433 lines
17 KiB
C++
433 lines
17 KiB
C++
#include "common.h"
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#include "flash_attn.h"
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#include "gemm.h"
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namespace {
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// [NOTE]: extend attention for CPU
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// 1. BLOCK_M and BLOCK_N tuned for various seq lengths
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// 2. can handle non-contiguous k_extend and v_extend
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// 3. computes attention for prefix and extend separately
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// 4. TODO: apply head dimension blocking to optimize GQA
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//
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template <typename scalar_t, typename index_t, int BLOCK_M, int BLOCK_N>
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void extend_attention_kernel_impl(
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scalar_t* __restrict__ o_extend,
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const scalar_t* __restrict__ q_extend,
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const scalar_t* __restrict__ k_extend,
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const scalar_t* __restrict__ v_extend,
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const scalar_t* __restrict__ k_buffer,
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const scalar_t* __restrict__ v_buffer,
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const index_t* __restrict__ req_to_token,
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const int64_t* __restrict__ req_pool_indices,
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const int64_t* __restrict__ seq_lens,
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const index_t* __restrict__ extend_seq_lens,
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const index_t* __restrict__ extend_start_loc,
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const void* __restrict__ buffer,
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int batches,
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int num_heads,
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int num_heads_kv,
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int head_size,
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int head_size_v,
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int q_strideM,
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int q_strideH,
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int ke_strideN,
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int ke_strideH,
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int ve_strideN,
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int ve_strideH,
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int k_strideN,
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int k_strideH,
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int v_strideN,
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int v_strideH,
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float sm_scale,
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int max_num_reqs,
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int max_context_len,
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int max_total_num_tokens,
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int max_len_extend,
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int buffer_size_per_thread,
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bool is_prefix_skipped) {
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// strides
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const int o_strideM = num_heads * head_size_v;
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const int o_strideH = head_size_v;
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// we use same buffer for packed key and value
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const int ldb_tmp = std::max(head_size, head_size_v);
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const int num_groups = num_heads / num_heads_kv;
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TORCH_CHECK(num_groups * num_heads_kv == num_heads);
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// number of blocks along M
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int MB = div_up(max_len_extend, BLOCK_M);
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// parallel on [batches, num_heads, BM]
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at::parallel_for(0, batches * num_heads * MB, 0, [&](int begin, int end) {
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int bs{0}, head_id{0}, mb{0};
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data_index_init(begin, bs, batches, head_id, num_heads, mb, MB);
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int tid = at::get_thread_num();
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// s_i and s_delta: [BLOCK_M, BLOCK_N]
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float* __restrict__ s_i = reinterpret_cast<float*>((char*)(buffer) + tid * buffer_size_per_thread);
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scalar_t* __restrict__ s_delta = reinterpret_cast<scalar_t*>(s_i);
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// v_prime: [BLOCK_M, head_size_v]
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float* __restrict__ v_prime = s_i + BLOCK_M * BLOCK_N;
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// Btmp: [BLOCK_N, max(head_size, head_size_v)]
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scalar_t* __restrict__ Btmp = reinterpret_cast<scalar_t*>(v_prime + BLOCK_M * head_size_v);
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// init Btmp just once for each thread to prevent NaN
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fill_stub(Btmp, 0.f, BLOCK_N * ldb_tmp);
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alignas(64) float s_prime[BLOCK_M];
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alignas(64) float m_prime[BLOCK_M];
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for (int i = begin; i < end; ++i) {
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// seq_len = prefix + extend
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int head_kv_id = head_id / num_groups;
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int seq_len = seq_lens[bs];
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int seq_len_extend = extend_seq_lens[bs];
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int seq_len_prefix = seq_len - seq_len_extend;
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int seq_extend_start_loc = extend_start_loc[bs];
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int req_pool_id = req_pool_indices[bs];
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TORCH_CHECK(seq_len_prefix >= 0, "prefix len < 0!");
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TORCH_CHECK(seq_len <= max_context_len, "seq_len out of scope!");
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TORCH_CHECK(req_pool_id < max_num_reqs, "req_pool_id out of scope!");
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if (is_prefix_skipped) {
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TORCH_CHECK(seq_len_prefix == 0, "extend attention: expect seq_len_prefix to be 0, got ", seq_len_prefix);
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}
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// offset and size in MB
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int m = mb * BLOCK_M;
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int m_size = std::min(BLOCK_M, seq_len_extend - m);
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if (m_size <= 0) {
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data_index_step(bs, batches, head_id, num_heads, mb, MB);
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continue;
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}
