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import logging |
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import math |
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import os |
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import time |
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from contextlib import contextmanager |
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from copy import deepcopy |
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import torch |
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import torch.backends.cudnn as cudnn |
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import torch.nn as nn |
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import torch.nn.functional as F |
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import torchvision |
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logger = logging.getLogger(__name__) |
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@contextmanager |
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def torch_distributed_zero_first(local_rank: int): |
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""" |
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Decorator to make all processes in distributed training wait for each local_master to do something. |
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""" |
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if local_rank not in [-1, 0]: |
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torch.distributed.barrier() |
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yield |
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if local_rank == 0: |
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torch.distributed.barrier() |
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def init_torch_seeds(seed=0): |
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torch.manual_seed(seed) |
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if seed == 0: |
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cudnn.deterministic = True |
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cudnn.benchmark = False |
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else: |
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cudnn.deterministic = False |
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cudnn.benchmark = True |
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def select_device(device='', batch_size=None): |
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cpu_request = device.lower() == 'cpu' |
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if device and not cpu_request: |
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os.environ['CUDA_VISIBLE_DEVICES'] = device |
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assert torch.cuda.is_available(), 'CUDA unavailable, invalid device %s requested' % device |
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cuda = False if cpu_request else torch.cuda.is_available() |
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if cuda: |
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c = 1024 ** 2 |
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ng = torch.cuda.device_count() |
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if ng > 1 and batch_size: |
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assert batch_size % ng == 0, 'batch-size %g not multiple of GPU count %g' % (batch_size, ng) |
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x = [torch.cuda.get_device_properties(i) for i in range(ng)] |
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s = f'Using torch {torch.__version__} ' |
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for i in range(0, ng): |
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if i == 1: |
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s = ' ' * len(s) |
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logger.info("%sCUDA:%g (%s, %dMB)" % (s, i, x[i].name, x[i].total_memory / c)) |
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else: |
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logger.info(f'Using torch {torch.__version__} CPU') |
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logger.info('') |
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return torch.device('cuda:0' if cuda else 'cpu') |
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def time_synchronized(): |
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torch.cuda.synchronize() if torch.cuda.is_available() else None |
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return time.time() |
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def is_parallel(model): |
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return type(model) in (nn.parallel.DataParallel, nn.parallel.DistributedDataParallel) |
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def intersect_dicts(da, db, exclude=()): |
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return {k: v for k, v in da.items() if k in db and not any(x in k for x in exclude) and v.shape == db[k].shape} |
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def initialize_weights(model): |
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for m in model.modules(): |
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t = type(m) |
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if t is nn.Conv2d: |
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pass |
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elif t is nn.BatchNorm2d: |
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m.eps = 1e-3 |
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m.momentum = 0.03 |
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elif t in [nn.Hardswish, nn.LeakyReLU, nn.ReLU, nn.ReLU6]: |
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m.inplace = True |
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def find_modules(model, mclass=nn.Conv2d): |
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return [i for i, m in enumerate(model.module_list) if isinstance(m, mclass)] |
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def sparsity(model): |
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a, b = 0., 0. |
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for p in model.parameters(): |
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a += p.numel() |
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b += (p == 0).sum() |
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return b / a |
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def prune(model, amount=0.3): |
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import torch.nn.utils.prune as prune |
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print('Pruning model... ', end='') |
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for name, m in model.named_modules(): |
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if isinstance(m, nn.Conv2d): |
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prune.l1_unstructured(m, name='weight', amount=amount) |
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prune.remove(m, 'weight') |
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print(' %.3g global sparsity' % sparsity(model)) |
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def fuse_conv_and_bn(conv, bn): |
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fusedconv = nn.Conv2d(conv.in_channels, |
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conv.out_channels, |
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kernel_size=conv.kernel_size, |
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stride=conv.stride, |
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padding=conv.padding, |
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groups=conv.groups, |
