Design of a branch-based 64-bit carry-select adder in 0.18 mu m partially depleted SOI CMOS

Neve, A.
Flandre, Denis
Schettler, H.
Ludwig, T.
Hellner, G.
ISLPED'02: Proceedings of the 2002 International Symposium on Low Power Electronics and Design

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Publication date

January 2002

DOI

10.1109/LPE.2002.1029565

Publisher

Institute of Electrical and Electronics Engineers (IEEE)

Abstract

The paper presents the design of a 64-bit carry-select adder in Branch-Based Logic, a static design style that minimizes the internal node capacitances. This feature is used to lower the dynamic power dissipation, while maintaining good speed performances. The experimental realization of the adder demonstrates an overall delay of 720 ps while only dissipating 96 mW at 1 GHz. The fabrication is based on the 0.18 mu m IBM CMOS8S2 SOI technology, which uses partially depleted transistors and copper metallization.Anglai

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Design of a branch-based 64-bit carry-select adder in 0.18 mu m partially depleted SOI CMOS

Abstract

Extracted data

Design of a branch-based 64-bit carry-select adder in 0.18 mu m partially depleted SOI CMOS

Abstract

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