硬实时系统的缓存感知指令SPM分配

Proceedings of the 19th International Workshop on Software and Compilers for Embedded Systems Pub Date : 2016-05-23 DOI:10.1145/2906363.2906369

Arno Luppold, C. Kittsteiner, H. Falk

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引用次数: 8

摘要

为了提高程序的执行时间，可以在编译时将程序的部分指令分配给一个快速的Scratchpad Memory (SPM)。这是一种众所周知的技术，可用于最小化程序的最坏情况执行时间(WCET)。然而，现代嵌入式系统经常使用缓存主存。SPM分配将不可避免地导致主存中程序内存布局的变化，从而导致最坏情况下缓存行为的改进或降低。我们提出了一种基于整数线性规划的缓存感知SPM分配算法来解决这个问题，该算法考虑了最坏情况下缓存缺失行为的变化。

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Cache-Aware Instruction SPM Allocation for Hard Real-Time Systems

To improve the execution time of a program, parts of its instructions can be allocated to a fast Scratchpad Memory (SPM) at compile time. This is a well-known technique which can be used to minimize the program's worst-case Execution Time (WCET). However, modern embedded systems often use cached main memories. An SPM allocation will inevitably lead to changes in the program's memory layout in main memory, resulting in either improved or degraded worst-case caching behavior. We tackle this issue by proposing a cache-aware SPM allocation algorithm based on integer-linear programming which accounts for changes in the worst-case cache miss behavior.

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Proceedings of the 19th International Workshop on Software and Compilers for Embedded Systems

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