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bias=True).requires_grad_(False).to(conv.weight.device) |
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w_conv = conv.weight.clone().view(conv.out_channels, -1) |
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w_bn = torch.diag(bn.weight.div(torch.sqrt(bn.eps + bn.running_var))) |
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fusedconv.weight.copy_(torch.mm(w_bn, w_conv).view(fusedconv.weight.size())) |
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b_conv = torch.zeros(conv.weight.size(0), device=conv.weight.device) if conv.bias is None else conv.bias |
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b_bn = bn.bias - bn.weight.mul(bn.running_mean).div(torch.sqrt(bn.running_var + bn.eps)) |
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fusedconv.bias.copy_(torch.mm(w_bn, b_conv.reshape(-1, 1)).reshape(-1) + b_bn) |
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return fusedconv |
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def model_info(model, verbose=False, img_size=640): |
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n_p = sum(x.numel() for x in model.parameters()) |
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n_g = sum(x.numel() for x in model.parameters() if x.requires_grad) |
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if verbose: |
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print('%5s %40s %9s %12s %20s %10s %10s' % ('layer', 'name', 'gradient', 'parameters', 'shape', 'mu', 'sigma')) |
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for i, (name, p) in enumerate(model.named_parameters()): |
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name = name.replace('module_list.', '') |
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print('%5g %40s %9s %12g %20s %10.3g %10.3g' % |
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(i, name, p.requires_grad, p.numel(), list(p.shape), p.mean(), p.std())) |
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try: |
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from thop import profile |
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stride = int(model.stride.max()) |
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flops = profile(deepcopy(model), inputs=(torch.zeros(1, 3, stride, stride),), verbose=False)[0] / 1E9 * 2 |
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img_size = img_size if isinstance(img_size, list) else [img_size, img_size] |
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fs = ', %.1f GFLOPS' % (flops * img_size[0] / stride * img_size[1] / stride) |
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except (ImportError, Exception): |
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fs = '' |
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logger.info(f"Model Summary: {len(list(model.modules()))} layers, {n_p} parameters, {n_g} gradients{fs}") |
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def load_classifier(name='resnet101', n=2): |
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model = torchvision.models.__dict__[name](pretrained=True) |
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filters = model.fc.weight.shape[1] |
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model.fc.bias = nn.Parameter(torch.zeros(n), requires_grad=True) |
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model.fc.weight = nn.Parameter(torch.zeros(n, filters), requires_grad=True) |
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model.fc.out_features = n |
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return model |
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def scale_img(img, ratio=1.0, same_shape=False): |
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if ratio == 1.0: |
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return img |
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else: |
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h, w = img.shape[2:] |
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s = (int(h * ratio), int(w * ratio)) |
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img = F.interpolate(img, size=s, mode='bilinear', align_corners=False) |
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if not same_shape: |
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gs = 32 |
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h, w = [math.ceil(x * ratio / gs) * gs for x in (h, w)] |
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return F.pad(img, [0, w - s[1], 0, h - s[0]], value=0.447) |
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def copy_attr(a, b, include=(), exclude=()): |
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for k, v in b.__dict__.items(): |
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if (len(include) and k not in include) or k.startswith('_') or k in exclude: |
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continue |
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else: |
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setattr(a, k, v) |
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class ModelEMA: |
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""" Model Exponential Moving Average from https://github.com/rwightman/pytorch-image-models |
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Keep a moving average of everything in the model state_dict (parameters and buffers). |
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This is intended to allow functionality like |
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https://www.tensorflow.org/api_docs/python/tf/train/ExponentialMovingAverage |
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A smoothed version of the weights is necessary for some training schemes to perform well. |
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This class is sensitive where it is initialized in the sequence of model init, |
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GPU assignment and distributed training wrappers. |
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""" |
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def __init__(self, model, decay=0.9999, updates=0): |
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self.ema = deepcopy(model.module if is_parallel(model) else model).eval() |
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self.updates = updates |
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self.decay = lambda x: decay * (1 - math.exp(-x / 2000)) |
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for p in self.ema.parameters(): |
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p.requires_grad_(False) |
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def update(self, model): |
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with torch.no_grad(): |
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self.updates += 1 |
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d = self.decay(self.updates) |
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msd = model.module.state_dict() if is_parallel(model) else model.state_dict() |
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for k, v in self.ema.state_dict().items(): |
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if v.dtype.is_floating_point: |
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v *= d |
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v += (1. - d) * msd[k].detach() |
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def update_attr(self, model, include=(), exclude=('process_group', 'reducer')): |
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copy_attr(self.ema, model, include, exclude) |
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