CG3DR: Coordination of icosahedral virus reconstruction using Condensed Graphs

Chenqi Wang; Neil Cafferkey; James Kennedy; John P. Morrison

doi:10.1016/j.parco.2010.10.002

CG3DR: Coordination of icosahedral virus reconstruction using Condensed Graphs

Chenqi Wang
, Neil Cafferkey
, James Kennedy
, John P. Morrison

School of Computer Science and Information Technology

Research output: Contribution to journal › Article › peer-review

Abstract

We present a visual executable workflow for the three-dimensional reconstruction of icosahedral virus structure using the Traditional Model (TM) method. This workflow is implemented using WebCom, a metacomputer platform based on the Condensed Graph (CG) model. The CG model allows the application to be constructed with a structure that closely mirrors an abstract description of the workflow. By utilising WebCom's Integrated Development Environment, we also create a workbench environment that facilitates construction of related workflows through the reuse of components developed for the TM workflow. As an example of this component reuse, we outline the construction of a workflow for the alternative Unbiased Model reconstruction method. In addition, we demonstrate that using a separate machine for the coordination of such workflows results in improved execution times.

Original language	English
Pages (from-to)	451-465
Number of pages	15
Journal	Parallel Computing
Volume	37
Issue number	8
DOIs	https://doi.org/10.1016/j.parco.2010.10.002
Publication status	Published - Aug 2011

Keywords

3D reconstruction
Condensed Graphs
High performance computing
Process coordination
Virus structure
WebCom
Workflow

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10.1016/j.parco.2010.10.002

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title = "CG3DR: Coordination of icosahedral virus reconstruction using Condensed Graphs",

abstract = "We present a visual executable workflow for the three-dimensional reconstruction of icosahedral virus structure using the Traditional Model (TM) method. This workflow is implemented using WebCom, a metacomputer platform based on the Condensed Graph (CG) model. The CG model allows the application to be constructed with a structure that closely mirrors an abstract description of the workflow. By utilising WebCom's Integrated Development Environment, we also create a workbench environment that facilitates construction of related workflows through the reuse of components developed for the TM workflow. As an example of this component reuse, we outline the construction of a workflow for the alternative Unbiased Model reconstruction method. In addition, we demonstrate that using a separate machine for the coordination of such workflows results in improved execution times.",

keywords = "3D reconstruction, Condensed Graphs, High performance computing, Process coordination, Virus structure, WebCom, Workflow",

author = "Chenqi Wang and Neil Cafferkey and James Kennedy and Morrison, \{John P.\}",

year = "2011",

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AU - Wang, Chenqi

AU - Cafferkey, Neil

AU - Kennedy, James

AU - Morrison, John P.

PY - 2011/8

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AB - We present a visual executable workflow for the three-dimensional reconstruction of icosahedral virus structure using the Traditional Model (TM) method. This workflow is implemented using WebCom, a metacomputer platform based on the Condensed Graph (CG) model. The CG model allows the application to be constructed with a structure that closely mirrors an abstract description of the workflow. By utilising WebCom's Integrated Development Environment, we also create a workbench environment that facilitates construction of related workflows through the reuse of components developed for the TM workflow. As an example of this component reuse, we outline the construction of a workflow for the alternative Unbiased Model reconstruction method. In addition, we demonstrate that using a separate machine for the coordination of such workflows results in improved execution times.

KW - 3D reconstruction

KW - Condensed Graphs

KW - High performance computing

KW - Process coordination

KW - Virus structure

KW - WebCom

KW - Workflow

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DO - 10.1016/j.parco.2010.10.002

M3 - Article

AN - SCOPUS:79960558821

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VL - 37

SP - 451

EP - 465

JO - Parallel Computing

JF - Parallel Computing

IS - 8

ER -

CG3DR: Coordination of icosahedral virus reconstruction using Condensed Graphs

Abstract

Keywords

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