基于内存访问模式的控制器

2014 24th International Conference on Field Programmable Logic and Applications (FPL) Pub Date : 2014-10-20 DOI:10.1109/FPL.2014.6927397

Tassadaq Hussain, Oscar Palomar, O. Unsal, A. Cristal, E. Ayguadé, M. Valero

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引用次数: 7

摘要

传统上，系统设计人员试图通过调度处理核心和探索不同的内存系统配置来提高系统性能，而在内存系统级别调度访问和探索内存系统上的数据访问所做的工作相对较少。本文提出了一种基于存储器访问模式的控制器(MAPC)。MAPC在描述符中组织数据访问，根据传输请求的数量和大小对它们进行优先级排序。与基线多核系统相比，基于MAPC的系统在不同的应用中实现了2.41到5.34倍的加速，消耗的硬件资源减少了28%，动态功耗减少了13%。

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MAPC: Memory access pattern based controller

Traditionally, system designers have attempted to improve system performance by scheduling the processing cores and by exploring different memory system configurations and there is comparatively less work done scheduling the accesses at the memory system level and exploring data accesses on the memory systems. In this paper, we propose a memory access pattern based controller (MAPC). MAPC organizes data accesses in descriptors, prioritizes them with respect to the number and size of transfer requests. When compared to the baseline multicore system, the MAPC based system achieves between 2.41× to 5.34× of speedup for different applications, consumes 28% less hardware resources and 13% less dynamic power.

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2014 24th International Conference on Field Programmable Logic and Applications (FPL)

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