Efficient algorithms for memory management in embedded vision systems

2016 11th IEEE Symposium on Industrial Embedded Systems (SIES) Pub Date : 2016-05-23 DOI:10.1109/SIES.2016.7509426

K. H. Salem, Yann Kieffer, S. Mancini

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引用次数: 1

Abstract

In the field of embedded vision systems, meeting the constraints on design criteria such as performance, area, and power consumption can be a real challenge. In fact, to alleviate the well known “Memory Mall”, it is mandatory to provide efficient memory hierarchies to reach usable performance for the system to be designed when it has to handle non-linear image treatments. To address this problematic, Mancini and Rousseau (Proc.DATE, 2012) have designed a software generator of memory hierarchies for each non-linear image operation. It allows one to improve dramatically the performance of the system, while moderately increasing its area and energy consumption. The trade-offs between these three parameters are then taken to the level of the design of the operation of this memory hierarchy, a problem that can be formalized as a 3-objective optimization problem. In this study, we formalize this problem and give new approaches both for the problem and particular sub-problems. The results on the same real-world data set as used by Mancini and Rousseau (Proc.DATE, 2012) show a very significant improvement and reduce the amount of transferred data up to 30% and a reduction of the computing time up to 15%.

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嵌入式视觉系统中高效的内存管理算法

在嵌入式视觉系统领域，满足诸如性能、面积和功耗等设计标准的限制可能是一个真正的挑战。事实上，为了缓解众所周知的“内存中心”，必须提供有效的内存层次结构，以便在必须处理非线性图像处理时为要设计的系统达到可用的性能。为了解决这个问题，Mancini和Rousseau (Proc.DATE, 2012)为每个非线性图像操作设计了一个内存层次的软件生成器。它可以极大地提高系统的性能，同时适度地增加其面积和能耗。然后将这三个参数之间的权衡考虑到该内存层次结构的操作设计层面，这个问题可以形式化为3目标优化问题。在本研究中，我们形式化了这个问题，并给出了这个问题和特定子问题的新方法。Mancini和Rousseau (Proc.DATE, 2012)使用的相同真实世界数据集的结果显示出非常显着的改进，将传输的数据量减少了30%，计算时间减少了15%。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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2016 11th IEEE Symposium on Industrial Embedded Systems (SIES)

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