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Department of Electrical Engineering and Computer Science
Theses
Master
BloomFTL: Probability-based Address Translation Using Bloom Filter for Large-capacity SSDs
Hanbyeol Kim
Department of Electrical Engineering and Computer Science
Theses
Master
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Title
BloomFTL: Probability-based Address Translation Using Bloom Filter for Large-capacity SSDs
Alternative Title
BloomFTL: Probability-based Address Translation Using Bloom Filter for Large-capacity SSDs
DGIST Authors
Lee, Sungjin
;
Cho, Sunghyun
;
Kim, Hanbyeol
Advisor
이성진
Co-Advisor(s)
Sunghyun Cho
Issued Date
2019
Awarded Date
2019-08
Citation
Hanbyeol Kim. (2019). BloomFTL: Probability-based Address Translation Using Bloom Filter for Large-capacity SSDs. doi: 10.22677/thesis.200000220983
Type
Thesis
Subject
Computer Storage SysteMaster
Description
FTL, Memory reduction
Table Of Contents
Abstract ..........................................................................................................i
List of contents................................................................................................ii
Ⅰ. INTRODUCTION ................................................................................... 2
Ⅱ. BACKGROUND ........................................................................................... 5
2.1 Table-based Address Translation ......................................................... 5
2.2 Bloom Filter Basic .............................................................................. 8
Ⅲ. BLOOM FILTER-BASED ADDRESS TRANSLATION ................. 10
3.1 Overall Architecture .......................................................................... 10
3.2 Determination of FPR ....................................................................... 13
3.3 Determination of k ............................................................................ 15
3.4 Reblooming ........................................................................................ 17
Ⅳ. OPTIMIZATION OF BLOOMFTL ....................................................... 20
4.1 Optimizing Lookup Speed ................................................................. 20
4.2 Garbage Collection ............................................................................ 22
4.3 Wear Leveling ................................................................................... 24
Ⅴ. EXPERIMENTS .......................................................................................... 25
5.1 Experiments Setup ............................................................................. 25
5.2 Performance Evaluation ..................................................................... 26
5.3 RAF and WAF Comparison ............................................................. 27
5.4 FPR, RAF, and Memory Requirements .......................................... 30
5.5 Effectiveness of Reblooming ............................................................ 32
Ⅵ. CONCLUSION .......................................................................................... 33
References ........................................................................................................... 35
URI
http://dgist.dcollection.net/common/orgView/200000220983
http://hdl.handle.net/20.500.11750/10480
DOI
10.22677/thesis.200000220983
Degree
Master
Department
Department of Information and Communication Engineering
Publisher
DGIST
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