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// get query
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const scalar_t* __restrict__ q_ptr = q_extend + (seq_extend_start_loc + m) * q_strideM + head_id * q_strideH;
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// init v', s' and m'
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fill_stub(v_prime, 0.f, m_size * head_size_v);
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fill_stub(s_prime, 0.f, m_size);
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fill_stub(m_prime, -std::numeric_limits<scalar_t>::infinity(), m_size);
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// stage 1: compute scores with prefix
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for (int n = 0; n < seq_len_prefix; n += BLOCK_N) {
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int n_size = std::min(BLOCK_N, seq_len_prefix - n);
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// `n_size` is K in 2nd gemm, pad to TILE_K;
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const int padded_n_size = div_up(n_size, TILE_K) * TILE_K;
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// get key and pack
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pack_vnni<scalar_t, index_t>(
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/* dst */ Btmp,
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/* src */ k_buffer + head_kv_id * k_strideH,
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/* ind */ req_to_token + req_pool_id * max_context_len + n,
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/* N */ n_size,
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/* K */ head_size,
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/* ld_src */ k_strideN,
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/* ld_dst */ BLOCK_N);
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// calculate s_i <- Q @ K
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at::native::cpublas::brgemm(
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/* M */ m_size,
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/* N */ n_size,
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/* K */ head_size,
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/* lda */ q_strideM,
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/* ldb */ BLOCK_N,
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/* ldc */ BLOCK_N,
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/* add_C */ false,
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/* A */ q_ptr,
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/* B */ Btmp,
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/* C */ s_i);
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flash_attn_softmax<scalar_t, BLOCK_M, BLOCK_N>::apply(
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s_i, s_delta, v_prime, s_prime, m_prime, m_size, n_size, padded_n_size, head_size_v, sm_scale);
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// get value and pack
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pack_vnni2<scalar_t, index_t>(
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/* dst */ Btmp,
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/* src */ v_buffer + head_kv_id * v_strideH,
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/* ind */ req_to_token + req_pool_id * max_context_len + n,
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/* K */ n_size,
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/* N */ head_size_v,
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/* ld_src */ v_strideN,
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/* ld_dst */ head_size_v);
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// calculate V' <- s_delta @ V + V'
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at::native::cpublas::brgemm(
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/* M */ m_size,
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/* N */ head_size_v,
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/* K */ padded_n_size, // n_size
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/* lda */ BLOCK_N,
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/* ldb */ head_size_v,
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/* ldc */ head_size_v,
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/* add_C */ true,
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/* A */ s_delta,
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/* B */ Btmp,
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/* C */ v_prime);
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} // loop with seq_len_prefix
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// stage 2: compute the triangle part
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int num_keys = std::min(seq_len_extend, m + BLOCK_M);
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for (int n = 0; n < num_keys; n += BLOCK_N) {
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int n_size = std::min(BLOCK_N, num_keys - n);
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// `n_size` is K in 2nd gemm, pad to TILE_K;
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const int padded_n_size = div_up(n_size, TILE_K) * TILE_K;
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// get key and pack
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pack_vnni<scalar_t>(
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/* dst */ Btmp,
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/* src */ k_extend + (seq_extend_start_loc + n) * ke_strideN + head_kv_id * ke_strideH,
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/* N */ n_size,
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/* K */ head_size,
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/* ld_src */ ke_strideN,
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/* ld_dst */ BLOCK_N);
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// calculate s_i <- Q @ K
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at::native::cpublas::brgemm(
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/* M */ m_size,
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/* N */ n_size,
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/* K */ head_size,
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/* lda */ q_strideM,
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/* ldb */ BLOCK_N,
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/* ldc */ BLOCK_N,
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/* add_C */ false,
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/* A */ q_ptr,
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/* B */ Btmp,
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/* C */ s_i);
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// apply causal mask
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if (num_keys - n <= BLOCK_N) {
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for (int row = 0; row < m_size; ++row) {
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int last_col = m + row - n;
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// fill [last_col + 1, n_size) to -inf
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float* row_ptr = s_i + row * BLOCK_N;
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fill_stub(row_ptr + last_col + 1, -std::numeric_limits<float>::infinity(), n_size - last_col - 1);
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}
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}
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flash_attn_softmax<scalar_t, BLOCK_M, BLOCK_N>::apply(
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s_i, s_delta, v_prime, s_prime, m_prime, m_size, n_size, padded_n_size, head_size_v, sm_scale);
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// get value and pack
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pack_vnni2<scalar_t>(
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/* dst */ Btmp,
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/* src */ v_extend + (seq_extend_start_loc + n) * ve_strideN + head_kv_id * ve_strideH,
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/* K */ n_size,
