SU1378051A1 - Data restoring apparatus - Google Patents

Abstract

The invention can be used, for example, in the study of information processes. Diejjb invention - improving the speed of the device. The device contains the elements of the FROM and 4, the element OR 5, the reversible counting node: (SU) 6, the elements 7 and 8 of the delay, the register 9 and the block 10; compare. SU 6 includes a reversible counter block 11 and elements 12 and 13. In the description are examples of the implementation of register 9 and reversible counter block 11. The reference code value of the SU 6 is recovered by parallel transfer of the reference code value from register 9 to the SU 6. In case of failure the reversal block I1 of its correction is provided for one clock cycle of the input sequence. 3 hp f-ly, 1 ill. with S cl

Description

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The invention relates to a pulse technique and can be used, in particular, in the study of information processes.

The aim of the invention is to increase the speed, which is achieved by introducing new design features, which, in the case of a reversible counting unit 10, correct it during one clock cycle of the input sequence.

The drawing shows a functional diagram of the information recovery device.

In the drawing marked: input bus 1; bus 2 control; first, second elements OF 4; the element OR 5; reversible counting node 6; reversible counting unit 11; the first, second 20 elements And 12 and 13 of the reverse counting node 6; the first, second elements 7, 8 delay; register 9; block 10 comparison

The first group of inputs of the comparison unit 10 25 is connected to the outputs of the register 9, the information inputs of which are connected to the outputs of the reversible counting node 6 and the reverse counting unit 11 and are connected to the second one. 30 by a group of inputs of the comparison unit 10, the first output of which is connected to the first input of the element 3; the output of the delay element 7 is connected to the first input of the element OR 5; the input bus 35 1 is connected to the second input of the element OR 5, the output of which is connected to the second input of the element AND 3 and to the first input of the element AND A, the output of which is connected to the input of the element 7 of the emitter 40, to the input of the loading control of the reversing counting node 6 the control input, the load of the reversible counting unit 11, the information inputs of which are connected to the information inputs of the reversing counting node 6 and the outputs of the register 9; the counting input of the reverse counting unit 6 is connected to the output of the element I 3 and the input of the delay element 8, the stroke of which is connected to the load control input of the register 9, the control bus 2 is connected to the control inputs of the reverse reverse counting evil 6; the second input element AND 4 co-55 inn with the second output of block 10 of comparison.

Pulse inputs for adding and subtracting a reversible counting unit

11 are connected respectively to the outputs of the elements AND 12, 13, the first inputs of which are connected to the counting input of the reversible counting node 6 whose reverse control inputs are connected respectively to the second inputs of the elements 12, .13.

Register 9 can, for example, be built on a group of triggers and a group of key elements, the information and control inputs of which are connected respectively to the information inputs and the load control input of the register 9, the outputs of which are connected to the outputs of the group of triggers items.

A reversible counting unit 11, for example, can be built on the basis of a reversible counter and a group of key elements, the information and control inputs of which are connected respectively to the information inputs and the load control input of the reversing counting unit 11, whose outputs are connected to the outputs of the reversible counter bits, inputs installations of which are connected to the outputs of key elements, the pulse inputs of addition and subtraction of the reversing counter are connected respectively with the pulse inputs of addition and viiit an reversible counter block 11.

The information recovery device operates as follows.

The operating mode of the counting unit 11 is determined by which of its pulse inputs (addition or subtraction) receives a signal. Before the examined pulse sequence is fed to the device input, block 1 and register 9 are reset (no dump bars are shown in the drawing),

In the initial state, the code in the counting unit 11 is equal to the code in register 9, therefore, from the first output of the comparison unit 10, the permitting potential arrives at the first input of the first element And 3, and the inhibiting potential arrives at the second input of the And element And .

The signal of the investigated pulse sequence, arriving at the input of the element OR 5, will pass through the element AND 3 to the input of the element 8 delay and

the first inputs of the elements 2, 1.3, the second inputs of which receive signals from the control bus 2. Depending on the operation mode of the counting node 6 (addition or subtraction), the input pulses are passed to the pulse inputs of addition or subtraction of the counting unit 11. On the falling edge of the input pulse, the counting unit 11 changes its state, and the pulse delayed in delay element 8, overwrites the contents of the counting unit 11 in the register 9. The delay time of the delay element 8 delay selects, depending on the speed of the elements And 12, 13 of the counting unit 1I. It must be not less than the time of sequential operation of the element. And 12 (And 13) and the reversing counting unit 11. With the arrival of the next pulse of the sequence under investigation, the cycle repeats. Register 9 stores the current reference code value of the counting unit 11.

