AstrAI/csrc/kernels/attn_prefill.cu

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#include "attn_prefill_split_q.cuh"
#include "attn_entry_utils.cuh"
#ifndef ASTRAI_NO_MMA
#include "attn_prefill_split_q_mma.cuh"
#endif
template <int HEAD_DIM>
static void dispatch_prefill(AttentionParams<bf16>& p) {
#ifndef ASTRAI_NO_MMA
constexpr int WARPS = 4, BR = 16;
// KV tile: bigger tiles amortize the per-tile cp.async wait + barrier +
// loop overhead over more tensor-core work (this kernel is latency-bound,
// not compute/bandwidth-bound), so BC=32 wins ~6-8% over BC=16 for
// D<=128. D=256 stays at 16: BC=32 double-buffered would need 64KB smem,
// over the 48KB static cap.
constexpr int BC = (HEAD_DIM <= 128) ? 32 : 16;
dim3 grid((p.q_len + BR * WARPS - 1) / (BR * WARPS), p.q_head, p.batch);
dim3 block(WARPS * 32, 1, 1);
// Static shared memory — double-buffered K/V only (no sQ: Q goes direct
// to registers). 2*BC*LD bf16 each for sK and sV → 4*BC*HEAD_DIM*2 bytes.
// Occupancy is smem-capped: D=64→3 blocks/SM (16KB), D=128→1 (32KB),
// D=256→1 (32KB, BC=16).
attn_prefill_split_q_mma_kernel<HEAD_DIM, WARPS, BC><<<grid, block>>>(p);
#else
constexpr int G = 8, ROWS = 32, P_BC = 32;
dim3 grid((p.q_len + ROWS - 1) / ROWS, p.q_head, p.batch);
dim3 block(G, ROWS, 1);
attn_prefill_split_q_kernel_t<HEAD_DIM, G, ROWS, P_BC><<<grid, block>>>(p);
#endif
}
torch::Tensor attn_prefill(
torch::Tensor q,
torch::Tensor k,
torch::Tensor v,
c10::optional<torch::Tensor> mask,
int64_t causal_offset,
double scale,
int64_t layout
) {
AttentionParams<bf16> p;
attn_pack_params(q, k, v, mask, causal_offset, scale, layout, p);
TORCH_CHECK(p.head_dim % 16 == 0, "head_dim must be multiple of 16");
auto O = torch::empty_strided(q.sizes(), q.strides(), q.options());
auto O_view = (layout == 1) ? O.transpose(1, 2) : O;
p.o = (bf16*)O_view.data_ptr();
dispatch_head_dim(p.head_dim, [&]<int D>() { dispatch_prefill<D>(p); });
return O;
}
PYBIND11_MODULE(TORCH_EXTENSION_NAME, m) {
m.def("attn_prefill", &attn_prefill,
py::arg("q"),
py::arg("k"),
py::arg("v"),
py::arg("mask") = py::none(),
py::arg("causal_offset") = -1,
py::arg("scale") = 0.0,
py::arg("layout") = 0,
"GQA prefill (tensor-core mma on sm_80+, scalar fallback)");
}