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The impact of supercomputing capabilities on U.S. materials science and technology

dc.contributor.authorWilson, William D.en_US
dc.contributor.authorAsaro, Robert J.en_US
dc.contributor.authorDutton, Robert W.en_US
dc.contributor.authorSanchez, Juan M.en_US
dc.contributor.authorSrolovitz, David J.en_US
dc.contributor.authorBoyd, Richard H.en_US
dc.contributor.authorGoddard, III, William A.en_US
dc.contributor.authorSmith, John R.en_US
dc.contributor.authorWolfer, Wilhelm G.en_US
dc.date.accessioned2006-04-07T20:42:43Z
dc.date.available2006-04-07T20:42:43Z
dc.date.issued1989-09en_US
dc.identifier.citationWilson, William D., Asaro, Robert J., Dutton, Robert W., Sanchez, Juan M., Srolovitz, David J., Boyd, Richard H., Goddard, III, William A., Smith, John R., Wolfer, Wilhelm G. (1989/09)."The impact of supercomputing capabilities on U.S. materials science and technology." Future Generation Computer Systems 5(2-3): 283-293. <http://hdl.handle.net/2027.42/27783>en_US
dc.identifier.urihttp://www.sciencedirect.com/science/article/B6V06-48V24MK-7D/2/654091cd1590e7c31e826226184a4d9aen_US
dc.identifier.urihttps://hdl.handle.net/2027.42/27783
dc.description.abstractA committee was formed under the auspices of the National Academy of Sciences to identify areas of materials science and engineering where a major impact might be realized, resulting from the emergence of supercomputer technology. A great number of examples of exciting individual computational science were identified: Atomistic and electronic structure calculations on metals, semiconductors, and polymers; statistical mechanical studies of alloy phase diagrams; and fundamental modeling of fracture and deformation in metals, ceramics, and glasses are among those that are vigorously exploiting supercomputer technology. Moreover, electronic structure effects on a scale of angstroms are being coupled with microstructural aspects on a scale of micrometers, and these are further coupled to continuum effects on a scale of centimeters. Supercomputers are emerging as powerful and cost-effective tools, not only for the furtherance of materials science, but also for linking this science with engineering, design, and manufacturing. In this paper each example stands alone, consisting of a brief technological background followed by the specific supercomputer examples.en_US
dc.format.extent947823 bytes
dc.format.extent3118 bytes
dc.format.mimetypeapplication/pdf
dc.format.mimetypetext/plain
dc.language.isoen_US
dc.publisherElsevieren_US
dc.titleThe impact of supercomputing capabilities on U.S. materials science and technologyen_US
dc.typeArticleen_US
dc.rights.robotsIndexNoFollowen_US
dc.subject.hlbsecondlevelComputer Scienceen_US
dc.subject.hlbtoplevelEngineeringen_US
dc.description.peerreviewedPeer Revieweden_US
dc.contributor.affiliationumDepartment of Materials Science and Engineering, University of Michigan, U.S.A.en_US
dc.contributor.affiliationotherComputation Department, Sandia National Laboratories, Livermore, California, U.S.A.en_US
dc.contributor.affiliationotherDivision of Engineering, Brown University, U.S.Aen_US
dc.contributor.affiliationotherCenter for Integrated Systems, Stanford University, U.S.A.en_US
dc.contributor.affiliationotherHenry Krumb School of Mines, Columbia University, U.S.A.en_US
dc.contributor.affiliationotherDepartment of Materials Science and Engineering, University of Utah, U.S.A.en_US
dc.contributor.affiliationotherArthur Amos Noyes Laboratory of Chemical Physics, California Institute of Technology, U.S.A.en_US
dc.contributor.affiliationotherPhysics Department, General Motors Research Laboratories, U.S.A.en_US
dc.contributor.affiliationotherPhysical Science Department, Sandia National Laboratories, Livermore, California, U.S.A.en_US
dc.description.bitstreamurlhttp://deepblue.lib.umich.edu/bitstream/2027.42/27783/1/0000178.pdfen_US
dc.identifier.doihttp://dx.doi.org/10.1016/0167-739X(89)90048-4en_US
dc.identifier.sourceFuture Generation Computer Systemsen_US
dc.owningcollnameInterdisciplinary and Peer-Reviewed


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