Title :
Regular routing architecture for a LUT-based MPGA
Author :
Veredas, F.-J. ; Scheppler, M. ; Bumei Zhai ; Pfleiderer, H.-J.
Author_Institution :
Infineon Technol. AG, Munich
Abstract :
Mask programmable gate arrays (MPGAs) are an attractive solution to reduce design cost and turnaround time in ultra-deep submicron technologies. Several design methodologies have been proposed in the recent years for converting an evaluated field-programmable gate-array (FPGA) prototype design into an MPGA. In this paper, we investigate a predefined regular routing architecture of an MPGA. The routing architecture is easily scalable. A simple model for the MPGA interconnect is presented which facilitates static timing analysis. We explain the difference of this interconnect with the FPGA interconnect. The resulting MPGA is implemented in 130nm. Circuit level simulations show that our model is accurate in terms of delay. The study presents tradeoffs with the placement and routing to reach timing closure. A special MPGA routing tool is used. The study shows that high number of tracks in the MPGA is area prohibitive, but with better timing closure
Keywords :
field programmable gate arrays; logic design; network routing; table lookup; 130 nm; FPGA interconnect; LUT-based MPGA; MPGA interconnect; MPGA routing tool; circuit level simulations; field-programmable gate-array; mask programmable gate arrays; routing architecture; Costs; Design methodology; Field programmable gate arrays; Integrated circuit interconnections; Logic arrays; Logic devices; Programmable logic arrays; Prototypes; Routing; Timing;
Conference_Titel :
Emerging VLSI Technologies and Architectures, 2006. IEEE Computer Society Annual Symposium on
Conference_Location :
Karlsruhe
Print_ISBN :
0-7695-2533-4
DOI :
10.1109/ISVLSI.2006.78
