Complexity Evaluation of Parallel Execution of the RAPiD Deep-Learning Algorithm on Intel CPU
CoRR(2023)
摘要
Knowing how many and where are people in various indoor spaces is critical
for reducing HVAC energy waste, space management, spatial analytics and in
emergency scenarios. While a range of technologies have been proposed to detect
and track people in large indoor spaces, ceiling-mounted fisheye cameras have
recently emerged as strong contenders. Currently, RAPiD is the SOTA algorithm
for people detection in images captured by fisheye cameras. However, in large
spaces several overhead fisheye cameras are needed to assure high accuracy of
counting and thus multiple instances of RAPiD must be executed simultaneously.
This report evaluates inference time when multiple instances of RAPiD run in
parallel on an Ubuntu NUC PC with Intel I7 8559U CPU. We consider three
mechanisms of CPU-resource allocation to handle multiple instances of RAPiD: 1)
managed by Ubuntu, 2) managed by user via operating-system calls to assign
logical cores, and 3) managed by user via PyTorch-library calls to limit the
number of threads used by PyTorch. Each scenario was evaluated on 300 images.
The experimental results show, that when one or two instances of RAPiD are
executed in parallel all three approaches result in similar inference times of
1.8sec and 3.2sec, respectively. However, when three or more instances of RAPiD
run in parallel, limiting the number of threads used by PyTorch results in the
shortest inference times. On average, RAPiD completes inference of 2 images
simultaneously in about 3sec, 4 images in 6sec and 8 images in less than 14sec.
This is important for real-time system design. In HVAC-application scenarios,
with a typical reaction time of 10-15min, a latency of 14sec is negligible so a
single 8559U CPU can support 8 camera streams thus reducing the system cost.
However, in emergency scenarios, when time is of essence, a single CPU may be
needed for each camera to reduce the latency to 1.8sec.
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