183 lines
9.7 KiB
Python
183 lines
9.7 KiB
Python
# Copyright (c) 2019, NVIDIA CORPORATION. All rights reserved.
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#
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# Licensed under the Apache License, Version 2.0 (the "License");
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# you may not use this file except in compliance with the License.
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# You may obtain a copy of the License at
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#
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# http://www.apache.org/licenses/LICENSE-2.0
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#
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# Unless required by applicable law or agreed to in writing, software
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# distributed under the License is distributed on an "AS IS" BASIS,
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# WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
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# See the License for the specific language governing permissions and
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# limitations under the License.
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import warnings
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from nvidia import dali
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from nvidia.dali.pipeline import Pipeline
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import nvidia.dali.ops as ops
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import nvidia.dali.types as types
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from nvidia.dali.plugin.mxnet import DALIClassificationIterator
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import horovod.mxnet as hvd
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def add_dali_args(parser):
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group = parser.add_argument_group('DALI data backend', 'entire group applies only to dali data backend')
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group.add_argument('--dali-separ-val', action='store_true',
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help='each process will perform independent validation on whole val-set')
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group.add_argument('--dali-threads', type=int, default=3, help="number of threads" +\
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"per GPU for DALI")
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group.add_argument('--dali-validation-threads', type=int, default=10, help="number of threads" +\
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"per GPU for DALI for validation")
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group.add_argument('--dali-prefetch-queue', type=int, default=2, help="DALI prefetch queue depth")
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group.add_argument('--dali-nvjpeg-memory-padding', type=int, default=64, help="Memory padding value for nvJPEG (in MB)")
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group.add_argument('--dali-fuse-decoder', type=int, default=1, help="0 or 1 whether to fuse decoder or not")
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return parser
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class HybridTrainPipe(Pipeline):
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def __init__(self, args, batch_size, num_threads, device_id, rec_path, idx_path,
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shard_id, num_shards, crop_shape, nvjpeg_padding, prefetch_queue=3,
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output_layout=types.NCHW, pad_output=True, dtype='float16', dali_cpu=False):
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super(HybridTrainPipe, self).__init__(batch_size, num_threads, device_id, seed=12 + device_id, prefetch_queue_depth = prefetch_queue)
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self.input = ops.MXNetReader(path=[rec_path], index_path=[idx_path],
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random_shuffle=True, shard_id=shard_id, num_shards=num_shards)
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if dali_cpu:
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dali_device = "cpu"
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if args.dali_fuse_decoder:
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self.decode = ops.HostDecoderRandomCrop(device=dali_device, output_type=types.RGB)
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else:
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self.decode = ops.HostDecoder(device=dali_device, output_type=types.RGB)
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else:
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dali_device = "gpu"
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if args.dali_fuse_decoder:
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self.decode = ops.nvJPEGDecoderRandomCrop(device="mixed", output_type=types.RGB,
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device_memory_padding=nvjpeg_padding, host_memory_padding=nvjpeg_padding)
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else:
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self.decode = ops.nvJPEGDecoder(device="mixed", output_type=types.RGB,
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device_memory_padding=nvjpeg_padding, host_memory_padding=nvjpeg_padding)
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if args.dali_fuse_decoder:
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self.resize = ops.Resize(device=dali_device, resize_x=crop_shape[1], resize_y=crop_shape[0])
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else:
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self.resize = ops.RandomResizedCrop(device=dali_device, size=crop_shape)
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self.cmnp = ops.CropMirrorNormalize(device="gpu",
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output_dtype=types.FLOAT16 if dtype == 'float16' else types.FLOAT,
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output_layout=output_layout, crop=crop_shape, pad_output=pad_output,
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image_type=types.RGB, mean=args.rgb_mean, std=args.rgb_std)
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self.coin = ops.CoinFlip(probability=0.5)
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def define_graph(self):
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rng = self.coin()
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self.jpegs, self.labels = self.input(name="Reader")
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images = self.decode(self.jpegs)
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images = self.resize(images)
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output = self.cmnp(images.gpu(), mirror=rng)
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return [output, self.labels]
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class HybridValPipe(Pipeline):
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def __init__(self, args, batch_size, num_threads, device_id, rec_path, idx_path,
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shard_id, num_shards, crop_shape, nvjpeg_padding, prefetch_queue=3, resize_shp=None,
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output_layout=types.NCHW, pad_output=True, dtype='float16', dali_cpu=False):
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super(HybridValPipe, self).__init__(batch_size, num_threads, device_id, seed=12 + device_id, prefetch_queue_depth=prefetch_queue)
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self.input = ops.MXNetReader(path=[rec_path], index_path=[idx_path],
