Jamming of Soft Frictionless Spheres

By Siew La Pang1, Ishan Srivastava1, Timothy S Fisher1

1. Purdue University

Predicts the jammed microstructure of an ensemble of spheres of user-defined number and size distribution

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Version 2.0 - published on 03 Sep 2014

doi:10.4231/D3DN3ZW94 cite this

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Usage

World usage

Location of all "Jamming of Soft Frictionless Spheres" Users Since Its Posting

Simulation Users

58

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Users By Organization Type
Type Users
Educational - University 32 (55.17%)
Unidentified 25 (43.1%)
Industry 1 (1.72%)
Users by Country of Residence
Country Users
us UNITED STATES 21 (63.64%)
in INDIA 3 (9.09%)
de GERMANY 2 (6.06%)
ro ROMANIA 1 (3.03%)
co COLOMBIA 1 (3.03%)
dz ALGERIA 1 (3.03%)
iq IRAQ 1 (3.03%)
lt LITHUANIA 1 (3.03%)
ca CANADA 1 (3.03%)
it ITALY 1 (3.03%)

Simulation Runs

300

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Overview
Average Total
Wall Clock Time 12.09 hours 75.57 days
CPU time 4.32 minutes 10.79 hours
Interaction Time 46.92 minutes 4.89 days