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/* N */ head_size_v,
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/* ld_src */ ve_strideN,
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/* ld_dst */ head_size_v);
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// calculate V' <- s_delta @ V + V'
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at::native::cpublas::brgemm(
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/* M */ m_size,
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/* N */ head_size_v,
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/* K */ padded_n_size, // n_size
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/* lda */ BLOCK_N,
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/* ldb */ head_size_v,
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/* ldc */ head_size_v,
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/* add_C */ true,
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/* A */ s_delta,
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/* B */ Btmp,
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/* C */ v_prime);
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} // loop with seq_len_extend
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scalar_t* __restrict__ out_ptr = o_extend + (seq_extend_start_loc + m) * o_strideM + head_id * o_strideH;
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for (int row = 0; row < m_size; ++row) {
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float s = 1 / s_prime[row];
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copy_stub<scalar_t>(out_ptr + row * o_strideM, v_prime + row * head_size_v, s, head_size_v);
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}
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// move to the next index
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data_index_step(bs, batches, head_id, num_heads, mb, MB);
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}
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at::native::cpublas::brgemm_release();
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});
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}
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} // anonymous namespace
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template <int BLOCK_M, int BLOCK_N>
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inline int resize_buffer(at::Tensor& buffer, int num_threads, int head_size, int head_size_v) {
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static_assert(BLOCK_M <= BLOCK_N, "Make sure BLOCK_M <= BLOCK_N to prevent buffer overflows during causal masking");
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const int size_per_thread =
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/* s_i */ BLOCK_M * BLOCK_N * sizeof(float) +
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/* v_prime */ BLOCK_M * head_size_v * sizeof(float) +
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/* Btmp */ BLOCK_N * std::max(head_size, head_size_v) * sizeof(uint16_t);
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buffer.resize_({num_threads, size_per_thread});
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return size_per_thread;
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}
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#define LAUNCH_EXTEND_ATTENTION_KERNEL(BLOCK_M, BLOCK_N) \
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do { \
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int sz = resize_buffer<BLOCK_M, BLOCK_N>(buffer, num_threads, head_size, head_size_v); \
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\
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extend_attention_kernel_impl<scalar_t, index_t, BLOCK_M, BLOCK_N>( \
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o_extend.data_ptr<scalar_t>(), \
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q_extend.data_ptr<scalar_t>(), \
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k_extend.data_ptr<scalar_t>(), \
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v_extend.data_ptr<scalar_t>(), \
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k_buffer.data_ptr<scalar_t>(), \
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v_buffer.data_ptr<scalar_t>(), \
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req_to_token.data_ptr<index_t>(), \
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req_pool_indices.data_ptr<int64_t>(), \
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seq_lens.data_ptr<int64_t>(), \
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extend_seq_lens.data_ptr<index_t>(), \
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extend_start_loc.data_ptr<index_t>(), \
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buffer.data_ptr(), \
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num_seqs, \
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num_heads, \
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num_heads_kv, \
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head_size, \
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head_size_v, \
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q_strideM, \
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q_strideH, \
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ke_strideN, \
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ke_strideH, \
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ve_strideN, \
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ve_strideH, \
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k_strideN, \
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k_strideH, \
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v_strideN, \
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v_strideH, \
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sm_scale, \
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max_num_reqs, \
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max_context_len, \
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max_total_num_tokens, \
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max_len_extend, \
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sz, \
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is_prefix_skipped); \
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} while (0)
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// q_extend, k_extend, v_extend, o_extend: contiguous tensors
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// k_buffer, v_buffer: (prefix + extend) tensors in mem_manager
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//
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// q_extend: [num_tokens, num_heads, head_size]
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// k_extend: [num_extend_tokens, num_heads, head_size]
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// v_extend: [num_extend_tokens, num_heads, head_size]
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// o_extend: [num_tokens, num_heads, head_size]
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// k_buffer: [max_total_num_tokens, num_heads, head_size]
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// v_buffer: [max_total_num_tokens, num_heads, head_size]
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// req_to_token: [max_num_reqs, max_context_len] int32 or int64
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// req_pool_indices: [num_seqs] int64
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// seq_lens: [num_seqs] int64
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// extend_seq_lens: [num_seqs]
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// extend_start_loc: [num_seqs]
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//
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void extend_attention_cpu(
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at::Tensor& q_extend,
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at::Tensor& k_extend,
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at::Tensor& v_extend,
