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ASYNC
2015
IEEE

Low Power Monolithic 3D IC Design of Asynchronous AES Core

8 years 8 months ago
Low Power Monolithic 3D IC Design of Asynchronous AES Core
—In this paper, we demonstrate, for the first time, that a monolithic 3D implementation of an asynchronous AES encryption core can achieve up to 50.3% footprint reduction, 25.7% improvement in power, 34.3% shorter wirelength and 6.06% reduced cell area compared to its 2D counterpart, at identical (ISO) performance. We also demonstrate that combining asynchronous circuits with 3D integration can yield a peak power reduction of 63.9% compared to the equivalent synchronous realisation. We also verified that the asynchronous implementation of the encryption core is more tolerant to monolithic 3D tier-tier variation compared to its synchronous counterpart. To the best of our knowledge, this is the first paper to discuss the mutual benefits of asynchronous and monolithic 3D IC integration.
Neela Lohith Penmetsa, Christos Sotiriou, Sung Kyu
Added 16 Apr 2016
Updated 16 Apr 2016
Type Journal
Year 2015
Where ASYNC
Authors Neela Lohith Penmetsa, Christos Sotiriou, Sung Kyu Lim
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