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An accurate worst case timing analysis for RISC processors

Authors :
Soo-Mook Moon
Sung-Soo Lim
Sang Lyul Min
Heonshik Shin
Kunsoo Park
Chang Yun Park
Byung-Do Rhee
Chong Sang Kim
Gyu Tae Jang
Young Hyun Bae
Source :
IEEE Transactions on Software Engineering. 21:593-604
Publication Year :
1995
Publisher :
Institute of Electrical and Electronics Engineers (IEEE), 1995.

Abstract

An accurate and safe estimation of a task's worst case execution time (WCET) is crucial for reasoning about the timing properties of real time systems. In RISC processors, the execution time of a program construct (e.g., a statement) is affected by various factors such as cache hits/misses and pipeline hazards, and these factors impose serious problems in analyzing the WCETs of tasks. To analyze the timing effects of RISC's pipelined execution and cache memory, we propose extensions to the original timing schema where the timing information associated with each program construct is a simple time bound. In our approach, associated with each program construct is worst case timing abstraction, (WCTA), which contains detailed timing information of every execution path that might be the worst case execution path of the program construct. This extension leads to a revised timing schema that is similar to the original timing schema except that concatenation and pruning operations on WCTAs are newly defined to replace the add and max operations on time bounds in the original timing schema. Our revised timing schema accurately accounts for the timing effects of pipelined execution and cache memory not only within but also across program constructs. The paper also reports on preliminary results of WCET analysis for a RISC processor. Our results show that tight WCET bounds (within a maximum of about 30% overestimation) can be obtained by using the revised timing schema approach. >

Details

ISSN :
00985589
Volume :
21
Database :
OpenAIRE
Journal :
IEEE Transactions on Software Engineering
Accession number :
edsair.doi...........feca0ae92131c0188253b1a6a7ef1828
Full Text :
https://doi.org/10.1109/32.392980