Comparative power-delay performance analysis of threshold logic technologies

5th International Conference on Energy Aware Computing Systems & Applications Pub Date : 2015-03-24 DOI:10.1109/ICEAC.2015.7352166
Furkan Ercan, A. Muhtaroğlu
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Abstract

Recent focus in energy efficiency is motivated with diminishing conventional energy resources, and increasing demand in low power applications with shrinking platform sizes. In this work, various threshold logic technologies are compared with each other in terms of power-delay-product (PDP). Compound CMOS, complementary pass transistor, static NAND gate, full adder, capacitive and differential threshold logic technologies are compared within a developed comparison scenario. Results in UMC180nm technology indicate that complementary pass transistor based threshold logic proves at least 2.5% more efficient than the rest in terms of PDP, while NAND based implementation has 29.2% better in terms of delay performance.
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阈值逻辑技术的功率延迟性能比较分析
最近对能源效率的关注是由于传统能源资源的减少,以及平台尺寸缩小的低功耗应用需求的增加。在这项工作中,各种阈值逻辑技术在功率延迟积(PDP)方面相互比较。复合CMOS、互补通型晶体管、静态NAND门、全加法器、电容和差分阈值逻辑技术在一个开发的比较场景中进行了比较。UMC180nm技术的结果表明,基于互补通管的阈值逻辑在PDP方面的效率至少比其他逻辑高2.5%,而基于NAND的实现在延迟性能方面高出29.2%。
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5th International Conference on Energy Aware Computing Systems & Applications
5th International Conference on Energy Aware Computing Systems & Applications
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