Title of article
Multimillion atom simulations of dynamics of wing cracks and nanoscale damage in glass, and hypervelocity impact damage in ceramics Original Research Article
Author/Authors
Priya Vashishta، نويسنده , , Rajiv K. Kalia ، نويسنده , , Aiichiro Nakano، نويسنده ,
Issue Information
دوهفته نامه با شماره پیاپی سال 2007
Pages
4
From page
202
To page
205
Abstract
We have developed scalable parallel algorithms for first-principles based predictive atomistic simulations of materials. We have achieved parallel efficiency 0.998 for 134 billion-atom molecular dynamics (MD), 1.06 billion-atom reactive force-field MD, and 11.8 million-atom (1.04 trillion electronic degrees-of-freedom) quantum-mechanical MD in the framework of the density functional theory on 131,072 BlueGene/L processors. We have performed up to 540 million-atom MD simulations to study: (1) initiation, growth and healing of wing cracks in confined silica glass; and (2) damage initiation during hypervelocity impact on advanced ceramics.
Keywords
molecular dynamics , Wing cracks , Parallel computing , quantum mechanics , Hypervelocity impact , Density functional theory
Journal title
Computer Physics Communications
Serial Year
2007
Journal title
Computer Physics Communications
Record number
1137283
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