Subhoyt Sandeep scite author profile

Subhoyt Sandeep

2Publications

0Citation Statements Received

38Citation Statements Given

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Virginia Commonwealth University

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Using active data repair and migration technologies for RAID-based storage systems

Yang¹,

Liang²,

Tan³

et al. 2014

JCP

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This paper proposes a new RAID-based system using Active data Repair and Migration technologies called RARM, which detects the status of sector, then allocates reserved space in every disk and arranges to redirect the data in the non-repairable sectors to the reserved space. If we ensure the reliability and utilization of disk, RARM will copy data of the low reliability disk or the number of the bad sectors in the disk exceeding threshold to a new one; it will also copy and redirect popularity data of the medium reliability and high utilization disk to the reserved space in high reliability disk or a new one, these process, as we called data migration can avoid lengthy data reconstruction. It can adjust migration speed to reduce the impact on the front end performance dynamically and prioritize user requests when the system I/O workload is bursting. The overall results indicate that the RARM can improve performance and reliability of the system with little influence.

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ZWR: Combining wear‐leveling with reclamation for flash‐memory‐based storage systems of embedded systems

Yang

Sandeep

2017

IEEJ Transactions Elec Engng

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Flash memory is widely adopted in embedded applications since it has several unique advantages. However, due to its hardware characteristic, uneven erasing and inefficient reclamation have been major concerns. These may not only severely degrade the overall performance but also damage the reliability. In order to solve these problems, we propose a novel scheme, which we call ZWR, for zoning, wear-leveling, and reclamation. The storage zone is divided into the following three levels: an active zone for storing hot data, an inactive zone for storing cold data, and a transitional zone for storing the reclamation block. A function layer and a flash transformation layer are added to flash memory, which are located between the memory technology device layer and the file system. According to the combined wear-leveling and efficient reclamation, in the function layer, the erase-write cycles are evenly distributed around the entire flash devices and the invalid blocks can be reclaimed properly. Finally, we implement an accurate flash simulator to evaluate the efficacy of ZWR and compare it with those of other flash schemes. We demonstrate that ZWR can effectively solve uneven erasing and inefficient reclamation problems. It can also greatly prolong the service life of flash devices and improve the efficiency of the erasing operation of blocks.

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Subhoyt Sandeep

Using active data repair and migration technologies for RAID-based storage systems

ZWR: Combining wear‐leveling with reclamation for flash‐memory‐based storage systems of embedded systems

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