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ACM National Meeting 1952: Pittsburgh, PA, USA
- C. V. L. Smith:
Proceedings of the 1952 ACM national meeting (Pittsburgh), ACM 1952, Pittsburgh, Pennsylvania, USA, May 2, 1952. ACM 1952, ISBN 978-1-4503-7362-3 - George C. Chase:
History of mechanical computing machinery. 1-28 - Robert V. D. Campbell:
Evolution of automatic computation. 29-32 - Bernard M. Gordon, Renato N. Nicola:
Special-purpose digital data-processing computers. 33-45 - Albert Auerbach:
The Elecom 100 general purpose computer. 47-51 - Myron J. Mendelson:
The Quadratic Arc Computer. 53-59 - John Lindsmith:
A system for counting and recording electrical impulses in printed decimal form. 61-78 - Morton M. Astrahan, Nathaniel Rochester:
The logical organization of the new IBM scientific calculator. 79-83 - Edwin L. Harder:
Some engineering problems requiring automatic computation. 85-90 - Alex Orden:
Solution of systems of linear inequalities on a digital computer. 91-95 - Abraham Charnes, Carlton E. Lemke:
Computational problems of linear programing. 97-98 - Charles W. Adams:
Small problems on large computers. 99-102 - Harry L. Reed Jr.:
Firing table computations on the Eniac. 103-106 - Edmund C. Berkeley:
Small-scale research and automatic computing machinery. 107-109 - W. G. Tuller:
Use of computing machinery in applications of information theory. 111-112 - Warren S. McCulloch:
An upper bound on the informational capacity of a synapse. 113-117 - Richard A. Wallace:
The maze solving computer. 119-125 - Edward W. Veitch:
A chart method for simplifying truth functions. 127-133 - Denis L. Johnston:
Standardised printed circuit units for digital computers. 135-141 - F. A. Schwertz, B. Moffat, Byron O. Marshall Jr.:
Nonlinear switching elements. 143-157 - Byron O. Marshall Jr., F. A. Schwertz, B. Moffat:
Optical elements for computers. 159-163 - Norm Hardy:
The selenium rectifier: a non-linear and assymetric resistance element. 165-172 - Joseph H. Levin:
Construction and use of subroutines for the SEAC. 173-180 - H. Rubinstein, J. D. Rutledge:
High order matrix computations on the UNIVAC. 181-186 - Stefan Bergman:
The solution of boundary value problems by the method of the kernel function. 187-192 - Franz L. Alt:
Boundary value problems for multiply connected domains. 193-195 - A. E. De Barr, R. Millership, P. F. Dorey, R. C. Robbins, P. D. Atkinson:
Digital storage using ferromagnetic materials. 197-202 - T. F. Rogers, W. A. Andersen:
Some recent research on ultrasonic propagation in solid media. 203-205 - An Wang:
Static magnetic memory: its applications to computers and controlling systems. 207-212 - Isaac L. Auerbach:
A static magnetic memory system for the ENIAC. 213-222 - Norman B. Saunders:
Magnetic binaries in the logical design of information handling machines. 223-229 - Roselyn S. Lipkis:
The use subroutines on SWAC. 231-233 - David J. Wheeler:
The use of sub-routines in programmes. 235-236 - John W. Carr III:
Progress of the whirlwind computer towards an automatic programming procedure. 237-241 - Grace Murray Hopper:
The education of a computer. 243-249 - Theodore A. Kalin:
Formal logic and switching circuits. 251-257 - William H. Burkhart:
Theorem minimization. 259-263 - William H. Burkhart:
A method for synthesis of two-valued feedback circuits. 265-272 - Warren L. Semon:
Characteristic numbers and their use in the decomposition of switching functions. 273-280 - Peter F. Strong:
Rectifiers as elements of switching circuits. 281-286 - Theodore Singer:
The theory of counting techniques. 287-291 - Robert L. Ashenhurst:
The application of counting techniques. 293-305
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