Title :
Layout-driven factorization and fitting for cellular-architecture FPGAs
Author :
Dasari, A.K. ; Song, N. ; Chrzanowska-Jeske, M.
Author_Institution :
Dept. of Electr. Eng., Portland State Univ., OR, USA
Abstract :
The characteristic feature of the new cellular-architecture FPGA is a local connectivity between the adjacent cells. This paper presents nontraditional approaches to layout synthesis of the cellular-architecture FPGA. In the first approach, a multi-level network, in the form of DAG, is mapped to the target architecture using a simulated evolution. The parameters controlling the simulated evolution are defined such that the routing structure of the target architecture is considered during placement. In the second approach, a restricted multilevel network (RML), obtained by the architecture driven factorization of two-level representation of logic functions, is mapped to the target architecture. This method produces rectangular-shaped, locally-connected solutions which are the best structures for two-dimensional cellular arrays such as fine grain FPGAs
Keywords :
cellular arrays; circuit layout CAD; field programmable gate arrays; logic CAD; network routing; DAG; cellular-architecture FPGAs; fine grain FPGAs; layout synthesis; layout-driven factorization; local connectivity; locally-connected solutions; logic functions; multi-level network; placement; restricted multilevel network; routing structure; simulated evolution; two-dimensional cellular arrays; two-level representation; Boolean functions; Design optimization; Electronics packaging; Field programmable gate arrays; Logic design; Logic devices; Logic functions; Network synthesis; Programmable logic arrays; Routing;
Conference_Titel :
Northcon/93. Conference Record
Conference_Location :
Portland, OR
Print_ISBN :
0-7803-9972-2
DOI :
10.1109/NORTHC.1993.505041
