反饋

舒繼武

舒繼武，男，1968年8月出生，湖北孝感人，中共黨員，博士，教授，博士生導師。^[11] 現任福建閩江學院院長。^[10-11]

主要從事基於新型非易失存儲器的存儲系統、閃存存儲系統、分佈式（網絡/雲/大數據）存儲系統與關鍵技術、數據存儲可靠性與存儲安全等方面研究。^[4]

中文名: 舒繼武
國籍: 中國
民族: 漢族
出生地: 湖北孝感
出生日期: 1968年8月
畢業院校: 南京大學

學位/學歷: 博士
職業: 教學科研工作人員
專業方向: 非易失性內存存儲系統、閃存存儲系統、分佈式存儲系統、數據存儲可靠性與安全
主要成就: IEEE Fellow、國家傑出青年科學基金獲得者^[4]
職稱: 教授

舒繼武人物經歷

舒繼武是IEEE Fellow^[1] ，國家傑出青年科學基金獲得者，中國計算機學會會士^[2] 、學術工委副主任、信息存儲技術專業委員會副主任，災備技術國家工程實驗室副主任，信息存儲系統教育部重點實驗室學術委員會委員^[3] 、清華大學信息科學與技術學院學術委員會委員，SNIA China(全球網絡存儲工業協會（中國）)專家委員會委員。

曾任國家863計劃信息技術領域“海量存儲系統關鍵技術”重大項目總體專家組副組長。擔任《ACM Transactions on Storage》的Associate Editor。

1991年畢業於國防科技大學計算機系軟件專業並獲得學士學位，1996年於江蘇大學獲工學碩士學位，1998年於南京大學計算機系軟件專業獲得博士學位，1999年1月在清華大學計算機系博士後流動站做博士後^[5] ，2000年10月出站後留校任教，其間於2000年1月至2000年6月在香港理工大學進行合作研究。先後擔任清華大學計算機科學與技術系高性能計算技術研究所黨支部書記、廈門大學信息學院黨委副書記、院長等職。^[12]

2020年9月，任廈門大學信息學院院長。^[4]

2023年3月，任閩江學院院長。^[10-12]

舒繼武職務任免

2023年3月3日，閩江學院召開領導幹部大會，宣佈聘任舒繼武同志為閩江學院院長。^[10]

2023年6月13日，中國共產黨閩江學院第三屆委員會第一次全體會議舉行，舒繼武當選閩江學院第三屆黨委常委。^[14]

舒繼武研究方向

主要從事網絡（/雲/大數據）存儲系統、新型NVM存儲系統與技術、存儲可靠性與安全、並行/分佈式處理技術等等方面的研究工作。^[4]

① 基於非易失存儲器件的新型存儲系統與技術

② 閃存存儲系統與技術

③ 網絡（/雲/大數據）存儲系統與關鍵技術

④ 數據存儲可靠性等。

舒繼武社會任職

中國計算機學會: 信息存儲技術專業委員會主任（2020-2024）, 第十二屆理事會理事 (2020-2024);

中國計算機學會: 信息存儲技術專業委員會副主任 (2006-2019), 學術工委副主任 (2018-2020);

災備技術國家工程實驗室: 副主任、技術委員會委員 (2008-2021)，北京信息災備技術產業聯盟副理事長 (2021-2026);

高效能服務器和存儲技術國家重點實驗室: 學術委員(2008-2018.07), 學術委員會榮譽委員(2018-);

信息存儲系統教育部重點實驗室學術委員會委員 (2017-);

信息物理社會可信服務計算教育部重點實驗室學術委員會委員 (2020-2023);

清華大學信息科學技術學院學術委員會委員 (2011-);

863計劃“海量存儲系統關鍵技術” 重大項目: 總體專家組副組長 (2008-2010);

《IEEE Transaction on Computers》: Associate Editor (2019-);

《ACM Transaction on Storage》: Associate Editor (2016-);

《Journal of Computer Science and Technology》: Editor of the area of Computer Architecture and Systems(2018-);

《計算機學報》: 編委 (2010-);

《軟件學報》: 責任編委 (2012-);

《計算機研究與發展》: 編委 (2010-)^[13]

