Trevor J. Bauer
Xilinx
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Publication
Featured researches published by Trevor J. Bauer.
field programmable gate arrays | 2015
Shant Chandrakar; Dinesh D. Gaitonde; Trevor J. Bauer
Each generation of FPGA architecture benefits from optimizations around its technology node and target usage. In this paper, we discuss some of the changes made to the CLB for Xilinxs 20nm UltraScale product family. We motivate those changes and demonstrate better results than previous CLB architectures on a variety of metrics. We show that, in demanding scenarios, logic placed in an UltraScale device requires 16% less wirelength than 7-series. Designs mapped to UltraScale devices also require fewer logic tiles. In this paper, we demonstrate the utilization benefits of the UltraScale CLB attributed to certain CLB enhancements. The enhancements described herein result in an average packing improvement of 3% for the example design suite. We also show that the UltraScale architecture handles aggressive, tighter packing more gracefully than previous generations of FPGA. These significant reductions in wirelength and CLB counts translate directly into power, performance and ease-of-use benefits.
Archive | 1997
Steven P. Young; Kamal Chaudhary; Trevor J. Bauer
Archive | 2001
Steven P. Young; Kamal Chaudhary; Trevor J. Bauer
Archive | 2000
Richard A. Carberry; Steven P. Young; Trevor J. Bauer
Archive | 1997
Steven P. Young; Bernard J. New; Nicolas J. Camilleri; Trevor J. Bauer; Shekhar Bapat; Kamal Chaudhary; Sridhar Krishnamurthy
Archive | 2004
Trevor J. Bauer
Archive | 1996
Trevor J. Bauer
Archive | 1999
Andrew K. Percey; Trevor J. Bauer; Steven P. Young
Archive | 1998
Steven P. Young; Trevor J. Bauer
Archive | 1997
Steven P. Young; Trevor J. Bauer; Kamal Chaudhary; Sridhar Krishnamurthy
