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"""Custom PyTorch ops for efficient bias and activation.""" |
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import os |
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import numpy as np |
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import torch |
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import dnnlib |
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from .. import custom_ops |
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from .. import misc |
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activation_funcs = { |
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'linear': dnnlib.EasyDict(func=lambda x, **_: x, def_alpha=0, def_gain=1, cuda_idx=1, ref='', has_2nd_grad=False), |
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'relu': dnnlib.EasyDict(func=lambda x, **_: torch.nn.functional.relu(x), def_alpha=0, def_gain=np.sqrt(2), cuda_idx=2, ref='y', has_2nd_grad=False), |
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'lrelu': dnnlib.EasyDict(func=lambda x, alpha, **_: torch.nn.functional.leaky_relu(x, alpha), def_alpha=0.2, def_gain=np.sqrt(2), cuda_idx=3, ref='y', has_2nd_grad=False), |
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'tanh': dnnlib.EasyDict(func=lambda x, **_: torch.tanh(x), def_alpha=0, def_gain=1, cuda_idx=4, ref='y', has_2nd_grad=True), |
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'sigmoid': dnnlib.EasyDict(func=lambda x, **_: torch.sigmoid(x), def_alpha=0, def_gain=1, cuda_idx=5, ref='y', has_2nd_grad=True), |
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'elu': dnnlib.EasyDict(func=lambda x, **_: torch.nn.functional.elu(x), def_alpha=0, def_gain=1, cuda_idx=6, ref='y', has_2nd_grad=True), |
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'selu': dnnlib.EasyDict(func=lambda x, **_: torch.nn.functional.selu(x), def_alpha=0, def_gain=1, cuda_idx=7, ref='y', has_2nd_grad=True), |
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'softplus': dnnlib.EasyDict(func=lambda x, **_: torch.nn.functional.softplus(x), def_alpha=0, def_gain=1, cuda_idx=8, ref='y', has_2nd_grad=True), |
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'swish': dnnlib.EasyDict(func=lambda x, **_: torch.sigmoid(x) * x, def_alpha=0, def_gain=np.sqrt(2), cuda_idx=9, ref='x', has_2nd_grad=True), |
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} |
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_plugin = None |
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_null_tensor = torch.empty([0]) |
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def _init(): |
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global _plugin |
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if _plugin is None: |
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_plugin = custom_ops.get_plugin( |
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module_name='bias_act_plugin', |
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sources=['bias_act.cpp', 'bias_act.cu'], |
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headers=['bias_act.h'], |
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source_dir=os.path.dirname(__file__), |
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extra_cuda_cflags=['--use_fast_math', '--allow-unsupported-compiler'], |
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) |
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return True |
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def bias_act(x, b=None, dim=1, act='linear', alpha=None, gain=None, clamp=None, impl='cuda'): |
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r"""Fused bias and activation function. |
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Adds bias `b` to activation tensor `x`, evaluates activation function `act`, |
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and scales the result by `gain`. Each of the steps is optional. In most cases, |
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the fused op is considerably more efficient than performing the same calculation |
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using standard PyTorch ops. It supports first and second order gradients, |
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but not third order gradients. |
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Args: |
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x: Input activation tensor. Can be of any shape. |
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b: Bias vector, or `None` to disable. Must be a 1D tensor of the same type |
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as `x`. The shape must be known, and it must match the dimension of `x` |
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corresponding to `dim`. |
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dim: The dimension in `x` corresponding to the elements of `b`. |
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The value of `dim` is ignored if `b` is not specified. |
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act: Name of the activation function to evaluate, or `"linear"` to disable. |
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Can be e.g. `"relu"`, `"lrelu"`, `"tanh"`, `"sigmoid"`, `"swish"`, etc. |
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See `activation_funcs` for a full list. `None` is not allowed. |
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alpha: Shape parameter for the activation function, or `None` to use the default. |
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gain: Scaling factor for the output tensor, or `None` to use default. |
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See `activation_funcs` for the default scaling of each activation function. |
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If unsure, consider specifying 1. |
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clamp: Clamp the output values to `[-clamp, +clamp]`, or `None` to disable |
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the clamping (default). |
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impl: Name of the implementation to use. Can be `"ref"` or `"cuda"` (default). |
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Returns: |
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Tensor of the same shape and datatype as `x`. |
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""" |
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assert isinstance(x, torch.Tensor) |
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assert impl in ['ref', 'cuda'] |
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if impl == 'cuda' and x.device.type == 'cuda' and _init(): |
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return _bias_act_cuda(dim=dim, act=act, alpha=alpha, gain=gain, clamp=clamp).apply(x, b) |
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return _bias_act_ref(x=x, b=b, dim=dim, act=act, alpha=alpha, gain=gain, clamp=clamp) |
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@misc.profiled_function |
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def _bias_act_ref(x, b=None, dim=1, act='linear', alpha=None, gain=None, clamp=None): |
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"""Slow reference implementation of `bias_act()` using standard TensorFlow ops. |
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""" |
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assert isinstance(x, torch.Tensor) |
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assert clamp is None or clamp >= 0 |
