Title :
Atomic scale modeling of polymerization catalysts
Author :
Woo, Tom K. ; Patchkovskii, Serguei ; Ziegler, Tom
Author_Institution :
Calgary Univ., Alta., Canada
Abstract :
Developing new forms of plastic and improving the efficiency of the catalysts that produce them requires detailed insight into the reaction steps in the polymerization process. This calls for thorough analysis and hefty computational resources. The authors discuss their strategies for accurate modeling, and Cobalt, a Beowulf supercomputer they built and optimized for quantum chemistry applications.
Keywords :
catalysts; chemistry computing; mainframes; parallel machines; plastics industry; polymerisation; quantum chemistry; Beowulf supercomputer; Cobalt; atomic scale modeling; computational resources; plastic; polymerization catalysts; polymerization process; quantum chemistry applications; reaction steps; Automotive materials; Chemical elements; Chemical industry; Computer architecture; Manufacturing industries; Plastic packaging; Plastics industry; Polymers; Production; Supercomputers;
Journal_Title :
Computing in Science & Engineering
DOI :
10.1109/5992.881705
