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00ea179879
These consist of a number of short snippets that help identify scaling bottlenecks in the free threaded interpreter. The current bottlenecks are in calling functions in benchmarks that call functions (due to `LOAD_ATTR` not yet using deferred reference counting) and when accessing thread-local data.
325 lines
8.2 KiB
Python
325 lines
8.2 KiB
Python
# This script runs a set of small benchmarks to help identify scaling
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# bottlenecks in the free-threaded interpreter. The benchmarks consist
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# of patterns that ought to scale well, but haven't in the past. This is
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# typically due to reference count contention or lock contention.
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#
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# This is not intended to be a general multithreading benchmark suite, nor
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# are the benchmarks intended to be representative of real-world workloads.
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#
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# On Linux, to avoid confounding hardware effects, the script attempts to:
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# * Use a single CPU socket (to avoid NUMA effects)
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# * Use distinct physical cores (to avoid hyperthreading/SMT effects)
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# * Use "performance" cores (Intel, ARM) on CPUs that have performance and
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# efficiency cores
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#
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# It also helps to disable dynamic frequency scaling (i.e., "Turbo Boost")
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#
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# Intel:
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# > echo "1" | sudo tee /sys/devices/system/cpu/intel_pstate/no_turbo
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#
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# AMD:
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# > echo "0" | sudo tee /sys/devices/system/cpu/cpufreq/boost
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#
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import math
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import os
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import queue
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import sys
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import threading
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import time
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# The iterations in individual benchmarks are scaled by this factor.
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WORK_SCALE = 100
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ALL_BENCHMARKS = {}
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threads = []
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in_queues = []
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out_queues = []
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def register_benchmark(func):
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ALL_BENCHMARKS[func.__name__] = func
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return func
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@register_benchmark
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def object_cfunction():
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accu = 0
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tab = [1] * 100
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for i in range(1000 * WORK_SCALE):
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tab.pop(0)
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tab.append(i)
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accu += tab[50]
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return accu
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@register_benchmark
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def cmodule_function():
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for i in range(1000 * WORK_SCALE):
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math.floor(i * i)
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@register_benchmark
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def mult_constant():
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x = 1.0
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for i in range(3000 * WORK_SCALE):
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x *= 1.01
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def simple_gen():
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for i in range(10):
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yield i
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@register_benchmark
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def generator():
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accu = 0
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for i in range(100 * WORK_SCALE):
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for v in simple_gen():
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accu += v
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return accu
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class Counter:
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def __init__(self):
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self.i = 0
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def next_number(self):
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self.i += 1
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return self.i
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@register_benchmark
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def pymethod():
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c = Counter()
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for i in range(1000 * WORK_SCALE):
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c.next_number()
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return c.i
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def next_number(i):
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return i + 1
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@register_benchmark
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def pyfunction():
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accu = 0
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for i in range(1000 * WORK_SCALE):
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accu = next_number(i)
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return accu
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def double(x):
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return x + x
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module = sys.modules[__name__]
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@register_benchmark
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def module_function():
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total = 0
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for i in range(1000 * WORK_SCALE):
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total += module.double(i)
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return total
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class MyObject:
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pass
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@register_benchmark
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def load_string_const():
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accu = 0
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for i in range(1000 * WORK_SCALE):
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if i == 'a string':
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accu += 7
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else:
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accu += 1
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return accu
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@register_benchmark
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def load_tuple_const():
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accu = 0
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for i in range(1000 * WORK_SCALE):
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if i == (1, 2):
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accu += 7
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else:
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accu += 1
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return accu
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@register_benchmark
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def create_pyobject():
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for i in range(1000 * WORK_SCALE):
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o = MyObject()
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@register_benchmark
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def create_closure():
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for i in range(1000 * WORK_SCALE):
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def foo(x):
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return x
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foo(i)
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@register_benchmark
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def create_dict():
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for i in range(1000 * WORK_SCALE):
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d = {
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"key": "value",
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}
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thread_local = threading.local()
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@register_benchmark
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def thread_local_read():
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tmp = thread_local
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tmp.x = 10
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for i in range(500 * WORK_SCALE):
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_ = tmp.x
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_ = tmp.x
