Title :
Switch bound allocation for maximizing routability in timing-driven routing of FPGA´s
Author :
Zhu, Kai ; Wong, D.F.
Author_Institution :
Actel Corp., Sunnyvale, CA, USA
fDate :
4/1/1998 12:00:00 AM
Abstract :
In segmented channel routing of row-based FPGA´s, the routability and interconnection delays depend on the choice of upper bounds on the number of programmable switches allocated for routing net segments in the channel. Traditionally, the upper bounds for the net segments in the same channel are set uniformly. In this paper, we present algorithms for determining the upper bounds for all of the net segments of a net simultaneously, so that the predefined source-to-sink delay bound on the net is satisfied and the routability of the net is maximized. The upper bounds on net segments in a channel determined by the algorithms in general are nonuniform. Experimental results show that the algorithms can significantly improve routability and reduce delay bound violation as compared with the traditional, uniform upper bound approach
Keywords :
circuit layout CAD; delays; equivalent circuits; field programmable gate arrays; integrated circuit layout; logic CAD; multiterminal networks; network routing; network topology; timing; interconnection delays; net segments; programmable switches; routability maximisation; row-based FPGA; segmented channel routing; source-to-sink delay bound; switch bound allocation; timing-driven routing; upper bounds; Application software; Application specific integrated circuits; Costs; Delay; Field programmable gate arrays; Integrated circuit interconnections; Routing; Switches; Timing; Upper bound;
Journal_Title :
Computer-Aided Design of Integrated Circuits and Systems, IEEE Transactions on
