# Copyright (c) Microsoft Corporation. # SPDX-License-Identifier: Apache-2.0 # DeepSpeed Team import math import torch import torch.nn as nn from deepspeed.accelerator import get_accelerator from deepspeed import comm as dist from deepspeed.ops.transformer.inference.op_binding import LinearOp, VectorMatMulOp, SoftmaxContextOp, QKVGemmOp from deepspeed.ops.transformer.inference.triton import ( softmax, score_4d_matmul, context_4d_matmul, ) minus_inf = -10000.0 class TritonSelfAttention(nn.Module): num_layers = 0 def __init__(self, config, mp_group=None, q_scales=None, q_groups=1, merge_count=1, qkv_merging=False): super(TritonSelfAttention, self).__init__() self.config = config data_type = self.config.dtype data_type_fp = torch.half if self.config.dtype == torch.int8 else self.config.dtype assert data_type_fp == torch.half, "triton supports fp16 data_type_fp" self.config.layer_id = TritonSelfAttention.num_layers TritonSelfAttention.num_layers = TritonSelfAttention.num_layers + 1 device = get_accelerator().current_device_name() #if config.bigscience_bloom else 'cpu' assert config.mp_size == 1, "mp_size has to be 1 with triton attention yet" if self.config.set_empty_params: self.attn_qw = None self.attn_qb = None self.attn_kw = None self.attn_kb = None self.attn_vw = None self.attn_vb = None self.attn_qkvw = None self.attn_qkvb = None self.attn_ow = None self.attn_ob = None else: qkv_size_per_partition = (self.config.hidden_size // self.config.mp_size) * 3 self.attn_qkvw = nn.Parameter(torch.empty(self.config.hidden_size, qkv_size_per_partition, dtype=data_type, device=device), requires_grad=False) self.attn_qkvb = nn.Parameter(torch.empty(qkv_size_per_partition, dtype=data_type_fp, device=device), requires_grad=False) # self-ouput weights out_size_per_partition = self.config.hidden_size // self.config.mp_size self.attn_ow = nn.Parameter(torch.empty(out_size_per_partition, self.config.hidden_size, dtype=data_type, device=device), requires_grad=False) self.attn_ob = nn.Parameter(torch.empty(self.config.hidden_size, dtype=data_type_fp, device=device), requires_grad=False) self.num_attention_heads_per_partition = self.config.heads // self.config.mp_size self.hidden_size_per_partition = self.config.hidden_size // self.config.mp_size self.hidden_size_per_attention_head = self.config.hidden_size // self.config.heads self.mp_group = mp_group self.use_flash = False # used for quantization self.q_scales = q_scales self.q_groups = q_groups self.merge_count = int(math.log2(merge_count)) self.norm_factor = math.sqrt(self.config.hidden_size // self.config.heads) if not config.use_mup: self.norm_factor = math.sqrt(self.norm_factor) if self.config.scale_attn_by_inverse_layer_idx is True: self.norm_factor *= math.sqrt(self.config.layer_id + 1) # https://github.com/huggingface/transformers/blob/v4.24.0/src/transformers/models/gpt2/modeling_gpt2.py#L191 triton_autotune = self.config.triton_autotune and self.config.layer_id == 0 self.qkv_func = QKVGemmOp(config) self.score_context_func = SoftmaxContextOp(config) self.linear_func = LinearOp(config) self.vector_matmul_func = VectorMatMulOp(config) self.hidden_size = config.hidden_size self.head_size = config.hidden_size // config.heads self.scale = (1 / self.norm_factor / self.norm_factor if self.config.scale_attention else 1.0 ) # making it back to 1/sqrt(head_size) self.triangular_masking = self.config.triangular_masking # triton autotune table update for score/context matmul if triton_autotune: print(f"running triton autotune for