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102. 发明授权

US3069658A Matrix storage devices 失效
标题翻译：矩阵存储设备
公开(公告)号：US3069658A
公开(公告)日：1962-12-18
申请号：US64977657
申请日：1957-04-01
申请人： EMI LTD
发明人： MARK KRAMSKOY CHARLES
IPC分类号： C07D403/04 , G06F9/22 , G06F9/42 , G11C11/06
CPC分类号： C07D403/04 , F02D2700/0289 , G06F9/223 , G06F9/4426 , G11C11/06042
摘要： 859,846. Electric digital-data-storage apparatus. ELECTRIC & MUSICAL INDUSTRIES Ltd. March 22, 1957 [April 4, 1956], No. 10237/56. Class 106 (1). A storage device comprises a matrix of storage elements, means for applying thereto data signals to be stored, and means for applying sequentially to the rows of elements read-out signals to reproduce the stored data signals the arrangement being such that only particular rows are read out to a given destination. In a first embodiment the six columns of a matrix, Fig. 1, are identified with a six-element binarydecimal, alpha-numeric code. Entry of codeddecimal digits is from a buffer store 2 in response to a control signal on line 3; a corresponding magnetic representation is set up in the cores C of any row of the matrix which at the same time is sensitized by a read-in pulse on the respective X control circuit. When read-out pulses are applied in sequence to the X control circuits X1 to X10 the output signals are distributed to various output registers R1, R2, R3 in accordance with a pre-arranged scheme. As shown, rows 1 to 4 and 10 of the matrix are read out to register R1, rows 5 to 7 to register R2, rows 8 and 9 to register R3, and so on. Such arrangements are intended for built-in sub-routines in a computer. In another embodiment an extra column of cores Cp, Fig. 2, is employed. The output register R1 is insensitive to signals on the read-out lines D11 to D16 unless it receives a pulse from gate 7 simultaneously. This only occurs when the row being stimulated by an X-read-out pulse includes a Cp core in the " 1 " state. In another embodiment a counter 9, Fig. 3, opens in succession gates 13, 15, 17 routing information from the matrix SM in accordance with a prearranged scheme. The counter is stepped on each time an X-signal finds a Cp core in the " 1 " state and is returned to zero when the last row of the matrix has been read out. In another embodiment (Fig. 4, not shown) two columns of Cp cores are provided, one controlling a switch permitting output signals to pass through the read-out register of the matrix and the other controlling a switch inhibiting read-out of signals. The switches are cross-connected to form a trigger pair. In another embodiment a series of matrices of the type shown in Fig. 2 are each associated with an additional " skip core Cs, Fig. 5. A shift register 24 controls the sequence of read-out signals on the X lines of each matrix while a second shift register 20 determines which matrix is to be read out in a sequence. A " marked " matrix (e.g. SMn) receives an appropriate potential on a line 22 and also via a differentiator 26, a gate SGn receives a pulse in synchronism with the read-out pulse delivered to the " skip " core Cs. If the core Cs is found to be in the "1" state an inhibiting signal is applied to the gate SGn and the pulse from the differentiator 26 has no effect; if, however, the core Cs is in the " 0 " state, the pulse from 26 passes through the gate SGn to the input of the shift register 20 stepping it on immediately to the next stage to examine the next matrix and thus skipping the row-by-row scanning of the matrix SMn. In yet another embodiment (Fig. 6, not shown) the possibility of re-arranging the sequence of the digits by transferring certain ones to a submatrix in a different order before reading out, is demonstrated. A store in accordance with the invention may comprise a plurality of submatrices each of which may consist only of programme and skip cores Cp and Cs suitably arranged in rows and columns.

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