Add nvfp4 scaled mm benchmark. (#8401)

sgl-kernel/benchmark/bench_nvfp4_scaled_gemm.py

@@ -0,0 +1,172 @@
+import argparse
+import copy
+import itertools
+
+import torch
+import triton
+from sgl_kernel import cutlass_scaled_fp4_mm, scaled_fp4_quant
+
+FLOAT4_E2M1_MAX = 6.0
+FLOAT8_E4M3_MAX = torch.finfo(torch.float8_e4m3fn).max
+
+# Weight Shapes are in the format
+# ([K, N], TP_SPLIT_DIM)
+# Example:
+#  A shape of ([14336, 4096], 0) indicates the following GEMM shape,
+#   - TP1 : K = 14336, N = 4096
+#   - TP2 : K = 7168, N = 4096
+#  A shape of ([4096, 6144], 1) indicates the following GEMM shape,
+#   - TP1 : K = 4096, N = 6144
+#   - TP4 : K = 4096, N = 1536
+
+# TP1 shapes
+WEIGHT_SHAPES = {
+    "meta-llama/Llama-3.1-8B-Instruct": [
+        ([4096, 6144], 1),
+        ([4096, 4096], 0),
+        ([4096, 28672], 1),
+        ([14336, 4096], 0),
+    ],
+    "meta-llama/Llama-3.3-70B-Instruct": [
+        ([8192, 10240], 1),
+        ([8192, 8192], 0),
+        ([8192, 57344], 1),
+        ([28672, 8192], 0),
+    ],
+    "mistralai/Mistral-Large-Instruct-2407": [
+        ([12288, 14336], 1),
+        ([12288, 12288], 0),
+        ([12288, 57344], 1),
+        ([28672, 12288], 0),
+    ],
+    "Qwen/Qwen2.5-7B-Instruct": [
+        ([3584, 4608], 1),
+        ([3584, 3584], 0),
+        ([3584, 37888], 1),
+        ([18944, 3584], 0),
+    ],
+    "Qwen/Qwen2.5-32B-Instruct": [
+        ([5120, 7168], 1),
+        ([5120, 5120], 0),
+        ([5120, 55296], 1),
+        ([27648, 5120], 0),
+    ],
+    "Qwen/Qwen2.5-72B-Instruct": [
+        ([8192, 10240], 1),
+        ([8192, 8192], 0),
+        ([8192, 59136], 1),
+        ([29568, 8192], 0),
+    ],
+    "deepseek-ai/DeepSeek-Coder-V2-Lite-Instruct": [
+        ([2048, 3072], 1),
+        ([2048, 4096], 1),
+        ([2048, 2048], 0),
+        ([2048, 576], 0),
+        ([2048, 21888], 1),
+        ([10944, 2048], 0),
+        ([2048, 2816], 1),
+        ([1408, 2048], 0),
+    ],
+}
+
+
+@triton.testing.perf_report(
+    triton.testing.Benchmark(
+        x_names=["batch_size"],
+        x_vals=[1, 16, 64, 128, 256, 512, 1024, 2048],
+        x_log=False,
+        line_arg="provider",
+        line_vals=[
+            "sglang-fp4-fp16",
+            "sglang-fp4-bf16",
+        ],
+        line_names=[
+            "sglang-fp4-fp16",
+            "sglang-fp4-bf16",
+        ],
+        styles=[("green", "-"), ("blue", "-")],
+        ylabel="TFLOPS",
+        plot_name="fp4 block scaled matmul",
+        args={},
+    )
+)
+def benchmark(batch_size, provider, N, K):
+    # M, N, K = batch_size, 4096, 8192
+    run_step = 100
+    dtype = torch.float16 if "fp16" in provider else torch.bfloat16
+    M = batch_size
+    a = torch.randn((M, K), dtype=dtype, device="cuda")
+    b = torch.randn((N, K), dtype=dtype, device="cuda")
+    a_global_scale = (
+        (FLOAT8_E4M3_MAX * FLOAT4_E2M1_MAX) / torch.amax(a.flatten(), dim=-1)
+    ).to(torch.float32)
+    b_global_scale = (
+        (FLOAT8_E4M3_MAX * FLOAT4_E2M1_MAX) / torch.amax(b.flatten(), dim=-1)
+    ).to(torch.float32)
+    alpha = 1.0 / (a_global_scale * b_global_scale)
+    a_fp4, a_scale_interleaved = scaled_fp4_quant(a, a_global_scale)
+    b_fp4, b_scale_interleaved = scaled_fp4_quant(b, b_global_scale)
+
+    start_event = torch.cuda.Event(enable_timing=True)
+    end_event = torch.cuda.Event(enable_timing=True)
+
+    # Bridging the gap between CPU and GPU
+    for _ in range(25):
+        c = a @ b.t()
+    # Warmup
+    for _ in range(5):
+        cutlass_scaled_fp4_mm(
+            a_fp4, b_fp4, a_scale_interleaved, b_scale_interleaved, alpha, dtype
+        )
+    start_event.record()
+    for _ in range(run_step):
+        cutlass_scaled_fp4_mm(
+            a_fp4, b_fp4, a_scale_interleaved, b_scale_interleaved, alpha, dtype
+        )
+    end_event.record()
+    end_event.synchronize()
+    torch.cuda.synchronize()
+    ms = start_event.elapsed_time(end_event) / run_step
+
+    tflops = lambda ms: (2 * M * N * K) * 1e-9 / ms
+    return tflops(ms)
+
+
+def prepare_shapes(args):
+    KN_model_names = []
+    models_tps = list(itertools.product(args.models, args.tp_sizes))
+    for model, tp_size in models_tps:
+        assert model in WEIGHT_SHAPES
+        for KN, tp_split_dim in copy.deepcopy(WEIGHT_SHAPES[model]):
+            KN[tp_split_dim] = KN[tp_split_dim] // tp_size
+            KN.append(model)
+            KN_model_names.append(KN)
+    return KN_model_names
+
+
+if __name__ == "__main__":
+    parser = argparse.ArgumentParser()
+    parser.add_argument(
+        "--models",
+        nargs="+",
+        type=str,
+        default=["meta-llama/Llama-3.1-8B-Instruct"],
+        help="List of models to benchmark",
+    )
+    parser.add_argument(
+        "--tp-sizes",
+        nargs="+",
+        type=int,
+        default=[1],
+        help="List of tensor parallel sizes",
+    )
+    args = parser.parse_args()
+
+    KN_model_names = prepare_shapes(args)
+    for K, N, model_name in KN_model_names:
+        print(f"{model_name} N={N} K={K}: ")
+        benchmark.run(
+            print_data=True, show_plots=True, save_path="bench_fp4_res", N=N, K=K
+        )
+
+    print("Benchmark finished!")