attention") __class__._triton_autotune(2, self.config.max_out_tokens, self.head_size, self.config.hidden_size, self.triangular_masking, self.scale) @staticmethod def _triton_autotune(min_seqlen, max_seqlen, head_size, hidden_size, triangular_masking, scale, dtype=torch.float16): from deepspeed.ops.transformer.inference.triton.matmul_ext import Fp16Matmul, score_4d_matmul, context_4d_matmul seqlen = [(min_seqlen + i) for i in range(0, max_seqlen - min_seqlen + Fp16Matmul._cache_stride + 1, Fp16Matmul._cache_stride)] Fp16Matmul._read_autotune_table() for N in seqlen: qkv = torch.randn((1, N, 3 * hidden_size), dtype=dtype, device='cuda') output = score_4d_matmul(qkv, head_size, triangular_masking, scale) context_4d_matmul(output, qkv, head_size) Fp16Matmul._update_autotune_table() def ds_compute_attention(self, qkv_out, input_mask, layer_past, alibi): if isinstance(qkv_out, list): qkv_out = qkv_out[0] no_masking = input_mask is None if no_masking: input_mask = torch.empty(1) attn_key_value = self.score_context_func( query_key_value=qkv_out, attn_mask=((1 - input_mask).to(qkv_out.dtype) * minus_inf) if input_mask.dtype == torch.int64 else input_mask, heads=self.num_attention_heads_per_partition, norm_factor=(1 / self.norm_factor if self.config.scale_attention else 1.0), no_masking=no_masking, layer_id=self.config.layer_id, num_layers=TritonSelfAttention.num_layers, alibi=alibi) context_layer, key_layer, value_layer = attn_key_value return context_layer, key_layer, value_layer def forward( self, input, input_mask, head_mask=None, layer_past=None, get_present=False, # not used encoder_hidden_states=None, # not used encoder_attention_mask=None, # not used triangularutput_attentions=False, # not used norm_w=None, norm_b=None, alibi=None, use_triton_attention=True): if not self.config.pre_layer_norm: qkv_out = self.linear_func(input=input, weight=self.attn_qkvw, bias=self.attn_qkvb, add_bias=self.attn_qkvb is not None, do_flash_attn=False, num_heads=self.num_attention_heads_per_partition, num_layers=TritonSelfAttention.num_layers) qkv = qkv_out else: qkv_out = self.qkv_func(input=input, weight=self.attn_qkvw, bias=(self.attn_qkvb if self.attn_qkvb is not None else norm_b), gamma=norm_w, beta=norm_b) qkv = qkv_out[0] if use_triton_attention and (alibi is None): context_layer = compute_attention(qkv=qkv, input_mask=input_mask, scale=self.scale, layer_past=layer_past, alibi=alibi, head_size=self.head_size, use_triton_flash=self.use_flash, use_cuda_flash=False, triangular=self.triangular_masking) key_layer, value_layer = qkv[:, :, self.hidden_size:2 * self.hidden_size], qkv[:, :, 2 * self.hidden_size:] else: context_layer, key_layer, value_layer = self.ds_compute_attention(qkv_out=qkv_out, input_mask=input_mask, layer_past=layer_past, alibi=alibi) output = self.vector_matmul_func(input=context_layer, weight=self.attn_ow) inp_norm = qkv_out[-1] if self.config.mlp_after_attn and self.mp_group is not None and dist.get_world_size(group=self.mp_group) > 1: dist.all_reduce(output, group=self.mp_group) return (output, key_layer, value_layer, context_layer, inp_norm) global inference_module def compute_attention(qkv, input_mask, layer_past, alibi, scale, head_size, triangular=False, use_cuda_flash=False, use_triton_flash=False, use_ds_attention=False): if isinstance(qkv, list): qkv = qkv[0] #assert layer_past is None, "layer_past not supported in triton yet" assert alibi is None, "layer_past not supported in alibi yet" output = score_4d_matmul(qkv, head_size, triangular, scale) if triangular: output = softmax(output) else: output = softmax(output, input_mask) output = context_4d_matmul(output, qkv, head_size) return output