Title :
Nanoscale digital computation through percolation
Author :
Altun, Mustafa ; Riedel, Marc D. ; Neuhauser, Claudia
Author_Institution :
Univ. of Minnesota, Minneapolis, MN, USA
Abstract :
In this study, we apply a novel synthesis technique for implementing robust digital computation in nanoscale lattices with random interconnects: percolation theory on random graphs. We exploit the non-linearity that occurs through percolation to produce Boolean functionality. We show that the error margins, defined in terms of the steepness of the non-linearity, translate into the degree of defect tolerance. We study the problem of mapping Boolean functions onto lattices with good error margins.
Keywords :
Boolean functions; interconnections; percolation; Boolean functionality; defect tolerance; digital computation; error margin; nanoscale digital computation; nanoscale lattice; nonlinearity steepness; percolation theory; random graph; random interconnect; synthesis technique; Permission; Logic Synthesis; Nanoscale Digital Computation; Percolation;
Conference_Titel :
Design Automation Conference, 2009. DAC '09. 46th ACM/IEEE
Conference_Location :
San Francisco, CA
Print_ISBN :
978-1-6055-8497-3
