Highly accurate counter for measuring elapsed time in Python.
$ pip install hwcounter
This Python extension module uses the hardware timestamp counter to provide very high precision and accurate measurements of execution time.
The module exposes three main objects. Two are plain functions,
count
and count_end
, which return the current value of the
timestamp counter. They can be used together to manually track the
start and end of a timing measurement. The third is the Timer
type,
which is to be used as a context manager, wrapping a block of code to
be measured.
Using Timer
to wrap a block of code is to be preferred over
manually using count
and count_end
. This is for convenience, as well
as because it factors in the overhead of calling the underlying
measurement instructions.
Returns the current value of the timestamp counter, in cycles.
Returns the current value of the timestamp counter, in cycles. It is suitable for use at the end of a timing measurement.
Class that implements the context manager protocol.
The cycles
attribute is populated with the elapsed time, in cycles,
when the Timer context manager exits.
from hwcounter import Timer, count, count_end
from time import sleep
from math import sqrt
# 1. Manually count cycles elapsed between two points
start = count()
sqrt(144) / 12
elapsed = count_end() - start
print(f'elapsed cycles: {elapsed}')
# elapsed cycles: 36486
# 2. Use Timer object as context manager to wrap a block of code and measure its timing
with Timer() as t:
sleep(1)
print(f'elapsed cycles: {t.cycles}')
# elapsed cycles: 2912338344
These examples were performed on an Intel Core i5-6267U CPU @ 2.90GHz. Notice that the sleep for 1 second in the example above yields a 2.9 billion cycle count.
The overhead of calling the underlying measurement instructions is taken into account when using the Timer context manager. In other words, the number of cycles it takes to call the machine instructions are subtracted from the elapsed cycle count automatically.
This library returns measurements in processor clock cycles. For benchmarking programs and making apples-to-apples comparisons of changes in code execution time, this method is sufficient and reliable. If elapsed time in seconds is desired, a conversion from clock cycles is required: divide the cycle count by the processor's clock speed (in Hz). This conversion is outside the scope of this module.
This extension uses the RDTSC
and RDTSCP
instructions on the x86
architecture, so it won't work on other platforms. It is Python 3
only.