def get_pytorch_components_and_onnx(args):
'''Returns PyTorch components used for inference
'''
model_definition = toml.load(args.model_toml)
dataset_vocab = model_definition['labels']['labels']
# Set up global labels for future vocab calls
global _global_ctc_labels
_global_ctc_labels = add_ctc_labels(dataset_vocab)
featurizer_config = model_definition['input_eval']
optim_level = 3 if args.pyt_fp16 else 0
featurizer_config["optimization_level"] = optim_level
audio_preprocessor = None
onnx_path = None
data_layer = None
wav = None
seq_len = None
if args.max_duration is not None:
featurizer_config['max_duration'] = args.max_duration
if args.dataset_dir is not None:
data_layer = AudioToTextDataLayer(dataset_dir=args.dataset_dir,
featurizer_config=featurizer_config,
manifest_filepath=args.val_manifest,
labels=dataset_vocab,
batch_size=args.batch_size,
shuffle=False)
if args.wav is not None:
args.batch_size = 1
wav, seq_len = audio_from_file(args.wav)
if args.seq_len is None or args.seq_len == 0:
args.seq_len = seq_len / (featurizer_config['sample_rate'] / 100)
if args.transpose:
featurizer_config["transpose_out"] = True
model_definition["transpose_in"] = True
model = JasperEncoderDecoder(jasper_model_definition=model_definition,
feat_in=1024,
num_classes=len(get_vocab()),
transpose_in=args.transpose)
model = model.cuda()
model.eval()
audio_preprocessor = AudioPreprocessing(**featurizer_config)
audio_preprocessor = audio_preprocessor.cuda()
audio_preprocessor.eval()
if args.ckpt_path is not None:
if os.path.isdir(args.ckpt_path):
d_checkpoint = torch.load(args.ckpt_path + "/decoder.pt",
map_location="cpu")
e_checkpoint = torch.load(args.ckpt_path + "/encoder.pt",
map_location="cpu")
model.jasper_encoder.load_state_dict(e_checkpoint, strict=False)
model.jasper_decoder.load_state_dict(d_checkpoint, strict=False)
else:
checkpoint = torch.load(args.ckpt_path, map_location="cpu")
model.load_state_dict(checkpoint['state_dict'], strict=False)
# if we are to produce engine, not run/create ONNX, postpone AMP initialization
# (ONNX parser cannot handle mixed FP16 ONNX yet)
if args.pyt_fp16 and args.engine_path is None:
amp.initialize(models=model, opt_level=AmpOptimizations[optim_level])
if args.make_onnx:
if args.onnx_path is None or args.ckpt_path is None:
raise Exception(
"--ckpt_path, --onnx_path must be provided when using --make_onnx"
)
onnx_path = get_onnx(args.onnx_path, model, args)
if args.pyt_fp16 and args.engine_path is not None:
amp.initialize(models=model, opt_level=AmpOptimizations[optim_level])
return {
'data_layer': data_layer,
'audio_preprocessor': audio_preprocessor,
'acoustic_model': model,
'input_wav': (wav, seq_len)
}, onnx_path
def main(args):
random.seed(args.seed)
np.random.seed(args.seed)
torch.manual_seed(args.seed)
torch.backends.cudnn.benchmark = args.cudnn_benchmark
print("CUDNN BENCHMARK ", args.cudnn_benchmark)
if not args.cpu_run:
assert(torch.cuda.is_available())
if args.local_rank is not None:
torch.cuda.set_device(args.local_rank)
torch.distributed.init_process_group(backend='nccl', init_method='env://')
multi_gpu = args.local_rank is not None
if multi_gpu:
print("DISTRIBUTED with ", torch.distributed.get_world_size())
if args.fp16:
optim_level = 3
else:
optim_level = 0
jasper_model_definition = toml.load(args.model_toml)
dataset_vocab = jasper_model_definition['labels']['labels']
ctc_vocab = add_ctc_labels(dataset_vocab)
val_manifest = args.val_manifest
featurizer_config = jasper_model_definition['input_eval']
featurizer_config["optimization_level"] = optim_level
featurizer_config["fp16"] = args.fp16
args.use_conv_mask = jasper_model_definition['encoder'].get('convmask', True)
if args.masked_fill is not None:
print("{} masked_fill".format("Enabling" if args.masked_fill else "Disabling"))
jasper_model_definition["encoder"]["conv_mask"] = args.masked_fill
if args.max_duration is not None:
featurizer_config['max_duration'] = args.max_duration
if args.pad_to is not None:
featurizer_config['pad_to'] = args.pad_to
if featurizer_config['pad_to'] == "max":
featurizer_config['pad_to'] = -1
print('=== model_config ===')
