SU551698A1 - Memory element with non-destructive read information - Google Patents

Description

(54) RECORDING ELEMENT WITH NON-DEPENDENT READING OF INFORMATION

Claims (2)

The invention relates to the field of computing and can be used in the construction of associative memory devices. A storage element is known with unshakable information containing two toroidal cores, n | X) S1 with a short-circuited winding, a recovery winding, and an output winding. The disadvantage of the element is its limited scope. The closest technical solution to the invention is a memory element with a non-destructive information interchange, which contains, like the proposed toroidal cores, stitched with a short-circuited winding, an output winding stitched through the first and third cores, a winding reset, and a survey winding. The disadvantage of the famous. element is the complexity of the firmware. The aim of the invention is to use a memory element with non-destructive reading of information. The goal of the goal is to ensure that the memory element contains unbreakable information and has a toroidal heart shaped short-circuited winding, output winding through the first and T1 cores cores, the recovery winding and the interrogation card, and the surface pattern. and the survey winding is through the second heartbeat. On fng. 1 shows the scheme of the proposed element with non-destructive reading} -format {and; in fig. 2- changing the magnetic state of the cores under the action of the control TOiCOB. The locking element with non-destructive stitching with the E1 information contains the first TOpOHAaja. and the output (numerical) winding 7, past: ity also through the first and third cores and. The graph of non-invoking information in the case of an alternative survey is shown in FIG. 2. The storage condition I is shaded by the direction of their magnetization of the heart of the cores D and 2 in a clockwise direction (the - sign), and the core 3-counterclockwise (the + sign). State O corresponds to the 1-magnitude of core 1 clockwise, and cores 2 and 3 counterclockwise. The interrogation current O tends to magnetize; core 2 is counterclockwise - (+), while from state 1 the system goes to state PI, characterized by clockwise magnetization of cores 1 and 3, and core 2 - counterclockwise. In this case, an output signal appears in the output winding stitched through the core 3. In this system there is a continuous circulation of the magnetic flux, and the losses in the active resistance are compensated for by the reversible component of the flux of the core under study. Interrogation current 1 has the opposite polarity relative to interrogation current O. Under the action of interrogation current 1, the system from the state O goes to the state along, while cores 1 and the core 1 are re-magnetized through a complete hysteresis cycle 2. The system is reset to the initial state by the action of a regeneration current, which tends to magnetize the core G clockwise, and the core 2 counterclockwise. Recording can be carried out by the joint action of the recording current. Supplied on the output winding, and the corresponding current survey, followed by fixing the record by the action of the current recovery. The use of the proposed element makes it possible to significantly simplify the address section by reducing the number of outputs, and to simplify and increase the information reliability of the accumulator by improving the recognition conditions of the read information. Claims A memory element with non-destructive linking information containing toroidal cores, short-circuited windings, an output winding, passed through the first and third cores, a recovery winding and a survey winding, characterized in that, in order to simplify the element, the recovery winding is through the first and third windings. cores, and winding onj) oca-through the second core.