연구동향 분석

Enhanced Data Recovery Schemes for MLC NAND Flash Memory = MLC 낸드 플래시 메모리에서 데이터 복구 기법 개선

트란반다이 2020년

논문상세정보
인용/피인용
' Enhanced Data Recovery Schemes for MLC NAND Flash Memory = MLC 낸드 플래시 메모리에서 데이터 복구 기법 개선' 의 주제별 논문영향력
논문영향력 선정 방법
논문영향력 요약
주제
  • Data recovery
  • MLC NAND Flash memory
  • Mapping information
  • Spare area
  • ftl
  • plr
동일주제 총논문수 논문피인용 총횟수 주제별 논문영향력의 평균
37 0

0.0%

' Enhanced Data Recovery Schemes for MLC NAND Flash Memory = MLC 낸드 플래시 메모리에서 데이터 복구 기법 개선' 의 참고문헌

  • [43] Van-Dai Tran, Dong-Joo Park, “Efficient Data Recovery Techniques On MLC NAND Flash Memory,” International Journal of Scientific & Technology Research, vol. 9, issue 01, pp. 4431-4436, January 2020.
  • [42] Samsung Electronics, K9LCG08U1A Data sheet online, http://www.datasheet-pdf.com/PDF/K9LCG08U1A-Datasheet-Sam-sung704175. (Accessed on August 20, 2019).
  • [37] R. Micheloni, R. Ravasio, A. Marelli, E. Alice, V. Altieri, A. Bovino, L. Crippa, E. Di Martino, L. D'Onofrio, A. Gambardella, E. Grillea, G. Guerra, D. Kim, C. Missiroli, I. Motta, A. Prisco, G. Ragone, M. Romano, M. Sangalli, P. Sauro, M. Scotti and S. Won, “A 4Gb 2b/cell NAND Flash Memory with Embedded 5b BCH ECC for 36MB/s System Read Throughput,” IEEE International Solid-State Circuits Conference Dig. Tech. Papers, pp. 142-143, Feb. 2006.
  • [34] Indilinx Jasmine Platform Specification. http://www.openssdproject.org/wiki/ The_OpenSSD_Project/
  • [2] Y. Li and K. N. Quader, “NAND Flash Memory: Challenges and Opportunities,” Computer, vol. 46, pp. 23-29, 2013.
  • [24] M. Zheng, J. Tucek and M. Lillibridge, “Understanding the robustness of SSDs under power fault,” In: Proceedings of 11th USENIX conference on file and storage technologies (FAST 2013), 2013.
  • [15] J. S. M. Verhofstad. "Recovery Techniques for Database Systems". ACM Computing Surveys, vol. 10, pp. 167-195, 1978.
  • Understanding the impact of power loss on flash memory
    11 ) , vol . 10 , pp . 35-40 [2011]
  • T * -tree : An Efficient Indexing Technique for Main Memory Database
    vol . 21 , pp . 2597-2604 [1996]
  • Storage architecture and software support for slc/mlc combined flash memory
    pp . 1664–1669 [2009]
  • Recovery Model Improvement Using BISLD in MobileComputing Environment
    vol . 13 , pp . 4786-4793 [2012]
  • PORCE : An efficient power off recovery scheme for flash memory
    vol . 54 , pp . 935-943 [2008]
  • On-demand blocklevel address mapping in large-scale nand flash storage systems ,
    vol . 6 , no . 64 , pp . 1729–1741 , [2015]
  • NANDFlashSim : High-Fidelity , Microarchitecture-Aware NAND Flash Memory Simulation
    article 6 , 1.2016 .
  • MR-Tree : A cache-conscious main memory spatial index structure for mobile GIS , Web , and wireless geographic information systems
    pp . 167-180 [2004]
  • K4M51323LC Data sheet online
    http : //www.datasheet-pdf.com/PDF/K4M51323LC-F-DatasheetSamsungsemiconductor-659502 . ( Accessed on [2019]
  • Inpage management of error correction code for MLC flash storage systems
    vol . 2 , no . 56 , pp . 339-347 [2010]
  • Hybrid solid state drives for improved performance and enhanced lifetime
    pp . 1–5 [2013]
  • HYFLUR : recovery for power-off failure in flash memory storage systems using HYbrid FLUsh recovery ,
    vol . 376 , pp . 501-510 , [2016]
  • HFTL : Hybrid Flash Translation Layer based on Hot Data Identification for Flash Memory
    vol . 55 , pp . 2005-2011 [2009]
  • Flash File System Optimized for Page-mode Flash Technologies
    No . 5,937,425 , ( [1999]
  • Flash File System
    No . 5,404,485 [1995]
  • Flash 101 : NAND Flash vs . NOR Flash
    [2019]
  • ErrorControlCoding for multilevelCell flash memories using nonbinary low-density parity-checkCodes
    pp . 367-375
  • Error control coding for multilevel cell flash memories using nonbinary low-density parity-check codes
    pp . 367-375 [2009]
  • Error Correction Codes for Non-Volatile Memories
    [2008]
  • Deterministic crash recovery for NAND flash based storage systems
    [2014]
  • Data loss recovery for power failure in flash memory storage systems
    vol . 61 , pp . 12- 27 [2015]
  • Comboftl : Improving performance and lifespan of mlc flash memory using slc flash buffer ,
    vol . 12 , no . 56 , pp . 641–653 , [2010]
  • C-HYFLUR : Recovery for Power-off Failure in Flash Memory Storage Systems Using Compression Scheme for HYbrid FLUsh Recovery
    pp . 284-294 [2017]
  • B+ Trees and Indexed Sequential Files : A Performance Comparison
    pp . 30-39 [1981]
  • An efficient NAND flash file system for flash memory storage
    vol . 55 , pp . 906-912 [2006]
  • An Efficient Recovery Management Scheme for an Index Buffer of B+tree based on NAND Flash memory
    vol . 27 , pp . 20-40 [2011]
  • An Efficient R-Tree Implementation over Flash-Memory Storage Systems
    pp . 17-24 [2003]
  • An Efficient Index Buffer management Scheme for Implementing a B-Tree on NAND Flash Memory
    vol . 69 , pp . 901-916 [2010]
  • An Efficient B-Tree Layer for Flash-Memory Storage Systems
    pp . 409- 430 [2003]
  • A universal algorithm for sequential data compression
    vol . 23 , pp . 337- 343 [1977]
  • A survey of data recovery on flash memory
    vol . 10 , no . 1 , pp . 360-376
  • A reliable MTD design for MLC flash memory storage systems
    pp . 179-188 , [2010]
  • A hybrid flash memory ssd scheme for enterprise database applications
    pp . 39–44 [2010]
  • A Survey of the-State-of-the-Art B-tree Index on Flash Memory
    vol . 10 , pp . 173-188 [2016]
  • A Survey of Flash Translation Layer
    vol . 55 , pp . 332-343 [2009]
  • A Survey of Address Translation Technologies for Flash Memories
    vol . 46 , issue 3 , article no . 36 [2014]
  • A Novel Recovery Data Technique on MLC NAND Flash Memory , '' 2019 11th InternationalConference on Knowledge and Systems Engineering ( KSE ) , Da Nang
    Vietnam , pp . 1-5 [2019]
  • A Design of Efficient Crash Recovery Technique for NAND Flash File System
    vol . 35 , pp . 470-475 [2008]