print_dict(jasper_model_definition)
print()
print('=== feature_config ===')
print_dict(featurizer_config)
print()
data_layer = None
if args.wav is None:
data_layer = AudioToTextDataLayer(
dataset_dir=args.dataset_dir,
featurizer_config=featurizer_config,
manifest_filepath=val_manifest,
labels=dataset_vocab,
batch_size=args.batch_size,
pad_to_max=featurizer_config['pad_to'] == -1,
shuffle=False,
multi_gpu=multi_gpu)
audio_preprocessor = AudioPreprocessing(**featurizer_config)
encoderdecoder = JasperEncoderDecoder(jasper_model_definition=jasper_model_definition, feat_in=1024, num_classes=len(ctc_vocab))
if args.ckpt is not None:
print("loading model from ", args.ckpt)
if os.path.isdir(args.ckpt):
exit(0)
else:
checkpoint = torch.load(args.ckpt, map_location="cpu")
for k in audio_preprocessor.state_dict().keys():
checkpoint['state_dict'][k] = checkpoint['state_dict'].pop("audio_preprocessor." + k)
audio_preprocessor.load_state_dict(checkpoint['state_dict'], strict=False)
encoderdecoder.load_state_dict(checkpoint['state_dict'], strict=False)
greedy_decoder = GreedyCTCDecoder()
# print("Number of parameters in encoder: {0}".format(model.jasper_encoder.num_weights()))
if args.wav is None:
N = len(data_layer)
step_per_epoch = math.ceil(N / (args.batch_size * (1 if not torch.distributed.is_initialized() else torch.distributed.get_world_size())))
if args.steps is not None:
print('-----------------')
print('Have {0} examples to eval on.'.format(args.steps * args.batch_size * (1 if not torch.distributed.is_initialized() else torch.distributed.get_world_size())))
print('Have {0} steps / (gpu * epoch).'.format(args.steps))
print('-----------------')
else:
print('-----------------')
print('Have {0} examples to eval on.'.format(N))
print('Have {0} steps / (gpu * epoch).'.format(step_per_epoch))
print('-----------------')
print ("audio_preprocessor.normalize: ", audio_preprocessor.featurizer.normalize)
if not args.cpu_run:
audio_preprocessor.cuda()
encoderdecoder.cuda()
if args.fp16:
encoderdecoder = amp.initialize( models=encoderdecoder,
opt_level=AmpOptimizations[optim_level])
encoderdecoder = model_multi_gpu(encoderdecoder, multi_gpu)
audio_preprocessor.eval()
encoderdecoder.eval()
greedy_decoder.eval()
eval(
data_layer=data_layer,
audio_processor=audio_preprocessor,
encoderdecoder=encoderdecoder,
greedy_decoder=greedy_decoder,
labels=ctc_vocab,
args=args,
multi_gpu=multi_gpu)
def main(args):
random.seed(args.seed)
np.random.seed(args.seed)
torch.manual_seed(args.seed)
torch.backends.cudnn.benchmark = args.cudnn_benchmark
assert (args.steps is None or args.steps > 5)
print("CUDNN BENCHMARK ", args.cudnn_benchmark)
assert (torch.cuda.is_available())
if args.fp16:
optim_level = Optimization.mxprO3
else:
optim_level = Optimization.mxprO0
batch_size = args.batch_size
jasper_model_definition = toml.load(args.model_toml)
dataset_vocab = jasper_model_definition['labels']['labels']
ctc_vocab = add_ctc_labels(dataset_vocab)
val_manifest = args.val_manifest
featurizer_config = jasper_model_definition['input_eval']
featurizer_config["optimization_level"] = optim_level
if args.max_duration is not None:
featurizer_config['max_duration'] = args.max_duration
if args.pad_to is not None:
featurizer_config[
'pad_to'] = args.pad_to if args.pad_to >= 0 else "max"
print('model_config')
print_dict(jasper_model_definition)
print('feature_config')
print_dict(featurizer_config)
data_layer = AudioToTextDataLayer(
dataset_dir=args.dataset_dir,
featurizer_config=featurizer_config,
manifest_filepath=val_manifest,
labels=dataset_vocab,
batch_size=batch_size,
pad_to_max=featurizer_config['pad_to'] == "max",
shuffle=False,
multi_gpu=False)
audio_preprocessor = AudioPreprocessing(**featurizer_config)
encoderdecoder = JasperEncoderDecoder(
jasper_model_definition=jasper_model_definition,
feat_in=1024,
num_classes=len(ctc_vocab))
if args.ckpt is not None:
print("loading model from ", args.ckpt)
checkpoint = torch.load(args.ckpt, map_location="cpu")
for k in audio_preprocessor.state_dict().keys():
checkpoint['state_dict'][k] = checkpoint['state_dict'].pop(
"audio_preprocessor." + k)
