Operation in Partitioned Circuits with Scalable Hardware Mechanism

2018 15th International Joint Conference on Computer Science and Software Engineering (JCSSE) Pub Date : 2018-07-01 DOI:10.1109/JCSSE.2018.8457181
Yusuke Katoh, Hironari Yoshiuchi, Yoshio Murata, H. Nakajo
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Abstract

We propose the Scalable Hardware Mechanism, which enables the operation of a partitioned circuit to prevent the degradation of clock frequency by minimizing its dependence on the usage and the type of FPGA. Our mechanism provides a reduced delay by the collective signal transmission with the partitioned AES code generation circuit and the character string edit distance calculation circuit as partitioned circuits. The collective signal transmission has attained 1.27 times improvement in the speed for the AES code generation circuit and 3.16 times improvement for the character string edit distance calculation circuit compared with the circuit by the conventional method.
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具有可扩展硬件机制的分区电路操作
我们提出了一种可扩展的硬件机制,它使分割电路的操作能够通过最小化其对FPGA的使用和类型的依赖来防止时钟频率的退化。我们的机制利用分割的AES编码生成电路和字符串编辑距离计算电路作为分割电路,通过集体信号传输来减少延迟。与传统方法相比,AES编码生成电路的集体信号传输速度提高了1.27倍,字符串编辑距离计算电路的集体信号传输速度提高了3.16倍。
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2018 15th International Joint Conference on Computer Science and Software Engineering (JCSSE)
2018 15th International Joint Conference on Computer Science and Software Engineering (JCSSE)
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