81 lines
3.2 KiB
Python
81 lines
3.2 KiB
Python
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# Copyright (c) 2022, NVIDIA CORPORATION & AFFILIATES. All rights reserved.
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#
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# NVIDIA CORPORATION & AFFILIATES and its licensors retain all intellectual property
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# and proprietary rights in and to this software, related documentation
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# and any modifications thereto. Any use, reproduction, disclosure or
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# distribution of this software and related documentation without an express
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# license agreement from NVIDIA CORPORATION & AFFILIATES is strictly prohibited.
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""" copied and modified from https://github.com/CW-Huang/sdeflow-light/blob/524650bc5ad69522b3e0905672deef0650374512/lib/models/unet.py """
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import math
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import torch
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import torch.nn as nn
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import torch.nn.functional as F
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from torch.nn.init import _calculate_fan_in_and_fan_out
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import numpy as np
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def _calculate_correct_fan(tensor, mode):
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"""
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copied and modified from https://github.com/pytorch/pytorch/blob/master/torch/nn/init.py#L337
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"""
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mode = mode.lower()
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valid_modes = ['fan_in', 'fan_out', 'fan_avg']
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if mode not in valid_modes:
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raise ValueError("Mode {} not supported, please use one of {}".format(mode, valid_modes))
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fan_in, fan_out = _calculate_fan_in_and_fan_out(tensor)
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return fan_in if mode == 'fan_in' else fan_out
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def kaiming_uniform_(tensor, gain=1., mode='fan_in'):
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r"""Fills the input `Tensor` with values according to the method
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described in `Delving deep into rectifiers: Surpassing human-level
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performance on ImageNet classification` - He, K. et al. (2015), using a
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uniform distribution. The resulting tensor will have values sampled from
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:math:`\mathcal{U}(-\text{bound}, \text{bound})` where
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.. math::
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\text{bound} = \text{gain} \times \sqrt{\frac{3}{\text{fan\_mode}}}
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Also known as He initialization.
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Args:
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tensor: an n-dimensional `torch.Tensor`
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gain: multiplier to the dispersion
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mode: either ``'fan_in'`` (default) or ``'fan_out'``. Choosing ``'fan_in'``
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preserves the magnitude of the variance of the weights in the
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forward pass. Choosing ``'fan_out'`` preserves the magnitudes in the
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backwards pass.
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Examples:
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>>> w = torch.empty(3, 5)
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>>> nn.init.kaiming_uniform_(w, mode='fan_in')
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"""
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fan = _calculate_correct_fan(tensor, mode)
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# gain = calculate_gain(nonlinearity, a)
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var = gain / max(1., fan)
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bound = math.sqrt(3.0 * var) # Calculate uniform bounds from standard deviation
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with torch.no_grad():
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return tensor.uniform_(-bound, bound)
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def variance_scaling_init_(tensor, scale):
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return kaiming_uniform_(tensor, gain=1e-10 if scale == 0 else scale, mode='fan_avg')
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def dense(in_channels, out_channels, init_scale=1.):
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lin = nn.Linear(in_channels, out_channels)
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variance_scaling_init_(lin.weight, scale=init_scale)
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nn.init.zeros_(lin.bias)
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return lin
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def conv2d(in_planes, out_planes, kernel_size=(3, 3), stride=1, dilation=1, padding=1, bias=True, padding_mode='zeros',
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init_scale=1.):
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conv = nn.Conv2d(in_planes, out_planes, kernel_size=kernel_size, stride=stride, padding=padding, dilation=dilation,
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bias=bias, padding_mode=padding_mode)
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variance_scaling_init_(conv.weight, scale=init_scale)
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if bias:
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nn.init.zeros_(conv.bias)
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return conv
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