This paper introduces a new methodology that characterizes aging-duty cycle and aging-supply voltage relationships that are applicable to minimizing power ...
Abstract—This paper introduces a new methodology that characterizes aging-duty cycle and aging-supply voltage relationships that are applica-.
This paper introduces a new methodology that characterizes aging-duty cycle and aging-supply voltage relationships that are applicable to minimizing power ...
This paper introduces a new methodology that characterizes aging-duty cycle and aging-supply voltage relationships that are applicable to minimizing power ...
This paper introduces a new methodology that characterizes aging-duty cycle and aging-supply voltage relationships that are applicable to minimizing power ...
A self-evolving design methodology for power efficient multi-core ...
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A new methodology that characterizes aging-duty cycle and aging-supply voltage relationships that are applicable to minimizing power consumption and task ...
A self-evolving design methodology for power efficient multi-core systems pp. 264-268. On-the-fly runtime adaptation for efficient execution of parallel ...
A self-tuning design methodology for power-efficient multi-core systems · Janet ... A self-evolving design methodology for power efficient multi-core systems.
A Self-Evolving Design Methodology for Power Efficient Multi-core Systems. Computer-Aided Design (ICCAD), IEEE/ACM International Conference, 2010, pp. 264 ...
... Design optimization for power-efficient synchronous and asynchronous systems ... A self-evolving design methodology for power efficient multi-core systems.