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A new LUT and carry structure embedded in the configurable logic block of an FPGA is proposed.The LUT is designed to support both 4-input and 5-input structures,which can be configured by users according to their needs without increasing interconnect resources.We also develop a new carry chain structure with an optimized critical path.Finally a newly designed configurable scan-chain is inserted.The circuit is fabricated in 0.13μm 1P8M 1.2/2.5/3.3 V logic CMOS process.The test results show a correct function of 4/5-input LUT and scanchain, and a speedup in carry performance of nearly 3 times over current architecture in the same technology at the cost of an increase in total area of about 72.5%.Our results also show that the logic utilization of this work is better than that of a VirtexⅡ/Virtex 4/Virtex 5/Virtex 6/Virtex 7 FPGA when implemented using only 4-LUT and better than that of a VirtexⅡ/Virtex 4 FPGA when implemented using only 5-LUT.
A new LUT and carry structure embedded in the configurable logic block of an FPGA is proposed. The LUT is designed to support both 4-input and 5-input structures, which can be configured by users according to their needs without increasing interconnect resources. We also develop a new carry chain structure with an optimized critical path. Finally a newly designed configurable scan-chain is inserted. The test results show a correct function of 0.13 μm 1P8M 1.2 / 2.5 / 3.3 V logic CMOS process. 4/5-input LUT and scanchain, and a speedup in carry performance of nearly 3 times over current architecture in the same technology at the cost of an increase in total area of about 72.5% .Our results also show that the logic utilization of this work is better than that of a Virtex II / Virtex 4 / Virtex 6 / Virtex 6 FPGA when implemented using 4-LUT and better than that of a Virtex II / Virtex 4 FPGA when implemented using only 5-LUT.