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_ = tmp.x
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_ = tmp.x
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_ = tmp.x
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def bench_one_thread(func):
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t0 = time.perf_counter_ns()
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func()
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t1 = time.perf_counter_ns()
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return t1 - t0
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def bench_parallel(func):
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t0 = time.perf_counter_ns()
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for inq in in_queues:
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inq.put(func)
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for outq in out_queues:
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outq.get()
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t1 = time.perf_counter_ns()
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return t1 - t0
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def benchmark(func):
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delta_one_thread = bench_one_thread(func)
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delta_many_threads = bench_parallel(func)
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speedup = delta_one_thread * len(threads) / delta_many_threads
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if speedup >= 1:
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factor = speedup
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direction = "faster"
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else:
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factor = 1 / speedup
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direction = "slower"
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use_color = hasattr(sys.stdout, 'isatty') and sys.stdout.isatty()
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color = reset_color = ""
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if use_color:
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if speedup <= 1.1:
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color = "\x1b[31m" # red
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elif speedup < len(threads)/2:
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color = "\x1b[33m" # yellow
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reset_color = "\x1b[0m"
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print(f"{color}{func.__name__:<18} {round(factor, 1):>4}x {direction}{reset_color}")
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def determine_num_threads_and_affinity():
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if sys.platform != "linux":
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return [None] * os.cpu_count()
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# Try to use `lscpu -p` on Linux
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import subprocess
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try:
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output = subprocess.check_output(["lscpu", "-p=cpu,node,core,MAXMHZ"],
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text=True, env={"LC_NUMERIC": "C"})
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except (FileNotFoundError, subprocess.CalledProcessError):
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return [None] * os.cpu_count()
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table = []
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for line in output.splitlines():
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if line.startswith("#"):
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continue
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cpu, node, core, maxhz = line.split(",")
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if maxhz == "":
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maxhz = "0"
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table.append((int(cpu), int(node), int(core), float(maxhz)))
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cpus = []
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cores = set()
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max_mhz_all = max(row[3] for row in table)
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for cpu, node, core, maxmhz in table:
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# Choose only CPUs on the same node, unique cores, and try to avoid
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# "efficiency" cores.
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if node == 0 and core not in cores and maxmhz == max_mhz_all:
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cpus.append(cpu)
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cores.add(core)
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return cpus
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def thread_run(cpu, in_queue, out_queue):
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if cpu is not None and hasattr(os, "sched_setaffinity"):
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# Set the affinity for the current thread
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os.sched_setaffinity(0, (cpu,))
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while True:
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func = in_queue.get()
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if func is None:
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break
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func()
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out_queue.put(None)
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def initialize_threads(opts):
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if opts.threads == -1:
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cpus = determine_num_threads_and_affinity()
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else:
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cpus = [None] * opts.threads # don't set affinity
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print(f"Running benchmarks with {len(cpus)} threads")
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for cpu in cpus:
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inq = queue.Queue()
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outq = queue.Queue()
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in_queues.append(inq)
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out_queues.append(outq)
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t = threading.Thread(target=thread_run, args=(cpu, inq, outq), daemon=True)
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threads.append(t)
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t.start()
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def main(opts):
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global WORK_SCALE
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if not hasattr(sys, "_is_gil_enabled") or sys._is_gil_enabled():
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sys.stderr.write("expected to be run with the GIL disabled\n")
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benchmark_names = opts.benchmarks
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if benchmark_names:
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for name in benchmark_names:
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if name not in ALL_BENCHMARKS:
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sys.stderr.write(f"Unknown benchmark: {name}\n")
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sys.exit(1)
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else:
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benchmark_names = ALL_BENCHMARKS.keys()
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WORK_SCALE = opts.scale
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if not opts.baseline_only:
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initialize_threads(opts)
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do_bench = not opts.baseline_only and not opts.parallel_only
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for name in benchmark_names:
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func = ALL_BENCHMARKS[name]
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if do_bench:
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benchmark(func)
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continue
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if opts.parallel_only:
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delta_ns = bench_parallel(func)
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else:
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delta_ns = bench_one_thread(func)
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time_ms = delta_ns / 1_000_000
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print(f"{func.__name__:<18} {time_ms:.1f} ms")
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if __name__ == "__main__":
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import argparse
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parser = argparse.ArgumentParser()
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parser.add_argument("-t", "--threads", type=int, default=-1,
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help="number of threads to use")
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parser.add_argument("--scale", type=int, default=100,
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help="work scale factor for the benchmark (default=100)")
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parser.add_argument("--baseline-only", default=False, action="store_true",
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help="only run the baseline benchmarks (single thread)")
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parser.add_argument("--parallel-only", default=False, action="store_true",
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help="only run the parallel benchmark (many threads)")
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parser.add_argument("benchmarks", nargs="*",
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help="benchmarks to run")
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options = parser.parse_args()
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main(options)
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