SU1056267A1 - Control unit for domain storage - Google Patents

Abstract

A DOMAIN MEMORY CONTROL DEVICE CONTROL DEVICE containing a block of semi-permanent memory, the first and second inputs of which are connected, respectively, to the code bus tact t and Installation O, recording drivers and rotation drivers of a magnetic field whose outputs are device outputs, read amplifiers whose inputs are inputs to a device, a numeric register connected to a number code bus, characterized in that, in order to improve the speed and reliability of the device by increasing the reliability of the recording and information, it contains counters, the first inputs are connected to the code bus Installation O, and the second inputs connect to the corresponding outputs of the semi-permanent memory unit, triggers, the first inputs are connected to the code bus Installation O, the second inputs are connected to the code bus of the cycle, and the third trips - to the second inputs of the counters and the corresponding outputs of the block of semi-permanent memory, additional numeric registers, the first inputs and first outputs of which are connected with the numbers | "register, three groups of elements AND, the first ones The elements of the first group are connected to the tact code bus, the second inputs are connected to the outputs of the corresponding counters, and the outputs are connected to the inputs of the rotary magnet drivers (first field, the first inputs of the elements of the second group are connected to the code C write bus, the second inputs to the second outputs the corresponding additional numeric registers, the third inputs to the outputs of the corresponding triggers and the first inputs of the elements of the third group, and the outputs to the inputs of the recording drivers, the second inputs of the elements of the third group e are connected to the output gyuschih 0 of the respective sense amplifiers, the third inputs to the code read bus and moves O - with the second inputs of respective additional numeric, D .gistrov.

Description

The invention relates to WELECIFICATION technology and can be used in digital computing machines and computing devices on cylindrical magnetic domains (CMDs). A memory device is known that contains encoders, memory modules, module number registers, an output switch, an assembly unit, a position number register in which an arbitrary simultaneous sampling of a variable array of words from memory modules is performed with a minimum amount of equipment. However, this device makes synchronization of individual memory modules difficult and difficult to manage, which reduces the reliability of recording and reading information, and does not provide for localization and exclusion (| of defective keys in separate memory modules when working together). The invention is a device for synchronizing the reading of information in domain accumulators, which contains a control unit, write drivers and drivers of a rotating magnetic field, read amplifiers, Switched to the control unit, the registers synchronize the sources of the control and bias magnetic fields. The device has sufficient information capacity and can operate in various modes of recording, reading and erasing information 2. However, in the known device there is no combination of the operation of several microassemblies with the CMD, each of which It has its own recording driver and rotating field driver, and a read amplifier with localization and exclusion of its own defective cells from each microassembly. In this case, the formation of a single array of information (or numbers) should be ensured for transmission to other computer devices. All this leads to a significant decrease in the speed of the domain memory device, as well as to a decrease in the reliability during recording and reading information. The aim of the invention is to improve the speed and reliability of the Control Device for the domain memory by increasing the reliability of the recording and reading of information. The goal is achieved by the fact that. a control unit for a domain unit containing a semi-permanent memory unit, the first and second inputs of which are connected respectively to the code shinamitact and Installation O, the writing drivers and the rotating magnetic field drivers whose outputs are device outputs, read amplifiers, inputs which are device inputs, the numeric register connected to the number code bus contains counters, the first inputs of which are connected to the code bus Set O, and the second inputs to the corresponding outputs of the block triggers, the first inputs of which are connected to the code bus Installation O, the second inputs are connected to the tact code bus, and the third inputs are connected to the second inputs of the counters and the corresponding outputs of the semi-permanent memory, additional numeric registers, first inputs and first outputs which are associated with a numeric register, three groups of elements AND, the first inputs of the elements AND of the first group are connected to the tact code bus, the second inputs are connected to the outputs of the corresponding counters, and the outputs are connected to the inputs of the rotational The first inputs of the elements of the second group are connected to the code bus Record, the second inputs to the second outputs of the corresponding additional numeric registers, the third inputs to the outputs of the corresponding triggers and the first inputs of the elements of the third group, and the outputs to the inputs of the drivers of the record, the second inputs of elements AND of the third group are associated with the outputs of the respective read amplifiers, the third inputs with the code bus Read, and the outputs with the second inputs of the corresponding additional numeric registers. The drawing shows a block diagram of a control device for a domain memory. The control unit for the domain memory contains write drivers 1 and rotating magnetic field drivers 2, the outputs of which are outputs of the device and are connected to the inputs of microassemblies 3 with cylindrical magnetic domains whose outputs are connected to the inputs of amplifiers 4 readings, numeric register 5, block 6 semi-permanent memory, counters 7, triggers 8, additional numeric registers 9, the first group of elements And 10, the second group of elements And 11 and the third group of elements And 12. The device works as follows. In the manufacture of a domain memory device, a semi-permanent memory block 6 records validity cards for all micro-assemblies included in the device. At the same time, a valid storage register (j

cell) corresponds to record 1, malfunctioning (malfunctioning cell), record O. Accordingly, the capacity of semi-permanent memory should be nk, where n is the number of microassemblies 3 with cylindrical magnetic domains included in the domain memory, k is the total number of storage registers in each microsb orke. When changing micro assemblies in block 6 of a semi-permanent memory, fitness cards change. After that, the domain storage device is prepared To work.