舒繼武主要成就

作為負責人承擔了國家重點研發項目、863項目和課題、973課題、國家自然科學基金重點項目等，是“十一五”國家高技術研究發展計劃（863計劃）“海量存儲系統關鍵技術”重大項目總體專家組副組長，“十二五”863計劃信息領域“面向大數據的先進存儲結構及關鍵技術”主題項目首席專家，“十三五”國家重點研發計劃“雲計算和大數據”重點專項項目“TB級持久性內存存儲技術與系統”的項目負責人；作為負責人與Intel、華為、中興、浪潮、三星、阿里、騰訊等相關單位合作完成了十餘個橫向課題。在包括USENIX FAST、USENIX ATC、MICRO、ISCA、SC、EuroSys、DAC、DSN等重要國際學術會議和ACM TOS、IEEE TC、 IEEE TPDS等權威期刊上發表學術論文百餘篇^[6] ；已獲2項美國發明專利授權，40餘項國家發明專利授權^[7] 。擔任《ACM Transactions on Storage 》國際期刊編委，《計算機學報》、《軟件學報》、《計算機研究與發展》等國內期刊編委，曾擔任包括IEEE NAS、IEEE IPDPS、IEEE ICPP、ACM HPDC^[8] 、IEEE SRDS^[8] 、IEEE ICCD^[8] 、LCTES^[8] 等十餘個^[8] 國際會議的程序委員會委員。曾獲2004年“北京市科學技術獎二等獎”(排名1)、2005年首屆“中國計算機學會創新獎二等獎”(排名1)、2007年“國家科學技術進步獎二等獎”(排名2)、2007年“高等學校科學技術獎科技進步二等獎”(排名1)、2014年“中國電子學會科學技術獎發明一等獎”、2015年“國家技術發明獎二等獎”^[9] ；曾獲2002年“清華之友-優秀教師獎”、2002年“清華大學優秀博士後”獎、2005年“清華大學學術新人”獎、2005年入選“教育部新世紀優秀人才”支持計劃、2007年度清華大學“良師益友”稱號、2007年獲“中創軟件人才獎”、2009年獲“國家傑出青年科學基金”，2016年“CCF優秀博士學位論文獎指導教師”榮譽、2018年1月當選國際電氣和電子工程師協會會士（IEEE Fellow）^[1] ，2018年2月入選中國計算機學會會士（CCF Fellow）等。

舒繼武項目課題

l 國家重點研發計劃重點專項項目: TB級持久性內存存儲技術與系統 (2018-2021);

l 國家重點研發計劃重點專項課題：分佈式持久性共享內存框架研製及存儲系統應用示範 (2018-2021);

l 北京市科委重點項目之課題：異構混合內存系統的大數據處理軟件平台架構與優化研究(2015-2016);

l 863項目: 面向大數據的先進存儲結構及關鍵技術(2013-2015);

l 863課題: 基於新型存儲器件的存儲體系結構與關鍵技術研究(2013-2015);

l 國家自然科學重點基金: 新型分佈式存儲系統的高可靠性關鍵技術研究 (2019-2023);

l 國家自然科學重點基金:網絡公用數據存儲系統可靠性及其災備研究(2013-2017);

l 國家工信部子課題: 雲計算平台上面向移動通信業務雲服務關鍵技術與系統(2013-2015);

l 國家科技支撐計劃子課題: 存儲虛擬化軟件開發及產業化(2010-2013);

l 國家傑出青年科學基金: 大規模網絡存儲系統的可靠性關鍵技術研究 (2010-2013);

l 國家自然科學基金: 大規模網絡存儲系統的容錯技術研究 (2009-2011);

l 973課題: 下一代互聯網存儲按需部署模型與服務質量研究 (2004-2009);

l 863重大課題子課題: 海量存儲系統軟件和關鍵技術 (2009-2010).

