期刊文献+

磁盘阵列中高速并行RS译码算法研究 被引量:1

RESEARCH ON HIGH SPEED AND PARALLEL RS DECODING ALGORITHM IN DISK ARRAY
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摘要 该文在总结研究 RS译码的基础上,给出了一种适合并行方式进行高速 RS译码的方法,该方法对于高速数据磁盘阵列录取系统、高速数据通信系统的纠错译码效果显著,已成功地应用到磁盘阵列高速数据录取系统中。 A method of high Speed RS decoding which is propitious to parallel implementation is presented in this paper. The method is suitable for error correcting decoding with high speed data recording system of disk array and high speed data communicating system. It is successfully used in high speed data recording system of disk array.
出处 《电子与信息学报》 EI CSCD 北大核心 2002年第5期691-695,共5页 Journal of Electronics & Information Technology
关键词 译码算法 纠错编码 RS译码 磁盘阵列 Reed-Solomon decoding, Disk array
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参考文献10

  • 1W.A. Burkhard, J. Menon, Disk array storage system reliability, In 23rd International Symposium on Fault-Tolerant Computing, Toulouse, France, June 1993, 432-441.
  • 2G.A. Gibson, L. Hellerstein, R. M. Karp, R. H. Katz, D. A. Patterson, Failure correction techniques for large disk arrays, In Third International Conference on Architectural Support for Programming Languages and Operating Systems, Boston, MA, Apr. 1989, 123-132.
  • 3H. Brunner, A. Curiger, M. Hofstetter, On computing multiplicative inverses in GF(2m), IEEE Trans. on Comput., 1989, 42(8), 1010-1015.
  • 4C.C. Wang, T. K. Truong, K. wang, H. M. Shao, L. J. Deutsch, J. K. Omura, I. S. Reed,VLSI architectures for computing multiplication and inverse in, IEEE Trans. on Comput., 1985,C-34(8), 709-717.
  • 5I.S. Hsu, T. K. Truong, L. J. Deutsch, I. S. Reed, A comparison of VLSI architecture of finite field multipliers using dual, normal, or standard bases, IEEE Trans. On Comput., 1988, 37(6),735-739.
  • 6S.T.J. Fenn, M. Benaissa, D. Taylor, multiplication and division over the dual basis, IEEE Trans. On Comput., 1996, 45(3), 319-327.
  • 7S.T.J. Fenn, M. Benaissa, D. Taylor, Division in GF(2m), Electron. Lett., 1992, 28(19), 2259-2261.
  • 8S.T.J. Fenn, M. Benaissa, D. Taylor, Improved algorithm for division over, Electron. Lett.,1993, 29(4), 469-470.
  • 9G.L. Feng, A VLSI Architecture for Fast Inversion in GF(2m), IEEE Trans. on Comput., 1989,38(10), 1383-1386.
  • 10Kuang Uung Liu, Architecture for VLSI design of Reed-Solomon decoders, IEEE Trans. on Comput, 1984, C-33(2), 178-189.

同被引文献9

  • 1张玉良,陈晓敏.[256,252]RS扩展码的快速译码算法[J].电子与信息学报,2005,27(12):1947-1951. 被引量:1
  • 2M Blaum, J Brady, J Bruck, J Menon. EVENODD: an optimal scheme for tolerating double disk failures in RAID architectures [A]. In Proc of the 21 st Symp on Computer Architecture [C]. Chicago,America, 1994.245 - 254.
  • 3W A Burkhard, J Menon. Diskarray storage system reliability [A]. In 23rd International Sy mposium on Fault-Tolerant Computing[ C]. Toulouse, France, 1993.432 - 441.
  • 4Peter M Chen, et al. RAID: high-performance, reliable secondary storage [J]. ACM Computing Surveys (CSUR), 1994., 26(2) : 145 - 185.
  • 5Ping-Hsun Hsieh,et al.An XOR based reed-solomon algorithm for advanced RAID systems[ A]. 19th IEEE International Symposium on Defect and Fault Tolerance in VLSI Systems [C]. Cannes,France,2004. 165 - 172.
  • 6James S Plank.A tutorial on reed-solomon coding for fault-tolerance in RAID-like systems[J]. Software-Practice & Experience, 1997,27(9) :995 - 1012.
  • 7Liu Peng, et al. RAID-M: a high performance RAID matrix mass storage[ J] Science in China Ser. F Information Science, 2005,48(4) :409 - 420.
  • 8M H Jing, et al. A fast error and erasure correction algorithm for a simple RS-RAID[A]. International Conference on Infotech & Info-net [ C]. Beijing, China, 2001.310 - 315.
  • 9冯丹,张江陵.适用于磁盘阵列的纠双错码分析[J].电子学报,1998,26(5):93-86. 被引量:3

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