用于未来架构设计空间探索的嵌入式硬核fpga CAD工具

2006 14th Annual IEEE Symposium on Field-Programmable Custom Computing Machines Pub Date : 2006-04-24 DOI:10.1109/FCCM.2006.30

Simin Dai, E. Bozorgzadeh

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引用次数: 6

摘要

在这项工作中，目标是开发一种灵活的CAD工具，通过该工具，设计人员可以探索FPGA架构中不同类型的嵌入式硬核和接口的集成。我们的工具采用RTL设计并定义了嵌入式硬核。作者通过嵌入块对位置和路由的VPR进行了改进。我们已经尝试将不同的模块作为硬核嵌入到FPGA器件上。我们还通过应用均匀和非均匀路由通道探索了嵌入式硬核的FPGA路由架构。在许多情况下，非均匀通道会产生更高效的架构。我们的结果表明，需要一种工具来更好地探索具有嵌入式硬核的fpga的设计空间

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CAD Tool for FPGAs with Embedded Hard Cores for Design Space Exploration of Future Architectures

In this work, the goal is to develop a flexible CAD tool by which designers can explore integration of different types of embedded hard cores and interfaces in the FPGA architectures. Our tool takes a RTL design and defined embedded hard cores. The authors have modified VPR for place and route with embedded blocks. We have experimented different modules to be embedded as hard cores on a FPGA device. We also explore the FPGA routing architecture with embedded hard cores by applying uniform and non-uniform routing channels. In many cases, non-uniform channels produce more area-efficient architectures. Our results show that there is a need for a tool for better exploration of design space for FPGAs with embedded hard cores

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2006 14th Annual IEEE Symposium on Field-Programmable Custom Computing Machines

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