Alias, N. and Satam, N. and Othman, M. S. and Teh, C. R. C. and Mustaffa, M. N. and Saipol, H. F. (2015) High performance nanotechnology software (HPNS) for parameter characterization of nanowire fabrication and nanochip system. In: 13th International Conference on New Trends in Intelligent Software Methodology Tools and Techniques, SoMeT 2014, 22 - 24 September 2014, Langkawi, Malaysia.
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Official URL: http://dx.doi.org/10.1007/978-3-319-17530-0_18
Abstract
This paper presents the high performance nanotechnology software (HPNS) to enable scientific researchers for predicting, visualizing and observing the temperature behavior and some parameters characteristics of nanochip system and nanowire fabrication. The analysis of scientific algorithms and high performance computing are searchable through a user friendly web-based system. This software will involve some mathematical modeling, numerical simulations and high performance computing technology to improve the accuracy of prediction, visualization quality and parallel performance indicators. The parameters involve on the thermal control process of nanowire fabrication are focuses on pressure, density, space, time control. The identification of the parameters influences the process of nanowire fabrication. The next focused are parameters characteristics of nanochip system. The parameters that involve are temperature, electromagnetic wave, space, time and other properties impact of the development of multilayer nanochip system. The implementations of parallel algorithms for solving the Partial Differential Equation of heat transfer and wave motion problems are based on large sparse parabolic and elliptic types. The discretization technique to obtain a large sparse linear system of equations is based on Finite Difference Method. The HPNS will support the supercomputing of numerical simulations and its repository using distributed memory architecture. The performance indicators will investigate the parallel programs using Parallel Virtual Machine (PVM) and C language on Linux operating system in terms of run time, accuracy, convergence, errors, speedup, efficiency and effectiveness. As a conclusion, HPNS will be an alternative software system to support huge computational complexity of the multilayer nanochip system and nanowire fabrication model.
Item Type: | Conference or Workshop Item (Paper) |
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Uncontrolled Keywords: | Electromagnetic wave motion, High performance computing software |
Subjects: | Q Science > QD Chemistry |
Divisions: | Science |
ID Code: | 59299 |
Deposited By: | Haliza Zainal |
Deposited On: | 18 Jan 2017 01:50 |
Last Modified: | 06 Dec 2021 02:46 |
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