Data memory design and exploration for low-power embedded systems-Reference-Cited by-同舟云学术

Data memory design and exploration for low-power embedded systems

Published:2001-10 Issue:4 Volume:6 Page:553-568
ISSN:1084-4309
Container-title:ACM Transactions on Design Automation of Electronic Systems
language:en
Short-container-title:ACM Trans. Des. Autom. Electron. Syst.

Author:

Abstract

In embedded system design, the designer has to choose an on-chip memory configuration that is suitable for a specific application. To aid in this design choice, we present a memory exploration procedure based on three performance metrics, namely, cache size, the memory access time and the energy consumption. We show the importance of including energy in the performance metrics, since an increase in the cache size and line size reduces the memory access time but does not necessarily reduce the energy consumption. The memory exploration procedures enable us to find the cache configuration (cache size, line size) that satisfies the area and time constraints while minimizing the energy consumption, and the cache configuration that satisfies the area and energy constraints while minimizing the memory access time. The exploration procedures for cache configuration is very efficient since it considers only a selected set of candidate points. Finally, we validate our exploration procedures by running simulation experiments on MediaBench applications.

Publisher

Association for Computing Machinery (ACM)

Subject

Electrical and Electronic Engineering,Computer Graphics and Computer-Aided Design,Computer Science Applications

Link

https://dl.acm.org/doi/pdf/10.1145/502175.502182

Reference20 articles.

1. AUSTIN T. BURGER D. AND KECKLER S. 2000. SimpleScalar simulation tools for microprocessor and system evaluation. http://www.simplescalar.org.

2. CATTHOOR F. FRANSSEN F. WUYTACK S. NACHTERGAELE L. AND DE MAN H. 1994. Global communication and memory optimizing transformations for low power signal processing systems. VLSI Sig. Proc. VII 178-187.

3. CATTHOOR F. WUYTACK S. GREEF E.D. BALASA F. NACHTERGAELE L. AND VANDECAPPELLE A. 1998. Custom memory management methodology-exploration of memory organisation for embedded multimedia system design. Kluwer Academic Publishers.

4. DUTTA S. WOLF W. AND WOLFE A. 1998. A methodology on evaluate memory architecture design tradeoffs for video signal processors. IEEE Trans. Circ. Syst. Video Tech. 8 1 (Feb) 36-53. 10.1109/76.660828

5. GIVARGIS T. HENKEL J. AND VAHID F. 1999. Interface and cache power exploration for corebased embedded system design. In Proceedings of the IEEE/ACM International Conference on Computer Aided Design (San Jose Calif. Nov.). IEEE Computer Society Press Los Alamitos Calif. pp. 270-273.

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