Skip to content

Commit

Permalink
[Kernel] Update Cutlass fp8 configs (vllm-project#5144)
Browse files Browse the repository at this point in the history 
Co-authored-by: Varun Sundar Rabindranath <varun@neuralmagic.com>
Co-authored-by: Robert Shaw <114415538+robertgshaw2-neuralmagic@users.noreply.github.com>
  • Loading branch information
@varun-sundar-rabindranath @robertgshaw2-neuralmagic @joerunde
3 people authored and joerunde committed Jun 4, 2024
1 parent 4f7c5a1 commit c545c94
Show file tree
Hide file tree
Showing 4 changed files with 480 additions and 15 deletions.
352 changes: 352 additions & 0 deletions benchmarks/cutlass_benchmarks/w8a8_benchmarks.py
View file
Original file line number Diff line number Diff line change
@@ -0,0 +1,352 @@
import argparse
import copy
import itertools
import pickle as pkl
import time
from typing import Callable, Iterable, List, Tuple

import torch
import torch.utils.benchmark as TBenchmark
from torch.utils.benchmark import Measurement as TMeasurement
from weight_shapes import WEIGHT_SHAPES

from vllm import _custom_ops as ops

DEFAULT_MODELS = list(WEIGHT_SHAPES.keys())[1:]
DEFAULT_BATCH_SIZES = [1, 16, 32, 64, 128, 256, 512]
DEFAULT_TP_SIZES = [1]

# helpers


def to_fp8(tensor: torch.tensor) -> torch.tensor:
finfo = torch.finfo(torch.float8_e4m3fn)
return torch.round(tensor.clamp(
min=finfo.min, max=finfo.max)).to(dtype=torch.float8_e4m3fn)


def to_int8(tensor: torch.tensor) -> torch.tensor:
return torch.round(tensor.clamp(min=-128, max=127)).to(dtype=torch.int8)


def make_rand_tensors(dtype: torch.dtype, m: int, n: int,
k: int) -> Tuple[torch.tensor, torch.tensor]:

a = torch.randn((m, k), device='cuda') * 5
b = torch.randn((n, k), device='cuda').t() * 5

if dtype == torch.int8:
return to_int8(a), to_int8(b)
if dtype == torch.float8_e4m3fn:
return to_fp8(a), to_fp8(b)

raise ValueError("unsupported dtype")


# impl


def pytorch_i8_impl(a: torch.tensor, b: torch.tensor, scale_a: torch.tensor,
scale_b: torch.tensor,
out_dtype: torch.dtype) -> torch.tensor:
return torch.mm(a, b)


def pytorch_fp8_impl(a: torch.tensor, b: torch.tensor, scale_a: torch.tensor,
scale_b: torch.tensor,
out_dtype: torch.dtype) -> torch.tensor:
return torch._scaled_mm(a,
b,
scale_a=scale_a,
scale_b=scale_b,
out_dtype=out_dtype)


def pytorch_fp8_impl_fast_accum(a: torch.tensor, b: torch.tensor,
scale_a: torch.tensor, scale_b: torch.tensor,
out_dtype: torch.dtype) -> torch.tensor:
return torch._scaled_mm(a,
b,
scale_a=scale_a,
scale_b=scale_b,
out_dtype=out_dtype,
use_fast_accum=True)


def cutlass_impl(a: torch.tensor, b: torch.tensor, scale_a: torch.tensor,
scale_b: torch.tensor,
out_dtype: torch.dtype) -> torch.tensor:
return ops.cutlass_scaled_mm_dq(a,
b,
scale_a,
scale_b,
out_dtype=out_dtype)


# bench
def bench_fn(a: torch.tensor, b: torch.tensor, scale_a: torch.tensor,
scale_b: torch.tensor, out_dtype: torch.dtype, label: str,
sub_label: str, fn: Callable, description: str) -> TMeasurement:

min_run_time = 1

globals = {
"a": a,
"b": b,
"scale_a": scale_a,
"scale_b": scale_b,
"out_dtype": out_dtype,
"fn": fn,
}
return TBenchmark.Timer(
stmt="fn(a, b, scale_a, scale_b, out_dtype)",
globals=globals,
label=label,
sub_label=sub_label,
description=description,
).blocked_autorange(min_run_time=min_run_time)


def bench_int8(dtype: torch.dtype, m: int, k: int, n: int, label: str,
sub_label: str) -> Iterable[TMeasurement]:
assert dtype == torch.int8
a, b = make_rand_tensors(torch.int8, m, n, k)
scale_a = torch.tensor(1.0, device="cuda", dtype=torch.float32)
scale_b = torch.tensor(1.0, device="cuda", dtype=torch.float32)

timers = []
# pytorch impl
timers.append(
bench_fn(a.to(dtype=torch.bfloat16, device="cuda"),
b.to(dtype=torch.bfloat16, device="cuda"), scale_a, scale_b,
torch.bfloat16, label, sub_label, pytorch_i8_impl,
"pytorch_bf16_bf16_bf16_matmul-no-scales"))

