A superconductive associative memory
AIEE-IRE '62 (Spring) Proceedings of the May 1-3, 1962, spring joint computer conference
Some applications for content-addressable memories
AFIPS '63 (Fall) Proceedings of the November 12-14, 1963, fall joint computer conference
AFIPS '64 (Fall, part I) Proceedings of the October 27-29, 1964, fall joint computer conference, part I
The Computation of Window Operations on a Parallel Organized Computer A Case Study
IEEE Transactions on Computers
A Multiaccess Associative Memory
IEEE Transactions on Computers
A Hardware Hashing Scheme in the Design of a Multiterm String Comparator
IEEE Transactions on Computers
Associative parallel processing
AFIPS '67 (Spring) Proceedings of the April 18-20, 1967, spring joint computer conference
The architecture of a large associative processor
AFIPS '70 (Spring) Proceedings of the May 5-7, 1970, spring joint computer conference
A design for an auxiliary associative parallel processor
AFIPS '72 (Fall, part I) Proceedings of the December 5-7, 1972, fall joint computer conference, part I
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In recent years, a number of hardware associative memories had been designed and experimentally verified. These memories allow simultaneous comparison of all stored data to external data. Data may be read from, or written into, comparing words. These memories, acting as peripheral devices to conventional computers, have been studied for application to various tasks described in references 1 and 2. The concept of "associative processing," i.e., simultaneous transformation of many stored data by associative means, has been described previously. This processing mode showed promise in a variety of tasks, but was not efficient when peripherally controlled by a conventional machine. Novel machine organizations were required to fully exploit the potential of these techniques for solving poorly structured nonnumeric problems, at which present-day machines are not efficient.