探索智能视觉系统的架构异质性

2015 IEEE 21st International Symposium on High Performance Computer Architecture (HPCA) Pub Date : 2015-03-09 DOI:10.1109/HPCA.2015.7056017

Nandhini Chandramoorthy, Giuseppe Tagliavini, K. Irick, A. Pullini, Siddharth Advani, Sulaiman Al Habsi, M. Cotter, J. Sampson, N. Vijaykrishnan, L. Benini

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引用次数: 28

摘要

有限的功率预算和对高性能计算的需求导致了平台定制，许多加速器与cmp集成在一起。为了研究定制架构，我们对四个定制设计点进行建模，并在许多计算机视觉工作负载中比较它们的性能和能量。我们分析了通用架构的局限性，并量化了使用这些微架构设计点增加定制的成本。这种分析使我们开发了一个由低功耗多核和一系列可配置的微加速器功能单元组成的框架。使用该平台，我们演示了数据流和控制处理优化，为广泛的视觉基准测试提供了类似于定制asic的性能提升。

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Exploring architectural heterogeneity in intelligent vision systems

Limited power budgets and the need for high performance computing have led to platform customization with a number of accelerators integrated with CMPs. In order to study customized architectures, we model four customization design points and compare their performance and energy across a number of computer vision workloads. We analyze the limitations of generic architectures and quantify the costs of increasing customization using these micro-architectural design points. This analysis leads us to develop a framework consisting of low-power multi-cores and an array of configurable micro-accelerator functional units. Using this platform, we illustrate dataflow and control processing optimizations that provide for performance gains similar to custom ASICs for a wide range of vision benchmarks.

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2015 IEEE 21st International Symposium on High Performance Computer Architecture (HPCA)

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