Medium 9781601323682

Scientific Computing: The 2016 International Conference Proceedings

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WorldComp is an international conference that serves researchers, scholars, professionals, students, and academicians who are looking to both foster working relationships and gain access to the latest research results. It is being held jointly (same location and dates) with a number of other research conferences; namely, The 2016 World Congress in Computer Science, Computer Engineering, and Applied Computing (WORLDCOMP'16). The Congress is among the top five largest annual gathering of researchers in computer science, computer engineering and applied computing. We anticipate to have attendees from about 85 countries/territories.

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SESSION Simulation and Computational Modeling Methods + Novel Applications and Related Issues

PDF

Int'l Conf. Scientific Computing | CSC'16 |

1

SESSION

SIMULATION AND COMPUTATIONAL

MODELING METHODS + NOVEL APPLICATIONS

AND RELATED ISSUES

Chair(s)

TBA

ISBN: 1-60132-430-8, CSREA Press ©

2

Int'l Conf. Scientific Computing | CSC'16 |

ISBN: 1-60132-430-8, CSREA Press ©

Int'l Conf. Scientific Computing | CSC'16 |

3

The Case for N-Body Simulations in Rust

A. Hansen, M. C. Lewis

Department of Computer Science, Trinity University, San Antonio, Texas, United States

Abstract— In this paper we explain the various features of

Rust in the context of an n-body simulation, with the purpose of making a strong case for the usage of Rust in numerical simulation programming. Our n-body simulation involved calculating gravitational forces among many bodies. We implemented a large simulation and observed how these features can benefit or harm the programmer. Covering topics such as the type system, slice types, the Borrow

 

SESSION Simulation and Computational Modeling Methods + Novel Applications and Related Issues

PDF

Int'l Conf. Scientific Computing | CSC'16 |

1

SESSION

SIMULATION AND COMPUTATIONAL

MODELING METHODS + NOVEL APPLICATIONS

AND RELATED ISSUES

Chair(s)

TBA

ISBN: 1-60132-430-8, CSREA Press ©

2

Int'l Conf. Scientific Computing | CSC'16 |

ISBN: 1-60132-430-8, CSREA Press ©

Int'l Conf. Scientific Computing | CSC'16 |

3

The Case for N-Body Simulations in Rust

A. Hansen, M. C. Lewis

Department of Computer Science, Trinity University, San Antonio, Texas, United States

Abstract— In this paper we explain the various features of

Rust in the context of an n-body simulation, with the purpose of making a strong case for the usage of Rust in numerical simulation programming. Our n-body simulation involved calculating gravitational forces among many bodies. We implemented a large simulation and observed how these features can benefit or harm the programmer. Covering topics such as the type system, slice types, the Borrow

 

SESSION Computational Science: Graph Based Algorithims + Optimization Methods and Fuzzy Logic

PDF

Int'l Conf. Scientific Computing | CSC'16 |

21

SESSION

COMPUTATIONAL SCIENCE: GRAPH BASED

ALGORITHMS + OPTIMIZATION METHODS AND

FUZZY LOGIC

Chair(s)

TBA

ISBN: 1-60132-430-8, CSREA Press ©

22

Int'l Conf. Scientific Computing | CSC'16 |

ISBN: 1-60132-430-8, CSREA Press ©

Int'l Conf. Scientific Computing | CSC'16 |

23

Dominating Effect on Spinodal Structure Behaviour of the Giant

Component Cluster in Simulations of the Kawasaki Diffusion Model

K. A. Hawick

Computer Science, University of Hull, Cottingham Road, Hull HU6 7RX, UK.

Email: k.a.hawick@hull.ac.uk

Tel: +44 01482 465181 Fax: +44 01482 466666

March 2016

ABSTRACT

The Kawasaki diffusion model model provides a foundation for understanding phase separation in various physical and model systems including alloys. We use a graph component labelling technique to identify and analyse the clusters formed in Monte

 

SESSION Computational Science: Graph Based Algorithims + Optimization Methods and Fuzzy Logic

PDF

Int'l Conf. Scientific Computing | CSC'16 |

21

SESSION

COMPUTATIONAL SCIENCE: GRAPH BASED

ALGORITHMS + OPTIMIZATION METHODS AND

FUZZY LOGIC

Chair(s)

TBA

ISBN: 1-60132-430-8, CSREA Press ©

22

Int'l Conf. Scientific Computing | CSC'16 |

ISBN: 1-60132-430-8, CSREA Press ©

Int'l Conf. Scientific Computing | CSC'16 |

23

Dominating Effect on Spinodal Structure Behaviour of the Giant

Component Cluster in Simulations of the Kawasaki Diffusion Model

K. A. Hawick

Computer Science, University of Hull, Cottingham Road, Hull HU6 7RX, UK.