舒繼武獎勵榮譽

l 北京市科學技術進步二等獎——高可擴展海量網絡存儲系統 (2004);

l 高等學校科學技術進步二等獎——深騰2600網絡服務器系統 (2007);

l 國家科技進步二等獎——高性能集羣計算機與海量存儲系統 (2007);

l 中國電子學會技術發明一等獎——面向社區共享的高可用雲存儲系統(2014);

l 國家科學技術發明二等獎——面向社區共享的高可用雲存儲系統(2015);

l 江蘇省科學技術獎一等獎——大規模數據服務系統與平台的關鍵技術及產業應用(2018);

l 中國產學研合作促進會創新成果獎一等獎——基於TB級數據架構的需求設計開發一體化軟件工程智能技術研發及行業應用(2018);

l 教育部科學技術技術發明一等獎——軟硬件協同的閃存存儲系統關鍵技術及應用(2019);

l 中國計算機學會科學技術獎技術發明一等獎——持久性內存存儲系統關鍵技術與應用(2020).

l 清華大學學術新人獎 (2005);

l 教育部：新世紀優秀人才 (2005);

l 中創軟件人才獎(2007);

l 國家自然科學基金委: 國家傑出青年科學基金獲得者 (2009);

l IEEE Fellow (2018);

l 中國計算機學會會士 (2018)

l 華為“奧林帕斯獎”(2020).

舒繼武會議論文

代表性會議論文

[1] Xiaojian Liao, Youyou Lu, Erci Xu, Jiwu Shu, Max: A Multicore-Accelerated File System for Flash Storage, The 2021 USENIX Annual Technical Conference (USENIX ATC)，JULY 14–16, 2021 (a virtual event), (Acceptance rate:64/341=18.77%)

[2] Shiyao Lin，Guowen Gong，Zhirong Shen，Patrick P. C. Lee，Jiwu Shu，Boosting Full-Node Repair in Erasure-Coded Storage, The 2021 USENIX Annual Technical Conference (USENIX ATC)，JULY 14–16, 2021 (a virtual event), (Acceptance rate:64/341=18.77%)

[3] Qing Wang, Youyou Lu, Junru Li, Jiwu Shu, Nap: A Black-Box Approach to NUMA-Aware Persistent Memory, the 15th USENIX Symposium on Operating Systems Design and Implementation (OSDI) , 14-16 July 2021 (Acceptance rate: 31/165=18.8%)

[4] Fan Yang, Youmin Chen, Youyou Lu, Qing Wang, Jiwu Shu, Aria: Tolerating Skewed Workloads in Secure In-memory Key-value Stores, The 37th IEEE International Conference on Data Engineering (ICDE), 19-22 April 2021

[5] Youmin Chen, Youyou Lu, Bohong Zhu, Andrea Arpaci-Dusseau, Remzi Arpaci-Dusseay, Jiwu Shu, Scalable Persistent Memory File System with Kernel-User Space Collaboration, 19th USENIX Conference on File and Storage Technologies (FAST), February 23-25, 2021, Santa Clara, California, USA. (Acceptance Rate: 28/130=21.54%)

[6] Qing Wang, Youyou Lu, Erci Xu, Junyu Li, Youmin Chen, Jiwu Shu, Concordia: Distributed Share memory with In-Network Cache Coherence, 19th USENIX Conference on File and Storage Technologies (FAST), February 22-25, 2021, Santa Clara, California, USA. (Acceptance Rate: 28/130=21.54%)

[7] Xiaojian Liao, Youyou Lu, Erci Xu, Jiwu Shu, Write Dependency Disentanglement with HORAE, the 14th USENIX Symposium on Operating Systems Design and Implementation (OSDI), November 4–6, 2020. Pp.549-565 (Acceptance rate: 70/398=17.59%)

[8] Minhui Xie, Kai Ren, Youyou Lu, JiaZhen Lin, Guangxu Yang, Bihai Wu, Fan Yang, Wanhong Xu, Jiwu Shu, Kraken: Memory Efficient Continual Learning for Large-Scale Real-Time Recommendation，The International Conference for High Performance Computing, Networking, Storage, and Analysis (SC), Nov. 16-19, 2020, Denver, Co

[9] Youmin Chen, Youyou Lu, Bohong Zhu, Jiwu Shu, Tree: a Persistent B+-Tree with Low Tail Latency, Proceedings of Very Large Data Bases (VLDB) 2020，Aug 31, 2020 - Sep 4, 2020，Tokyo, Japan

[10] Yang Zhe, Youyou Lu, Erci Xu, Jiwu Shu, CoinPurse: A Device-Assisted File System with Dual Interfaces, the 56th Annual Design Automation Conference (DAC), July 19, 2020, San Francisco, California, USA. (Acceptance rate: 228/984=23.17%)