# cutlass impl
timers.append(
bench_fn(a, b, scale_a.to(device="cpu"), scale_b.to(device="cpu"),
torch.bfloat16, label, sub_label, cutlass_impl,
"cutlass_i8_i8_bf16_scaled_mm"))

return timers


def bench_fp8(dtype: torch.dtype, m: int, k: int, n: int, label: str,
sub_label: str) -> Iterable[TMeasurement]:
assert dtype == torch.float8_e4m3fn
a, b = make_rand_tensors(torch.float8_e4m3fn, m, n, k)
scale_a = torch.tensor(1.0, device="cuda", dtype=torch.float32)
scale_b = torch.tensor(1.0, device="cuda", dtype=torch.float32)

timers = []

# pytorch impl: bf16 output, without fp8 fast accum
timers.append(
bench_fn(a, b, scale_a, scale_b, torch.bfloat16, label, sub_label,
pytorch_fp8_impl, "pytorch_fp8_fp8_bf16_scaled_mm"))

# pytorch impl: bf16 output, with fp8 fast accum
timers.append(
bench_fn(a, b, scale_a, scale_b, torch.bfloat16, label, sub_label,
pytorch_fp8_impl_fast_accum,
"pytorch_fp8_fp8_bf16_scaled_mm_fast_accum"))

# pytorch impl: fp16 output, without fp8 fast accum
timers.append(
bench_fn(a, b, scale_a, scale_b, torch.float16, label, sub_label,
pytorch_fp8_impl, "pytorch_fp8_fp8_fp16_scaled_mm"))

# pytorch impl: fp16 output, with fp8 fast accum
timers.append(
bench_fn(a, b, scale_a, scale_b, torch.float16, label, sub_label,
pytorch_fp8_impl_fast_accum,
"pytorch_fp8_fp8_fp16_scaled_mm_fast_accum"))

# cutlass impl: bf16 output
timers.append(
bench_fn(a, b, scale_a.to(device="cpu"), scale_b.to(device="cpu"),
torch.bfloat16, label, sub_label, cutlass_impl,
"cutlass_fp8_fp8_bf16_scaled_mm"))
# cutlass impl: fp16 output
timers.append(
bench_fn(a, b, scale_a.to(device="cpu"), scale_b.to(device="cpu"),
torch.float16, label, sub_label, cutlass_impl,
"cutlass_fp8_fp8_fp16_scaled_mm"))
return timers


def bench(dtype: torch.dtype, m: int, k: int, n: int, label: str,
sub_label: str) -> Iterable[TMeasurement]:
if dtype == torch.int8:
return bench_int8(dtype, m, k, n, label, sub_label)
if dtype == torch.float8_e4m3fn:
return bench_fp8(dtype, m, k, n, label, sub_label)
raise ValueError("unsupported type")


# runner
def print_timers(timers: Iterable[TMeasurement]):
compare = TBenchmark.Compare(timers)
compare.print()


def run(dtype: torch.dtype,
MKNs: Iterable[Tuple[int, int, int]]) -> Iterable[TMeasurement]:

results = []
for m, k, n in MKNs:
timers = bench(dtype, m, k, n, f"scaled-{dtype}-gemm",
f"MKN=({m}x{k}x{n})")
print_timers(timers)
results.extend(timers)

return results


# output makers
def make_output(data: Iterable[TMeasurement],
MKNs: Iterable[Tuple[int, int, int]],
base_description: str,
timestamp=None):

print(f"== All Results {base_description} ====")
print_timers(data)

# pickle all the results
timestamp = int(time.time()) if timestamp is None else timestamp
with open(f"{base_description}-{timestamp}.pkl", "wb") as f:
pkl.dump(data, f)


# argparse runners


def run_square_bench(args):
dim_sizes = list(
range(args.dim_start, args.dim_end + 1, args.dim_increment))
MKNs = list(zip(dim_sizes, dim_sizes, dim_sizes))
data = run(args.dtype, MKNs)

make_output(data, MKNs, f"square_bench-{args.dtype}")


def run_range_bench(args):
dim_sizes = list(range(args.dim_start, args.dim_end, args.dim_increment))
n = len(dim_sizes)
Ms = [args.m_constant] * n if args.m_constant is not None else dim_sizes
Ks = [args.k_constant] * n if args.k_constant is not None else dim_sizes
Ns = [args.n_constant] * n if args.n_constant is not None else dim_sizes
MKNs = list(zip(Ms, Ks, Ns))
data = run(args.dtype, MKNs)

make_output(data, MKNs, f"range_bench-{args.dtype}")


def run_model_bench(args):

print("Benchmarking models:")
for i, model in enumerate(args.models):
print(f"[{i}] {model}")

def model_shapes(model_name: str, tp_size: int) -> List[Tuple[int, int]]:
KNs = []
for KN, tp_split_dim in copy.deepcopy(WEIGHT_SHAPES[model_name]):
KN[tp_split_dim] = KN[tp_split_dim] // tp_size
KNs.append(KN)
return KNs

model_bench_data = []
models_tps = list(itertools.product(args.models, args.tp_sizes))
for model, tp_size in models_tps:
Ms = args.batch_sizes
KNs = model_shapes(model, tp_size)
MKNs = []
for m in Ms:
for k, n in KNs:
MKNs.append((m, k, n))

data = run(args.dtype, MKNs)
model_bench_data.append(data)

