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With the shrinking of technology feature sizes, the share of leakage in total power consumption of digital systems continues to grow. Traditional dynamic voltage scaling (DVS) fail...
We have developed a system architecture, measuring and modeling techniques, and algorithms for on-line power and energy optimization and thermal management. The starting point for...
This paper studies the scheduling and assignment problem that minimizes the total energy including both dynamic and leakage energy for applications with loops on multi-voltage, mul...
Meikang Qiu, Jiande Wu, Jingtong Hu, Yi He, Edwin ...
— Low energy consumption is a critical issue in embedded systems design. As the technology feature sizes of SoC (Systems on Chip) become smaller and smaller, the percentage of le...
In this paper, we present two methods to reduce leakage energy by dynamically resizing the cache during program execution. The first method monitors the miss rate of the individua...
Leakage power is dominated by critical paths, and hence dynamic deactivation of fast transistors can yield large savings. We introduce metrics for comparing fine-grain dynamic de...
Seongmoo Heo, Kenneth C. Barr, Mark Hampton, Krste...
Limited energy and memory resources are important constraints in the design of an embedded system. Compression is an useful and widely employed mechanism to reduce the memory requ...
Guangyu Chen, Mahmut T. Kandemir, Narayanan Vijayk...
The focus of this work is on utilizing the state of objects during their lifespan in optimizing the leakage energy consumed in the data caches when executing embedded Java applica...
Guangyu Chen, Narayanan Vijaykrishnan, Mahmut T. K...