[11] Qing Wan, Youyou Lu, Zhongjie Wu, Fan Yang, Jiwu Shu, Improving the Concurrency Performance of Persistent Memory Transactions on Multicores, the 56th Annual Design Automation Conference (DAC), July 19, 2020, San Francisco, California, USA (Acceptance rate: 228/984=23.17%)

[12] Youmin Chen, Youyou Lu, Fan Yang, Qing Wang, Yang Wang, Jiwu Shu, FlatStore: an Efficient Log-Structured Key-Value Storage Engine for Persistent Memory, The 25th International Conference on Architectural Support for Programming Languages and Operating Systems (ASPLOS), March 16-20, 2020, Lausanne, Switzerland (Acceptance rate: 86/476=18.07%)

[13] Fan Yang, Youyou Lu, Youmin Chen, Haiyu Mao, Jiwu Shu, No Compromises: Secure NVM with Crash Consistency, Write-Efficiency and High-Performance, the 55th Annual Design Automation Conference (DAC), June 2-6, 2019, Las Vegas, NV, USA

[14] Fei Li, Youyou Lu, Zhongjie Wu, Jiwu Shu, ASCache: An Approximate SSD Cache for Error-Tolerant Applications, the 55th Annual Design Automation Conference (DAC), June 2-6, 2019, Las Vegas, NV, USA

[15] Youmin Chen, Youyou Lu, Jiwu Shu, Scalable RDMA RPC on Reliable Connection with Efficient Resource Sharing, European Conference on Computer Systems (EuroSys), Dresden, Germany, Mar 25, 2019 - Mar 28, 2019

[16] Haiyu Mao, Mingcong Song, Tao Li, Yutiing Dai, Jiwu Shu, LerGAN: A Zero-free, Low Data Movement and PIM-based GAN Architecture, The 51st Annual IEEE/ACM International Symposium on Microarchitecture (Micro-51), Fukuoka City, Japan, 2018, Oct 20 – 24, pp.670-682 (acceptance rate: 74/351=21.06%)

[17] Siyang Li, Youyou Lu, Jiwu Shu, Fenlin Liu, Yang Hu, Tao Li, LocoFS: A Loosely-Coupled Metadata Service for Distributed File System, The International Conference for High Performance Computing, Networking, Storage and Analysis (SC), Nov. 12-17,2017, Denver, Co (Acceptance Rate: 61/327=18.65%)

[18] Youyou Lu, Jiwu Shu, Youmin Chen, Tao Li , Octopus: an RDMA-enabled Distribute Persistent Memory File System, 2017 USENIX Annual Technical Conference (USENIX ATC), July 12–14, 2017, Santa Clara, CA, USA, pp.773-785 (acceptance rate: 60/283=21%)

[19] Qingda Hu, Jinglei Ren, Anirudh Badam, Jiwu Shu, Tomas Moscibroda, Log-Structured Non-Volatile Main Memory, 2017 USENIX Annual Technical Conference (USENIX ATC), July 12–14, 2017, Santa Clara, CA, USA, pp.703-717 (acceptance rate: 60/283=21%)

[20] Jiacheng Zhang, Jiwu Shu, Youyou Lu, ParaFS: A Log-Structured File System to Exploit the Internal Parallelism of Flash Devices, 2016 USENIX Annual Technical Conference (USENIX ATC), June 22–24, 2016, Denver, Colorado, USA (Acceptance Rate: 19%)

[21] Zhirong Shen, Jiwu Shu, Patrick P.C. Lee, Reconsidering Single Failure Recovery in Cluster File Systems, The 46th Annual IEEE/IFIP International Conference on Dependable Systems and Networks (DSN), 2016, June 28-July 1st, Toulouse, France (Acceptance Rate: 58/259=22.39%)

[22] Zewei Li, Yongpan Liu, Daming Zhang, Chun Jason Xue, Zhangyuan Wang, Xin Shi, Wenyu Sun, Jiwu Shu, Huazhong Yang, HW/SW Co-design of Nonvolatile IO System in Energy Harvesting Sensor Nodes for Optimal Data Acquisition, Design Automation Conference (DAC), 5–9 June 2016, Austin, USA (Acceptance Rate: 152/876=17.4 %)

[23] Jiaxin Ou, Jiwu Shu, Youyou Lu, A High Performance File System for Non-Volatile Main Memory, The European Conference on Computer Systems (EuroSys), 18th-21st, April, 2016, London, UK (Acceptance Rate: 38/180=21.11%)

[24] Zhirong Sheng, Jiwu Shu, Patrick Lee, Seek-Efficient I/O Optimization in Single Failure Recovery for XOR-Coded Storage Systems, The 34th International Symposium on Reliable Distributed Systems (SRDS), September 28-October 1, 2015, Quebec Canada (Nominated Best Papers).

