Title :
On the Error Resiliency of Combinational Logic Cells - Implications for Nano-based Digital Design
Author :
Balasubramanian, P. ; Yamashita, Shinji
Author_Institution :
S.A. Eng. Coll., Dept. of Electron. & Commun. Eng., Anna Univ., Chennai, India
Abstract :
With continuous decrease of device geometries in the nanoscale era of digital design, increasing importance is given to the reliability aspect of basic building blocks. In this context, this brief discusses the inherent fault tolerance capability of conventional logic gates before proceeding with the analysis of error immune property of a subset of combinational standard cells present in commercial digital libraries. The analysis has led to the following inferences: (i) Compared to complex-gate implementation, discrete-gate based realization of compound logic functions enables a mean improvement in the error resiliency metric by 68.2%, and (ii) the associated increase in area overhead for discrete-gate realizations as a trade-off for enhanced fault tolerance over complex gate implementations is found to be 51.6% on average.
Keywords :
fault tolerant computing; logic arrays; logic design; logic gates; combinational logic cells; compound logic functions; device geometries; digital libraries; discrete-gate based realization; error immune property; error resiliency; fault tolerance capability; logic gates; nanobased digital design; reliability aspect; Error probability; Fault tolerance; Fault tolerant systems; Libraries; Logic gates; Probabilistic logic; Standards; Combinational logic; Digital design; Error resiliency; Probabilistic computing; Standard cells;
Conference_Titel :
Dependable Computing (PRDC), 2013 IEEE 19th Pacific Rim International Symposium on
Conference_Location :
Vancouver, BC
DOI :
10.1109/PRDC.2013.21
