Title :
Energy-Efficient FPGA Interconnect Design
Author :
Meijer, Maurice ; Krishnan, Rohini ; Bennebroek, Martijn
Author_Institution :
Philips Res. Labs., Eindhoven
Abstract :
Despite recent advances in FPGA devices and embedded cores, their deployment in commercial products remains rather limited due to practical constraints on, for example, cost, size, performance, and/or energy consumption. In this paper, we address the latter bottleneck and propose a novel FPGA interconnect architecture that reduces energy consumption without sacrificing performance and size. It is demonstrated that the delay of a full-swing, fully-buffered interconnect architecture can be matched by a low-swing solution that dissipates significantly less power and contains a mix of buffer and pass-gate switches. The actual energy savings depend on the specifics of the interconnect design and applications involved. For the considered fine-grain FPGA example, energy savings are observed to range from a factor 4.7 for low-load critical nets to a factor 2.8 for high-load critical nets. The results are obtained from circuit simulations in a 0.13mum CMOS technology for various benchmarks
Keywords :
CMOS logic circuits; field programmable gate arrays; integrated circuit interconnections; logic design; 0.13 micron; CMOS technology; FPGA interconnect design; circuit simulations; energy consumption; full-swing interconnect; fully-buffered interconnect; CMOS technology; Circuit simulation; Costs; Delay; Energy consumption; Energy efficiency; Field programmable gate arrays; Integrated circuit interconnections; Switches;
Conference_Titel :
Design, Automation and Test in Europe, 2006. DATE '06. Proceedings
Conference_Location :
Munich
Print_ISBN :
3-9810801-1-4
DOI :
10.1109/DATE.2006.243746
