SU157153A1 - - Google Patents

Description

Storage devices for electronic calculator} of first discrete-action machines are known, built on magnetic cores with a rectangular hysteresis loop, connected by logical windings, and having a current pulse generator.

The proposed memory device differs from the known ones in that, to simplify the construction, magnetic shift registers are used as a generator of current pulses, in whose communication circuits windings are connected between the adjacent neighboring cores. These windings unite the logical groups of the storage cores so that the current impulses arising in communication paths when the code "1 from the previous register core moves to the next one" affect all the cores of this logical group.

The drawing is a schematic diagram of the described storage device.

In the proposed storage device, shear registers built on magnetic cores are used as a current pulse generator. When moving information recorded in the shift register, for the purpose of communication of those cores in which the state corresponding to code "1" was recorded, followed by a shift in the direction of the shift under the influence of the shifting clock pulse, a current pulse of sufficient power is generated to record The code “1 in the subsequent register core. The energy of this pulse is used to read or write codes into memory cores.

 157153

A storage device (memory) is constructed and operates as follows.

Memory cells are capable of storing multi-digit codes. All bits of a single cell are located on the same vertical. The cell is accessed with the help of two magnetic shift registers,, -Rcc and code formers (F). The connection winding between the corresponding cores and register shells passes through all the storage cores of this memory cell. The load condition of all sources of current circuit impulses, regardless of the code and cell number, is eliminated by having twice the number of memory cores (forward and reverse) and the fact that one code is always promoted in any register — the code "1 in one bit." The code "1" is written with the help of the block G n in the zero cell of each register before the beginning of work. The shift pulses are generated by the GT and GT.2 blocks. Each shift pulse moves the code “1 across its cells in its register. In this case, a current pulse arises in the winding of the euro of the register core in which "1" is written, followed by the core, which is used not only to write "1 to this subsequent register core, but also to access that memory cell, which is associated with this winding.

The proposed scheme allows the following operations: reading information with erasing, reading with data regeneration, writing.

Reading is carried out with the help of one register P c. - After a shift pulse is fed into this register, in the corresponding memory cell all the "direct memory cores are in the" O "position. At the same time, all the reading wires connected to all the "direct memory cores, which are related to the same-named discharges of all memory cells, appear a large impulse e. D. s., if the elected core is in the state "1, or a slight impulse of interference, if the core is in the state" O. The read signals are sent to the read amplifiers, where amplification, detection, and clipping of the interference signal occur. The received pulses are output through the joint valves, v to the output of the device at the same time for all bits with the aid of a "read strobe" gate pulse. In order to carry out the regeneration of the read codes, the Bc-BNN coincidence valves are used, which are unlocked by the "regeneration resolution" potential.

The processes of regeneration and zalis are similar. These operations are performed using a register, a dynamic bias generator G (., And code drivers). A recording current ratio "1 to recording current" O or to a current acting on partially selected and unselected cores of 3: 1 is provided.

Thus, the described storage device has a relatively simple construction, which determines the usefulness of its use.

Subject invention

A storage device for electronic computing machines of discrete action, built on magnetic cores with a rectangular hysteresis loop, connected by means of windings into logical groups, and having a generator of current pulses, characterized in that, in order to simplify the device, in it. as a generator of current pulses applied magnetic shift registers in the circuit

the connections between the corresponding neighbors of the MI of which are included windings that combine logical ground of the storage cores so that current pulses appearing in the indicated communication circuits as the code "1 moves from the previous register core to the next, affect all memory cores of this logical group memory cores.