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仿生物态的数字硬件的设计原理及应用初探 被引量:2

Introduction of the design and application of bio-inspired hardware
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摘要 以自修复的电子胚胎结构的数字电路系统为例,介绍了生物态的数字硬件电路系统研究的理论基础、设计思想、实现方法以及发展方向。 This paper illustrates self-repairing embryonic systems, presents a promising studyof the bio-inspired digital hardware——the theoretic foundation, the design idea, implementationmethods and the development in the future.
作者 王静霞 朱明程
机构地区 深圳职业技术学院电子与通信工程系 深圳大学信息工程学院
出处 《半导体技术》 CAS CSCD 北大核心 2002年第3期37-40,44,共5页 Semiconductor Technology
基金 广东省自然科学基金项目(No.980916) 国家自然科学基金项目(69976020)资助
关键词 生物态数字硬件 自复制 电子胚胎 POD模型 数字电路设计 bio-inspired hardware self-reproduce embryonic system POE model
分类号 TN790.2 [电子电信—电路与系统]
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参考文献7

  • 1[1]Tempesti G. A self-repairing multiplexer - based FPGA inspired by biological process. PhD Thesis, Swiss Federal Institute of Technology Lausanne, 1998, 1827.
  • 2[2]Teuscher C. On the state of the Art of POEtic machines. Technical Report 01/375, Swiss Federal Institute ofTechnology Lausanne, 2001,11.
  • 3[3]Stauffer A et al. A self-repairing and self-healing elec tronic watch: The biowatch. Lecture Notes in ComputerScience, 2001, 2210:112~127.
  • 4[4]Teuscher C et al. Bio-inspired computing tissues: Towards machines that evolve, grow, and learn.Proceedings of the Fourth International Workshopon IPCAT 2001, 8:13~17.
  • 5[5]Ortega C, Tyrrell A. Design of a basic cell to construct embryonic arrays, IEE Procs. On Computers and Digital Techniques.1998,145 (3):242~248.
  • 6[6]Ortega C et al. Reliability Analysis in self-repairing embryonic system. Procs of 1 st NASA/DoD Workshopon Evolvable Hardware, IEEE Computer Society, 1999, 120~128.
  • 7[7]Garis H. De et al. Initial evolution results on CAMbrain machines(CMBs).Lecture Notes in ComputerScience,2001,814 ~ 819.

同被引文献18

  • 1Hde Garis. Evolvable Hardware: Genetic programming of a Darwin machine [C]. In: RFAlbrencht, CRReeves, NC Steele. Proc of the Int Conf on Artificial Neural Nets and Genetic Algorithms. Heidelberg: Spring-Verlag, 1993. 441 ~449.
  • 2Tempesti G. A self-repairing multiplexer-based FPGA inspired by biological process[D]. Swiss Federal Institute of technology,1998.18 ~ 27.
  • 3Teuscher C. On the state of the Art of POE tic machines[R].Technical Report 01/375, Swiss Federal Institute of Technology,2001.11.
  • 4ZENG Fan-tai, WANG Qiang, ZENG Ming. The Method of Bionic System on a Chip[C]. In: Ting-Ao Tang, Wenghong Li, Huihua Yu. 2003 5th International Conference on ASICProceedings. Beijing: IEEE Press, 2003. 45 ~ 48.
  • 5KIM H,JEON H J,LEE K. The design and evaluation of all voting triple modular redundancy system[ C ]. Proc of the 2002 Reliability and Maintainability Symposium,2002:439 -444.
  • 6SMITH G L, TORRE L. Techniques to enable FPGA based reconfigurable fault tolerant space computing[ C ]. IEEE Aerospace Conference, 2006: 4-11.
  • 7MANGE D, SANCHEZ E, STAUFFER A. Embryonics: A new methodology for designing field-programmable gate arrays with self-repair and self-replicating properties [ J ]. IEEE Transactions on Very Large Scale Integration (VL- SI) Systems, 1998,6 ( 3 ) : 387-399.
  • 8STAUFFER A, MANGE D, TEMPESTI G, et al. Bio- Watch: A giant electronic bio-inspired watch [ C ]. Pro- ceedings of 3rd NASA/DoD Workshop on Evolvable Hardware( EI-IO1 ) , 2001 : 185-192.
  • 9TEMPESTI G, MANGE D, STAUFFER A, et al. The BioWall : An electronic tissue for prototyping bio-inspired systems[ C]. Proceedings of 4th NASA/DoD Conference on Evolvable Hardware(EH04) , 2002: 221-230.
  • 10ORTEGA C, SANCHEZ E, TYRRELL A. Hardware im- plementation of an embryonic architecture using virtex FPGAs [ C ]. Proceedings of the Third International Con- ference on Evolvable Systems: From Biology to Hard- ware, 2000 : 155 - 164.

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半导体技术
2002年 第3期

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