• Title/Summary/Keyword: SSD(solid-state drive)

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Fatigue Life Estimation of Solid-state Drive due to the Effect of Dummy Solder Ball under Forced Vibration (Solid-state drive 강제진동시 dummy solder ball 효과에 의한 피로수명 예측)

  • Lee, Juyub;Jang, Gunhee;Jang, Jinwoo
    • Proceedings of the Korean Society for Noise and Vibration Engineering Conference
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    • 2014.10a
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    • pp.978-983
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    • 2014
  • This research proposes a method to estimate the fatigue life of solid-state drive(SSD) due to the effect of dummy solder ball under forced vibration. Mechanical jig is developed to describe the SSD in laptop computer. The jig with SSD is mounted on a shaker, and excited by a sinusoidal sweep vibration within the narrow frequency band around the first resonant frequency until the SSD fails. A finite element model of SSD is also developed to simulate the forced vibration. It shows that the solder joints at the corners of controller package are most vulnerable components and that placing dummy solder balls at those area is effective method to increase fatigue life of SSD.

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Fatigue Life Estimation of Solid-state Drive due to the Effect of Dummy Solder Ball under Forced Vibration (SSD 강제진동 시 더미 솔더 볼 효과에 의한 피로수명 예측)

  • Lee, Juyub;Jang, Gunhee;Jang, Jinwoo
    • Transactions of the Korean Society for Noise and Vibration Engineering
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    • v.25 no.3
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    • pp.176-183
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    • 2015
  • This research proposes a method to estimate the fatigue life of SSD(solid-state drive) due to the effect of dummy solder ball under forced vibration. A finite element model of the SSD was developed to simulate the forced vibration and a modal testing was performed to verify the developed finite element model. Fatigue life of the SSD under vibration was experimentally determined according to JEDEC standard in which the SSD was excited by a sinusoidal sweep vibration within the narrow frequency band around the first natural frequency until the SSD fails. Basquin's equation was introduced to estimate the fatigue life of the SSD due to the effect of dummy solder balls. It shows that the dummy solder balls are effective elements of the SSD to increase the fatigue life of an SSD by increasing 700 times of the fatigue life of the given SSD.

An performance analysis on SSD caching mechanism in Linux (리눅스 SSD caching mechanism 의 성능 비교 및 분석)

  • Heo, Sang-Bok;Park, Jinhee;Jo, Heeseung
    • Smart Media Journal
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    • v.4 no.2
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    • pp.62-67
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    • 2015
  • During several decades, hard disk drive(HDD) has been used in most computer systems as secondary storage and, however, the performance enhancement of HDD is limited by its mechanical properties. On the other hand, although the flash memory based solid state drive (SSD) has more advantages over HDD such as high performance and low noise, SSD is still too expensive for common usage and expected to take several years to replace HDD completely. Therefore, SSD caching mechanism using the SSD as a cache of high capacity HDD has been highlighted lately. The representatives of SSD caching mechanisms are typically bcache, dm-cache, Flashcache, and EnhanceIO. Each of them has its own internal mechanism and implementation, and this makes them to show their own pros. and cons. In this paper, we analyze the characteristics of each SSD caching mechanisms and compare the performance of them under various workloads. We expect that our contribution will be useful to enhance the performance of SSD caching mechanisms.

Performance Benchmark of Filesystem for Solid State Drive (SSD를 위한 파일시스템의 벤치마크)

  • Lee, Seong-Jin;Won, You-Jip
    • Proceedings of the Korean Information Science Society Conference
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    • 2011.06b
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    • pp.323-324
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    • 2011
  • 파일시스템과 I/O 워크로드에 따라 Solid State Drive (SSD)의 성능은 변하는 것이 일반적인 사실이지만 파일시스템과 SSD과의 상관 관계는 명확히 알려지지 않았다. 파일시스템과 SSD 간의 상관관계 그리고 성능을 이해하기 위해 SSD과 4개의 파일 시스템을 IOzone 벤치마크에서 다양한 I/O 크기와 direct I/O 모드에서 실험을 하였다. Nilfs2를 제외한 모든 파일 시스템의 성능이 일정하지 않은 것으로 보이고 2MB 이상의 파일 크기에서는 100MB/s 정도의 성능을 보이고 있다. 반면 Nilfs2의 경우는 레코드 크기, I/O 단위가 작을 경우 성능 역시 낮고 I/O의 크기가 커질 경우 그 성능이 같이 증가하고 있는 것을 볼 수가 있다.

Priority-Based Hybrid File Storage Management System Using Logical Volume Manager (논리 볼륨 매니저를 이용한 파일 우선순위 기반의 하이브리드 저장장치 관리 시스템)

  • Choi, Hoonha;Kim, Hyeunjee;No, Jaechun
    • Journal of the Institute of Electronics and Information Engineers
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    • v.53 no.12
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    • pp.94-102
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    • 2016
  • Recently, the I/O performance of a single node is rapidly improving due to the advent of high-performance SSD. As a result, the next-generation storage platform based on SSD has received a great deal of attention and such storage platforms are increasingly adopted to commodity servers or data centers that look for the high-bandwidth computation and I/O. However, building all SSD-based storage platform may not be cost-effective because the price per storage capacity is very high as compared to that of HDD. In this paper. we propose a hybrid file management solution, called HyPLVM(Hybrid Priority Logical Volume Manager), which combines the strength of SSD with the desirable aspects of low-price, high-storage capacity HDD. HyPLVM prioritizes the files and directories to be accessed by users, in order to determine the target storage device (SSD/HDD) in which files are allocated, while mitigating the cost of building storage platforms.