[25] Yongpan Liu, Zewei Li, Hehe Li, Yiqun Wang, Xueqing Li, Kaisheng Ma, Shuangchen Li, Meng-Fan Chang, Sampson John, Yuan Xie, Jiwu Shu, Huazhong Yang, Design Automation Conference (DAC), Moscone Center, San Francisco, CA, June 7-11, 2015, Article No.150, pp.1-6

[26] Chao Zhang, Guangyu Sun, Xian Zhang, Weiqi Zhang, Weisheng Zhao, Tao Wang, Yun Liang, Yongpan Liu, Yu Wang, Jiwu Shu, Hi-fi Playback: Tolerating Position Errors in Shift Operations of Racetrack Memory, The 42nd International Symposium on Computer Architecture (ISCA), Portland, OR, USA, June 13-17, 2015, pp. 694-706. (Acceptance Rate: 58/305=19.02%)

[27] Louyou Lu, Jiwu Shu, Long Sun, Blurred Persistence in Transactional Persistent Memory, The 31st International Conference on Massive Storage Systems and Technologies (MSST), June 1-5, 2015, Santa Clara, California, USA (Nominated Best Papers)

[28] Fan Jie, Jiang Song, Shu Jiwu, Sun Long, Hu Qingda, WL-Reviver: A Framework for Reviving any Wear-Leveling Techniques in the Face of Failures on Phase Change Memory, The Annual IEEE/IFIP International Conference on Dependable Systems and Networks (DSN), June 23 - 26, 2014, Atlanta, Georgia USA, pp.228-239. (Acceptance Rate: 49/181 = 27.07%)

[29] Zhirong Sheng, Jiwu Shu, HV Code: An MDS Code to Improve Efficiency and Reliability of RAID-6 Systems, The Annual IEEE/IFIP International Conference on Dependable Systems and Networks (DSN), June 23 - 26, 2014, Atlanta, Georgia USA, pp.550-56. (Acceptance Rate: 49/181 = 27.07%)

[30] Lu Youyou, Shu Jiwu, Wang Wei, ReconFS: A Reconstructable File System on Flash Storage, FAST, the 12th USENIX Conference on File and Storage Technologies (FAST), February 12-15, 2014, San Jose, CA, USA, pp. 75-88. (Acceptance Rate: 21/133=15.79% (full paper))

[31] Jie Fan, Song Jiang, Jiwu Shu, Youhui Zhang, Weimin Zheng, Partitioning Data Block for Efficient Recovery of Stuck-At-Faults in Phase Change Memory, The 46th Annual IEEE/ACM International Symposium on Microarchitecture (MICRO), December 7-11, 2013, Davis, California, pp. 433-444. (Acceptance Rate: 39/239=16.32%)

[32] Youyou Lu, Jiwu Shu, Weimin Zheng, Extending the Lifetime of Flash-based Storage through Reducing Write Amplification from File Systems, 11th USENIX Conference on File and Storage Technologies (FAST), February 12-15,2013, San Jose, CA, USA, pp. 257-270. (Acceptance Rate: 20/127=15.75% (full paper))^[13]

舒繼武期刊論文

代表性期刊論文

[1] Haiyu Mao, Jiwu Shu, Mingcong Song, Tao Li, LrGAN: A Compact PIM-based GAN Architecture with Low Energy Consumption, IEEE Transactions on Computers (TC), DOI : 10.1109/TC.2020.3011122.

[2] Jiwu Shu, Youmin Chen, Qing Wang, Bohong Zhu, Junru Li, Youyou Lu, TH-DPMS: Design and Implementation of an RDMA-enabled Distributed Persistent Memory Storage System, ACM Transactions on Storage (TOS), 16, 4 Article 24, 31 pages, November 2020.

