Minimizing memory access energy in embedded systems by selective instruction compression

Benini L.; Macii A.; Macii E.; Poncino M.

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Minimizing memory access energy in embedded systems by selective instruction compression

机译：通过选择性指令压缩将嵌入式系统中的存储器访问能量降至最低

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摘要

We propose a technique for reducing the energy spent in the memory-processor interface of an embedded system during the execution of firmware code. The method is based on the idea of compressing the most commonly executed instructions so as to reduce the energy dissipated during memory access. Instruction decompression is performed on-the-fly by a hardware block located between processor and memory: No changes to the processor architecture are required. Hence, our technique is well suited for systems employing IP cores whose internal architecture cannot be modified. We describe a number of decompression schemes and architectures that effectively trade off hardware complexity and static code size increase for memory energy and bandwidth reduction, as proved by the experimental data we have collected by executing several test programs on different design templates.

机译：我们提出了一种用于减少在执行固件代码期间花费在嵌入式系统的内存处理器接口上的能量的技术。该方法基于压缩最常执行的指令的思想，以便减少在存储器访问期间耗散的能量。指令解压缩是通过位于处理器和内存之间的硬件模块即时执行的：无需更改处理器架构。因此，我们的技术非常适合采用无法修改内部架构的IP内核的系统。我们描述了许多解压缩方案和体系结构，这些解压缩方案和体系结构有效地权衡了硬件复杂性和静态代码大小的增加，以节省内存能量并减少了带宽，正如我们通过在不同设计模板上执行多个测试程序而收集到的实验数据所证明的那样。

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来源
《IEEE transactions on very large scale integration (VLSI) systems 》 |2002年第5期| p.521-531| 共11页
作者
Benini L.; Macii A.; Macii E.; Poncino M.;
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作者单位

Dipt. di Elettronica, Informatica e Sistemistica, Univ. di Bologna, Italy;

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原文格式 PDF
正文语种 eng
中图分类无线电电子学、电信技术 ;
关键词
embedded systems; VLSI; low-power electronics; memory architecture; microprocessor chips; memory access energy minimisation; embedded systems; selective instruction compression; memory-processor interface; firmware code execution; IP cores; decompres;

机译：嵌入式系统;超大规模集成电路低功耗电子产品;内存架构;微处理器芯片;内存访问能量最小化;嵌入式系统;选择性指令压缩;内存处理器接口;固件代码执行;IP核;反腐;

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专利

1. Minimizing memory access energy in embedded systems by selective instruction compression [J] . Benini L., Macii A., Macii E., IEEE transactions on very large scale integration (VLSI) systems . 2002 ,第5期

机译：通过选择性指令压缩将嵌入式系统中的存储器访问能量降至最低
2. Minimizing memory access energy in embedded systems by selective instruction compression [J] . Benini L., Macii A., Macii E., IEEE transactions on very large scale integration (VLSI) systems . 2002 ,第5期

机译：通过选择性指令压缩最小化嵌入式系统中的内存访问能量
3. Minimizing Access Cost for Multiple Types of Memory Units in Embedded Systems Through Data Allocation and Scheduling [J] . Zhuge Q. Signal Processing, IEEE Transactions on . 2012 ,第6期

机译：通过数据分配和调度将嵌入式系统中多种类型的存储单元的访问成本降至最低
4. Selective instruction compression for memory energy reduction in embedded systems [C] . Luca Benini, Alberto Macii, Enrico Macii, International symposium on Low power electronics and design . 1999

机译：选择性指令压缩可减少嵌入式系统中的存储器能耗
5. Minimizing memory access cost in embedded systems. [D] . Guo, Yibo. 2014

机译：最小化嵌入式系统中的内存访问成本。
6. Sculpting proteins interactively: continual energy minimization embedded in a graphical modeling system. [O] . M. C. Surles, J. S. Richardson, D. C. Richardson, 1994

机译：交互地雕刻蛋白质：嵌入图形化建模系统中的持续能量最小化。
7. Minimizing Memory Access Energy in Embedded Systems by Selective Instruction Compression [O] . Benini L., Macii Alberto, Macii Enrico, 2002

机译：通过选择性指令压缩将嵌入式系统中的内存访问能量降至最低

Minimizing memory access energy in embedded systems by selective instruction compression

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