366 lines
11 KiB
Python
366 lines
11 KiB
Python
# [2022-10-23] Downloaded from https://github.com/openai/triton/blob/master/python/tutorials/06-fused-attention.py
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# for benchmarking.
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# We fixed a few dtype cast to make it work for bf16
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"""
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Fused Attention
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===============
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This is a Triton implementation of the Flash Attention algorithm
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(see: Dao et al., https://arxiv.org/pdf/2205.14135v2.pdf; Rabe and Staats https://arxiv.org/pdf/2112.05682v2.pdf)
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"""
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import pytest
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import torch
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import triton
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import triton.language as tl
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@triton.jit
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def _fwd_kernel(
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Q,
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K,
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V,
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sm_scale,
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TMP,
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L,
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M, # NOTE: TMP is a scratchpad buffer to workaround a compiler bug
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Out,
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stride_qz,
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stride_qh,
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stride_qm,
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stride_qk,
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stride_kz,
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stride_kh,
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stride_kn,
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stride_kk,
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stride_vz,
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stride_vh,
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stride_vk,
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stride_vn,
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stride_oz,
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stride_oh,
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stride_om,
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stride_on,
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Z,
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H,
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N_CTX,
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BLOCK_M: tl.constexpr,
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BLOCK_DMODEL: tl.constexpr,
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BLOCK_N: tl.constexpr,
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):
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start_m = tl.program_id(0)
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off_hz = tl.program_id(1)
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# initialize offsets
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offs_m = start_m * BLOCK_M + tl.arange(0, BLOCK_M)
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offs_n = tl.arange(0, BLOCK_N)
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offs_d = tl.arange(0, BLOCK_DMODEL)
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off_q = off_hz * stride_qh + offs_m[:, None] * stride_qm + offs_d[None, :] * stride_qk
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off_k = off_hz * stride_qh + offs_n[:, None] * stride_kn + offs_d[None, :] * stride_kk
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off_v = off_hz * stride_qh + offs_n[:, None] * stride_qm + offs_d[None, :] * stride_qk
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# Initialize pointers to Q, K, V
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q_ptrs = Q + off_q
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k_ptrs = K + off_k
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v_ptrs = V + off_v
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# initialize pointer to m and l
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t_ptrs = TMP + off_hz * N_CTX + offs_m
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m_i = tl.zeros([BLOCK_M], dtype=tl.float32) - float("inf")
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l_i = tl.zeros([BLOCK_M], dtype=tl.float32)
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acc = tl.zeros([BLOCK_M, BLOCK_DMODEL], dtype=tl.float32)
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# load q: it will stay in SRAM throughout
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q = tl.load(q_ptrs)
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# loop over k, v and update accumulator
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for start_n in range(0, (start_m + 1) * BLOCK_M, BLOCK_N):
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start_n = tl.multiple_of(start_n, BLOCK_N)
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# -- compute qk ----
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k = tl.load(k_ptrs + start_n * stride_kn)
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qk = tl.zeros([BLOCK_M, BLOCK_N], dtype=tl.float32)
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qk += tl.dot(q, k, trans_b=True)
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qk *= sm_scale
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qk += tl.where(offs_m[:, None] >= (start_n + offs_n[None, :]), 0, float("-inf"))
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# -- compute m_ij, p, l_ij
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m_ij = tl.max(qk, 1)
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p = tl.exp(qk - m_ij[:, None])
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l_ij = tl.sum(p, 1)
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# -- update m_i and l_i
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m_i_new = tl.maximum(m_i, m_ij)
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alpha = tl.exp(m_i - m_i_new)
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beta = tl.exp(m_ij - m_i_new)
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l_i_new = alpha * l_i + beta * l_ij
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# -- update output accumulator --
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# scale p
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p_scale = beta / l_i_new
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p = p * p_scale[:, None]
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# scale acc
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acc_scale = l_i / l_i_new * alpha
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tl.store(t_ptrs, acc_scale)
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acc_scale = tl.load(t_ptrs) # BUG: have to store and immediately load
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acc = acc * acc_scale[:, None]
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# update acc
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v = tl.load(v_ptrs + start_n * stride_vk)
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p = p.to(v.dtype)
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acc += tl.dot(p, v)
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# update m_i and l_i
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l_i = l_i_new
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m_i = m_i_new
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# rematerialize offsets to save registers
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start_m = tl.program_id(0)
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offs_m = start_m * BLOCK_M + tl.arange(0, BLOCK_M)
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# write back l and m
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l_ptrs = L + off_hz * N_CTX + offs_m
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m_ptrs = M + off_hz * N_CTX + offs_m
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tl.store(l_ptrs, l_i)
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tl.store(m_ptrs, m_i)
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# initialize pointers to output
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offs_n = tl.arange(0, BLOCK_DMODEL)
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off_o = off_hz * stride_oh + offs_m[:, None] * stride_om + offs_n[None, :] * stride_on
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out_ptrs = Out + off_o
