Note

Go to the end to download the full example code

Measuring CPU performance#

Processor caches must be taken into account when writing an algorithm, see Memory part 2: CPU caches from Ulrich Drepper.

Cache Performance#

from tqdm import tqdm
import matplotlib.pyplot as plt
from pandas import DataFrame, concat
from sphinx_runpython.runpython import run_cmd
from onnx_extended.ext_test_case import unit_test_going
from onnx_extended.validation.cpu._validation import (
    benchmark_cache,
    benchmark_cache_tree,
)

Code of benchmark_cache.

obs = []
step = 2**12
for i in tqdm(range(step, 2**20 + step, step)):
    res = min(
        [
            benchmark_cache(i, False),
            benchmark_cache(i, False),
            benchmark_cache(i, False),
        ]
    )
    if res < 0:
        # overflow
        continue
    obs.append(dict(size=i, perf=res))

df = DataFrame(obs)
mean = df.perf.mean()
lag = 32
for i in range(2, df.shape[0]):
    df.loc[i, "smooth"] = df.loc[i - 8 : i + 8, "perf"].median()
    if i > lag and i < df.shape[0] - lag:
        df.loc[i, "delta"] = (
            mean
            + df.loc[i : i + lag, "perf"].mean()
            - df.loc[i - lag + 1 : i + 1, "perf"]
        ).mean()

  0%|          | 0/256 [00:00<?, ?it/s]
 54%|█████▍    | 139/256 [00:00<00:00, 1378.96it/s]
100%|██████████| 256/256 [00:00<00:00, 735.26it/s]

Cache size estimator#

cache_size_index = int(df.delta.argmax())
cache_size = df.loc[cache_size_index, "size"] * 2
print(f"L2 cache size estimation is {cache_size / 2 ** 20:1.3f} Mb.")

L2 cache size estimation is 0.961 Mb.

Verification#

try:
    out, err = run_cmd("lscpu", wait=True)
    print("\n".join(_ for _ in out.split("\n") if "cache:" in _))
except Exception as e:
    print(f"failed due to {e}")

df = df.set_index("size")
fig, ax = plt.subplots(1, 1, figsize=(12, 4))
df.plot(ax=ax, title="Cache Performance time/size", logy=True)
fig.savefig("plot_benchmark_cpu_array.png")
Cache Performance time/size
L1d cache:                       128 KiB (4 instances)
L1i cache:                       128 KiB (4 instances)
L2 cache:                        1 MiB (4 instances)
L3 cache:                        8 MiB (1 instance)

TreeEnsemble Performance#

We simulate the computation of a TreeEnsemble of 50 features, 100 trees and depth of 10 (so 2^{10} nodes.) The code of benchmark_cache_tree

dfs = []
cols = []
drop = []
for n in tqdm(range(2 if unit_test_going() else 5)):
    res = benchmark_cache_tree(
        n_rows=2000,
        n_features=50,
        n_trees=100,
        tree_size=1024,
        max_depth=10,
        search_step=64,
    )
    res = [[max(r.row, i), r.time] for i, r in enumerate(res)]
    df = DataFrame(res)
    df.columns = [f"i{n}", f"time{n}"]
    dfs.append(df)
    cols.append(df.columns[-1])
    drop.append(df.columns[0])

df = concat(dfs, axis=1).reset_index(drop=True)
df["i"] = df["i0"]
df = df.drop(drop, axis=1)
df["time_avg"] = df[cols].mean(axis=1)
df["time_med"] = df[cols].median(axis=1)

df.head()

  0%|          | 0/5 [00:00<?, ?it/s]
 20%|██        | 1/5 [00:00<00:03,  1.07it/s]
 40%|████      | 2/5 [00:01<00:02,  1.09it/s]
 60%|██████    | 3/5 [00:02<00:01,  1.11it/s]
 80%|████████  | 4/5 [00:03<00:00,  1.12it/s]
100%|██████████| 5/5 [00:04<00:00,  1.12it/s]
100%|██████████| 5/5 [00:04<00:00,  1.11it/s]
time0 time1 time2 time3 time4 i time_avg time_med
0 0.028539 0.039931 0.028314 0.028719 0.028474 0 0.030796 0.028539
1 0.028539 0.039931 0.028314 0.028719 0.028474 1 0.030796 0.028539
2 0.028539 0.039931 0.028314 0.028719 0.028474 2 0.030796 0.028539
3 0.028539 0.039931 0.028314 0.028719 0.028474 3 0.030796 0.028539
4 0.028539 0.039931 0.028314 0.028719 0.028474 4 0.030796 0.028539


Estimation#

print("Optimal batch size is among:")
dfi = df[["time_med", "i"]].groupby("time_med").min()
dfi_min = set(dfi["i"])
dfsub = df[df["i"].isin(dfi_min)]
dfs = dfsub.sort_values("time_med").reset_index()
print(dfs[["i", "time_med", "time_avg"]].head(10))

Optimal batch size is among:
      i  time_med  time_avg
0   512  0.028070  0.028150
1   320  0.028071  0.028252
2  1024  0.028091  0.028256
3   960  0.028102  0.028097
4   128  0.028107  0.028139
5   384  0.028117  0.028182
6   832  0.028143  0.028346
7    64  0.028144  0.028510
8  1088  0.028173  0.028141
9   640  0.028178  0.028933

One possible estimation

subdfs = dfs[:20]
avg = (subdfs["i"] / subdfs["time_avg"]).sum() / (subdfs["time_avg"] ** (-1)).sum()
print(f"Estimation: {avg}")

Estimation: 904.0452696367599

Plots.

cols_time = ["time_avg", "time_med"]
fig, ax = plt.subplots(2, 1, figsize=(12, 6))
df.set_index("i").drop(cols_time, axis=1).plot(
    ax=ax[0], title="TreeEnsemble Performance time per row", logy=True, linewidth=0.2
)
df.set_index("i")[cols_time].plot(ax=ax[1], linewidth=1.0, logy=True)
fig.savefig("plot_bench_cpu.png")
TreeEnsemble Performance time per row

Total running time of the script: (0 minutes 6.539 seconds)

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