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Architecture-Aware Configuration and Scheduling of Matrix Multiplication on Asymmetric Multicore Processors
Asymmetric multicore processors (AMPs) have recently emerged as an appealing
technology for severely energy-constrained environments, especially in mobile
appliances where heterogeneity in applications is mainstream. In addition,
given the growing interest for low-power high performance computing, this type
of architectures is also being investigated as a means to improve the
throughput-per-Watt of complex scientific applications.
In this paper, we design and embed several architecture-aware optimizations
into a multi-threaded general matrix multiplication (gemm), a key operation of
the BLAS, in order to obtain a high performance implementation for ARM
big.LITTLE AMPs. Our solution is based on the reference implementation of gemm
in the BLIS library, and integrates a cache-aware configuration as well as
asymmetric--static and dynamic scheduling strategies that carefully tune and
distribute the operation's micro-kernels among the big and LITTLE cores of the
target processor. The experimental results on a Samsung Exynos 5422, a
system-on-chip with ARM Cortex-A15 and Cortex-A7 clusters that implements the
big.LITTLE model, expose that our cache-aware versions of gemm with asymmetric
scheduling attain important gains in performance with respect to its
architecture-oblivious counterparts while exploiting all the resources of the
AMP to deliver considerable energy efficiency
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