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Radiative Heat Transfer Calculation on 16384 GPUs Using a Reverse Monte Carlo Ray Tracing Approach with Adaptive Mesh Refinement.

, , , and . IPDPS Workshops, page 1222-1231. IEEE Computer Society, (2016)

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Radiation modeling using the Uintah heterogeneous CPU/GPU runtime system., , , and . XSEDE, page 4:1-4:8. ACM, (2012)Uintah: a scalable framework for hazard analysis., , , , , and . TG, page 3:1-3:8. ACM, (2010)Scalable Data Management of the Uintah Simulation Framework for Next-Generation Engineering Problems with Radiation., , , , , , , , , and 2 other author(s). SCFA, volume 10776 of Lecture Notes in Computer Science, page 219-240. Springer, (2018)Modeling Deflagration Energetic Materials using the Uintah Computational Framework., , , and . ICCS, volume 51 of Procedia Computer Science, page 552-561. Elsevier, (2015)Extending the Uintah Framework through the Petascale Modeling of Detonation in Arrays of High Explosive Devices., , , , , , , and . SIAM J. Sci. Comput., (2016)Radiative Heat Transfer Calculation on 16384 GPUs Using a Reverse Monte Carlo Ray Tracing Approach with Adaptive Mesh Refinement., , , and . IPDPS Workshops, page 1222-1231. IEEE Computer Society, (2016)Multiscale modeling of high explosives for transportation accidents., , , , and . XSEDE, page 32:1-32:8. ACM, (2012)The influence of an applied heat flux on the violence of reaction of an explosive device., , , , and . XSEDE, page 11:1-11:8. ACM, (2013)