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from detectron2.engine import AMPTrainer |
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import torch |
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import time |
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import logging |
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logger = logging.getLogger("detectron2") |
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import typing |
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from collections import defaultdict |
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import tabulate |
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from torch import nn |
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def parameter_count(model: nn.Module, trainable_only: bool = False) -> typing.DefaultDict[str, int]: |
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""" |
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Count parameters of a model and its submodules. |
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Args: |
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model: a torch module |
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Returns: |
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dict (str-> int): the key is either a parameter name or a module name. |
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The value is the number of elements in the parameter, or in all |
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parameters of the module. The key "" corresponds to the total |
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number of parameters of the model. |
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""" |
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r = defaultdict(int) |
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for name, prm in model.named_parameters(): |
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if trainable_only: |
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if not prm.requires_grad: |
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continue |
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size = prm.numel() |
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name = name.split(".") |
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for k in range(0, len(name) + 1): |
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prefix = ".".join(name[:k]) |
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r[prefix] += size |
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return r |
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def parameter_count_table( |
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model: nn.Module, max_depth: int = 3, trainable_only: bool = False |
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) -> str: |
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""" |
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Format the parameter count of the model (and its submodules or parameters) |
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in a nice table. It looks like this: |
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:: |
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| name | #elements or shape | |
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|:--------------------------------|:---------------------| |
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| model | 37.9M | |
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| backbone | 31.5M | |
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| backbone.fpn_lateral3 | 0.1M | |
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| backbone.fpn_lateral3.weight | (256, 512, 1, 1) | |
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| backbone.fpn_lateral3.bias | (256,) | |
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| backbone.fpn_output3 | 0.6M | |
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| backbone.fpn_output3.weight | (256, 256, 3, 3) | |
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| backbone.fpn_output3.bias | (256,) | |
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| backbone.fpn_lateral4 | 0.3M | |
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| backbone.fpn_lateral4.weight | (256, 1024, 1, 1) | |
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| backbone.fpn_lateral4.bias | (256,) | |
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| backbone.fpn_output4 | 0.6M | |
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| backbone.fpn_output4.weight | (256, 256, 3, 3) | |
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| backbone.fpn_output4.bias | (256,) | |
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| backbone.fpn_lateral5 | 0.5M | |
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| backbone.fpn_lateral5.weight | (256, 2048, 1, 1) | |
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| backbone.fpn_lateral5.bias | (256,) | |
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| backbone.fpn_output5 | 0.6M | |
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| backbone.fpn_output5.weight | (256, 256, 3, 3) | |
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| backbone.fpn_output5.bias | (256,) | |
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| backbone.top_block | 5.3M | |
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| backbone.top_block.p6 | 4.7M | |
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| backbone.top_block.p7 | 0.6M | |
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| backbone.bottom_up | 23.5M | |
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| backbone.bottom_up.stem | 9.4K | |
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| backbone.bottom_up.res2 | 0.2M | |
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| backbone.bottom_up.res3 | 1.2M | |
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| backbone.bottom_up.res4 | 7.1M | |
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| backbone.bottom_up.res5 | 14.9M | |
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| ...... | ..... | |
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Args: |
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model: a torch module |
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max_depth (int): maximum depth to recursively print submodules or |
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parameters |
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Returns: |
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str: the table to be printed |
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""" |
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count: typing.DefaultDict[str, int] = parameter_count(model, trainable_only) |
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param_shape: typing.Dict[str, typing.Tuple] = { |
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k: tuple(v.shape) for k, v in model.named_parameters() |
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} |
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table: typing.List[typing.Tuple] = [] |
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def format_size(x: int) -> str: |
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if x > 1e8: |
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return "{:.1f}G".format(x / 1e9) |
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if x > 1e5: |
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return "{:.1f}M".format(x / 1e6) |
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if x > 1e2: |
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return "{:.1f}K".format(x / 1e3) |
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return str(x) |
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def fill(lvl: int, prefix: str) -> None: |
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if lvl >= max_depth: |
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return |
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for name, v in count.items(): |
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if name.count(".") == lvl and name.startswith(prefix): |
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indent = " " * (lvl + 1) |
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if name in param_shape: |
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table.append((indent + name, indent + str(param_shape[name]))) |
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else: |
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table.append((indent + name, indent + format_size(v))) |
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fill(lvl + 1, name + ".") |
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table.append(("model", format_size(count.pop("")))) |
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fill(0, "") |
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old_ws = tabulate.PRESERVE_WHITESPACE |
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tabulate.PRESERVE_WHITESPACE = True |
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tab = tabulate.tabulate(table, headers=["name", "#elements or shape"], tablefmt="pipe") |
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tabulate.PRESERVE_WHITESPACE = old_ws |
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return tab |
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def cycle(iterable): |
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while True: |
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for x in iterable: |
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yield x |
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class MattingTrainer(AMPTrainer): |
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def __init__(self, model, data_loader, optimizer, grad_scaler=None): |
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super().__init__(model, data_loader, optimizer, grad_scaler=None) |
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self.data_loader_iter = iter(cycle(self.data_loader)) |
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logger.info("All parameters: \n" + parameter_count_table(model)) |
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logger.info("Trainable parameters: \n" + parameter_count_table(model, trainable_only=True, max_depth=8)) |
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def run_step(self): |
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""" |
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Implement the AMP training logic. |
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""" |
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assert self.model.training, "[AMPTrainer] model was changed to eval mode!" |
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assert torch.cuda.is_available(), "[AMPTrainer] CUDA is required for AMP training!" |
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from torch.cuda.amp import autocast |
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start = time.perf_counter() |
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data = next(self.data_loader_iter) |
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data_time = time.perf_counter() - start |
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with autocast(): |
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loss_dict = self.model(data) |
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if isinstance(loss_dict, torch.Tensor): |
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losses = loss_dict |
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loss_dict = {"total_loss": loss_dict} |
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else: |
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losses = sum(loss_dict.values()) |
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self.optimizer.zero_grad() |
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self.grad_scaler.scale(losses).backward() |
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self._write_metrics(loss_dict, data_time) |
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self.grad_scaler.step(self.optimizer) |
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self.grad_scaler.update() |