Before starting, all the blocks of the domain memory are reset to the initial state by a signal received via the code bus. Setting O. In the writing mode to the numeric register .5, the code of the number to be written is written over the code bus of the number and the resolving potential is applied to the code bus. . The code of the whole number from numeric register 5 is divided into a number of groups according to the number of microassemblies 3 with cylindrical magnetic domains and is overwritten into additional numerical registers 9. After that, signals are set up on the code bus of the measure, which in each time measure triggers O and triggers block 6 semi-permanent memory. From block 6 of the semi-permanent memory, one bit of the validity of all microassemblies 3 with cylindrical magnetic domains is simultaneously read. If this bit is present, the corresponding trigger 8 is set to 1. From the code bus, the clock is also triggered to potential from counters 7 formers 2 rotary degos pol. If the corresponding trigger 8 is set to state 1, then the bit portion of the number from the corresponding register 9 through the second group element 11 and the write shaper 1 is recorded in the corresponding microassembly 3 with cylindrical magnetic domains. The state of the corresponding counter 7 is increased by 1. If trigger 8 remains in state O, then no part of the code is rewritten into the corresponding microassembly, although the magnetic field rotates.

After the corresponding counter 7 calculates the number of bits of the part of the code of the number necessary for recording, it stops working and gives a forbidding potential, stopping the rotation of the magnetic field in the corresponding microassembly 3 with cylindrical magnetic domains. In other microassemblies, the field is rotated until

0 counters do not jitter the work of the driver 2 rotated floor. The job of recording parts of the cedar number continues until all counters 7 are filled. Then, the Signal O setting

5, the counters 7 are reset to 0, a new number is fed to the numeric register 5 via the code bus of the number, and its number. recording is done in the same way. After writing the codes of numbers in

Q one page jumps to another.

In the readout mode, elements And 11 of the second group are closed, and a decisive potential is applied to the readout code bus. The starting conditioners 2 of the rotating field are produced as in the recording mode, and the read signals from the amplifiers 4 are passed to the additional numeric registers 9 through elements AND 12 of the third group only by the resolving potential from the corresponding trigger 8. After filling all the registers 9 is performed transferring parts of a code to a number in a numeric register 5 and issuing the full code of a number to other computer devices on the number code bus.

0 Thus, the use of the proposed control device for the domain memory allows the operation of several micro-assemblies with cy-. magnetic magnetic domains, localize and exclude defective

5 cells from each microassembly, separately control the rotating magnetic field and form arrays during the recording and reading of information, with

 This significantly increases the speed of the domain memory (several times), increases the reliability of the recording and reading of information, and hence the reliability of the domain

5 memories in general.

Claims (1)

MANAGEMENT DEVICE FOR DOMAIN MEMORY, containing a block of semi-permanent memory, the first and second inputs of which are connected, respectively, to the code buses of cycle t and Setting 0, recorders and generators of a rotating magnetic field, the outputs of which are the outputs of the device, reading amplifiers, the inputs of which are the inputs of the device , a numerical register connected to the code bus of a number, characterized in that, in order to improve the speed and reliability of the device by increasing the reliability of writing and reading information, it contains counters, the first inputs of which are connected to the code bus Setting 0, and the second inputs - to the corresponding outputs of the block of semi-permanent memory, triggers, the first inputs of which are connected to the code bus Setting 0, the second inputs are connected to the code bus of the clock, and the third inputs - to the second inputs of the counters and the corresponding outputs of the block of semi-permanent memory, additional numerical registers, the first inputs and the first outputs of which are connected with the numerical register, three groups of AND elements, the first inputs of the AND elements of the first group connected to the code bus of the clock, the second inputs to the outputs of the corresponding counters, and the outputs are with the inputs of the formers of a rotating magnetic field, the first inputs of the And elements of the second group are connected to the Record code bus, the second inputs are to the second outputs of the corresponding additional numerical registers, the third inputs are to the outputs of the corresponding triggers and the first inputs of the And elements of the third group, and the outputs are to the inputs of the recorders, the second inputs of the And elements of the third group are connected to the outputs of the corresponding read amplifiers, the third inputs are with the Read bus, and the outputs are with the second inputs respectively additional numerical, re. histres. >