SU842955A1 - Storage device - Google Patents

Description

(54) STORAGE DEVICE

The invention relates to memory devices and can be used to build random-access memory devices with partial redundancy of a storage device.

A memory device containing the address register is known, the zero outputs of the latter are connected to one of the inputs of the AND elements of the first and second groups, the other inputs of which are connected. respectively, with the device inputs and outputs of the single-bit memory blocks, and the outputs are connected respectively to the inputs of the single-bit memory blocks and the device outputs and a backup single-bit memory block 1.

A disadvantage of this device is its low reliability.

The closest technical solution to the present invention is a memory device containing an address register, the zero outputs of which are connected to one of the inputs of the elements of the first and second groups, the other inputs of which are connected respectively to the inputs of the device and the outputs of single-digit memory blocks, and

the outputs are connected respectively to the inputs of one-bit memory blocks and device outputs, a backup one-bit memory block, the third, fourth and fifth groups of AND elements, the first inputs of the AND elements of the third and fourth groups are connected to the unit outputs of the address register, the second inputs are respectively, to the inputs of the device and the output of the backup single-bit memory block, and the outputs, respectively, to the input of the backup single-bit memory block and the outputs of the device, the first inputs of elements of And the fifth group are connected to the inputs of the device the triplets, the second inputs are with the control bus, and the outputs are with the inputs of the address register, the zero outputs of the address register are connected to the inputs of the first And element, the output of which is connected to the first inputs of the second and third And elements, the second inputs of which are connected respectively to the input control bus and the output of the backup one-bit memory block, and the outputs, respectively

Claims (2)

