A 0.13μm hardware-efficient probabilistic-based noise-tolerant circuit design and implementation with 24.5dB noise-immunity improvement

DOIResolve DOI: http://doi.org/10.1109/ASSCC.2007.4425694
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Proceedings titleIEEE Asian Solid-State Circuits Conference, 2007: ASSCC '07; 12-14 Nov. 2007, Jeju City, Korea
ConferenceIEEE Asian Solid-State Circuits Conference, November 12-14, 2007, Jeju, Korea
Pages316319; # of pages: 4
AbstractAs the size of CMOS devices is scaled down to the nanoscale level, noise interferences start to significantly affect the VLSI circuit performance. Because the noise is random and dynamic in nature, a probabilistic-based approach is more suitable to handle signal errors than the conventional deterministic circuit designs. However, probabilistic-based designs cost larger hardware area. In this paper, we design and implement a hardware-efficient probabilistic-based noise-tolerant circuit, an 8-bit Markov random field carry lookahead adder (MRF_CLA), in 0.13 mum CMOS process technology. The measurement results show that the proposed MRF_CLA can provide 24.5 dB of noise-immunity enhancement as compared with its conventional CMOS design. Moreover, the transistor count can be saved 42% as compared to the state-of-art MRF design
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NRC number504
NPARC number8926166
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Record identifierfc285118-2b56-4923-9be2-7662c56ab7c9
Record created2009-04-23
Record modified2016-05-09
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