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random_shuffle=False, shard_id=shard_id, num_shards=num_shards)
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if dali_cpu:
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dali_device = "cpu"
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self.decode = ops.HostDecoder(device=dali_device, output_type=types.RGB)
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else:
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dali_device = "gpu"
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self.decode = ops.nvJPEGDecoder(device="mixed", output_type=types.RGB,
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device_memory_padding=nvjpeg_padding,
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host_memory_padding=nvjpeg_padding)
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self.resize = ops.Resize(device=dali_device, resize_shorter=resize_shp) if resize_shp else None
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self.cmnp = ops.CropMirrorNormalize(device="gpu",
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output_dtype=types.FLOAT16 if dtype == 'float16' else types.FLOAT,
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output_layout=output_layout, crop=crop_shape, pad_output=pad_output,
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image_type=types.RGB, mean=args.rgb_mean, std=args.rgb_std)
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def define_graph(self):
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self.jpegs, self.labels = self.input(name="Reader")
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images = self.decode(self.jpegs)
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if self.resize:
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images = self.resize(images)
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output = self.cmnp(images.gpu())
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return [output, self.labels]
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def get_rec_iter(args, kv=None, dali_cpu=False):
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gpus = args.gpus
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num_threads = args.dali_threads
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num_validation_threads = args.dali_validation_threads
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pad_output = (args.image_shape[0] == 4)
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# the input_layout w.r.t. the model is the output_layout of the image pipeline
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output_layout = types.NHWC if args.input_layout == 'NHWC' else types.NCHW
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if 'horovod' in args.kv_store:
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rank = hvd.rank()
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nWrk = hvd.size()
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else:
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rank = kv.rank if kv else 0
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nWrk = kv.num_workers if kv else 1
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batch_size = args.batch_size // nWrk // len(gpus)
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trainpipes = [HybridTrainPipe(args = args,
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batch_size = batch_size,
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num_threads = num_threads,
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device_id = gpu_id,
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rec_path = args.data_train,
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idx_path = args.data_train_idx,
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shard_id = gpus.index(gpu_id) + len(gpus)*rank,
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num_shards = len(gpus)*nWrk,
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crop_shape = args.image_shape[1:],
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output_layout = output_layout,
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dtype = args.dtype,
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pad_output = pad_output,
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dali_cpu = dali_cpu,
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nvjpeg_padding = args.dali_nvjpeg_memory_padding * 1024 * 1024,
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prefetch_queue = args.dali_prefetch_queue) for gpu_id in gpus]
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if args.data_val:
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valpipes = [HybridValPipe(args = args,
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batch_size = batch_size,
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num_threads = num_validation_threads,
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device_id = gpu_id,
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rec_path = args.data_val,
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idx_path = args.data_val_idx,
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shard_id = 0 if args.dali_separ_val
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else gpus.index(gpu_id) + len(gpus)*rank,
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num_shards = 1 if args.dali_separ_val else len(gpus)*nWrk,
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crop_shape = args.image_shape[1:],
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resize_shp = args.data_val_resize,
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output_layout = output_layout,
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dtype = args.dtype,
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pad_output = pad_output,
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dali_cpu = dali_cpu,
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nvjpeg_padding = args.dali_nvjpeg_memory_padding * 1024 * 1024,
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prefetch_queue = args.dali_prefetch_queue) for gpu_id in gpus] if args.data_val else None
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trainpipes[0].build()
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if args.data_val:
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valpipes[0].build()
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worker_val_examples = valpipes[0].epoch_size("Reader")
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if not args.dali_separ_val:
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worker_val_examples = worker_val_examples // nWrk
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if rank < valpipes[0].epoch_size("Reader") % nWrk:
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worker_val_examples += 1
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if args.num_examples < trainpipes[0].epoch_size("Reader"):
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warnings.warn("{} training examples will be used, although full training set contains {} examples".format(args.num_examples, trainpipes[0].epoch_size("Reader")))
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dali_train_iter = DALIClassificationIterator(trainpipes, args.num_examples // nWrk)
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if args.data_val:
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dali_val_iter = DALIClassificationIterator(valpipes, worker_val_examples, fill_last_batch = False) if args.data_val else None
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else:
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dali_val_iter = None
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return dali_train_iter, dali_val_iter
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