Paper Info
Title
Spectral Response of Ternary Logic Netlists
Abstract
Past methods for computation of the spectrum of a multiple-valued logic network usually rely on first characterizing the network in terms of a switching function, secondly in mapping the function values to complex numbers, and thirdly in performing the computation resulting in the spectrum. More recent approaches use decision diagram (DD) representations but still require initial formation of a DD representing the logic network switching function before the spectrum is computed. A method is described that derives a spectral transfer function directly from a netlist representation. The spectral transfer function can then be used to compute either the logic network spectral response for a specified input, or for computation of the entire Chrestenson spectrum. This method avoids the need for representing the network as a DD before computing the spectrum and can be used to directly compute either a single spectral response, the entire netlist spectrum, or the spectrum of subcircuits contained within a netlist.
Year
DOI
Venue
2013
10.1109/ISMVL.2013.52
Multiple-Valued Logic
Keywords
Field
DocType
spectral response,function value,past method,multiple-valued logic network,logic network spectral response,logic network,spectral transfer function,entire netlist spectrum,entire chrestenson spectrum,single spectral response,ternary logic netlists,netlist representation,mathematical model,switches,complex numbers,encoding,netlist,vectors,logic gates
Discrete mathematics,Netlist,Complex number,Computer science,Logic optimization,Algorithm,Electronic engineering,Ternary operation,Transfer function,Influence diagram,Spectral response,Computation
Conference
ISSN
ISBN
Citations 
0195-623X E-ISBN : 978-0-7695-4976-7
978-0-7695-4976-7
1
PageRank 
References 
Authors
0.44
6
2
Name
Order
Citations
PageRank
Mitchell A. Thornton128040.94
Theodore W. Manikas2557.75