Circular Shift Squarer for Efficiency Improvement of Normal Basis Galois Field Inverter

2018 International Conference on Advanced Computer Science and Information Systems (ICACSIS) Pub Date : 2018-10-01 DOI:10.1109/ICACSIS.2018.8618150
P. Mursanto, Aulia Roza Albareta
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引用次数: 1

Abstract

A performance evaluation on modified structure of square operation in an inverter architecture of Galois Field (GF) has been conducted. The most time-consuming GF multiplicative inversion process has been implemented by constructing a nested square and multiplication operations. The new structure of square operator takes advantage of Normal Basis (NB) representation of GF elements. Although NB parallel multiplication has higher complexity than Polynomial Basis (PB) version, the nature of simple circular shift in NB square operation has reduced the total delay significantly and increased the inversion speed by 43% in average.
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提高正基伽罗瓦磁场逆变器效率的圆移位平方器
对伽罗瓦场(GF)逆变器结构中改进的平方运算结构进行了性能评价。通过构造嵌套的平方和乘法运算,实现了最耗时的GF乘法反演过程。新的平方算子结构利用了GF元素的正基(NB)表示。NB并行乘法虽然比多项式基(Polynomial Basis, PB)版本具有更高的复杂度,但NB平方运算中简单的圆移位特性显著降低了总延迟,平均提高了43%的反演速度。
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2018 International Conference on Advanced Computer Science and Information Systems (ICACSIS)
2018 International Conference on Advanced Computer Science and Information Systems (ICACSIS)
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