When a fault occurs in the counting block 1 1, the code in the Glow becomes not equal to the code in register 9, when from the first output of the comparison block 10 a forbidding potential enters the corresponding input of the element And 3, and from the second output the corresponding input of the And 4 element .

The next impulse of the investigated pulse sequence, arriving at the input of the element OR 5, passes through the element 4 and enters the input of the delay element 7, and also overwrites the contents of register 9 in the countable unit P. As a result, in the counting unit II a code is set that equals the previous one its value, and since the codes in the counting block 11 and the register 9 become equal, then at the first output of the comparison block 10 there appears a potential allowing the passage of pulses through the element 3, and at the second output a potential prohibiting the passage of pulses through element 4. To restore the current code value in the counting block II, one more pulse needs to be added or taken (depending on the operation mode of the counting block 11). This pulse arrives at the counting input of the counting node 6 from the output of the element AND through the element 7, the axis of the axis, the element OR 5, the element AND 3 and the element AND 12 (AND 13).

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The delay element 7 is necessary so that the pulse at the input of the counting node 6 comes only after setting it to the reference value. The magnitude of the delay of the delay element 7 must not be less than the magnitude of the time of sequential operation of the counting node 6 and the comparison unit 10.

At the same time, in the counting node, a code is set, which should be in it, if the failure did not occur, and the signal from the output of the AND 3 element through the delay element 8 arrives at the register load control input 9 and writes the set code value of the node 6 to the register 9.

The device operation speed is increased due to the fact that the recovery of the reference code value in the counting node 6 is not performed by the sequential counting method using a pulse generator, but by parallel transfer of the reference code value from the register 9 to the counting node 6.

Claims (2)

1. An information recovery device containing an input bus, control buses, two delay elements, two AND elements, an OR element, a reversible counting node, a register and a comparison unit, the first group of inputs of which are connected to the outputs of the register, whose information inputs are connected to the outputs of the reverse counting the node and with the second group of inputs of the comparison unit, the first output of which is connected to the first input of the first element I, the output of the first delay element is connected to the first input of the element; OR, which differs - 1c. In this case, the input bus is connected to the second input of the OR element, the output of which is connected to the second input of the first element AND, and the first input of the second element AND, the output of which is connected to the input of the first delay element and the control input of the reversible counting node, information the inputs and the counting input of which are connected respectively; Actually with the register outputs and with the output of the first element I, whose input is connected to the input of the second delay element, whose output is connected to the register load control input, the control bus is connected to the reverse control inputs of the reverse counting node, the second input of the second element I is connected to the second output of the block compare 2. A device according to claim 2, characterized in that the reversible counter node contains two elements AND, a reversible counter block whose pulse inputs for addition and subtraction of which are connected respectively to the outputs of the first and second elements AND, the first inputs of which are connected to the counter input of the reverse counter node, the reverse control inputs of which are connected respectively to the second inputs of the first and second elements AND, the information inputs, the load control input and the outputs of the reverse counting node are connected respectively to the information control inputs, control input of the load and outputs of the reversible counting unit, 3, the device according to claim 1, wherein the register contains a group of triggers and a group of key elements, the information and control inputs of which are connected respectively to the information inputs and the control input of the register, whose outputs are connected to the outputs groups of triggers whose installation inputs are connected with outputs of key elements, 4, The device according to claim 2, 2, and 20, which means that the reversible counting block contains a reversible counter and a group of key elements, the information and control inputs of which are connected to the information inputs and the load control input of the reversing counting block, the outputs of which are connected with the outputs of the bits of the reversible counter, the installation inputs of which are connected to the outputs of the key elements, the pulse inputs of the addition and subtraction of the reversible the counter is connected respectively to the pulse inputs of the addition and subtraction of the reversible counting unit.