# Copyright (c) Microsoft Corporation. # Licensed under the MIT License. from tilelang import tvm as tvm import tilelang.testing import tilelang as tl def matmul( M, N, K, block_M, block_N, block_K, trans_A, trans_B, in_dtype, out_dtype, accum_dtype, num_stages, threads, ): A_shape = (K, M) if trans_A else (M, K) B_shape = (N, K) if trans_B else (K, N) A_shared_shape = (block_K, block_M) if trans_A else (block_M, block_K) B_shared_shape = (block_N, block_K) if trans_B else (block_K, block_N) import tilelang.language as T @T.prim_func def main( A: T.Buffer(A_shape, in_dtype), B: T.Buffer(B_shape, in_dtype), C: T.Buffer((M, N), out_dtype), ): with T.Kernel(T.ceildiv(N, block_N), T.ceildiv(M, block_M), threads=threads) as (bx, by): A_shared = T.alloc_shared(A_shared_shape, in_dtype) B_shared = T.alloc_shared(B_shared_shape, in_dtype) C_local = T.alloc_fragment((block_M, block_N), accum_dtype) T.clear(C_local) for k in T.Pipelined(T.ceildiv(K, block_K), num_stages=num_stages): if trans_A: T.copy(A[k * block_K, by * block_M], A_shared) else: T.copy(A[by * block_M, k * block_K], A_shared) if trans_B: T.copy(B[bx * block_N, k * block_K], B_shared) else: T.copy(B[k * block_K, bx * block_N], B_shared) T.gemm(A_shared, B_shared, C_local, trans_A, trans_B) T.copy(C_local, C[by * block_M, bx * block_N]) return main def run_gemm( M, N, K, trans_A, trans_B, in_dtype, out_dtype, dtypeAccum, block_M, block_N, block_K, num_stages=3, num_threads=128, ): program = matmul( M, N, K, block_M, block_N, block_K, trans_A, trans_B, in_dtype, out_dtype, dtypeAccum, num_stages, num_threads, ) mod, params = tl.lower(program) mod = tl.Profiler(mod, params, [2], tl.TensorSupplyType.Integer) def ref_program(A, B): import torch if trans_A: A = A.T if trans_B: B = B.T C = torch.matmul(A.to(torch.float), B.to(torch.float)) C = C.to(torch.__getattribute__(out_dtype)) return C mod.assert_allclose(ref_program, atol=1e-2, rtol=1e-2) def test_gemm_f16f16f16_nn(): run_gemm( 512, 1024, 768, False, False, "float16", "float16", "float16", 128, 256, 32, 2, ) def test_gemm_f16f16f32_nn(): run_gemm( 512, 1024, 768, False, False, "float16", "float16", "float32", 128, 128, 32, ) def test_gemm_bf16bf16f32_nn(): run_gemm( 512, 1024, 768, False, False, "bfloat16", "bfloat16", "float32", 128, 128, 32, ) def test_gemm_f32f32f32_nn(): run_gemm( 512, 1024, 768, False, False, "float32", "float32", "float32", 64, 128, 32, ) def test_gemm_i8i8i32_nn(): run_gemm(512, 1024, 768, False, False, "int8", "int8", "int32", 128, 128, 64) def test_gemm_f16f16f16_tn(): run_gemm( 512, 1024, 768, True, False, "float16", "float16", "float16", 128, 256, 32, 2, ) def test_gemm_f16f16f16_nt(): run_gemm( 512, 1024, 768, False, True, "float16", "float16", "float16", 128, 256, 32, 2, ) def test_gemm_i8i8i32_nt(): run_gemm(512, 1024, 768, False, True, "int8", "int8", "int32", 128, 128, 64) def test_gemm_i8i8i32_tn(): run_gemm(512, 1024, 768, True, False, "int8", "int8", "int32", 128, 128, 64) def test_gemm_f64f64f64_nt(): run_gemm(512, 512, 512, False, True, "float64", "float64", "float64", 64, 32, 16) def test_gemm_f32f32f32_nt(): run_gemm( 512, 1024, 768, False, True, "float32", "float32", "float32", 64, 128, 32, ) def test_gemm_f32f32f32_tn(): run_gemm( 512, 1024, 768, True, False, "float32", "float32", "float32", 64, 128, 32, ) def test_pad_aligned_f16f16f16_nn(): run_gemm( 512 - 8, 1024 - 32, 768 - 24, False, False, "float16", "float16", "float16", 128, 256, 32, 2, ) def test_pad_f16f16f16_nn(): run_gemm( 512 - 9, 1024 - 7, 768 - 5, False, False, "float16", "float16", "float16", 128, 256, 32, 2, ) def test_pad_f16f16f32_nn(): run_gemm( 512 + 19, 1024 + 17, 768 + 15, False, False, "float16", "float16", "float32", 128, 64, 32, ) if __name__ == "__main__": # tilelang.testing.main() run_gemm( 512, 1024, 768, False, True, "float16", "float16", "float16", 128, 256, 32, 2, )