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CASES
2003
ACM

Frequent loop detection using efficient non-intrusive on-chip hardware

14 years 5 months ago
Frequent loop detection using efficient non-intrusive on-chip hardware
Dynamic software optimization methods are becoming increasingly popular for improving software performance and power. The first step in dynamic optimization consists of detecting frequently executed code, or “critical regions.” Previous critical region detectors have been targeted to desktop processors. We introduce a critical region detector targeted to embedded processors, with the unique features of being very size and power efficient, and being completely non-intrusive to the software’s execution – features needed in timing-sensitive embedded systems. Our detector not only finds the critical regions, but also determines their relative frequencies, a potentially important feature for selecting among alternative dynamic optimization methods. Our detector uses a tiny cache coupled with a small amount of logic. We provide results of extensive explorations across seventeen embedded system benchmarks. We show that highly accurate results can be achieved with only a 0.02% power o...
Ann Gordon-Ross, Frank Vahid
Added 05 Jul 2010
Updated 05 Jul 2010
Type Conference
Year 2003
Where CASES
Authors Ann Gordon-Ross, Frank Vahid
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