Design Flow and Characterization Methodology for Dual Mode Logic

Recently, the dual mode logic (DML) family was introduced as a superior energy-delay alternative to CMOS. DML gates utilize two different modes of operation, dynamic and static, to selectively achieve either high-performance or low-energy operation. Custom designs of DML circuits have been shown to...

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Bibliographic Details
Published in:IEEE Access
Main Authors: Viacheslav Yuzhaninov, Itamar Levi, Alexander Fish
Format: Article in Journal/Newspaper
Language:English
Published: IEEE 2015
Subjects:
DML
Online Access:https://doi.org/10.1109/ACCESS.2016.2514398
https://doaj.org/article/6b16089309ae481dba0308f78da40429
Description
Summary:Recently, the dual mode logic (DML) family was introduced as a superior energy-delay alternative to CMOS. DML gates utilize two different modes of operation, dynamic and static, to selectively achieve either high-performance or low-energy operation. Custom designs of DML circuits have been shown to be very efficient. However, implementing DML circuits using the standard design flow and Electronic Design Automation (EDA) tools is very challenging, since DML gates operate in two different modes, each with its own characteristics and operating mechanisms. This paper shows, for the first time, that DML logic can be compatible with the standard design flow and optimized by various tools, such as synthesis and physical design. A DML cell library characterization methodology is also proposed to support the design flow. The methodology and flow were verified on a wide variety of benchmark designs with different gate counts and logic depths, and show that DML design is efficient under the standard design flow restrictions.