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Source code for torch.ao.nn.quantized.modules.batchnorm

# mypy: allow-untyped-defs
import torch
import torch.ao.nn.intrinsic as nni


__all__ = ["BatchNorm2d", "BatchNorm3d"]


class _BatchNorm(torch.nn.modules.batchnorm._BatchNorm):
    def __init__(
        self, num_features, eps=1e-5, momentum=0.1, device=None, dtype=None
    ) -> None:
        factory_kwargs = {"device": device, "dtype": dtype}
        super().__init__(num_features, eps, momentum, True, True, **factory_kwargs)
        self.register_buffer("scale", torch.tensor(1.0, **factory_kwargs))
        self.register_buffer("zero_point", torch.tensor(0, **factory_kwargs))

    @staticmethod
    def from_float(cls, mod, use_precomputed_fake_quant=False):
        activation_post_process = mod.activation_post_process
        if type(mod) == cls._NNI_BN_RELU_MODULE:
            mod = mod[0]
        scale, zero_point = activation_post_process.calculate_qparams()
        new_mod = cls(mod.num_features, mod.eps)
        new_mod.weight = mod.weight
        new_mod.bias = mod.bias
        new_mod.running_mean = mod.running_mean
        new_mod.running_var = mod.running_var
        new_mod.scale = scale
        new_mod.zero_point = zero_point
        return new_mod

    @classmethod
    def from_reference(cls, bn, output_scale, output_zero_point):
        qbn = cls(
            bn.num_features,
            bn.eps,
            bn.momentum,
            device=bn.weight.device,
            dtype=bn.weight.dtype,
        )
        qbn.weight = bn.weight
        qbn.bias = bn.bias
        qbn.running_mean = bn.running_mean
        qbn.running_var = bn.running_var
        qbn.scale = output_scale
        qbn.zero_point = output_zero_point
        return qbn


[docs]class BatchNorm2d(_BatchNorm): r"""This is the quantized version of :class:`~torch.nn.BatchNorm2d`.""" _NNI_BN_RELU_MODULE = nni.BNReLU2d def __init__( self, num_features, eps=1e-5, momentum=0.1, device=None, dtype=None ) -> None: factory_kwargs = {"device": device, "dtype": dtype} super().__init__(num_features, eps, momentum, **factory_kwargs) def _get_name(self): return "QuantizedBatchNorm2d" def _check_input_dim(self, input): # Temporarily using len(shape) instead of ndim due to JIT issue # https://github.com/pytorch/pytorch/issues/23890 if len(input.shape) != 4: raise ValueError("Input shape must be `(N, C, H, W)`!") def forward(self, input: torch.Tensor) -> torch.Tensor: # disabling this since this is not symbolically traceable # self._check_input_dim(input) return torch.ops.quantized.batch_norm2d( input, self.weight, self.bias, self.running_mean, self.running_var, self.eps, self.scale, self.zero_point, ) @classmethod def from_float(cls, mod, use_precomputed_fake_quant=False): return _BatchNorm.from_float( cls, mod, use_precomputed_fake_quant=use_precomputed_fake_quant )
[docs]class BatchNorm3d(_BatchNorm): r"""This is the quantized version of :class:`~torch.nn.BatchNorm3d`.""" _NNI_BN_RELU_MODULE = nni.BNReLU3d def __init__(self, num_features, eps=1e-5, momentum=0.1, device=None, dtype=None): factory_kwargs = {"device": device, "dtype": dtype} super().__init__(num_features, eps, momentum, **factory_kwargs) def _get_name(self): return "QuantizedBatchNorm3d" def _check_input_dim(self, input): # Temporarily using len(shape) instead of ndim due to JIT issue # https://github.com/pytorch/pytorch/issues/23890 if len(input.shape) != 5: raise ValueError("Input shape must be `(N, C, H, W)`!") def forward(self, input: torch.Tensor) -> torch.Tensor: # disabling this since this is not symbolically traceable # self._check_input_dim(input) return torch.ops.quantized.batch_norm3d( input, self.weight, self.bias, self.running_mean, self.running_var, self.eps, self.scale, self.zero_point, ) @classmethod def from_float(cls, mod, use_precomputed_fake_quant=False): return _BatchNorm.from_float( cls, mod, use_precomputed_fake_quant=use_precomputed_fake_quant )

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