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tl.store(out_ptrs, acc)
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@triton.jit
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def _bwd_preprocess(
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Out,
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DO,
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L,
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NewDO,
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Delta,
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BLOCK_M: tl.constexpr,
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D_HEAD: tl.constexpr,
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):
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off_m = tl.program_id(0) * BLOCK_M + tl.arange(0, BLOCK_M)
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off_n = tl.arange(0, D_HEAD)
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# load
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o = tl.load(Out + off_m[:, None] * D_HEAD + off_n[None, :]).to(tl.float32)
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do = tl.load(DO + off_m[:, None] * D_HEAD + off_n[None, :]).to(tl.float32)
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denom = tl.load(L + off_m).to(tl.float32)
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# compute
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do = do / denom[:, None]
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delta = tl.sum(o * do, axis=1)
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# write-back
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tl.store(NewDO + off_m[:, None] * D_HEAD + off_n[None, :], do)
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tl.store(Delta + off_m, delta)
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@triton.jit
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def _bwd_kernel(
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Q,
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K,
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V,
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sm_scale,
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Out,
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DO,
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DQ,
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DK,
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DV,
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L,
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M,
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D,
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stride_qz,
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stride_qh,
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stride_qm,
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stride_qk,
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stride_kz,
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stride_kh,
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stride_kn,
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stride_kk,
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stride_vz,
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stride_vh,
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stride_vk,
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stride_vn,
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Z,
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H,
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N_CTX,
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num_block,
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BLOCK_M: tl.constexpr,
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BLOCK_DMODEL: tl.constexpr,
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BLOCK_N: tl.constexpr,
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):
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off_hz = tl.program_id(0)
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off_z = off_hz // H
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off_h = off_hz % H
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# offset pointers for batch/head
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Q += off_z * stride_qz + off_h * stride_qh
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K += off_z * stride_qz + off_h * stride_qh
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V += off_z * stride_qz + off_h * stride_qh
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DO += off_z * stride_qz + off_h * stride_qh
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DQ += off_z * stride_qz + off_h * stride_qh
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DK += off_z * stride_qz + off_h * stride_qh
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DV += off_z * stride_qz + off_h * stride_qh
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for start_n in range(0, num_block):
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lo = start_n * BLOCK_M
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# initialize row/col offsets
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offs_qm = lo + tl.arange(0, BLOCK_M)
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offs_n = start_n * BLOCK_M + tl.arange(0, BLOCK_M)
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offs_m = tl.arange(0, BLOCK_N)
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offs_k = tl.arange(0, BLOCK_DMODEL)
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# initialize pointers to value-like data
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q_ptrs = Q + (offs_qm[:, None] * stride_qm + offs_k[None, :] * stride_qk)
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k_ptrs = K + (offs_n[:, None] * stride_kn + offs_k[None, :] * stride_kk)
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v_ptrs = V + (offs_n[:, None] * stride_qm + offs_k[None, :] * stride_qk)
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do_ptrs = DO + (offs_qm[:, None] * stride_qm + offs_k[None, :] * stride_qk)
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dq_ptrs = DQ + (offs_qm[:, None] * stride_qm + offs_k[None, :] * stride_qk)
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# pointer to row-wise quantities in value-like data
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D_ptrs = D + off_hz * N_CTX
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m_ptrs = M + off_hz * N_CTX
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# initialize dv amd dk
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dv = tl.zeros([BLOCK_M, BLOCK_DMODEL], dtype=tl.float32)
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dk = tl.zeros([BLOCK_M, BLOCK_DMODEL], dtype=tl.float32)
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# k and v stay in SRAM throughout
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k = tl.load(k_ptrs)
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v = tl.load(v_ptrs)
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# loop over rows
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for start_m in range(lo, num_block * BLOCK_M, BLOCK_M):
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offs_m_curr = start_m + offs_m
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# load q, k, v, do on-chip
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q = tl.load(q_ptrs)
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# recompute p = softmax(qk, dim=-1).T
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# NOTE: `do` is pre-divided by `l`; no normalization here
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qk = tl.dot(q, k, trans_b=True)
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qk = tl.where(offs_m_curr[:, None] >= (offs_n[None, :]), qk, float("-inf"))
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m = tl.load(m_ptrs + offs_m_curr)
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p = tl.exp(qk * sm_scale - m[:, None])
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# compute dv
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do = tl.load(do_ptrs)
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dv += tl.dot(p.to(do.dtype), do, trans_a=True)
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# compute dp = dot(v, do)
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Di = tl.load(D_ptrs + offs_m_curr)
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dp = tl.zeros([BLOCK_M, BLOCK_N], dtype=tl.float32) - Di[:, None]
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dp += tl.dot(do, v, trans_b=True)
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# compute ds = p * (dp - delta[:, None])
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ds = p * dp * sm_scale
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# compute dk = dot(ds.T, q)
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dk += tl.dot(ds.to(q.dtype), q, trans_a=True)
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# # compute dq
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dq = tl.load(dq_ptrs, eviction_policy="evict_last")
