Title:
Power Modeling for GPU Architecture Using McPAT
Power Modeling for GPU Architecture Using McPAT
Authors
Lim, Jieun
Lakshminarayana, Nagesh B.
Kim, Hyesoon
Song, William
Yalamanchili, Sudhakar
Sung, Wonyong
Lakshminarayana, Nagesh B.
Kim, Hyesoon
Song, William
Yalamanchili, Sudhakar
Sung, Wonyong
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Abstract
Graphics Processing Units (GPUs) are very popular
for both graphics and general-purpose applications. Since GPUs
operate many processing units and manage multiple levels of
memory hierarchy, they consume a significant amount of power.
Although several power models for CPUs are available, the power
consumption of GPUs has not been studied much yet. In this
paper, we develop a new power model for GPUs by utilizing
McPAT, a CPU power tool. We generate initial power model
data from McPAT with a detailed GPU configuration, and then
adjust the models by comparing them with empirical data.We use
the NVIDIA’s Fermi architecture for building the power model,
and our model estimates the GPU power consumption with an
average error of 7.7% and 12.8% for the microbenchmarks and
Merge benchmarks, respectively.
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2013
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Technical Report