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spec = activation_funcs[act] |
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alpha = float(alpha if alpha is not None else spec.def_alpha) |
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gain = float(gain if gain is not None else spec.def_gain) |
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clamp = float(clamp if clamp is not None else -1) |
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if b is not None: |
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assert isinstance(b, torch.Tensor) and b.ndim == 1 |
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assert 0 <= dim < x.ndim |
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assert b.shape[0] == x.shape[dim] |
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x = x + b.reshape([-1 if i == dim else 1 for i in range(x.ndim)]) |
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alpha = float(alpha) |
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x = spec.func(x, alpha=alpha) |
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gain = float(gain) |
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if gain != 1: |
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x = x * gain |
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if clamp >= 0: |
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x = x.clamp(-clamp, clamp) |
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return x |
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_bias_act_cuda_cache = dict() |
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def _bias_act_cuda(dim=1, act='linear', alpha=None, gain=None, clamp=None): |
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"""Fast CUDA implementation of `bias_act()` using custom ops. |
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""" |
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assert clamp is None or clamp >= 0 |
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spec = activation_funcs[act] |
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alpha = float(alpha if alpha is not None else spec.def_alpha) |
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gain = float(gain if gain is not None else spec.def_gain) |
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clamp = float(clamp if clamp is not None else -1) |
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key = (dim, act, alpha, gain, clamp) |
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if key in _bias_act_cuda_cache: |
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return _bias_act_cuda_cache[key] |
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class BiasActCuda(torch.autograd.Function): |
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@staticmethod |
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def forward(ctx, x, b): |
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ctx.memory_format = torch.channels_last if x.ndim > 2 and x.stride(1) == 1 else torch.contiguous_format |
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x = x.contiguous(memory_format=ctx.memory_format) |
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b = b.contiguous() if b is not None else _null_tensor |
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y = x |
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if act != 'linear' or gain != 1 or clamp >= 0 or b is not _null_tensor: |
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y = _plugin.bias_act(x, b, _null_tensor, _null_tensor, _null_tensor, 0, dim, spec.cuda_idx, alpha, gain, clamp) |
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ctx.save_for_backward( |
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x if 'x' in spec.ref or spec.has_2nd_grad else _null_tensor, |
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b if 'x' in spec.ref or spec.has_2nd_grad else _null_tensor, |
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y if 'y' in spec.ref else _null_tensor) |
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return y |
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@staticmethod |
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def backward(ctx, dy): |
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dy = dy.contiguous(memory_format=ctx.memory_format) |
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x, b, y = ctx.saved_tensors |
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dx = None |
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db = None |
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if ctx.needs_input_grad[0] or ctx.needs_input_grad[1]: |
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dx = dy |
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if act != 'linear' or gain != 1 or clamp >= 0: |
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dx = BiasActCudaGrad.apply(dy, x, b, y) |
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if ctx.needs_input_grad[1]: |
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db = dx.sum([i for i in range(dx.ndim) if i != dim]) |
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return dx, db |
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class BiasActCudaGrad(torch.autograd.Function): |
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@staticmethod |
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def forward(ctx, dy, x, b, y): |
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ctx.memory_format = torch.channels_last if dy.ndim > 2 and dy.stride(1) == 1 else torch.contiguous_format |
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dx = _plugin.bias_act(dy, b, x, y, _null_tensor, 1, dim, spec.cuda_idx, alpha, gain, clamp) |
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ctx.save_for_backward( |
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dy if spec.has_2nd_grad else _null_tensor, |
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x, b, y) |
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return dx |
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@staticmethod |
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def backward(ctx, d_dx): |
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d_dx = d_dx.contiguous(memory_format=ctx.memory_format) |
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dy, x, b, y = ctx.saved_tensors |
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d_dy = None |
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d_x = None |
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d_b = None |
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d_y = None |
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if ctx.needs_input_grad[0]: |
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d_dy = BiasActCudaGrad.apply(d_dx, x, b, y) |
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if spec.has_2nd_grad and (ctx.needs_input_grad[1] or ctx.needs_input_grad[2]): |
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d_x = _plugin.bias_act(d_dx, b, x, y, dy, 2, dim, spec.cuda_idx, alpha, gain, clamp) |
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if spec.has_2nd_grad and ctx.needs_input_grad[2]: |
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d_b = d_x.sum([i for i in range(d_x.ndim) if i != dim]) |
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return d_dy, d_x, d_b, d_y |
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_bias_act_cuda_cache[key] = BiasActCuda |
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return BiasActCuda |
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