A Study on Wear of Aluminum Alloy Guide Hole in SSD Tester (SSD 테스터의 알루미늄 합금 Guide Hole의 마모에 관한 연구)

  • Ham, Eung jin;Kim, Moon Ki
    • Journal of the Semiconductor & Display Technology
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    • v.21 no.2
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    • pp.19-24
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    • 2022
  • The purpose of this research is to determine the hardness of guide hole. A guide pin and a guide hole of SSD(Solid State Drive) tester used to mount SSD in a fixed position accurately. The guide pin and guide hole are worn by friction due to repeated operation, and the wear is concentrated on the guide hole made of weak material rather than the guide pin made of relatively strong material. Because of that reason, it is often overdesigned in the design stage because it can lose its function. If the guide hole is made soft, the manufacturing cost will decrease, but the accuracy will decrease due to wear caused by repeated friction. If the guide hole is manufactured excessively, the manufacturing process becomes complicated and the manufacturing cost increases. It is essential to design a guide hole, but since there is no standard or verified data that can be referenced, it is difficult to design. Experimental device which guides in the same way as the SSD tester is used for this research, and three types of anodizing state are experimented for different hardness. Also, weight of COK(Change over Kit) were analyzed by measuring the wear amount and state of the guide hole according to the number of repeated attachment and detachment.

A Neighbor Prefetching Scheme for a Hybrid Storage System (SSD 캐시를 위한 이웃 프리페칭 기법)

  • Baek, Sung Hoon
    • The Journal of Korean Institute of Next Generation Computing
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    • v.14 no.5
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    • pp.40-52
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    • 2018
  • Solid state drive (SSD) cache technologies that are used as a second-tier cache between the main memory and hard disk drive (HDD) have been widely studied. The SSD cache requires a new prefetching scheme as well as cache replacement algorithms. This paper presents a prefetching scheme for a storage-class cache using SSD. This prefetching scheme is designed for the storage-class cache and based on a long-term scheduling in contrast to the short-term prefetching in the main memory. Traditional prefetching algorithms just consider only read, but the presented prefetching scheme considers both read and write. An experimental evaluation shows 2.3% to 17.8% of hit rate with a 64GB of SSD and the 4GiB of prefetching size using an I/O trace of 14 days. The proposed prefetching scheme showed significant improvement of cache hit rate and can be easily implemented in storage-class cache systems.

A Prefetching and Memory Management Policy for Personal Solid State Drives (개인용 SSD를 위한 선반입 및 메모리 관리 정책)

  • Baek, Sung-Hoon
    • The KIPS Transactions:PartA
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    • v.19A no.1
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    • pp.35-44
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    • 2012
  • Traditional technologies that are used to improve the performance of hard disk drives show many negative cases if they are applied to solid state drives (SSD). Access time and block sequence in hard disk drives that consist of mechanical components are very important performance factors. Meanwhile, SSD provides superior random read performance that is not affected by block address sequence due to the characteristics of flash memory. Practically, it is recommended to disable prefetching if a SSD is installed in a personal computer. However, this paper presents a combinational method of a prefetching scheme and a memory management that consider the internal structure of SSD and the characteristics of NAND flash memory. It is important that SSD must concurrently operate multiple flash memory chips. The I/O unit size of NAND flash memory tends to increase and it exceeded the block size of operating systems. Hence, the proposed prefetching scheme performs in an operating unit of SSD. To complement a weak point of the prefetching scheme, the proposed memory management scheme adaptively evicts uselessly prefetched data to maximize the sum of cache hit rate and prefetch hit rate. We implemented the proposed schemes as a Linux kernel module and evaluated them using a commercial SSD. The schemes improved the I/O performance up to 26% in a given experiment.

Block Replacement Scheme based on Reuse Interval for Hybrid SSD System (Hybrid SSD 시스템을 위한 재사용 간격 기반 블록 교체 기법)

  • Yoo, Sanghyun;Kim, Kyung Tae;Youn, Hee Yong
    • Journal of Internet Computing and Services
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    • v.16 no.5
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    • pp.19-27
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    • 2015
  • Due to the advantages of fast read/write operation and low power consumption, SSD(Solid State Drive) is now widely adopted as storage device of smart phone, laptop computer, server, etc. However, the shortcomings of SSD such as limited number of write operations and asymmetric read/write operation lead to the problem of shortened life span of SSD. Therefore, the block replacement policy of SSD used as cache for HDD is very important. The existing solutions for improving the lifespan of SSD including the LARC scheme typically employ the LRU algorithm to manage the SSD blocks, which may increase the miss rate in SSD due to the replacement of frequently used block instead of rarely used block. In this paper we propose a novel block replacement scheme which considers the block reuse interval to effectively handle various data read/write patterns. The proposed scheme replaces the block in SSD based on the recency decided by reuse interval and age along with hit ratio. Computer simulation using workload trace files reveals that the proposed scheme consistently improves the performance and lifespan of SSD by increasing the hit ratio and decreasing the number of write operations compared to the existing schemes including LARC.