num_attention_heads,
config.hidden_size,
config.n_layer,
config.vocab_size,
device,
float16=(args.precision == Precision.FLOAT16),
has_position_ids=use_padding,
has_attention_mask=use_padding,
)
output_shapes = gpt2helper.get_output_shapes(
batch_size,
past_sequence_length,
past_sequence_length,
sequence_length,
args.beam_size,
0,
config,
args.model_class,
)
else:
dummy_inputs = gpt2helper.get_dummy_inputs(
batch_size,
past_sequence_length,
sequence_length,
config.num_attention_heads,
config.hidden_size,
config.n_layer,
config.vocab_size,
device,
float16=(args.precision == Precision.FLOAT16),
has_position_ids=use_padding,
has_attention_mask=use_padding,
)
output_shapes = gpt2helper.get_output_shapes(
batch_size,
past_sequence_length,
sequence_length,
config,
args.model_class,
)
try:
outputs, torch_latency = gpt2helper.pytorch_inference(
model, dummy_inputs, args.test_times)
# Dump Torch output shape
for i, value in enumerate(outputs):
if isinstance(value, tuple):
logger.debug(
f"torch output {i} is tuple of size {len(value)}, shape {value[0].shape}"
)
else:
logger.debug(
f"torch output {i} shape {value.shape}")
ort_outputs, ort_latency = gpt2helper.onnxruntime_inference(
session, dummy_inputs, args.test_times)
(
ort_io_outputs,
ort_io_latency,
) = gpt2helper.onnxruntime_inference_with_binded_io(
session,
dummy_inputs,
output_buffers,
output_shapes,
args.test_times,
return_numpy=False,
include_copy_output_latency=args.
include_copy_output_latency,
)
if args.validate_onnx:
if gpt2helper.compare_outputs(
outputs,
ort_outputs,
model_class=args.model_class,
rtol=DEFAULT_TOLERANCE[args.precision],
atol=DEFAULT_TOLERANCE[args.precision],
):
logger.info(
f"Pytorch and ONNX Runtime outputs are all close (tolerance={DEFAULT_TOLERANCE[args.precision]})."
)
# Results of IO binding might be in GPU. Copy outputs to CPU for comparison.
copy_outputs = []
for output in ort_io_outputs:
copy_outputs.append(output.cpu().numpy())
if gpt2helper.compare_outputs(
outputs,
copy_outputs,
model_class=args.model_class,
rtol=DEFAULT_TOLERANCE[args.precision],
atol=DEFAULT_TOLERANCE[args.precision],
):
logger.info(
f"Pytorch and ONNX Runtime IO Binding outputs are all close (tolerance={DEFAULT_TOLERANCE[args.precision]})."
)
logger.info(
f"batch_size={batch_size}, sequence_length={sequence_length}, past_sequence_length={past_sequence_length}, torch_latency={torch_latency:.2f}, onnxruntime_latency={ort_latency:.2f}, onnxruntime_io_binding_latency={ort_io_latency:.2f}"
)
row = {
"model_name":
args.model_name_or_path,
"model_class":
args.model_class,
"gpu":
args.use_gpu,
"precision":
args.precision,
"optimizer":
args.optimize_onnx,
"torchscript":
args.torchscript,
"batch_size":
batch_size,
"sequence_length":
sequence_length,
"past_sequence_length":
past_sequence_length,
"torch_latency":
f"{torch_latency:.2f}",
"onnxruntime_latency":
f"{ort_latency:.2f}",
"onnxruntime_io_binding_latency":
f"{ort_io_latency:.2f}",
}
csv_writer.writerow(row)
except:
logger.error(f"Exception", exc_info=True)
return None
logger.info(f"Results are saved to file {csv_filename}")
return csv_filename
