Graph-theoretic sufficient condition for FPGA/FPIC switch-module routability
Journal
IEEE International Symposium on Circuits and Systems
Journal Volume
3
Pages
1572-1575
Date Issued
1997
Author(s)
Abstract
Switch modules are the most important component of the routing resources in FPGA's/FPIC's. We consider in this paper an FPGA/FPIC switch-module analysis problem: The inputs consist of a switch-module description and the number of nets required to be routed through the switch module; the question is to determine if there exists a feasible routing for the routing requirements on the switch module. This problem is applicable to the routability evaluation of FPGA/FPIC switch modules, the switch-module design for FPGA's/FPIC's, and FPGA/FPIC routing. We present a graph-theoretic sufficient condition for the analysis problem. The implications of the condition are: (1) there exist several classes of efficient approximation algorithms for the analysis problem; (2) there exist several classes of switch-module architectures on which the analysis problem can be solved efficiently.
Other Subjects
Algorithms; Approximation theory; Electric network analysis; Graph theory; Integrated circuit layout; Logic gates; Microprocessor chips; Problem solving; Switching circuits; Switching networks; Field programmable gate arrays (FPGA); Field programmable interconnected chip (FPIC); Logic design
Type
conference paper