to the input of the backup one-bit memory block and the output control bus 2. However, loss of information is possible after the elimination of the malfunction and the possibility of remote control is limited during the elimination of the malfunction, which reduces its reliability. The purpose of the invention is to increase the reliability of the device. The goal is achieved by the fact that in a storage device containing a group of accumulators, triggers, a group of elements OR, five groups of elements AND, a storage device, elements AND and the first element OR, the first inputs of the elements AND of the first, second and fifth groups are informational the device inputs, the outputs of the elements And the first group are connected respectively to the inputs of the accumulators of the group, the outputs of which are connected respectively to the first inputs of the elements AND of the third group, the second inputs of the elements AND of the first and third groups are connected to responsibly with zero outputs of the flip-flops and inputs of the first element And, the output of which is connected to the first inputs of the second and third elements I. And the second inputs of elements And the fifth group, the outputs of which are connected respectively to the single inputs of the triggers, -the output of the second element And connected to one of the inputs of the first element OR, the other inputs of which are connected respectively to the outputs of the elements AND the second group, the output of the first element OR is connected to the input of the drive, the output of which is connected to the second input of the third element and And the first inputs of the elements of the fourth group, the second inputs of the elements of the second and fourth groups are connected to the single outputs of the triggers, respectively, the outputs of the elements of the third and fourth groups are connected respectively to the first and second inputs of the elements of the OR group, the outputs of which are information outputs the device, the second input of the second and the output of the third elements I are the control input and output of the device, respectively; two pulse generators, a counter, a delay element, a descrambler and a second element OR, and the output of the first pulse generator is connected to the first input of the second element OR and the installation input of the counter, the output of which is connected to the input of the descrambler, the outputs of which are connected to the third inputs of the elements And of the fifth group, respectively, the output of the second element OR is connected to the zero inputs of the triggers , and the second input - to the output of the second pulse generator and the input of the delay element, the output of which is connected with the counting input of the counter. The drawing shows a functional diagram of the proposed device. The device contains a group of drives I, a group of elements OR 2, the first 3, the second 4, the third 5, the fourth 6 and the fifth 7 groups of elements AND, the first 8, the second 9 and the third 10 And elements, the first 11 and the second 12 elements OR, the first 13 and second 14 pulse generators, decipheror 15, delay element 16, counter 17, accumulator 18, which is redundant, and triggers 19. The device has inputs 20.1-20.p and outputs 21.1-21.h, as well as control inputs 22 and output 23. The first inputs of the elements of the first 3, second 4 and fifth of the 7 groups are information inputs of 20.1-20 p. The outputs of the elements And the first 3 groups are connected respectively to the inputs of the drives of group 1, the outputs of which are connected respectively to the first inputs of the elements AND of the third 5 group. The second inputs of the elements And the first 3 and third 5 groups are connected respectively to the zero outputs of the flip-flops 19 and the inputs of the first element And 8, the output of which is connected to the first inputs of the second 9 and third 10 elements And the second input of elements And the fifth 7 group, the outputs of which connected respectively to the single inputs of the triggers 19. The output of the second element AND 9 is connected to one of the inputs of the first element OR 11, the other inputs of which are connected respectively to the outputs of the elements AND the second group 4. The output of the first element OR 11 is connected to in dy accumulator 18, whose output is connected to a second input of the third AND gate 10 and the first inputs of AND gates 6 Fourth group. The second inputs of the elements And the second 4 and fourth 6 groups are connected to the unit outputs of the flip-flops 19, respectively. The outputs of the elements And the third 5 and the fourth 6 groups are connected respectively to the first and second inputs of the elements OR 2 groups, the outputs of which are information outputs 21L-21n of the device. The second input of the second 9 and the output of the third 10 elements And are respectively the control input 22 and the output 23 of the device. The output of the first pulse generator 13 is connected to the first input of the second element OR 12 and the installation input of the counter 17, the output of which is connected to the input of the decipheror 15, the output of which is connected to the third inputs of elements And fifth of group 7, respectively. The output of the second element OR 12 is connected to the zero inputs of the flip-flops 19, and the second input is connected to the output of the second 14 pulse generator and the input of the delay element 16, the output of which is connected to the counting input of the counter 17. The accumulators of group 1 and accumulator 18 are one-bit. The triggers 19 perform the functions of the address register. The device works as follows. After supplying power to the storage device (memory), the first 13 pulse generator generates a signal that sets the counter 17 and the triggers 19 to the zero state. High level signals on the zero outputs of the flip-flops 19 open the elements of the first 3 and second groups, as well as the first element AND 8. The number is written to the accumulators of group 1 through the open elements AND of the first 3 groups, and the reading through open elements And the third 5 groups and elements OR 2 The control signal is written to the one-bit accumulator 18 through the open second element AND 9 and the first element OR 11, and the reading through the open third element AND 10. The drive 18 performs the function of a check bit of evenness (oddness) of information Akopiteli I group. Troubleshooting & One of the many faulty bits in the memory is produced as follows. The information inputs 20.1-20.p are supplied with a code consisting of zero and single signals. Zero code signals correspond to serviceable bits - memory, i.e. storage unit 1 group, and single signals - faulty. Select any drive 1 group, in which you want to eliminate the fault. The serial number of this group 1 accumulator, i.e. bit memory (for example,. 10th bit), the operator starts the second 14 pulse generator (for example, using a 10-fold special button). The signals from the output of the pulse generator 14 through the delay element 16 arrive at the counting input of the counter 17 and set it to the state corresponding to the number of signals arriving at its input. The state of the counter is decrypted by decipher 15; from the output of which the signal arrives at the third input of the AND 10 item of the fifth group, which opens and passes a single signal of the tenth digit of the code to the single input of the corresponding trigger 19. After the selected trigger 19 is set to one, the remaining triggers 19 continue to be in zero condition. Elements of the first 3 and third 5 groups, connected to the zero output of the selected, for example, the tenth one, trigger 19, set to one, are closed, and elements of the second 4 and fourth 6 groups, connected to the single output of the selected trigger 19, are opened and connect the selected information input 20.1-20.P to the input of the accumulator 18, - and its output - with the corresponding information output 21.1 - 21.P. In this case, the faulty drive 1 of the group is blocked and the backup drive 18 is connected instead. At the same time, the first element AND 8 is closed, since one of its inputs has a low level signal from the zero output of the selected trigger 19, which is set to one. In this case, elements of group 7 and 7 close and block the triggers 19 on the second inputs, which excludes the installation of other triggers 19 in one state. The second 9 and third 10 elements AND, which interrupt the circuits for the signals from the control input 22, are also turned off the input of the backup drive 18 and, from its output, to the control input 22 of the device. At the same time, the parity (oddness) check in the memory is not performed. The technical and economic advantage of the proposed device in comparison with the known one is to increase the reliability due to the introduction of two pulse generators, a counter, a decoder and new connections that provide partial redundancy of the drive. The invention contains a storage device containing a group of drives, triggers, a group of elements OR, five groups of elements AND, a drive, elements AND and the first element OR, the first inputs of the elements AND of the first, second and fifth groups are information inputs of the device, the outputs of the elements And the first group is connected respectively to the inputs of the group drives, the outputs of which are connected respectively to the first inputs of the AND elements of the third group, the second inputs of the AND elements of the first and third groups are connected respectively to zero the trigger outputs and the inputs of the first element AND, the output of which is connected to the first inputs of the second and third elements AND the second inputs of elements AND of the fifth group, the outputs of which are connected respectively to the single inputs of the trigger, the output of the second element AND connected to one of the inputs of the first element OR , the other inputs of which are connected respectively to the outputs of elements AND of the second group, the output of the first element OR is connected to the input of the accumulator, the output of which is connected to the second input of the third element AND and the first inputs elements of the fourth group, the second inputs of the elements of the second and fourth groups are connected to the single outputs of the flip-flops, respectively, the outputs of the elements of the third and fourth groups are connected respectively to the first and second inputs of the elements of the OR group, the outputs of which are information inputs of the device, the second the input of the second and the output of the third elements And are respectively the control inputs and outputs of the device, characterized in that, in order to increase the reliability of the device, it contains pulse generators , the counter, the delay element, the decoder and the second element OR, the output of the first pulse generator connected to the first input of the second element OR and the installation input of the counter, the output of which is connected to the input of the decoder, the outputs of which are connected to the third inputs of elements And the fifth group, respectively, output the second element OR. connected to the zero inputs of the trigger, and the second input to the output of the second pulse generator and