Advanced scientific computer

Acknowledgments. This work was supported by the Petroleum Research Fund of the American Chemical Society (grant 29566-G4), by a K STAR EPSCoR FIRST Award, and by the University of Kansas General Research Fund. The use of the Origin 2000 computer at the Kansas Center for Advanced Scientific Computing is gratefully acknowledged. 

This work has been supported in part by grants from the NIH (GM-30580), the Petroleum Research Fund of the American Chemical Society, and the National Science Foundation Office of Advanced Scientific Computing. RML is the recipient of a NIH Research Career Development Award. 

Experimental Design A Chemometric Approach, by S.N. Deming and S.L. Morgan Advanced Scientific Computing in BASIC with Applications in Chemistry, Biology and Pharmacology, by P. Valko and S. Vajda PCs for Chemists, edited by J. Zupan... 

Advanced scientific computing in BASIC with, applications in chemistry, biology and pharmacology... 

Support is gratefully acknowledged from the Technology Research Division, Office of Advanced Scientific Computing Research, U.S. Department of Energy, under contract W-31-109-ENG-38. 

Advanced Scientific Computing in BASIC with applications in Chemistry, Biology and Pharmacology... 

With the advent of vector processors over the last ten years, the vector computer has become the most efficient and in some instances the only affordable way to solve certain computational problems. One such computer, the Texas Instruments Advanced Scientific Computer (ASC), has been used extensively at the Naval Research Laboratory to model atmospheric and combustion processes, dynamics of laser implosions, and other plasma physics problems. Furthermore, vectorization is achieved in these programs using standard Fortran. This paper will describe some of the hardware and software differences which distinguish the ASC from the more conventional scalar computer and review some of the fundamental principles behind vector program design. 

H. Brock, B. Brooks, M. Miller, "Guide to Vectorization on the Naval Research Laboratory, Texas Instruments Advanced Scientific Computer", Vol. 1, NRL Memorandum Report 4102, Naval Research Laboratory, Washington, D.C. 

Center for Advanced Scientific Computing and Modeling, Department of Chemistry, University of North Texas, P.O. Box 305070, Denton, Texas 76203-5070, USA... 

The first version of this monograph was Numerical Modeling of Detonations published in 1978 by the University of California Press. The second version of this monograph was Numerical Modeling of Explosives and Propellants, Second Edition published in 1998 by CRC Press. Since 1998 the numerical modeling of explosives and propellants techniques described in this book were included in the computer code NOBEL as part of the ASCI (Advanced Scientific Computing Initiative) program. This resulted in a major advancement of the capability to model explosive initiation and performance. 

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