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192 lines
6.5 KiB
192 lines
6.5 KiB
# This code from NVIDIA Megatron:
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# with minor changes.
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import enum
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import torch
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import torch.nn as nn
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from colossalai.kernel.op_builder.scaled_masked_softmax import ScaledMaskedSoftmaxBuilder
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from colossalai.kernel.op_builder.scaled_upper_triangle_masked_softmax import ScaledUpperTrainglemaskedSoftmaxBuilder
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try:
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from colossalai._C import scaled_masked_softmax, scaled_upper_triang_masked_softmax
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except ImportError:
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scaled_masked_softmax = None
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scaled_upper_triang_masked_softmax = None
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class AttnMaskType(enum.Enum):
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padding = 1
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causal = 2
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paddedcausal = 3
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class ScaledUpperTriangMaskedSoftmax(torch.autograd.Function):
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"""
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Fused operation which performs following three operations in sequence
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1. Scale the tensor.
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2. Apply upper triangular mask (typically used in gpt models).
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3. Perform softmax.
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"""
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@staticmethod
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def forward(ctx, inputs, scale):
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global scaled_upper_triang_masked_softmax
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if scaled_upper_triang_masked_softmax:
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scaled_upper_triang_masked_softmax = ScaledUpperTrainglemaskedSoftmaxBuilder().load()
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scale_t = torch.tensor([scale])
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softmax_results = scaled_upper_triang_masked_softmax.forward(inputs, scale_t[0])
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ctx.save_for_backward(softmax_results, scale_t)
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return softmax_results
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@staticmethod
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def backward(ctx, output_grads):
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softmax_results, scale_t = ctx.saved_tensors
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input_grads = scaled_upper_triang_masked_softmax.backward(output_grads, softmax_results, scale_t[0])
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return input_grads, None
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class ScaledMaskedSoftmax(torch.autograd.Function):
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"""
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Fused operation which performs following three operations in sequence
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1. Scale the tensor.
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2. Apply the mask.
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3. Perform softmax.
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"""
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@staticmethod
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def forward(ctx, inputs, mask, scale):
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scale_t = torch.tensor([scale])
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# build and load kernel if not pre-built
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global scaled_masked_softmax
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if scaled_masked_softmax is None:
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scaled_masked_softmax = ScaledMaskedSoftmaxBuilder().load()
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softmax_results = scaled_masked_softmax.forward(inputs, mask, scale_t[0])
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ctx.save_for_backward(softmax_results, scale_t)
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return softmax_results
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@staticmethod
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def backward(ctx, output_grads):
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softmax_results, scale_t = ctx.saved_tensors
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input_grads = scaled_masked_softmax.backward(output_grads, softmax_results, scale_t[0])
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return input_grads, None, None, None
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class FusedScaleMaskSoftmax(nn.Module):
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"""
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Fused operation: scaling + mask + softmax
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Arguments:
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input_in_fp16: Flag to indicate if input in fp16 data format.
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input_in_bf16: Flag to indicate if input in bf16 data format.
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attn_mask_type: Attention mask type (pad or causal)
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scaled_masked_softmax_fusion: Flag to indicate user want to use softmax fusion
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mask_func: Mask function to be applied.
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softmax_in_fp32: If True, softmax in performed at fp32 precision.
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scale: Scaling factor used in input tensor scaling.
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"""
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def __init__(
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self,
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input_in_fp16,
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input_in_bf16,
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attn_mask_type,
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scaled_masked_softmax_fusion,
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mask_func,
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softmax_in_fp32,
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scale,
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):
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super(FusedScaleMaskSoftmax, self).__init__()
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self.input_in_fp16 = input_in_fp16
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self.input_in_bf16 = input_in_bf16
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assert not (
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self.input_in_fp16 and self.input_in_bf16
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), "both fp16 and bf16 flags cannot be active at the same time."
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self.input_in_float16 = self.input_in_fp16 or self.input_in_bf16
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self.attn_mask_type = attn_mask_type
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self.scaled_masked_softmax_fusion = scaled_masked_softmax_fusion
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self.mask_func = mask_func
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self.softmax_in_fp32 = softmax_in_fp32
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self.scale = scale
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assert self.scale is None or softmax_in_fp32, "softmax should be in fp32 when scaled"
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def forward(self, input, mask):
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# [b, np, sq, sk]
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assert input.dim() == 4
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if self.is_kernel_available(mask, *input.size()):
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return self.forward_fused_softmax(input, mask)
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else:
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return self.forward_torch_softmax(input, mask)
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def is_kernel_available(self, mask, b, np, sq, sk):
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attn_batches = b * np
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if (
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self.scaled_masked_softmax_fusion # user want to fuse
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and self.input_in_float16 # input must be fp16
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and mask is not None # mask tensor must not be None
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and 16 < sk <= 2048 # sk must be 16 ~ 2048
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and sq % 4 == 0 # sq must be divisor of 4
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and attn_batches % 4 == 0 # np * b must be divisor of 4
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):
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if 0 <= sk <= 2048:
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batch_per_block = self.get_batch_per_block(sq, sk, b, np)
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if self.attn_mask_type.value > 1:
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if attn_batches % batch_per_block == 0:
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return True
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else:
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if sq % batch_per_block == 0:
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return True
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return False
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def forward_fused_softmax(self, input, mask):
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b, np, sq, sk = input.size()
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scale = self.scale if self.scale is not None else 1.0
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if self.attn_mask_type.value > 1:
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assert sq == sk, "causal mask is only for self attention"
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# input is 3D tensor (attn_batches, sq, sk)
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input = input.view(-1, sq, sk)
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probs = ScaledUpperTriangMaskedSoftmax.apply(input, scale)
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return probs.view(b, np, sq, sk)
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else:
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# input is 4D tensor (b, np, sq, sk)
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return ScaledMaskedSoftmax.apply(input, mask, scale)
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def forward_torch_softmax(self, input, mask):
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if self.input_in_float16 and self.softmax_in_fp32:
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input = input.float()
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if self.scale is not None:
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input = input * self.scale
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mask_output = self.mask_func(input, mask) if mask is not None else input
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probs = torch.nn.Softmax(dim=-1)(mask_output)
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if self.input_in_float16 and self.softmax_in_fp32:
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if self.input_in_fp16:
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probs = probs.half()
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else:
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probs = probs.bfloat16()
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return probs
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def get_batch_per_block(self, sq, sk, b, np):
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# build and load kernel if not pre-built
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global scaled_masked_softmax
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if scaled_masked_softmax is None:
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scaled_masked_softmax = ScaledMaskedSoftmaxBuilder().load()
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return scaled_masked_softmax.get_batch_per_block(sq, sk, b, np)
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