Abstract
The interactions between the CAD tools that are used to configure the routing resources of a field-programmable gate array (FPGA) and the design of the routing architecture itself are examined. Such an understanding is used to determine where to reduce the number of routing switches in the FPGA while maintaining routability. Experiments are used to study a switch block that was previously thought to have unacceptably low flexibility. It is shown that the performance of this switch block can be improved by adapting the global router to require less flexibility in the architecture, and by careful placement of physical pins on the logic blocks. It is demonstrated that the fewest routing switches are required when each logical pin appears on only one side of the logic cell rather than two or more. >
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