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ORCIDACM National Meeting 1952: Toronto, ON, Canada
- C. V. L. Smith, Franz L. Alt, Jay W. Forrester, Richard Wesley Hamming:
Proceedings of the 1952 ACM national meeting (Toronto), ACM 1952, Toronto, Ontario, Canada. ACM 1952, ISBN 978-1-4503-7925-0 - Richard K. Ridgway:
Compiling routines. 1-5 - Bernard M. Gordon, Renato N. Nicola:
A high speed magnetic-core output printer. 6-12 - Howard B. Demuth, John B. Jackson, Edmund F. Klein, Nick Metropolis, Walter Orvedahl, James H. Richardson:
MANIAC. 13-16 - Earl J. Isaac:
Machine aids to coding. 17-18 - Ira C. Diehm:
Computer aids to code checking. 19-20 - Edgar F. Codd, Harlan L. Herrick:
Input scaling and output scaling a binary calculator. 21-22 - Clay L. Perry:
The logical design of the Oak Ridge digital computer. 23-27 - Willis E. Dobbins:
Designing a low cost general purpose computer. 28-29 - A. S. Houscholder:
Errors in iterative solutions of linear systems. 30-33 - Joseph Henry Wegstein:
A numerical solution of the helium wave equation with the SEAC. 34-35 - Mark Lotkin, R. Remage:
Matrix inversion by partitioning. 36-41 - A. Robinson:
The testing of cathode ray tubes for use in the Williams type storage system. 42-45 - Christopher S. Strachey:
Logical or non-mathematical programmes. 46-49 - Edward F. Moore:
A simplified universal Turing machine. 50-54 - Simple learning by a digital computer. 55-60
- L. C. Robbins:
An analysis by arithmetical methods of a calculating network with feedback. 61-67 - William S. Elliott:
Development of computer components and systems. 68-72 - Homer W. Spence:
Operating efficiencies and characteristics of the computing machines at aberdeen proving ground. 73-76 - L. R. Johnson:
Installation of a large electronic computer. 77-80 - Daniel Teichroew:
Use of continued fractions in high-speed computing. 81 - J. R. Anderson:
Ferro electric-materials as storage elements for digital computers and switching systems. 81 - Lars Löfgren:
An electronic analogue machine for computing equations of degrees through the roots of algebraic the eighth. 81 - J. M. Bennett, D. G. Prinz, M. L. Woods:
Interpretative sub-routines. 81-87 - Philip Rabinowitz:
The use of sub-routines on SEAC for numerical integrations of differential equations and for gaussian quadrature. 88-89 - Irving S. Reed:
Symbolic synthesis of digital computers. 90-94 - Gerald Estrin:
A description of the electronic computer at the institute for advanced studies. 95-109 - J. C. Chu, Rudolph J. Klein:
Williams tubes selection program. 110-114 - Daniel W. Ladd Jr., John W. Sheldon:
The numerical solution of a partial differential equation on the IBM type 701 electronic data processing machines. 115-120 - Maurice V. Wilkes:
Pure and applied programming. 121-123 - Cornelius Lanczos:
Chebyshev polynomials in the solution of large-scale linear systems. 124-132 - Anatol W. Holt:
An experimental rapid access memory using diodes and capacitors. 133-141 - J. C. Chu:
The Oak Ridge Automatic Computer. 142-148 - R. Schumann:
Improvement of williams memory reliability. 149-153 - R. F. Johnston:
The University Of Toronto Model Electronic Computer. 154-160
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