David P. Starinshak scite author profile

David P. Starinshak

5Publications

57Citation Statements Received

140Citation Statements Given

How they've been cited

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136

Affiliations

Lawrence Livermore National Laboratory, Ohio Aerospace Institute

Publications

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A new parallel algorithm for constructing Voronoi tessellations from distributed input data

Starinshak

Owen

Johnson

2014

Computer Physics Communications

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We present a new parallel algorithm for generating consistent Voronoi diagrams from distributed input data for the purposes of simulation and visualization. The algorithm functions by building upon any serial Voronoi tessellation algorithm. The output of such a serial tessellator is used to determine the connectivity of the distributed domains without any assumptions about how points are distributed across those domains, and then in turn to build the portion of the global tessellation local to each domain using information from that domains neighbors. The result is a generalized methodology for adding distributed capabilities to serial tessellation packages. Results from several two-dimensional tests are presented, including strong and weak scaling of its current implementation.

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A subzone reconstruction algorithm for efficient staggered compatible remapping

Starinshak

Owen

2015

Journal of Computational Physics

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h i g h l i g h t sA physical air-entraining method has been reported. The properties of high porosity cement-based foam materials have been investigated. Influence of water-cement ratio and HPMC on material properties has been analyzed. Pore structure formation mechanism has been clarified. a b s t r a c tHigh porosity cement-based foam materials were prepared through physical air-entraining method and the pore structure and the properties of materials were characterized. The results show that water-cement ratio and Hydroxypropyl Methyl Cellulose (HPMC) content have crucial influence on material properties. When the water-cement ratio was 0.9 and the content of HPMC was 0.4%, the cement-based foam material with the porosity of 94.33% and thermal conductivity value of 0.049 W/(m K) could be obtained. The formation mechanism of pore structure was analyzed that water-cement ratio and HPMC content affect the bubble film toughness which influence on material properties.

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A new level set model for multimaterial flows

Starinshak

Karni

Roe

2014

Journal of Computational Physics

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A New Level-Set Model for the Representation of Non-Smooth Geometries

2014

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A multimaterial extension to subzonal reconstruction

Starinshak

Owen

2016

Journal of Computational Physics

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We present a new algorithm for reconstructing material-dependent subzonal information based on staggered primary/dual-mesh remapping of materialdependent conserved quantities. The algorithm is appropriate in the context of geometric, intersection-based overlay remapping methods, with specific application to staggered, total energy conserving, multi-material Lagrangian hydrodynamics schemes that discretize material masses on subzonal mesh elements. Our new approach avoids direct remapping of material-dependent subzonal variables; instead, the spatial profile of each variable is reconstructed using a combination of material-dependent zone (primary mesh) information, material-independent node (dual mesh) information, and discrete interface-reconstructed material concentration information. Conservation and convergence properties of the new algorithm are established through several challenging multi-material remapping and hydrodynamics tests.

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