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Rahul Batra
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import argparse | ||
import torch | ||
import sys | ||
import pytest | ||
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import triton | ||
import triton.language as tl | ||
from triton.runtime import driver | ||
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def is_cuda(): | ||
return triton.runtime.driver.active.get_current_target().backend == "cuda" | ||
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def is_hip(): | ||
return triton.runtime.driver.active.get_current_target().backend == "hip" | ||
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def is_cdna(): | ||
return is_hip() and triton.runtime.driver.active.get_current_target().arch in ('gfx940', 'gfx941', 'gfx942', | ||
'gfx90a', 'gfx908') | ||
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def get_cuda_autotune_config(): | ||
return [ | ||
triton.Config({}, num_warps=4, num_stages=1), | ||
triton.Config({}, num_warps=8, num_stages=1), | ||
triton.Config({}, num_warps=16, num_stages=1), | ||
] | ||
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def get_hip_autotune_config(): | ||
return [ | ||
triton.Config({'waves_per_eu': 1}, num_warps=4, num_stages=1), | ||
triton.Config({'waves_per_eu': 1}, num_warps=8, num_stages=1), | ||
triton.Config({'waves_per_eu': 1}, num_warps=16, num_stages=1), | ||
triton.Config({'waves_per_eu': 2}, num_warps=4, num_stages=1), | ||
triton.Config({'waves_per_eu': 2}, num_warps=8, num_stages=1), | ||
triton.Config({'waves_per_eu': 2}, num_warps=16, num_stages=1), | ||
triton.Config({'waves_per_eu': 4}, num_warps=4, num_stages=1), | ||
triton.Config({'waves_per_eu': 4}, num_warps=8, num_stages=1), | ||
triton.Config({'waves_per_eu': 4}, num_warps=16, num_stages=1), | ||
] | ||
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def get_autotune_config(): | ||
if is_cuda(): | ||
return get_cuda_autotune_config() | ||
else: | ||
return get_hip_autotune_config() | ||
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@triton.autotune( | ||
configs=get_autotune_config(), | ||
key=['n_rows', 'n_cols'], | ||
use_cuda_graph=True | ||
) | ||
@triton.jit | ||
def softmax_kernel(output_ptr, input_ptr, input_row_stride, output_row_stride, n_rows, n_cols, BLOCK_SIZE: tl.constexpr): | ||
row_start = tl.program_id(0) | ||
row_step = tl.num_programs(0) | ||
for row_idx in tl.range(row_start, n_rows, row_step): | ||
row_start_ptr = input_ptr + row_idx * input_row_stride | ||
col_offsets = tl.arange(0, BLOCK_SIZE) | ||
input_ptrs = row_start_ptr + col_offsets | ||
mask = col_offsets < n_cols | ||
row = tl.load(input_ptrs, mask=mask, other=-float('inf')) | ||
row_minus_max = row - tl.max(row, axis=0) | ||
numerator = tl.exp(row_minus_max) | ||
denominator = tl.sum(numerator, axis=0) | ||
softmax_output = numerator / denominator | ||
output_row_start_ptr = output_ptr + row_idx * output_row_stride | ||
output_ptrs = output_row_start_ptr + col_offsets | ||
tl.store(output_ptrs, softmax_output, mask=mask) | ||
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device = torch.cuda.current_device() | ||
properties = driver.active.utils.get_device_properties(device) | ||
NUM_SM = properties["multiprocessor_count"] | ||
def softmax(x): | ||
n_rows, n_cols = x.shape | ||
BLOCK_SIZE = triton.next_power_of_2(n_cols) | ||
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y = torch.empty_like(x) | ||
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#Persistent kernel. Simply, set num of programs equal to number of streaming multi-processors | ||
num_programs = min(NUM_SM, n_rows) | ||
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grid = lambda meta: (num_programs, ) | ||
softmax_kernel[grid]( | ||
y, | ||
x, | ||
x.stride(0), | ||
y.stride(0), | ||
n_rows, | ||
n_cols, | ||
BLOCK_SIZE, | ||
) | ||
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return y | ||
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def run_softmax(M, N): | ||
