VolQD: Direct Volume Rendering of Multi-million Atom Quantum Dot Simulations

I
IEEE_VIS
2005
16th IEEE Visualization 2005 (VIS 2005)
Abstract - VolQD: Direct Volume Rendering of Multi-million Atom Quantum Dot Simulations

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16th IEEE Visualization 2005 (VIS 2005)

Minneapolis, Minnesota

October 23-October 28

ISBN: 0-7803-9462-3

	ASCII Text	x
	Wei Qiao, David S. Ebert, Alireza Entezari, Marek Korkusinski, Gerhard Klimeck, "VolQD: Direct Volume Rendering of Multi-million Atom Quantum Dot Simulations," Visualization Conference, IEEE, pp. 41, 16th IEEE Visualization 2005 (VIS 2005), 2005.

	BibTex	x
	@article{ 10.1109/VIS.2005.130, author = {Wei Qiao and David S. Ebert and Alireza Entezari and Marek Korkusinski and Gerhard Klimeck}, title = {VolQD: Direct Volume Rendering of Multi-million Atom Quantum Dot Simulations}, journal ={Visualization Conference, IEEE}, volume = {0}, year = {2005}, isbn = {0-7803-9462-3}, pages = {41}, doi = {http://doi.ieeecomputersociety.org/10.1109/VIS.2005.130}, publisher = {IEEE Computer Society}, address = {Los Alamitos, CA, USA}, }

	RefWorks Procite/RefMan/Endnote	x
	TY - CONF JO - Visualization Conference, IEEE TI - VolQD: Direct Volume Rendering of Multi-million Atom Quantum Dot Simulations SN - 0-7803-9462-3 SP EP A1 - Wei Qiao, A1 - David S. Ebert, A1 - Alireza Entezari, A1 - Marek Korkusinski, A1 - Gerhard Klimeck, PY - 2005 KW - volume visualization KW - volume rendering KW - programmable graphics hardware KW - face-centered cubic lattice KW - reconstruction filter KW - quantum dots KW - atomistic simulation VL - 0 JA - Visualization Conference, IEEE ER -

Wei Qiao, Purdue University

David S. Ebert, Purdue University

Alireza Entezari, Simon Fraser University

Marek Korkusinski, Purdue University

Gerhard Klimeck, Purdue University

DOI Bookmark: http://doi.ieeecomputersociety.org/10.1109/VIS.2005.130

In this work we present a hardware-accelerated direct volume rendering system for visualizing multivariate wave functions in semiconducting quantum dot (QD) simulations. The simulation data contains the probability density values of multiple electron orbitals for up to tens of millions of atoms, computed by the NEMO3- D quantum device simulator software run on large-scale cluster architectures. These atoms form two interpenetrating crystalline Face Centered Cubic lattices (FCC), where each FCC cell comprises the eight corners of a cubic cell and six additional face centers. We have developed compact representation techniques for the FCC lattice within PC graphics hardware texture memory, hardware-accelerated linear and cubic reconstruction schemes, and new multi-field rendering techniques utilizing logarithmic scale transfer functions. Our system also enables the user to drill down through the simulation data and execute statistical queries using general-purpose computing on the GPU (GPGPU).

Index Terms:

volume visualization, volume rendering, programmable graphics hardware, face-centered cubic lattice, reconstruction filter, quantum dots, atomistic simulation

Citation:

Wei Qiao, David S. Ebert, Alireza Entezari, Marek Korkusinski, Gerhard Klimeck, "VolQD: Direct Volume Rendering of Multi-million Atom Quantum Dot Simulations," ieee_vis, pp.41, 16th IEEE Visualization 2005 (VIS 2005), 2005

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