嵌入式cpu动态降低功耗的内存访问级移除技术

2013 International Conference on Intelligent Systems and Signal Processing (ISSP) Pub Date : 2013-03-01 DOI:10.1109/ISSP.2013.6526924

K. Bhatt, A. I. Trivedi

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引用次数: 0

摘要

对于由电池供电的便携式系统来说，电源效率变得越来越重要有几个原因。与此同时，这些系统的体积越来越小，电池的重量也越来越重。用户需要更长的电池寿命，这只能通过增加电池容量或提高逻辑效率来获得。电池技术的进步速度缓慢，因此重点放在数字设计人员提高效率上。本文讨论了传统32位处理器的功耗预算，提出了一种从设计层面实现的功耗优化技术，并对系统标准结构和改进结构的功耗结果进行了比较。使用Xilinx ISE - 13.1, Xilinx XPower和ModelSim SE PLUS-6.5等工具进行波形生成和XPowerAnalyzer进行功率分析，模拟，合成，测试和验证了所提出的工作。

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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Memory access stage removal technique for dynamic power reduction in embedded CPUs

There are several reasons why power efficiency is becoming increasingly important for portable systems powered by batteries. At the same time these systems are becoming physically smaller and battery weight is becoming more significant. Users demand longer battery life and this can only be obtained either by increasing the capacity of the battery or by increasing the efficiency of the logic. The rate of progress in battery technology is slow, so the focus is on the digital designer to improve efficiency. This paper discusses the power budget for the 32 - bit conventional processor and then suggests a technique which is implemented at design level for power optimization along with the comparison of power results for standard and the modified structures of the system. The proposed work is simulated, synthesized, tested and verified by using tools such as Xilinx ISE - 13.1, Xilinx XPower and ModelSim SE PLUS-6.5 for waveform generation and XPowerAnalyzer for power analysis.

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2013 International Conference on Intelligent Systems and Signal Processing (ISSP)

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