71 lines
2.8 KiB
Python
71 lines
2.8 KiB
Python
import time
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from tinygrad import Tensor, Device, GlobalCounters, TinyJit
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from tinygrad.ops import Ops, UOp
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from tinygrad.multi import MultiLazyBuffer, all_reduce
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from tinygrad.engine.schedule import create_schedule
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from tinygrad.engine.realize import run_schedule
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from tinygrad.helpers import getenv, Context, RING, DEBUG
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from typing import List, Union
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def realize(x: Union[UOp, List[UOp]]):
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x = x if isinstance(x, list) else [x]
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run_schedule(create_schedule(x))
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for lb in x: Device[lb.device].synchronize()
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def test(devs: List[str], N: int, iters:int = 10):
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def _wrapped(op: Ops, t: Tensor) -> Tensor:
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return Tensor(MultiLazyBuffer(all_reduce(op, t.lazydata.lbs), 0), device=devs)
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_jitted = TinyJit(_wrapped) if getenv("USEJIT", 1) == 1 else _wrapped
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secs, gflops, gbs = 0, 0, 0
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for i in range(-2, iters):
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lbs = [Tensor.full((N,), float(1+i), device=d).contiguous().lazydata for i,d in enumerate(devs)]
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realize(lbs)
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GlobalCounters.reset()
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start = time.time()
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realize(_jitted(Ops.ADD, Tensor(MultiLazyBuffer(lbs, 0), device=devs)).lazydata.lbs)
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if i < 0: continue # warm up jit
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i_secs = time.time() - start
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if DEBUG >= 2: i_secs = GlobalCounters.time_sum_s
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i_gflops = GlobalCounters.global_ops/i_secs/10**9
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i_gbs = (N*4)/i_secs/10**9
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print(f"{'ring_allreduce' if RING >= 2 else 'naive_allreduce'} iter {i+1}/{iters}: {i_secs:.6f} sec {i_gflops:.2f} GFLOP/s {i_gbs:.2f} GB/s")
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secs += i_secs
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gflops += i_gflops
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gbs += i_gbs
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return (gflops/iters, gbs/iters, secs/iters)
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def run(sz, n_gpus=6, iters=10):
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dev = Device.DEFAULT
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devs = tuple([f"{dev}:{x}" for x in range(n_gpus)])
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N = sz // 4 # float32 is 4 bytes
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with Context(RING=2):
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(ring_gflops, ring_gbs, ring_secs) = test(devs, N, iters=iters)
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with Context(RING=0):
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(naive_gflops, naive_gbs, naive_secs) = test(devs, N, iters=iters)
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return (ring_gflops, ring_gbs, ring_secs), (naive_gflops, naive_gbs, naive_secs)
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def main():
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n_gpus = getenv("GPUS", 6)
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if getenv("BENCHMARK_SPLIT"):
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l, r = 0, 512
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while r - l > 1:
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m = (l + r) // 2
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(ring_gflops, ring_gbs, ring_secs), (naive_gflops, naive_gbs, naive_secs) = run(m * 1024 * 4, n_gpus=n_gpus, iters=100)
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if ring_secs > naive_secs: l = m
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else: r = m
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print("Better split", r * 1024, "elements")
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else:
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sz = getenv("SZ", 1000) * 10**6 # size of data on each gpu
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print(f"Using {sz/10**9:.2f} GB of numbers on each of {n_gpus} GPUs, {n_gpus*sz/10**9:.2f} GB total.")
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(ring_gflops, ring_gbs, ring_secs), (naive_gflops, naive_gbs, naive_secs) = run(sz)
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print(f"Ring:\n {ring_secs:.6f} seconds/iter\n {ring_gflops:.2f} GFLOP/s\n {ring_gbs:.2f} GB/s")
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print(f"Naive:\n {naive_secs:.6f} seconds/iter\n {naive_gflops:.2f} GFLOP/s\n {naive_gbs:.2f} GB/s")
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if __name__ == "__main__":
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main()
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