mirror of https://github.com/commaai/tinygrad.git
155 lines
5.3 KiB
Python
155 lines
5.3 KiB
Python
# copying the kernels from https://github.com/microsoft/ArchProbe into Python
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import numpy as np
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import pickle
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from tinygrad.runtime.ops_gpu import CLProgram, CLBuffer
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from tinygrad.helpers import dtypes
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from tqdm import trange, tqdm
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from matplotlib import pyplot as plt
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tests = {}
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def register_test(fxn):
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tests[fxn.__name__] = fxn
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def warp_size2(nthread):
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prg = """__kernel void warp_size2(
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__global float* src,
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__global int* dst,
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const int niter,
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const int prime_number
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) {
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int drain = 0;
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for (int j = 0; j < niter; ++j) {
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drain += j / prime_number;
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barrier(0);
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}
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dst[get_local_id(0)] = drain;
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}"""
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src_buf = CLBuffer(1, dtypes.float32)
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dst_buf = CLBuffer(1, dtypes.int32)
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cl = CLProgram("warp_size2", prg, argdtypes=[None, None, np.int32, np.int32])
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return min([cl([nthread, 1024, 1], [nthread, 1, 1], src_buf, dst_buf, 10, 3, wait=True) for _ in range(5)])*1e9
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@register_test
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def test_warp_size():
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return [(nthread, warp_size2(nthread)) for nthread in trange(1,256)]
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def reg_count(nthread, ngrp, nreg):
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reg_declr = ''.join([f"float reg_data{i} = (float)niter + {i};\n" for i in range(nreg)])
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reg_comp = ''.join([f"reg_data{i} *= {(i-1)%nreg};\n" for i in range(nreg)])
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reg_reduce = ''.join([f"out_buf[{i}] = reg_data{i};\n" for i in range(nreg)])
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prg = f"""__kernel void reg_count(
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__global float* out_buf,
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__private const int niter
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) {{
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{reg_declr}
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int i = 0;
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for (; i < niter; ++i) {{
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{reg_comp}
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}}
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i = i >> 31;
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{reg_reduce}
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}}"""
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out_buf = CLBuffer(1, dtypes.float32)
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cl = CLProgram("reg_count", prg, argdtypes=[None, np.int32])
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return min([cl([nthread, ngrp, 1], [nthread, 1, 1], out_buf, 20, wait=True) for _ in range(10)])*1e9
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@register_test
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def test_reg_count(nthread=1, ngrp=1):
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base = reg_count(nthread, ngrp, 1)
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return [(nreg, (reg_count(nthread, ngrp, nreg)-base)/nreg) for nreg in trange(4, 513, 4)]
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def buf_cache_hierarchy_pchase(ndata, stride=1, NCOMP=1, steps=65536):
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ndata //= NCOMP*4 # ptr size
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prg = f"""__kernel void buf_cache_hierarchy_pchase(
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__global int{str(NCOMP) if NCOMP > 1 else ''}* src,
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__global int* dst,
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const int niter
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) {{
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int idx = 0;
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for (int i = 0; i < niter; ++i) {{
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idx = src[idx]{'.x' if NCOMP > 1 else ''};
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}}
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*dst = idx;
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}}"""
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idx_buf = np.zeros(ndata*NCOMP, dtype=np.int32)
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for i in range(ndata): idx_buf[i*NCOMP] = (i + stride) % ndata
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in_buf = CLBuffer.fromCPU(idx_buf)
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out_buf = CLBuffer(1, dtypes.int32)
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cl = CLProgram("buf_cache_hierarchy_pchase", prg, argdtypes=[None, None, np.int32])
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return min([cl([1, 1, 1], [1, 1, 1], in_buf, out_buf, steps, wait=True)/steps for _ in range(5)])*1e9
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@register_test
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def test_memory_latency():
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# requires cacheline < 16
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szs = [int(1.3**x) for x in range(20, 70)]
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return [(ndata, buf_cache_hierarchy_pchase(ndata, NCOMP=16, steps=128*1024)) for ndata in tqdm(szs)]
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@register_test
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def test_cacheline_size():
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# TODO: this buffer must be at least 2x the L1 cache for this test to work
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return [(stride, buf_cache_hierarchy_pchase(4*65536, stride, steps=65536)) for stride in trange(1,64)]
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def cl_read(sz, niter=1):
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prg = f"""__kernel void copy(
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__global float4* src,
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__global float* dst) {{
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int gid = get_global_id(0);
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if (src[gid].x == 99+get_global_id(1)) *dst = 1;
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}}"""
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in_buf = CLBuffer(sz//4, dtypes.float32)
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out_buf = CLBuffer(1, dtypes.float32)
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cl = CLProgram("copy", prg)
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# NOTE: if nay of the niters form a local group, this is wrong
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return min([cl([sz//16, niter, 1], [1, 1, 1], in_buf, out_buf, wait=True) for _ in range(10)])*1e9
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@register_test
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def test_read_bandwidth():
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szs = list(range(128*1024, 20*1024*1024, 128*1024))
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NITER = 8
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base = cl_read(16, niter=NITER)
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return [(sz, (sz*NITER)/(cl_read(sz, niter=NITER)-base)) for sz in tqdm(szs)]
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def gflops(niter=4, nroll=4, ngroups=4096):
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NCOMP = 8
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prg = f"""__kernel void gflops(
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__global float* out_buf
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) {{
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float{NCOMP} x = (float{NCOMP})({",".join(f"get_local_id(0)+{i}" for i in range(NCOMP))});
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float{NCOMP} y = (float{NCOMP})({",".join(f"get_local_id(1)+{i}" for i in range(NCOMP))});
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for (int i = 0; i < {niter}; i++) {{
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{''.join(['x = mad(y, y, x); y = mad(x, x, y);'+chr(10)]*nroll)}
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}}
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out_buf[get_global_id(0) >> 31] = {'+'.join(f"y.s{'0123456789abcdef'[i]}" for i in range(NCOMP))};
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}}"""
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out_buf = CLBuffer(1, dtypes.float32)
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cl = CLProgram("gflops", prg, options="-cl-mad-enable -cl-fast-relaxed-math")
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FLOPS = NCOMP*2*2 * niter * nroll * ngroups * 32
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# NOTE: if nay of the niters form a local group, this is wrong
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return FLOPS/(min([cl([32, ngroups, 1], [32, 1, 1], out_buf, wait=True) for _ in range(10)])*1e9)
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@register_test
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def test_gflops():
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return [(niter, gflops(niter=niter, nroll=32)) for niter in trange(1, 32, 1)]
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if __name__ == "__main__":
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cache = {}
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#cache = pickle.load(open("/tmp/cache.pkl", "rb"))
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#tests = {"test_cacheline_size": tests["test_cacheline_size"]}
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plt.figure(figsize=(16, 9))
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for i,(k,test) in enumerate(tests.items()):
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print(f"running {k}")
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plt.subplot(2, (len(tests)+1)//2, i+1)
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plt.title(k)
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if k == "test_memory_latency": plt.xscale('log')
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if k not in cache: cache[k] = test()
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plt.plot(*zip(*cache[k]))
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#pickle.dump(cache, open("/tmp/cache.pkl", "wb"))
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plt.tight_layout(pad=0.5)
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plt.savefig("/tmp/results.png")
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plt.show()
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