Animate some novel erasure codes for a web-demo

Erasure code is a forward error correction (FEC) code that has been used in storage systems to help in recovery of data. The concept of erasure code is to encode “k” amount of data blocks of a data object into “n” amount of blocks (“k” message blocks with “n-k” parity blocks). The data or parity blo...

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Main Author: Ang, Fu Yi
Other Authors: Anwitaman Datta
Format: Final Year Project
Language:English
Published: 2013
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Online Access:http://hdl.handle.net/10356/55086
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Institution: Nanyang Technological University
Language: English
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spelling sg-ntu-dr.10356-550862023-03-03T20:36:34Z Animate some novel erasure codes for a web-demo Ang, Fu Yi Anwitaman Datta School of Computer Engineering DRNTU::Engineering::Computer science and engineering::Data::Data storage representations Erasure code is a forward error correction (FEC) code that has been used in storage systems to help in recovery of data. The concept of erasure code is to encode “k” amount of data blocks of a data object into “n” amount of blocks (“k” message blocks with “n-k” parity blocks). The data or parity blocks can be recovered using a subset of “k” blocks that is not corrupted of the “n” blocks. CORE (Cross-Object REdundancy) is storage primitive that builds on the traditional erasure code. The CORE matrix is denoted by CORE(n, k, t), a collection of “t” objects (or rows) where each row is encoded using a Reed Solomon RS(n, k) scheme. CORE matrix provides additional way of recovering the data or parity blocks vertically through the vertical parity blocks, which would reduce the cost of recovery of a failure block as compared to traditional erasure code. To help understand the methodology of the CORE matrix, animations are created in this project to aid in understanding the concept. A user interface is also created for the animations to run on. The user interface allows users to key in the parameters of the CORE matrix to change the size of the CORE matrix. Animations are created for complicated algorithms of CORE matrix that includes recovery and update algorithms. Failure clustering and recoverability check algorithms, which are much simpler, are also made available as support features. HTML5, JavaScript and CSS3 are chosen as the language to create the web-based animations and the user interface. The algorithms of the CORE matrix are made much more interesting and easier to understand with the use of systematic animation. Values are used to explain the complex arithmetic, which helps for users that does not have a good mathematics background. Currently this project is only supported on Chrome and Safari browsers due to some new features of CSS3 that is not supported by the other browsers. One of the future recommendations would be to extend its supported to other browsers and different devices. Bachelor of Engineering (Computer Science) 2013-12-12T04:51:40Z 2013-12-12T04:51:40Z 2013 2013 Final Year Project (FYP) http://hdl.handle.net/10356/55086 en Nanyang Technological University 67 p. application/pdf
institution Nanyang Technological University
building NTU Library
continent Asia
country Singapore
Singapore
content_provider NTU Library
collection DR-NTU
language English
topic DRNTU::Engineering::Computer science and engineering::Data::Data storage representations
spellingShingle DRNTU::Engineering::Computer science and engineering::Data::Data storage representations
Ang, Fu Yi
Animate some novel erasure codes for a web-demo
description Erasure code is a forward error correction (FEC) code that has been used in storage systems to help in recovery of data. The concept of erasure code is to encode “k” amount of data blocks of a data object into “n” amount of blocks (“k” message blocks with “n-k” parity blocks). The data or parity blocks can be recovered using a subset of “k” blocks that is not corrupted of the “n” blocks. CORE (Cross-Object REdundancy) is storage primitive that builds on the traditional erasure code. The CORE matrix is denoted by CORE(n, k, t), a collection of “t” objects (or rows) where each row is encoded using a Reed Solomon RS(n, k) scheme. CORE matrix provides additional way of recovering the data or parity blocks vertically through the vertical parity blocks, which would reduce the cost of recovery of a failure block as compared to traditional erasure code. To help understand the methodology of the CORE matrix, animations are created in this project to aid in understanding the concept. A user interface is also created for the animations to run on. The user interface allows users to key in the parameters of the CORE matrix to change the size of the CORE matrix. Animations are created for complicated algorithms of CORE matrix that includes recovery and update algorithms. Failure clustering and recoverability check algorithms, which are much simpler, are also made available as support features. HTML5, JavaScript and CSS3 are chosen as the language to create the web-based animations and the user interface. The algorithms of the CORE matrix are made much more interesting and easier to understand with the use of systematic animation. Values are used to explain the complex arithmetic, which helps for users that does not have a good mathematics background. Currently this project is only supported on Chrome and Safari browsers due to some new features of CSS3 that is not supported by the other browsers. One of the future recommendations would be to extend its supported to other browsers and different devices.
author2 Anwitaman Datta
author_facet Anwitaman Datta
Ang, Fu Yi
format Final Year Project
author Ang, Fu Yi
author_sort Ang, Fu Yi
title Animate some novel erasure codes for a web-demo
title_short Animate some novel erasure codes for a web-demo
title_full Animate some novel erasure codes for a web-demo
title_fullStr Animate some novel erasure codes for a web-demo
title_full_unstemmed Animate some novel erasure codes for a web-demo
title_sort animate some novel erasure codes for a web-demo
publishDate 2013
url http://hdl.handle.net/10356/55086
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