Sensitivity analysis of Probability Transfer Matrix (PTM) on same functionality circuit architectures

Author

Singh, N.S.S. ; Hamid, N.H. ; Asirvadam, V.S. ; Khalid, U. ; Anwer, J.

Author_Institution

Electr. & Electron. Eng. Dept., Univ. Teknol. PETRONAS, Tronoh, Malaysia

fYear

2012

fDate

23-25 March 2012

Firstpage

250

Lastpage

254

Abstract

As CMOS technology advances to nano-scale devices, the performance of logic integrated circuits becomes a focal point in current literatures. The circuit´s performance measured based on its reliability is not only depending on its gate error probability, p, but it also depends on the architecture of that circuit. Thus, this drives a need to measure and evaluate reliability values for different architectures of same functionality circuit. This paper looks into the performance comparison in terms of reliability measurement for different architectures of same functionality circuits using common reliability evaluation models such as Probabilistic Gate Model (PGM), Boolean Difference-based Error Calculator (BDEC) and Probabilistic Transfer Matrix (PTM). For this purpose, we have chosen C17 and Full Adder as our benchmark test circuits. It has been shown that only PTM model is able to evaluate reliability values for different architectures of C17 and Full Adder circuits whereas PGM and BDEC models depict no change in their reliability values. Simulation results conclude that PTM model has the ability to show its sensitivity to reliability measurement for different circuit architectures of same functionality circuits compared to PGM and BDEC. PTM sensitivity analysis is necessarily significant to circuit designers in producing robust and more reliable nano-scale circuit systems.

Keywords

CMOS integrated circuits; adders; integrated circuit reliability; logic circuits; nanoelectronics; probability; sensitivity analysis; Boolean difference-based error calculator; CMOS technology; full adder; functionality circuit architecture; functionality circuits; gate error probability; logic integrated circuits; nano-scale devices; probabilistic gate model; probability transfer matrix; reliability evaluation model; reliability measurement; reliable nano-scale circuit systems; sensitivity analysis; Error probability; Integrated circuit modeling; Integrated circuit reliability; Logic gates; Probabilistic logic; Wires; circuit´s performance; nano-scale devices; probabilistic transfer matrix (PTM); reliability; sensitivity analysis;

fLanguage

English

Publisher

ieee

Conference_Titel

Signal Processing and its Applications (CSPA), 2012 IEEE 8th International Colloquium on

Conference_Location

Melaka

Print_ISBN

978-1-4673-0960-8

Type

conf

DOI

10.1109/CSPA.2012.6194728

Filename

6194728