[3] Fan Yang, Youmin Chen, Haiyu Mao, Youyou, Jiwu Shu, ShieldNVM: An Efficient and Fast Recoverable System for Secure Non-Volatile Memory, ACM Transactions on Storage (TOS), Vol.16, No.2, Article 12, May 2020.

[4] Shu, Jiwu; Li, Fei; Li, Siyang; Lu, Youyou, Towards Unaligned Writes Optimization in Cloud Storage with High-performance SSDs, IEEE Transactions on Parallel and Distributed Systems (TPDS), Vol. 31, No.12, pp.2923-2937, December 2020.

[5] Zhirong Shen, Patrick P.C. Lee, Jiwu Shu, and Wenzhong Guo, Cross-Rack-Aware Single Failure Recovery for Clustered File Systems, IEEE Transactions on Dependable and Secure Computing (TDSC), Vol.17, Issue2，pp.248-261, MARCH/APRIL 2020.

[6] Youmin Chen, Youyou Lu, Pei Chen, Jiwu Shu, Efficient and Consistent NVMM Cache for SSD-based File System, IEEE Transactions on Computers (TC), 68(8): 1147-1158, August, 2019.

[7] Zhirong Shen, Patrick P. C. Lee, Jiwu Shu and Wenzhong Guo, Correlation-Aware Stripe Organization for Efficient Writes in Erasure-Coded Storage: Algorithms and Evaluation, IEEE Transactions on Parallel and Distributed Systems (TPDS), 30(7):1552-1564, July 2019.

[8] Youyou Lu, Jiwu Shu, Jiacheng Zhang, Mitigating Synchronous I/O Overhead in File Systems on Open-Channel SSDs, ACM Transactions on Storage (TOS), 15(3), Article 17 :1-25, May 2019

[9] Siyang Li, Fenlin Liu, Jiwu Shu, Youyou Lu, Tao Li, Yang Hu, A Flattened Metadata Service for Distributed File Systems, IEEE Transactions on Parallel and Distributed Systems (TPDS), 29(12):2641-2657, December 2018.

[10] Zhirong Shen, Patrick P. C. Lee, Jiwu Shu and Wenzhong Guo, Encoding-Aware Data Placement for Efficient Degraded Reads in XOR-Coded Storage Systems: Algorithms and Evaluation, IEEE Transactions on Parallel and Distributed Systems (TPDS), 29(12):2757-2770, December 2018.

[11] Youmin Chen, Jiwu Shu, Jiaxin Ou, Youyou Lu, HiNFS: A Persistent Memory File System with both Buffering and Direct-Access, ACM Transactions on Storage, Vol.14, Number 1, 4:1-4:30, April 2018.

[12] Jiacheng Zhang*, Youyou Lu, Jiwu Shu, Xiongjun Qin, FlashKV: accelerating KV performance with open-channel SSDs, ACM Transactions on Embedded Computing Systems (ACM TECS), Vol. 16, No. 5s, Article 139:1-19 (September 2017).

[13] Zhirong Shen, Jiwu Shu, Patrick P.C. Lee, and Yingxun Fu, Seek-Efficient I/O Optimization in Single Failure Recovery for XOR-Coded Storage Systems, IEEE Transactions on Parallel and Distributed Systems (TPDS), 28(3):877-890, 2017.

[14] Yingxun Fu, Jiwu Shu, Xianghong Luo, Zhirong Shen, Qingda Hu, Short Code: An Efficient RAID-6 MDS Code for Optimizing Degraded Reads and Partial Stripe Writes, IEEE Transactions on Computers (TC), 66(1), pp. 127-137, 2017.

[15] Youyou Lu, Jiwu Shu, Jia Guo, Peng Zhu, Supporting System Consistency with Differential Transactions in Flash-based SSDs, IEEE Transactions on Computers, 65(2), pp. 627-639, 2016.

[16] Louyou Lu, Jiwu Shu, Long Sun, Blurred Persistence: Efficient Transactions in Persistent Memory, ACM Transactions on Storage, Vol.12, No. 1, Article 3, pp. 1-29, January 2016.

[17] Zhirong Shen, Jiwu Shu and Yingxun Fu, Parity-switched Data Placement: Optimizing Partial Stripe Writes in XOR-Coded Storage Systems, IEEE Transactions on Parallel and Distributed Systems (TPDS), 27(11), pp. 3311-3322, 2016.