Email: k.a.hawick@hull.ac.uk

Tel: +44 01482 465181 Fax: +44 01482 466666

March 2016

ABSTRACT

The Kawasaki diffusion model model provides a foundation for understanding phase separation in various physical and model systems including alloys. We use a graph component labelling technique to identify and analyse the clusters formed in Monte

 

SESSION Computational Science: Graph Based Algorithms + Optimization Methods and Fuzzy Logic

PDF

Int'l Conf. Scientific Computing | CSC'16 |

81

SESSION

COMPUTATIONAL SCIENCE: GRAPH BASED

ALGORITHMS + OPTIMIZATION METHODS AND

FUZZY LOGIC

Chair(s)

TBA

ISBN: 1-60132-430-8, CSREA Press ©

82

Int'l Conf. Scientific Computing | CSC'16 |

ISBN: 1-60132-430-8, CSREA Press ©

Int'l Conf. Scientific Computing | CSC'16 |

83

On Numerical Methods for Plasma 3-T Radiation Diffusion in Two and Three Dimensions

William W. Dai and Anthony J. Scannapieco

Los Alamos National Laboratory

Los Alamos, New Mexico, USA

Abstract— Operator-splitting approaches are often used for plasma 3-T radiation diffusion equations, since many linear solvers could not effectively solve the coupled linear system resulted from plasma 3-T radiation diffusion equations. An approach of operator-splitting is proposed for numerically solving plasma 3-T radiation diffusion equations. To resolve sub-cell structure in mixed cells, interface reconstruction is implemented within any mixed cell. Therefore, the system of

 

SESSION Computational Science: Graph Based Algorithms + Optimization Methods and Fuzzy Logic

PDF

Int'l Conf. Scientific Computing | CSC'16 |

81

SESSION

COMPUTATIONAL SCIENCE: GRAPH BASED

ALGORITHMS + OPTIMIZATION METHODS AND

FUZZY LOGIC

Chair(s)

TBA

ISBN: 1-60132-430-8, CSREA Press ©

82

Int'l Conf. Scientific Computing | CSC'16 |

ISBN: 1-60132-430-8, CSREA Press ©

Int'l Conf. Scientific Computing | CSC'16 |

83

On Numerical Methods for Plasma 3-T Radiation Diffusion in Two and Three Dimensions

William W. Dai and Anthony J. Scannapieco

Los Alamos National Laboratory

Los Alamos, New Mexico, USA

Abstract— Operator-splitting approaches are often used for plasma 3-T radiation diffusion equations, since many linear solvers could not effectively solve the coupled linear system resulted from plasma 3-T radiation diffusion equations. An approach of operator-splitting is proposed for numerically solving plasma 3-T radiation diffusion equations. To resolve sub-cell structure in mixed cells, interface reconstruction is implemented within any mixed cell. Therefore, the system of

 

SESSION Modeling and Simulation Frameworks

PDF

Int'l Conf. Scientific Computing | CSC'16 |

175

SESSION

MODELING AND SIMULATION FRAMEWORKS

Chair(s)

Dr. Douglas D. Hodson

Dr. Michael R. Grimaila

ISBN: 1-60132-430-8, CSREA Press ©

176

Int'l Conf. Scientific Computing | CSC'16 |

ISBN: 1-60132-430-8, CSREA Press ©

Int'l Conf. Scientific Computing | CSC'16 |

177

Studying Decoy State Protocol Configurations in

Quantum Key Distribution Systems

Logan O. Mailloux, Michael R. Grimaila,

Douglas D. Hodson, Ryan D. Engle

Air Force Institute of Technology

Department of Systems Engineering and Management

Wright-Patterson Air Force Base, Ohio 45433

Logan.Mailloux@afit.edu

Abstract—In this work, decoy state enabled Quantum Key

Distribution (QKD) system configurations are studied using a specialized modeling and simulation framework. QKD systems exploit the laws of quantum mechanics to generate unconditionally secure cryptographic keying material for use in high-security applications such as banking, government, and military environments. However, QKD systems have implementation non-idealities which can negatively impact system performance and security. Moreover, performancesecurity configuration tradeoffs are not fully understood nor have they been comprehensively studied. This article extends previous work and addresses these gaps by examining decoy state enabled QKD system configurations outside of typical operating regimes. The results of this study demonstrate that practicallyoriented QKD systems can provide high quantum throughput

 

SESSION Modeling and Simulation Frameworks

PDF

Int'l Conf. Scientific Computing | CSC'16 |

175

SESSION

MODELING AND SIMULATION FRAMEWORKS

Chair(s)

Dr. Douglas D. Hodson

Dr. Michael R. Grimaila

ISBN: 1-60132-430-8, CSREA Press ©

176

Int'l Conf. Scientific Computing | CSC'16 |

ISBN: 1-60132-430-8, CSREA Press ©

Int'l Conf. Scientific Computing | CSC'16 |

177

Studying Decoy State Protocol Configurations in

Quantum Key Distribution Systems

Logan O. Mailloux, Michael R. Grimaila,

Douglas D. Hodson, Ryan D. Engle

Air Force Institute of Technology

Department of Systems Engineering and Management

Wright-Patterson Air Force Base, Ohio 45433

Logan.Mailloux@afit.edu

Abstract—In this work, decoy state enabled Quantum Key

Distribution (QKD) system configurations are studied using a specialized modeling and simulation framework. QKD systems exploit the laws of quantum mechanics to generate unconditionally secure cryptographic keying material for use in high-security applications such as banking, government, and military environments. However, QKD systems have implementation non-idealities which can negatively impact system performance and security. Moreover, performancesecurity configuration tradeoffs are not fully understood nor have they been comprehensively studied. This article extends previous work and addresses these gaps by examining decoy state enabled QKD system configurations outside of typical operating regimes. The results of this study demonstrate that practicallyoriented QKD systems can provide high quantum throughput

 

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