Development of the general interpolants method for the CYBER 200 series of supercomputers
Read Online
Share

Development of the general interpolants method for the CYBER 200 series of supercomputers

  • 270 Want to read
  • ·
  • 27 Currently reading

Published by National Aeronautics and Space Administration, Scientific and Technical Information Division, National Technical Information Service, distributor] in [Washington, DC], [Springfield, Va .
Written in English


Book details:

Edition Notes

StatementJ.F. Stalnaker ... [et al.]
SeriesNASA contractor report -- 4183, NASA contractor report -- NASA CR-4183
ContributionsUnited States. National Aeronautics and Space Administration. Scientific and Technical Information Division
The Physical Object
FormatMicroform
Pagination1 v
ID Numbers
Open LibraryOL14983231M

Download Development of the general interpolants method for the CYBER 200 series of supercomputers

PDF EPUB FB2 MOBI RTF

In UNIVAC built the Livermore Atomic Research Computer (LARC), today considered among the first supercomputers, for the US Navy Research and Development Centre. It still used high-speed drum memory, rather than the newly emerging disk drive technology. Also among the first supercomputers was the IBM IBM was built by IBM for the Los . Computer Architecture: From Microprocessors to Supercomputers provides a comprehensive introduction to this thriving and exciting field. Emphasizing both underlying theory and actual designs, the book covers a wide array of topics and links 5/5(3). Supercomputers Written By: Emma Jacoby and Michelle Burris A supercomputer is defined as a mainframe computer that is one of the fastest and most powerful. Supercomputers have grown and changed throughout their history. Their speed is unparalleled, their future is exciting, and their uses are nearly Size: KB. Supercomputers are the ultimate engine of the information age. By generating and processing vast amounts of data with hitherto unparalleled speed, they make new activities in industrial research and product development possible. Supercomputers explores commercial supercomputer applications today as well as those emerging from university.

International Workshop on the Use of Supercomputers in Theoretical sci, Jozef T. Devreese, P. E. Van Camp Published by Springer () ISBN ISBN Computer Architecture: From Microprocessors to Supercomputers (Oxford Series in Electrical and Computer Engineering) by Parhami, Behrooz Published by Oxford University Press, USA () Hardcover on *FREE* shipping on qualifying offers. Computer Architecture: From Microprocessors to Supercomputers (Oxford Series in Electrical and Computer Engineering) 5/5(4). Supercomputer, any of a class of extremely powerful computers. The term is commonly applied to the fastest high-performance systems available at any given time. Such computers have been used primarily for scientific and engineering work requiring exceedingly high-speed computations. Common applications for supercomputers include testing. Models. The Cyber line included five different series of computers: The 70 and series based on the architecture of the CDC and CDC supercomputers, respectively; The series based on the CDC STAR - released in the s.; The series developed by a team in Canada - released in the s (after the series).

LIVERMORE, CA—Presenting a wide-ranging and extremely detailed case for significant upgrades to their speed and memory, the world’s fastest supercomputers released a new study at precisely a.m. Greenwich Mean Time Thursday . Supercomputer make possible the development of advanced military aircraft and spacecraft, and are essential for planning, executing and improving NASA missions. Supercomputers were used to identify the causes of the NASA "Challenger" tragedy and the collapse of the World Trade Center towers on 9/ Supercomputers are being evaluated today toFile Size: KB. The current classification of supercomputers can be found atthe TOP Supercomputer Sites. A flop is a floating point operation. Performance is often measured in the number of flops per second. If two flops can be done per clock cycle, then a processor at 3GHz can theoretically perform 6 billion flops (6 gigaflops) per Size: 7MB. 5 The 39th TOP List since It is the 20 th year of the TOP list, and after releasing the 39th list recently at ISC'12 in Hamburg we will celebrate the 20 th anniversary of the TOP this year: The 40 th list will be published at SC12 in November in Salt Lake City. At that time, we will have continuously published 40 TOP lists with a.