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논문 기본 정보
- 자료유형
- 학술저널
- 저자정보
- 저널정보
- 한국정보통신학회JICCE Journal of information and communication convergence engineering Journal of information and communication convergence engineering 제9권 제5호
- 발행연도
- 2011.10
- 수록면
- 615 - 618 (4page)
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이 논문의 연구 히스토리 (2)
2011
A Study on Self Repairing for Fast Fault Recovery in Digital System by Mimicking Cell
Sokehwan Kim
,
Chang-Wu Hu
Journal of information and communication convergence engineering
2011.10
학술저널
A Study on Self Repairing Algorithm in Digital System by mimicking Cell
Sokehwan Kim
,
Chang-Wu Hu
INTERNATIONAL CONFERENCE ON FUTURE INFORMATION & COMMUNICATION ENGINEERING
2011.06
학술대회자료
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초록· 키워드
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Living cells generate the cell cycle or apoptosis, depending on the course will be repeated. If an error occurs during this period of life in order to maintain the cells in the peripheral cells find the error portion. These cellular functions were applied to the system to simulate the circuit. Circuit implementation of the present study was constructed the redundant structure in order to found the error quickly.
Self-repairing of digital systems as an advanced form of fault-tolerance has been increasingly receiving attention according as digital systems have been more and more complex and speed-up especially for urgent systems or those working on extreme environments such as deep sea and outer space. Simulating the process of cell differentiation algorithm was confirmed by the FPGA on the counter circuit. If an error occurs on the circuit where the error was quickly locate and repair.
In this paper, we propose a novel self-repair architecture for fast and robust fault-recovery that can easily apply to real, complex digital systems. These Self-Repairing Algorithms make it possible for the application digital systems to be alive even though in very noisy and extreme environments.
Self-repairing of digital systems as an advanced form of fault-tolerance has been increasingly receiving attention according as digital systems have been more and more complex and speed-up especially for urgent systems or those working on extreme environments such as deep sea and outer space. Simulating the process of cell differentiation algorithm was confirmed by the FPGA on the counter circuit. If an error occurs on the circuit where the error was quickly locate and repair.
In this paper, we propose a novel self-repair architecture for fast and robust fault-recovery that can easily apply to real, complex digital systems. These Self-Repairing Algorithms make it possible for the application digital systems to be alive even though in very noisy and extreme environments.
목차
Abstract
Ⅰ. INTRODUCTION
Ⅱ. SELF-REPAIR ALGORITHMS
Ⅲ. EXPERIMENTAL RESULT
Ⅳ. CONCLUSIONS
REFERENCES
참고문헌 (7)
참고문헌 신청
1. [학술지(정기간행물)] - Daniel Mange / 1998 / Embryonics: A New Methodology for Designing Field-Programmable Gate Arrays with Self-Repair and Self-Replicating Properties / IEEE Trans. VLSI Syst 6 : 387 ~ 399
2. [학술지(정기간행물)] - Will Barker / 2007 / Fault Tolerance Using Dynamic Reconfiguration on the POEtic Tissue / IEEE Trans. Evol. Comput 11 (5) : 666 ~ 684
3. [학술지(정기간행물)] - Garrison W. Greenwood / 2005 / On the Practicality of Using Intrinsic Reconfiguration for Fault Recovery / IEEE Trans. Evol. Comput 9 (4) : 398 ~ 405
4. [학술대회논문] - Wei-Je Huang / 2001 / Column-Based Precompiled Configuration Techniques for FPGA Fault Tolerance / Proc. IEEE Field-Programmable Custom Computing Machines (FCCM 01) : 137 ~ 146
5. [단행본] - Can Öztürkeri / 2005 / Self-repair Ability of a Toroidal and Non-toroidal Cellular Developmental Model, In the proceeding of, volume 3630 of Lecture Notes in Computer Science / Springer-Verlag : 138 ~ 148
2. [학술지(정기간행물)] - Will Barker / 2007 / Fault Tolerance Using Dynamic Reconfiguration on the POEtic Tissue / IEEE Trans. Evol. Comput 11 (5) : 666 ~ 684
3. [학술지(정기간행물)] - Garrison W. Greenwood / 2005 / On the Practicality of Using Intrinsic Reconfiguration for Fault Recovery / IEEE Trans. Evol. Comput 9 (4) : 398 ~ 405
4. [학술대회논문] - Wei-Je Huang / 2001 / Column-Based Precompiled Configuration Techniques for FPGA Fault Tolerance / Proc. IEEE Field-Programmable Custom Computing Machines (FCCM 01) : 137 ~ 146
5. [단행본] - Can Öztürkeri / 2005 / Self-repair Ability of a Toroidal and Non-toroidal Cellular Developmental Model, In the proceeding of, volume 3630 of Lecture Notes in Computer Science / Springer-Verlag : 138 ~ 148
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