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NWGrid and NWPhys development, implementation, and application (csei3)


EMSL Project ID
2239

Abstract

NWGrid is used as a multi-dimensional, unstructured, hybrid, parallel mesh generation system. NWPhys is a multi-dimensional, multi-physics, parallel computational physics solver application. These codes represent large-scale production codes targeted at a variety of applications, specifically computational cell biology, computational organ modeling, a variety of environmental modeling applications, molecular surface modeling, and engineering applications. The intent of this proposal is to provide high-speed parallel computing resources for development, implementation, and deployment of these codes for users both inside and outside of PNNL.

Project Details

Project type
Capability Research
Start Date
2001-05-02
End Date
2001-10-01
Status
Closed

Team

Principal Investigator

Harold Trease
Institution
Pacific Northwest National Laboratory

Team Members

Lynn Trease
Institution
Pacific Northwest National Laboratory

Related Publications

Liu J, GH Cao, Z Yang, D Wang, DL DuBois, XD Zhou, GL Graff, LR Pederson, and J Zhang. 2008. "Oriented Nanostructures for Energy Conversion and Storage." ChemSusChem 1(8-9):661.
Manuscript to be submitted to Science
the paper has been accepted by JPCC
The paper has been published in Chemistry of Materials
Wang D, Z Ma, S Dai, J Liu, Z Nie, MH Engelhard, Q Huo, CM Wang, and R Kou. 2008. "Low-Temperature Synthesis of Tunable Mesoporous Crystalline Transition Metal Oxides and Applications as Au Catalyst Supports." Journal of Physical Chemistry C 112(35):13499-13509. doi:10.1021/jp804250f