Vorrichtung zum selbsttaetigen Aufrufen von Teilen eines Magnetkern-Matrixspeichers

Vorrichtung zum selbsttaetigen Aufrufen von Teilen eines Magnetkern-Matrixspeichers

927,405. Electrical digital-data storage. INTERNATIONAL BUSINESS MACHINES CORPORATION. May 17, 1960 [June 4, 1959], No. 17418/60. Class 106 (1). In a magnetic core matrix means are provided for addressing a predetermined sequence of storage locations. Selection of an address is by half-drive current...

Ausführliche Beschreibung

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Bibliographische Detailangaben
1. Verfasser: TATE LAWRENCE ALLEN
Format: Patent
Sprache:ger
Schlagworte:
CALCULATING
COMPUTING
COUNTING
ELECTRIC DIGITAL DATA PROCESSING
INFORMATION STORAGE
PHYSICS
STATIC STORES
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Zusammenfassung:927,405. Electrical digital-data storage. INTERNATIONAL BUSINESS MACHINES CORPORATION. May 17, 1960 [June 4, 1959], No. 17418/60. Class 106 (1). In a magnetic core matrix means are provided for addressing a predetermined sequence of storage locations. Selection of an address is by half-drive currents on X- and Y-co-ordinate lines. Separate but similar apparatus is used for providing the sequence of each co-ordinate. An X-co-ordinate is stored and is used in the read-out and read-in of an address of the core matrix, but the read-in signal is applied to the co-ordinate store in order to set a magnetic core representing the next co-ordinate of the sequence. Suppose that the core matrix is 32 x 32 and that the sequence of X-co-ordinates begins with 0. Core 0 of the co-ordinate storage device of Fig. 4 is initially set by a pulse on a start line and a reset pulse is then applied on line 67 to all cores. An output then appears on sense lines 69 and 58 to set triggers X0 and 0X (Fig. 5) respectively. The triggers set by signals from the horizontal sense lines have only one output connected to AND gates in the core drivers, e.g. 77 of the co-ordinate selection matrix of Fig. 2; the triggers set by the vertical sense lines have two outputs applied one to each AND gate of an associated core driver 73 to 76. Coincident pulses are then applied to the lines " read gate " and " read bias gate." The read gate pulse is sufficient to set a core and is applied to that row of the selection matrix associated with the set trigger 0X; the read bias gate pulse is a full reset pulse and is applied to the columns of cores associated with the unset triggers X1 to X3. The result is that the core SW 0 is set producing a half-read pulse on the line 0. A " write gate " full reset pulse is then applied to the column of cores associated with the set trigger X0 causing the core SW 0 to be reset and a half-write pulse to appear on line 0. After passing through the core store 50 (Fig. 3a) the pulses on the selected co-ordinate line are applied to a terminal board which is wired so that, for example, as shown, the 0 input terminal is connected to the 1 output terminal. The output terminals are connected to the lines A0 to A31 which are the windings on the correspondingly numbered cores of the co-ordinate storage device. The core in the selection matrix provides when switched only a half-drive pulse to the cores of the co-ordinate storage device and the other half-drive pulse is supplied on t