Switching lattices are two-dimensional arrays composed by four-terminal switches (crossbar arrays). The idea of using regular two-dimensional arrays of switches to implement Boolean functions was proposed by Akers in 1972. Recently, with the advent of a variety of emerging nanoscale technologies, lattices have found a renewed interest. Switching lattices can have a non-negligible defective ratio. In this paper, we analyze the fault tolerance of switching lattices under the stuck-at-fault model (SAFM). We first identify the critical switches with a sensitivity analysis of the lattice. We then propose some techniques to improve the resilience to faults, which are implemented as a post preprocessing step after logic optimization.
Fault mitigation of switching lattices under the stuck-at-fault model
Bernasconi A.;
2019-01-01
Abstract
Switching lattices are two-dimensional arrays composed by four-terminal switches (crossbar arrays). The idea of using regular two-dimensional arrays of switches to implement Boolean functions was proposed by Akers in 1972. Recently, with the advent of a variety of emerging nanoscale technologies, lattices have found a renewed interest. Switching lattices can have a non-negligible defective ratio. In this paper, we analyze the fault tolerance of switching lattices under the stuck-at-fault model (SAFM). We first identify the critical switches with a sensitivity analysis of the lattice. We then propose some techniques to improve the resilience to faults, which are implemented as a post preprocessing step after logic optimization.I documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.
