Alexandre Yasuo Yamamoto scite author profile

We investigate dynamic voltage and frequency scaling (DVFS) as a mechanism for dynamic reliability management (DRM) of chip multiprocessors (CMPs). The proposed DRM scheme operates as a control technique whose objective is to drive the operation of the CMP such that reliability changes towards a desired target. While the chip multiprocessor is continuously monitored and reliability is estimated in real time, the voltage and frequency of different cores in the CMP are dynamically adjusted such that reliability converges towards the target. When the temperature of cores increases and thus reliability degrades, the proposed DRM scheme throttles selectively the frequency of the cores with the highest temperature. This is turn, leads to a lower power dissipation in those cores whose temperature decreases, thereby improving reliability. We leverage existing simulation and estimation tools to develop the proposed DRM scheme. Simulations results show that the proposed DRM scheme provides an effective way to tradeoff reliability and performance.

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Specification of real-time systems using a timed automata model with shared variables and verification of partial-deadlock freeness

Okano

Hattori

Yamamoto

et al.

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We propose a timed automata model with shared variables (TASV). A TASV is a set of extended timed automata (ETAs) with shared boolean variables. For this model, we propose (1) an algorithm which decides whether a given TASV is partial-deadlock free, and (2) a sufficient condition that we can efficiently prove a given TASV is partial-deadlock free. Each ETA in a TASV can access to /modify shared boolean variables independently. By constructing a tuple automaton for all ETAs in a given TASV, we can decide the existence of deadlocks. However, such an approach causes the state explosion problem. Our algorithm and our proposed sufficient condition reduce the possibility of the state explosion by dividing the ETAs into some sets and proving their partial-deadlock freeness independently.

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Unified system level reliability evaluation methodology for multiprocessor Systems-on-Chip

Yamamoto

Ababei

2012

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