# Print all results
for data, model_tp in zip(model_bench_data, models_tps):
model, tp_size = model_tp
print(f"== Results {args.dtype} {model}-TP{tp_size} ====")
print_timers(data)

timestamp = int(time.time())

all_data = []
for d in model_bench_data:
all_data.extend(d)
# pickle all data
with open(f"model_bench-{args.dtype}-{timestamp}.pkl", "wb") as f:
pkl.dump(all_data, f)


if __name__ == '__main__':

def to_torch_dtype(dt):
if dt == "int8":
return torch.int8
if dt == "fp8":
return torch.float8_e4m3fn
raise ValueError("unsupported dtype")

parser = argparse.ArgumentParser(
description="""
Benchmark Cutlass GEMM.
To run square GEMMs:
python3 ./benchmarks/cutlass_benchmarks/w8a8_benchmarks.py --dtype fp8 square_bench --dim-start 128 --dim-end 512 --dim-increment 64
To run constant N and K and sweep M:
python3 ./benchmarks/cutlass_benchmarks/w8a8_benchmarks.py --dtype fp8 range_bench --dim-start 128 --dim-end 512 --dim-increment 64 --n-constant 16384 --k-constant 16384
To run dimensions from a model:
python3 ./benchmarks/cutlass_benchmarks/w8a8_benchmarks.py --dtype fp8 model_bench --models meta-llama/Llama-2-7b-hf --batch-sizes 16 --tp-sizes 1
Output:
- a .pkl file, that is a list of raw torch.benchmark.utils.Measurements for the pytorch and cutlass implementations for the various GEMMs.
""", # noqa: E501
formatter_class=argparse.RawTextHelpFormatter)

parser.add_argument("--dtype",
type=to_torch_dtype,
required=True,
help="Available options are ['int8', 'fp8']")
subparsers = parser.add_subparsers(dest="cmd")

square_parser = subparsers.add_parser("square_bench")
square_parser.add_argument("--dim-start", type=int, required=True)
square_parser.add_argument("--dim-end", type=int, required=True)
square_parser.add_argument("--dim-increment", type=int, required=True)
square_parser.set_defaults(func=run_square_bench)

range_parser = subparsers.add_parser("range_bench")
range_parser.add_argument("--dim-start", type=int, required=True)
range_parser.add_argument("--dim-end", type=int, required=True)
range_parser.add_argument("--dim-increment", type=int, required=True)
range_parser.add_argument("--m-constant", type=int, default=None)
range_parser.add_argument("--n-constant", type=int, default=None)
range_parser.add_argument("--k-constant", type=int, default=None)
range_parser.set_defaults(func=run_range_bench)

model_parser = subparsers.add_parser("model_bench")
model_parser.add_argument("--models",
nargs="+",
type=str,
default=DEFAULT_MODELS,
choices=WEIGHT_SHAPES.keys())
model_parser.add_argument("--tp-sizes",
nargs="+",
type=int,
default=DEFAULT_TP_SIZES)
model_parser.add_argument("--batch-sizes",
nargs="+",
type=int,
default=DEFAULT_BATCH_SIZES)
model_parser.set_defaults(func=run_model_bench)

args = parser.parse_args()
args.func(args)
37 changes: 37 additions & 0 deletions benchmarks/cutlass_benchmarks/weight_shapes.py
View file
Original file line number Diff line number Diff line change
@@ -0,0 +1,37 @@
# 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 = {
"mistralai/Mistral-7B-v0.1": [
([4096, 6144], 1),
([4096, 4096], 0),
([4096, 28672], 1),
([14336, 4096], 0),
],
"meta-llama/Llama-2-7b-hf": [
([4096, 12288], 1),
([4096, 4096], 0),
([4096, 22016], 1),
([11008, 4096], 0),
],
"meta-llama/Llama-2-13b-hf": [
([5120, 15360], 1),
([5120, 5120], 0),
([5120, 27648], 1),
([13824, 5120], 0),
],
"meta-llama/Llama-2-70b-hf": [
([8192, 10240], 1),
([8192, 8192], 0),
([8192, 57344], 1),
([28672, 8192], 0),
],
}
Loading

0 comments on commit c545c94

Please sign in to comment.