import os import sys import torch import triton from utils import QUANTILES from utils import SingleBenchmarkRunInput from utils import SingleBenchmarkRunOutput from utils import _test_memory from utils import parse_benchmark_script_args from utils import run_benchmarks from liger_kernel.utils import infer_device device = infer_device() sys.path.insert(0, os.path.abspath(os.path.join(os.path.dirname(__file__), "../.."))) ############################################################################# # Test the memory consumption of the linear fused cross entropy loss ############################################################################# def bench_memory_fused_linear_simpo_loss( input: SingleBenchmarkRunInput, ) -> SingleBenchmarkRunOutput: from test.chunked_loss.test_simpo_loss import LigerLMHeadSimPO from test.chunked_loss.test_simpo_loss import TorchLMHeadCPO B = input.x T = input.extra_benchmark_config["T"] H = input.extra_benchmark_config["H"] V = input.extra_benchmark_config["V"] dtype = input.extra_benchmark_config["dtype"] provider = input.kernel_provider # Instantiate once and retrieve the first output only torch_lm_head_simpo = TorchLMHeadCPO(H=H, V=V, dtype=dtype).to(device) liger_lm_head_simpo = LigerLMHeadSimPO(H=H, V=V, dtype=dtype).to(device) torch_fwd = lambda x, target: torch_lm_head_simpo(x, target)[0] liger_fwd = lambda x, target: liger_lm_head_simpo(x, target)[0] _input = torch.randn(B, T, H, requires_grad=True, dtype=dtype, device=device) target = torch.randint(V, (B, T), dtype=torch.long, device=device) def fwd(): if provider == "liger": return liger_fwd(_input, target) elif provider == "huggingface": return torch_fwd(_input, target) def full(): y = fwd() y.backward() mem_50, mem_20, mem_80 = _test_memory(full, _iter=10, quantiles=QUANTILES) return SingleBenchmarkRunOutput( y_20=mem_20, y_50=mem_50, y_80=mem_80, ) # ############################################################################# # # Test the speed of the fused linear cross entropy loss # ############################################################################# def bench_speed_fused_linear_simpo_loss( input: SingleBenchmarkRunInput, ) -> SingleBenchmarkRunOutput: from test.chunked_loss.test_simpo_loss import LigerLMHeadSimPO from test.chunked_loss.test_simpo_loss import TorchLMHeadCPO B = input.x T = input.extra_benchmark_config["T"] H = input.extra_benchmark_config["H"] V = input.extra_benchmark_config["V"] dtype = input.extra_benchmark_config["dtype"] provider = input.kernel_provider mode = input.kernel_operation_mode # Instantiate once and retrieve the first output only torch_lm_head_simpo = TorchLMHeadCPO(H=H, V=V, dtype=dtype).to(device) liger_lm_head_simpo = LigerLMHeadSimPO(H=H, V=V, dtype=dtype).to(device) torch_fwd = lambda x, target: torch_lm_head_simpo(x, target)[0] liger_fwd = lambda x, target: liger_lm_head_simpo(x, target)[0] _input = torch.randn(B, T, H, requires_grad=True, dtype=dtype, device=device) target = torch.randint(V, (B, T), dtype=torch.long, device=device) def fwd(): if provider == "liger": return liger_fwd(_input, target) elif provider == "huggingface": return torch_fwd(_input, target) if mode == "forward": ms_50, ms_20, ms_80 = triton.testing.do_bench( fwd, rep=100, quantiles=QUANTILES, ) elif mode == "backward": y = fwd() ms_50, ms_20, ms_80 = triton.testing.do_bench( lambda: y.backward(retain_graph=True), grad_to_none=[_input], rep=100, quantiles=QUANTILES, ) elif mode == "full": def full(): y = fwd() y.backward() ms_50, ms_20, ms_80 = triton.testing.do_bench( full, rep=100, quantiles=QUANTILES, ) return SingleBenchmarkRunOutput( y_20=ms_20, y_50=ms_50, y_80=ms_80, ) if __name__ == "__main__": args = parse_benchmark_script_args() common_configs = { "kernel_name": "fused_linear_simpo_loss", "x_name": "B", "x_label": "B", "x_values": [2**i for i in range(1, 5)], "kernel_providers": ["liger", "huggingface"], "extra_benchmark_configs": [ { "T": 1024, "H": 4096, "V": 128256, "mode": "forward", "dtype": torch.bfloat16, } ], "overwrite": args.overwrite, } run_benchmarks( bench_test_fn=bench_speed_fused_linear_simpo_loss, kernel_operation_modes=["forward", "full", "backward"], metric_name="speed", metric_unit="ms", **common_configs, ) run_benchmarks( bench_test_fn=bench_memory_fused_linear_simpo_loss, kernel_operation_modes=["full"], metric_name="memory", metric_unit="MB", **common_configs, )