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HPCA
2012
IEEE

Pacman: Tolerating asymmetric data races with unintrusive hardware

12 years 8 months ago
Pacman: Tolerating asymmetric data races with unintrusive hardware
Data races are a major contributor to parallel software unreliability. A type of race that is both common and typically harmful is the Asymmetric data race. It occurs when at least one of the racing threads is inside a critical section. Current proposals that target them are software-based. They slow down execution and require significant compiler, operating system (OS), or application changes. This paper proposes the first scheme to tolerate asymmetric data races in production runs with negligible execution overhead. The scheme, called Pacman, exploits cache coherence hardware to temporarily protect the variables that a thread accesses in a critical section from other threads’ requests. Unlike previous schemes, Pacman induces negligible slowdown, needs no support from the compiler or (in the baseline design) from the OS, and requires no application source code changes. In addition, its hardware is relatively unintrusive. We test Pacman with the SPLASH-2, PARSEC, Sphinx3, and Apac...
Shanxiang Qi, Norimasa Otsuki, Lois Orosa Nogueira
Added 24 Apr 2012
Updated 24 Apr 2012
Type Journal
Year 2012
Where HPCA
Authors Shanxiang Qi, Norimasa Otsuki, Lois Orosa Nogueira, Abdullah Muzahid, Josep Torrellas
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