Invited lecture - Accelerating Smith-Waterman searches

被引:0
|
作者
Myers, G [1 ]
Durbin, R [1 ]
机构
[1] Celera Genom, Rockville, MD USA
来源
ALGORITHMS IN BIOINFORMATICS, PROCEEDINGS | 2002年 / 2452卷
关键词
D O I
暂无
中图分类号
Q81 [生物工程学(生物技术)]; Q93 [微生物学];
学科分类号
071005 ; 0836 ; 090102 ; 100705 ;
摘要
Searching a database for a local alignment to a query under a typical scoring scheme such as PAM120 or BLOSUM62, is a computation that has resisted algorithmic improvement due to its basis in dynamic programming and the weak nature of the signals being searched for. In a query preprocessing step, a set of tables can be built that permit one to (a) eliminate a large fraction of the dynamic programming matrix from consideration, and (b) to compute several steps of the remainder with a single table lookup. While this result is not an asymptotic improvement over the original Smith-Waterman algorithm, its complexity is characterized in terms of some sparse features of the matrix and it does yields 3.33 factor improvement over the basic algorithm in practice.
引用
收藏
页码:331 / 342
页数:12
相关论文
共 50 条
  • [41] Accelerating the Smith-Waterman algorithm with interpair pruning and band optimization for the all-pairs comparison of base sequences
    Okada, Daiki
    Ino, Fumihiko
    Hagihara, Kenichi
    BMC BIOINFORMATICS, 2015, 16
  • [42] A Novel Structure of the Smith-Waterman Algorithm for Efficient Sequence Alignment
    Zahid, Saad Khan
    Hasan, Laiq
    Khan, Asif Ali
    Ullah, Salim
    2015 THIRD INTERNATIONAL CONFERENCE ON DIGITAL INFORMATION, NETWORKING, AND WIRELESS COMMUNICATIONS (DINWC), 2015, : 6 - 9
  • [43] CUDASW++ 3.0: accelerating Smith-Waterman protein database search by coupling CPU and GPU SIMD instructions
    Yongchao Liu
    Adrianto Wirawan
    Bertil Schmidt
    BMC Bioinformatics, 14
  • [44] CUDASW++3.0: accelerating Smith-Waterman protein database search by coupling CPU and GPU SIMD instructions
    Liu, Yongchao
    Wirawan, Adrianto
    Schmidt, Bertil
    BMC BIOINFORMATICS, 2013, 14 : 117
  • [45] Efficient Distributed Smith-Waterman Algorithm Based on Apache Spark
    Xu, Bo
    Li, Changlong
    Zhuang, Hang
    Wang, Jiali
    Wang, Qingfeng
    Zhou, Xuehai
    2017 IEEE 10TH INTERNATIONAL CONFERENCE ON CLOUD COMPUTING (CLOUD), 2017, : 608 - 615
  • [46] Efficient Partial Shape Matching Using Smith-Waterman Algorithm
    Chen, Longbin
    Feris, Rogenio
    Turk, Matthew
    2008 IEEE COMPUTER SOCIETY CONFERENCE ON COMPUTER VISION AND PATTERN RECOGNITION WORKSHOPS, VOLS 1-3, 2008, : 953 - +
  • [47] A parallel implementation of the Smith-Waterman algorithm for massive sequences searching
    Liao, HY
    Yin, ML
    Cheng, Y
    PROCEEDINGS OF THE 26TH ANNUAL INTERNATIONAL CONFERENCE OF THE IEEE ENGINEERING IN MEDICINE AND BIOLOGY SOCIETY, VOLS 1-7, 2004, 26 : 2817 - 2820
  • [48] The new SIMD Implementation of the Smith-Waterman Algorithm on Cell Microprocessor
    Rudnicki, Witold R.
    Jankowski, Aleksander
    Modzelewski, Aleksander
    Piotrowski, Aleksander
    Zadrozny, Adam
    FUNDAMENTA INFORMATICAE, 2009, 96 (1-2) : 181 - 194
  • [49] A New Parallel Method of Smith-Waterman Algorithm on a Heterogeneous Platform
    Chen, Bo
    Xu, Yun
    Yang, Jiaoyun
    Jiang, Haitao
    ALGORITHMS AND ARCHITECTURES FOR PARALLEL PROCESSING, PT 1, PROCEEDINGS, 2010, 6081 : 79 - 90
  • [50] Hardware Implementation of the Smith-Waterman Algorithm using a Systolic Architecture
    Marmolejo-Tejada, J. M.
    Trujillo-Olaya, V.
    Renteria-Mejia, C. P.
    Velasco-Medina, J.
    2014 IEEE 5TH LATIN AMERICAN SYMPOSIUM ON CIRCUITS AND SYSTEMS (LASCAS), 2014,
12345