audio_preprocessor.load_state_dict(checkpoint['state_dict'],
strict=False)
encoderdecoder.load_state_dict(checkpoint['state_dict'], strict=False)
greedy_decoder = GreedyCTCDecoder()
# print("Number of parameters in encoder: {0}".format(model.jasper_encoder.num_weights()))
N = len(data_layer)
step_per_epoch = math.ceil(N / args.batch_size)
print('-----------------')
if args.steps is None:
print('Have {0} examples to eval on.'.format(N))
print('Have {0} steps / (gpu * epoch).'.format(step_per_epoch))
else:
print('Have {0} examples to eval on.'.format(args.steps *
args.batch_size))
print('Have {0} steps / (gpu * epoch).'.format(args.steps))
print('-----------------')
audio_preprocessor.cuda()
encoderdecoder.cuda()
if args.fp16:
encoderdecoder = amp.initialize(
models=encoderdecoder, opt_level=AmpOptimizations[optim_level])
eval(data_layer=data_layer,
audio_processor=audio_preprocessor,
encoderdecoder=encoderdecoder,
greedy_decoder=greedy_decoder,
labels=ctc_vocab,
args=args)
def main(args):
random.seed(args.seed)
np.random.seed(args.seed)
torch.manual_seed(args.seed)
assert (args.steps is None or args.steps > 5)
if args.cpu:
device = torch.device('cpu')
else:
assert (torch.cuda.is_available())
device = torch.device('cuda')
torch.backends.cudnn.benchmark = args.cudnn_benchmark
print("CUDNN BENCHMARK ", args.cudnn_benchmark)
optim_level = 3 if args.amp else 0
batch_size = args.batch_size
jasper_model_definition = toml.load(args.model_toml)
dataset_vocab = jasper_model_definition['labels']['labels']
ctc_vocab = add_ctc_labels(dataset_vocab)
val_manifest = args.val_manifest
featurizer_config = jasper_model_definition['input_eval']
featurizer_config["optimization_level"] = optim_level
if args.max_duration is not None:
featurizer_config['max_duration'] = args.max_duration
# TORCHSCRIPT: Cant use mixed types. Using -1 for "max"
if args.pad_to is not None:
featurizer_config['pad_to'] = args.pad_to if args.pad_to >= 0 else -1
if featurizer_config['pad_to'] == "max":
featurizer_config['pad_to'] = -1
args.use_conv_mask = jasper_model_definition['encoder'].get(
'convmask', True)
if args.use_conv_mask and args.torch_script:
print(
'WARNING: Masked convs currently not supported for TorchScript. Disabling.'
)
jasper_model_definition['encoder']['convmask'] = False
print('model_config')
print_dict(jasper_model_definition)
print('feature_config')
print_dict(featurizer_config)
data_layer = AudioToTextDataLayer(
dataset_dir=args.dataset_dir,
featurizer_config=featurizer_config,
manifest_filepath=val_manifest,
labels=dataset_vocab,
batch_size=batch_size,
pad_to_max=featurizer_config['pad_to'] == -1,
shuffle=False,
multi_gpu=False)
audio_preprocessor = AudioPreprocessing(**featurizer_config)
encoderdecoder = JasperEncoderDecoder(
jasper_model_definition=jasper_model_definition,
feat_in=1024,
num_classes=len(ctc_vocab))
if args.ckpt is not None:
print("loading model from ", args.ckpt)
checkpoint = torch.load(args.ckpt, map_location="cpu")
for k in audio_preprocessor.state_dict().keys():
checkpoint['state_dict'][k] = checkpoint['state_dict'].pop(
"audio_preprocessor." + k)
audio_preprocessor.load_state_dict(checkpoint['state_dict'],
strict=False)
encoderdecoder.load_state_dict(checkpoint['state_dict'], strict=False)
greedy_decoder = GreedyCTCDecoder()
# print("Number of parameters in encoder: {0}".format(model.jasper_encoder.num_weights()))
N = len(data_layer)
step_per_epoch = math.ceil(N / args.batch_size)
print('-----------------')
if args.steps is None:
print('Have {0} examples to eval on.'.format(N))
print('Have {0} steps / (epoch).'.format(step_per_epoch))
else:
print('Have {0} examples to eval on.'.format(args.steps *
args.batch_size))
print('Have {0} steps / (epoch).'.format(args.steps))
print('-----------------')
audio_preprocessor.to(device)
encoderdecoder.to(device)
if args.amp:
encoderdecoder = amp.initialize(models=encoderdecoder,
opt_level='O' + str(optim_level))
eval(data_layer=data_layer,
audio_processor=audio_preprocessor,
encoderdecoder=encoderdecoder,
greedy_decoder=greedy_decoder,
labels=ctc_vocab,
device=device,
args=args)