[18] Zhirong Shen, Jiwu Shu, HV Code: An All-Around MDS Code for RAID-6 Storage Systems, IEEE Transactions on Parallel and Distributed Systems (TPDS), 27(6), pp.1674-1686, JUNE 2016.

[19] Yingxun Fu, Jiwu Shu, Zhang Guangyan, Reconsidering Single Disk Failure Recovery for Erasure Coded Storage Systems: Optimizing The Load Balancing in Stack-Level, IEEE Transactions on Parallel and Distributed Systems (TPDS), 27(5):1457-1469, 2016.

[20] Guangyan Zhang, Guiyong Wu, shupeng Wang, Jiwu Shu, Weimin Zheng, Keqin Li, CaCo: An Efficient Cauchy Coding Approach for Cloud Storage Systems, IEEE Transactions on Computers, 65(2), pp.435-447, 2016.

[21] Youyou Lu, Jiwu Shu, Jia Guo, Shuai Li, and Onur Mutlu, High-Performance and Lightweight Transaction Support in Flash-based SSDs, IEEE Transactions on Computers, 64(10), pp.2819-2832, 2015.

[22] Zhang Guangyan, Wang Jigang, Li Keqin, Shu Jiwu, and Zheng Weimin, Redistribute Data to Regain Load Balance during RAID-4 Scaling, IEEE Transactions on Parallel and Distributed Systems, Vol.25, No.7, pp.1-11, JULY 2014.

[23] Yi Letian, Shu Jiwu, Zhao Ying, Qian Yingjin, Lu Youyou, Zheng Weiming, Design and implementation of an asymmetric block-based parallel ﬁle system, IEEE Transactions on Computers, Vol.62, No.7, pp.1723-1735, JULY 2014.

[24] Xianghong Luo, Jiwu Shu, Generalized X-code: An efficient RAID-6 code for arbitrary size of disk array, ACM Transactions on Storage (TOS), Vol.8, No.3, Article 10, pp.1-19, 2012.

[25] Wang Yang, Shu Ji-Wu, Zhang Guang-Yan, Xue Wei, SOPA: Selecting the Optimal Policy Adaptively for a cache system, ACM Transactions on Storage, Vol. 6, No. 2, Article 7, pp. 1-18, 2010.

[26] Guangyan Zhang, Weimin Zheng, and Jiwu Shu. ALV: A New Data Redistribution Approach to RAID-5 Scaling, IEEE Transactions on Computers, Vol. 59(3), pp. 345-357, 2010.

[27] Guangyan Zhang, Jiwu Shu, Wei Xue, and Weimin Zheng, SLAS: An Efficient Approach to Scaling Round-robin Striped Volumes, ACM Transactions on Storage, 2007, 3(1), Article3, pp.1-39.

[28] Guangyan Zhang, Jiwu Shu, Wei Xue, and Weimin Zheng, Design and Implementation of an Out-of-Band Virtualization System for Large SANs, IEEE Transactions on Computers, 2007, 56(12), pp.1654-1665.

[29] Shu Ji-wu, Li Bigang, Zheng Wei-min, Design and Implementation of a SAN System Based on the Fiber Channel Protocol, IEEE Transactions on Computers, 54(4), 2005, pp. 439-448.

[30] JIWU SHU, WEI XUE, WEIMING ZHENG, A Parallel Transient Stability Simulation for Power System, IEEE Transactions on Power Systems (TOPS), 2005, 20(4), pp.1709-1717.

[31] Li Mingqiang, Shu Jiwu, Preventing Silent Data Corruptions from Propagating During Data Reconstruction, IEEE Transactions on Computers (TC), 59(12), pp.1611-1624, 2010 (Featured Article).

[32] Li Mingqiang, Shu Jiwu, DACO: A High Performance Disk Architecture Designed Specially for Large Scale Erasure Coded Storage Systems, IEEE Transactions on Computers (TC), 59(10), pp.1350-1362, 2010.

[33] Li Mingqiang, Shu Jiwu, Zheng Weimin, GRID Codes: Strip-based Erasure Codes with High Fault Tolerance for Storage Systems, ACM Transactions on Storage (TOS), 2009, 4(4), Article15, pp.1-22.^[13]

參考資料