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dq += tl.dot(ds.to(k.dtype), k)
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tl.store(dq_ptrs, dq, eviction_policy="evict_last")
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# # increment pointers
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dq_ptrs += BLOCK_M * stride_qm
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q_ptrs += BLOCK_M * stride_qm
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do_ptrs += BLOCK_M * stride_qm
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# write-back
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dv_ptrs = DV + (offs_n[:, None] * stride_qm + offs_k[None, :] * stride_qk)
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dk_ptrs = DK + (offs_n[:, None] * stride_kn + offs_k[None, :] * stride_kk)
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tl.store(dv_ptrs, dv)
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tl.store(dk_ptrs, dk)
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class _attention(torch.autograd.Function):
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@staticmethod
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def forward(ctx, q, k, v, sm_scale):
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BLOCK = 128
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# shape constraints
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Lq, Lk, Lv = q.shape[-1], k.shape[-1], v.shape[-1]
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assert Lq == Lk and Lk == Lv
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assert Lk in {16, 32, 64, 128}
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o = torch.empty_like(q)
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grid = (triton.cdiv(q.shape[2], BLOCK), q.shape[0] * q.shape[1])
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tmp = torch.empty(
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(q.shape[0] * q.shape[1], q.shape[2]), device=q.device, dtype=torch.float32
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)
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L = torch.empty((q.shape[0] * q.shape[1], q.shape[2]), device=q.device, dtype=torch.float32)
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m = torch.empty((q.shape[0] * q.shape[1], q.shape[2]), device=q.device, dtype=torch.float32)
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num_warps = 4 if Lk <= 64 else 8
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_fwd_kernel[grid](
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q,
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k,
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v,
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sm_scale,
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tmp,
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L,
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m,
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o,
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q.stride(0),
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q.stride(1),
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q.stride(2),
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q.stride(3),
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k.stride(0),
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k.stride(1),
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k.stride(2),
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k.stride(3),
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v.stride(0),
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v.stride(1),
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v.stride(2),
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v.stride(3),
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o.stride(0),
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o.stride(1),
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o.stride(2),
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o.stride(3),
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q.shape[0],
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q.shape[1],
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q.shape[2],
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BLOCK_M=BLOCK,
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BLOCK_N=BLOCK,
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BLOCK_DMODEL=Lk,
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num_warps=num_warps,
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num_stages=1,
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)
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ctx.save_for_backward(q, k, v, o, L, m)
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ctx.BLOCK = BLOCK
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ctx.grid = grid
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ctx.sm_scale = sm_scale
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ctx.BLOCK_DMODEL = Lk
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return o
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@staticmethod
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def backward(ctx, do):
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q, k, v, o, l, m = ctx.saved_tensors
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do = do.contiguous()
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dq = torch.zeros_like(q, dtype=torch.float32)
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dk = torch.empty_like(k)
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dv = torch.empty_like(v)
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do_scaled = torch.empty_like(do)
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delta = torch.empty_like(l)
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_bwd_preprocess[(ctx.grid[0] * ctx.grid[1],)](
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o,
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do,
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l,
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do_scaled,
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delta,
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BLOCK_M=ctx.BLOCK,
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D_HEAD=ctx.BLOCK_DMODEL,
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)
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# NOTE: kernel currently buggy for other values of `num_warps`
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num_warps = 8
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_bwd_kernel[(ctx.grid[1],)](
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q,
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k,
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v,
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ctx.sm_scale,
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o,
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do_scaled,
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dq,
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dk,
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dv,
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l,
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m,
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delta,
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q.stride(0),
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q.stride(1),
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q.stride(2),
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q.stride(3),
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k.stride(0),
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k.stride(1),
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k.stride(2),
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k.stride(3),
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v.stride(0),
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v.stride(1),
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v.stride(2),
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v.stride(3),
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q.shape[0],
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q.shape[1],
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q.shape[2],
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ctx.grid[0],
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BLOCK_M=ctx.BLOCK,
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BLOCK_N=ctx.BLOCK,
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BLOCK_DMODEL=ctx.BLOCK_DMODEL,
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num_warps=num_warps,
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num_stages=1,
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)
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return dq.to(q.dtype), dk, dv, None
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attention = _attention.apply
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