@inproceedings{oai:ipsj.ixsq.nii.ac.jp:00231585,
 author = {Hiroaki, Suzuki and Kensuke, Iizuka and Hideharu, Amano and Wataru, Takahashi and Kazutoshi, Wakabayashi and Hiroaki, Suzuki and Kensuke, Iizuka and Hideharu, Amano and Wataru, Takahashi and Kazutoshi, Wakabayashi},
 book = {Proceedings of Asia Pacific Conference on Robot IoT System Development and Platform},
 month = {Dec},
 note = {Programming in a multi-FPGA system requires the programmers to make tables for setting communication paths between boards, and there is a problem that the communication paths may change depending on the board used. In this paper, we have improved the flow of the multi-FPGA board design environment for the M-KUBOS cluster by dividing applications and automatically generating communication channel configuration tables for use in actual implementation using CyberWorkBench (CWB), a high-level synthesis tool with extended functions and SystemC., Programming in a multi-FPGA system requires the programmers to make tables for setting communication paths between boards, and there is a problem that the communication paths may change depending on the board used. In this paper, we have improved the flow of the multi-FPGA board design environment for the M-KUBOS cluster by dividing applications and automatically generating communication channel configuration tables for use in actual implementation using CyberWorkBench (CWB), a high-level synthesis tool with extended functions and SystemC.},
 pages = {59--60},
 publisher = {情報処理学会},
 title = {Automatic Generation of Communication Paths between Multiple FPGA Boards},
 volume = {2023},
 year = {2023}
}