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at::Tensor& o_extend,
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at::Tensor& k_buffer,
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at::Tensor& v_buffer,
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at::Tensor& req_to_token,
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at::Tensor& req_pool_indices,
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at::Tensor& seq_lens,
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at::Tensor& extend_seq_lens,
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at::Tensor& extend_start_loc,
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int64_t max_len_extend,
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double sm_scale,
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double logit_cap) {
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RECORD_FUNCTION(
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"sgl-kernel::extend_attention_cpu",
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std::vector<c10::IValue>(
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{q_extend,
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k_extend,
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v_extend,
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o_extend,
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k_buffer,
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v_buffer,
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req_to_token,
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req_pool_indices,
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seq_lens,
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extend_seq_lens,
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extend_start_loc,
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max_len_extend}));
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CHECK_LAST_DIM_CONTIGUOUS_INPUT(q_extend);
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CHECK_INPUT(o_extend);
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CHECK_LAST_DIM_CONTIGUOUS_INPUT(k_extend);
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CHECK_LAST_DIM_CONTIGUOUS_INPUT(v_extend);
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CHECK_LAST_DIM_CONTIGUOUS_INPUT(k_buffer);
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CHECK_LAST_DIM_CONTIGUOUS_INPUT(v_buffer);
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int num_seqs = seq_lens.size(0);
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int max_num_reqs = req_to_token.size(0);
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int max_context_len = req_to_token.size(1);
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int max_total_num_tokens = k_buffer.size(0);
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int num_heads = q_extend.size(1);
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int num_heads_kv = k_extend.size(1);
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int head_size = q_extend.size(2);
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int head_size_v = v_extend.size(2);
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// strides for q_extend, k_extend and v_extend
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int q_strideM = q_extend.stride(0);
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int q_strideH = q_extend.stride(1);
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int ke_strideN = k_extend.stride(0);
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int ke_strideH = k_extend.stride(1);
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int ve_strideN = v_extend.stride(0);
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int ve_strideH = v_extend.stride(1);
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// strides for k_buffer and v_buffer
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int k_strideN = k_buffer.stride(0);
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int k_strideH = k_buffer.stride(1);
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int v_strideN = v_buffer.stride(0);
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int v_strideH = v_buffer.stride(1);
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// check sizes
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CHECK_EQ(req_pool_indices.size(0), num_seqs);
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CHECK_EQ(extend_seq_lens.size(0), num_seqs);
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CHECK_EQ(extend_start_loc.size(0), num_seqs);
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CHECK_EQ(v_extend.size(1), num_heads_kv);
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CHECK_EQ(k_buffer.size(1), v_buffer.size(1));
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// MLA will skip prefix part
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const bool is_prefix_skipped = k_buffer.size(1) != num_heads_kv;
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// check index data types
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const auto index_dtype = req_to_token.scalar_type();
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TORCH_CHECK(
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index_dtype == at::kInt || index_dtype == at::kLong,
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"extend: expect req_to_token to be int32 or int64, got ",
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index_dtype);
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TORCH_CHECK(seq_lens.scalar_type() == at::kLong, "extend: expect req_lens to be int64, got ", seq_lens.scalar_type());
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TORCH_CHECK(
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req_pool_indices.scalar_type() == at::kLong,
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"extend: expect req_pool_indices to be int64, got ",
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req_pool_indices.scalar_type());
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TORCH_CHECK(
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extend_seq_lens.scalar_type() == index_dtype && extend_start_loc.scalar_type() == index_dtype,
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"extend: expect extend_seq_lens and extend_start_loc to have same dtype as req_to_token.");
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// D and DV need to be 32x as we transpose by 512-bit
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TORCH_CHECK(head_size % 32 == 0, "invalid head_size ", head_size);
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TORCH_CHECK(head_size_v % 32 == 0, "invalid head_size_v ", head_size_v);
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int num_threads = at::get_num_threads();
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auto buffer = at::empty({}, q_extend.options().dtype(at::kChar));
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AT_DISPATCH_REDUCED_FLOATING_TYPES(q_extend.scalar_type(), "extend_attention_kernel", [&] {
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AT_DISPATCH_INDEX_TYPES(index_dtype, "extend_attention_indices", [&] {
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if (max_len_extend <= 256) {
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LAUNCH_EXTEND_ATTENTION_KERNEL(32, 64);
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} else if (max_len_extend <= 1024) {
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LAUNCH_EXTEND_ATTENTION_KERNEL(128, 256);
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} else if (max_len_extend <= 4096) {
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LAUNCH_EXTEND_ATTENTION_KERNEL(256, 768);
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} else { // max_len_extend > 4096
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LAUNCH_EXTEND_ATTENTION_KERNEL(512, 768);
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}
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});
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});
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}
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