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Eric J. Bylaska

Researcher at Pacific Northwest National Laboratory

Publications -  129
Citations -  9700

Eric J. Bylaska is an academic researcher from Pacific Northwest National Laboratory. The author has contributed to research in topics: Density functional theory & Ab initio. The author has an hindex of 36, co-authored 121 publications receiving 8300 citations. Previous affiliations of Eric J. Bylaska include Environmental Molecular Sciences Laboratory & Oregon Health & Science University.

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NWChem: a comprehensive and scalable open-source solution for large scale molecular simulations

Marat Valiev, +10 more
- 01 Sep 2010 - 
TL;DR: An overview of NWChem is provided focusing primarily on the core theoretical modules provided by the code and their parallel performance, as well as Scalable parallel implementations and modular software design enable efficient utilization of current computational architectures.
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High performance computational chemistry: An overview of NWChem a distributed parallel application

Ricky A. Kendall, +12 more
- 09 Jun 2000 - 
TL;DR: The design and some implementation details of the overall NWChem architecture facilitates rapid development and portability of fully distributed application modules and shows performance of a few of the modules within NWChem.
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NWChem: Past, present, and future

Edoardo Aprà, +113 more
- 14 May 2020 - 
TL;DR: The NWChem computational chemistry suite is reviewed, including its history, design principles, parallel tools, current capabilities, outreach, and outlook.
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NWChem: Past, Present, and Future

Edoardo Aprà, +113 more
- 25 Apr 2020 - 
TL;DR: The NWChem computational chemistry suite as discussed by the authors provides tools to support and guide experimental efforts and for the prediction of atomistic and electronic properties by using first-principledriven methodologies to model complex chemical and materials processes.
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Diversity of Contaminant Reduction Reactions by Zerovalent Iron: Role of the Reductate

Rosemarie Miehr, +5 more
- 01 Jan 2004 - 
TL;DR: Although the reductate has the largest effect on disappearance kinetics, more subtle differences in reactivity suggests that removal of CrO2(2-) and NO3(-) (the inorganic anions) involves adsorption to oxides on the Fe(0), whereas the disappearance kinetic of all other types of reductants is favored by reduction on comparatively oxide-free metal.