print(f"Running Softmax on shape ({M},{N})") | ||
torch.manual_seed(0) | ||
x = torch.randn(M, N, device='cuda') | ||
y_triton = softmax(x) | ||
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return y_triton | ||
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#pytest | ||
@pytest.mark.parametrize('M, N', [ | ||
(1823, 781), | ||
(1,1), | ||
(128,1), | ||
(1,128), | ||
(8192,8192), | ||
(4096,8192), | ||
(359,1), | ||
(1,359), | ||
(1,131072), | ||
]) | ||
def test_softmax(M, N): | ||
torch.manual_seed(0) | ||
x = torch.randn(M, N, device='cuda') | ||
y_triton = softmax(x) | ||
y_torch = torch.softmax(x, axis=1) | ||
assert torch.allclose(y_triton, y_torch), (y_triton, y_torch) | ||
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#Benchmark | ||
arg_to_torch_dtype = {'fp16': torch.float16, 'bf16': torch.bfloat16, 'fp32': torch.float32} | ||
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def run_benchmark(args): | ||
config = [] | ||
if (args.M_benchmark): | ||
val = args.M_start | ||
x_vals_list = [] | ||
while val <= args.M_end: | ||
x_vals_list.append(val) | ||
val *= args.M_step | ||
mn_args = {'N' : args.N_start} | ||
plot_name=str("softmax-performance_"+args.dtype+"_N"+str(args.N_start) + "_M"+str(args.M_start)+"-"+str(args.M_end)+"-"+str(args.M_step)) | ||
x_names = ['M'] | ||
else: | ||
x_vals_list = [i for i in range(args.N_start, args.N_end, args.N_step)] | ||
mn_args = {'M': args.M_start} | ||
plot_name=str("softmax-performance_"+args.dtype+"_M"+str(args.M_start) + "_N"+str(args.N_start)+"-"+str(args.N_end)+"-"+str(args.N_step)) | ||
x_names = ['N'] | ||
dtype = arg_to_torch_dtype[args.dtype] | ||
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print(plot_name) | ||
config.append(triton.testing.Benchmark( | ||
x_names=x_names, | ||
x_vals=x_vals_list, | ||
line_arg='provider', | ||
line_vals=['triton','torch'], | ||
line_names=[ | ||
"Triton", | ||
"Torch", | ||
], | ||
styles=[('blue','-'),('green','-')], | ||
ylabel="GB/s", | ||
plot_name=plot_name, | ||
args=mn_args, | ||
)) | ||
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@triton.testing.perf_report(config) | ||
def benchmark(M, N, provider): | ||
x = torch.randn(M, N, device='cuda', dtype=dtype) | ||
stream = torch.cuda.Stream() | ||
torch.cuda.set_stream(stream) | ||
if provider == 'torch': | ||
ms = triton.testing.do_bench(lambda: torch.softmax(x, axis=-1)) | ||
if provider == 'triton': | ||
ms = triton.testing.do_bench(lambda: softmax(x)) | ||
gbps = lambda ms: 2 * x.nelement() * x.element_size() * 1e-9 /(ms * 1e-3) | ||
return gbps(ms) | ||
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benchmark.run(save_path=".", show_plots=True,print_data=True) | ||
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def parse_args(): | ||
parser = argparse.ArgumentParser( | ||
prog="Benchmark Softmax", | ||
allow_abbrev=False, | ||
) | ||
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parser.add_argument('-M', "--M_start", default="1", type=int) | ||
parser.add_argument('-Ms', "--M_step", default="2", type=int) | ||
parser.add_argument('-Me', "--M_end", default="512", type=int) | ||
parser.add_argument('-Mb', "--M_benchmark", default=False, type=bool) | ||
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parser.add_argument('-N', "--N_start", default="8192", type=int) | ||
parser.add_argument('-Ns', "--N_step", default="1024", type=int) | ||
parser.add_argument('-Ne',"--N_end", default="65536", type=int) | ||
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parser.add_argument('-d', "--dtype", default="fp16") | ||
parser.add_argument('-nb', "--no_benchmark", default=False, type=bool) | ||
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return parser.parse_args() | ||
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def main(): | ||
args = parse_args() | ||
if args.no_benchmark: | ||
run_softmax(args.M_start, args.N_start) | ||
else: | ||
run_benchmark(args) | ||
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if __name__ == "__main__": | ||
sys.exit(main()) |