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以边为中心的密码逻辑阵列高能效映射算法

徐金甫 章宇雷 李伟 陈韬

徐金甫, 章宇雷, 李伟, 陈韬. 以边为中心的密码逻辑阵列高能效映射算法[J]. 电子与信息学报, 2021, 43(6): 1587-1595. doi: 10.11999/JEIT210008
引用本文: 徐金甫, 章宇雷, 李伟, 陈韬. 以边为中心的密码逻辑阵列高能效映射算法[J]. 电子与信息学报, 2021, 43(6): 1587-1595. doi: 10.11999/JEIT210008
Jinfu XU, Yulei ZHANG, Wei LI, Tao CHEN. A Edge-Centered High Energy-Efficient Mapping Algorithm for Cipher Logic Array[J]. Journal of Electronics & Information Technology, 2021, 43(6): 1587-1595. doi: 10.11999/JEIT210008
Citation: Jinfu XU, Yulei ZHANG, Wei LI, Tao CHEN. A Edge-Centered High Energy-Efficient Mapping Algorithm for Cipher Logic Array[J]. Journal of Electronics & Information Technology, 2021, 43(6): 1587-1595. doi: 10.11999/JEIT210008

以边为中心的密码逻辑阵列高能效映射算法

doi: 10.11999/JEIT210008
详细信息
    作者简介:

    徐金甫:男,1965年生,教授,博士生导师,研究方向为专用集成电路设计技术

    章宇雷:男,1996年生,硕士生,研究方向为可重构逻辑电路设计

    李伟:男,1983年生,副教授,博士生导师,研究方向为密码处理器设计、ASIC专用芯片设计

    陈韬:男,1979年生,副教授,硕士生导师,研究方向为安全专用芯片设计

    通讯作者:

    章宇雷 462960074@qq.com

  • 中图分类号: TN918.2

A Edge-Centered High Energy-Efficient Mapping Algorithm for Cipher Logic Array

  • 摘要: 为解决密码算法在粗粒度可重构密码逻辑阵列(CRCLA)上映射性能不高及编译时间长的问题,该文提出一种密码算法和硬件资源的描述形式,在映射过程中能够更加直观地显示各个资源的占用情况;并通过分析密码算法运算特征与粗粒度可重构密码逻辑阵列硬件结构的内在关联,以减少关键路径延时为目标,提出了一种以边为中心的密码逻辑阵列高能效映射算法(ECLMap)。通过边映射来指导节点映射,结合相关映射策略,引入回溯机制来提高映射成功率。在仿真平台下对多种密码算法进行实验,相比于其他通用的映射算法,结果表明该文提出的算法映射性能最佳,在算法能效上平均提升了约20%,同时在编译时间上平均提升了约25%。实现了算法的高能效映射。
  • 图  1  CRCLA整体硬件结构

    图  2  数据流图的矩阵表示过程

    图  3  PE资源占用情况表示

    图  4  一个包含互连及运算单元的集合及其表示方式

    图  5  数据流图拆分映射过程

    图  6  ECLMap算法映射成功率对比

    图  7  CRCLA密码算法映射编译时间对比结果

    图  8  CRCLA密码算法映射能效对比结果

    表  1  ECLMap算法描述

     输入:G={V,E},C={P,L}
     输出: Map
     (1) FT←Initialize_FT(); //初始化回溯表
     (2) Map←Initialize_MP(); // 初始化映射
     (3) repeat
     (4) Vroot←Choose_Root_Node(V); //起始节点的选取
     (5) SE←Sort_Edge(Vroot); //构建搜索步
     (6) PEroot←Map_Root(Vroot); //起始节点的映射
     (7) for each edge e in SE do
     (8) RM←Search_Road(e); //路径搜索
     (9) M←Choose_Road_by_Affinity(R`M,PE); //亲和度函数   进一步路径选择
     (10) R`M←Choose_Min_Road(RM,PE); //选择最小的路径
     (11) if M≠$\emptyset $ then
     (12)  RoadMM(0);
     (13)  VM←Get_Destination(RoadM); //路径终点即为节点   的映射
     (14)  Upadate_mapping(RoadM, VM, Map);
     (15)  FT←Updata_FT(VM,FT,M,M(0)); //回溯表的确定
     (16) else
     (17)   RBK←Edge_To_Backtrack(e,FT); //M为空则进行回溯
     (18) end if
     (19) if RBK==NULL then
     (20)  break;
     (21)  else
     (22)  Modify_FT(RBK, FT); //修改回溯表
     (23)  Delete_MP(RBK,Map); //删除映射失败的路径
     (24) end if
     (25) end for
     (26) Until all nodes and edge in SE are mapped;
     (27) return Map
    下载: 导出CSV

    表  2  不同映射算法下的密码算法映射性能(Mbps)

    密码算法SPKMEPIMap2-StepACOSA本文
    AES410420446440450
    DES247225219256269
    A5-1115110112120128
    ZUC160156150168175
    SM3228217219235256
    下载: 导出CSV

    表  3  不同映射算法下的密码算法映射功耗(mW)

    密码算法电压(V)SPKMEPIMap2-StepACOSA本文
    AES1.2273280265260250
    DES1.2256267252248241
    A5-11.2278286272266245
    ZUC1.2285291280273258
    SM31.2293296283275264
    下载: 导出CSV
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出版历程
  • 收稿日期:  2021-01-04
  • 修回日期:  2021-03-05
  • 网络出版日期:  2021-03-27
  • 刊出日期:  2021-06-18

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