T. Nirmalraj scite author profile

IET Computers & Digital Tech

Pandiyan

2021

Fault detection and diagnosis of a Field-Programmable Gate Array (FPGA) in a short period is vital particularly in reducing the dead time of critical applications that are running on FPGAs. Thus, this paper proposes a new technique that is able to uniquely identify any single stuck-at fault's location along with the type of fault. Also, the presented technique is able to locate any single pair-wise bridging fault and distinguish between the two types of common faults. The presented technique uses the Walsh Code method to significantly reduce the number of test configurations when compared with previous methods. Extensive testing of the proposed method is carried out on a series of ISCAS'89 benchmark circuits being implemented in different FPGA families. From the simulation results, the maximum number of configurations needed for interconnect fault detection and diagnosis is log 2where n is the number of nets under test. It is noted that the proposed method is able to reduce the total number of test configurations by log 2 ðn þ 2Þ when compared with previously published methods available in the literature.This is an open access article under the terms of the Creative Commons Attribution License, which permits use, distribution and reproduction in any medium, provided the original work is properly cited.

show abstract

Design of Low-Power 10-Transistor Full Adder Using GDI Technique for Energy-Efficient Arithmetic Applications

Circuits Syst Signal Process

Pandiyan

Karan

et al. 2023

An enhanced Gate Diffusion Input technique for low power applications

Microelectronics Journal

Karn

2019

Fault Tolerant Carry Save Adders - A NMR Configuration Approach

Ashwin

et al. 2018

Low latency power aware selfchecking based CSA for sequential multiplier

Karn

et al. 2017