SU978351A1 - Restoring logic device - Google Patents

Description

The invention relates to discrete automata and can find application in the construction of reliable logic circuits of recovery devices.

A three-channel recovery device is known on logical elements 5 AND and OR, with the number of inputs equal to the number of outputs of a logical redundant structure made in the form of a two-layer channel structure, in each channel of which the first input of the OR gate of the second layer is connected to the output of the AND gate of the first "Layer of the corresponding channel, and the first input of this logical element AND is connected to the input of the corresponding channel, and an additional logical element And, in which th one input connected to the input subsequent channel, the other input - to the input of the next one through channel, and output - with an input loLOGIChESKOE DEVICE cal OR gate of the second layer corresponding channel fl].

Closest to the proposed technical solution is the device on the logical elements AND and OR, containing a three-channel multilayer structure, the first and third information inputs of which are connected to the first inputs of the first and second logical elements of the second ^{, 0} layer and to the first inputs of the first and second logical elements And the first layer, the second inputs of which are connected to the second information input, the second inputs of the first and second ele ¹⁵ OR elements are connected to the inputs of the third OR element of the second layer and, accordingly with the outputs of the AND elements of the first layer, the first inputs of the first _m and the second OR elements of the third layer are interconnected, and the second inputs are connected respectively to the inputs of the third OR element of the third layer and connected to the outputs of the OR elements

978351 4 of the second layer of the corresponding channel, the outputs of the elements OR of the third layer form the outputs of the restoring organ [2].

A significant drawback of this device ₅ is the inability to implement a complete system of logical functions of two variables, as well as to correct an error such as false 1 when it appears on the first or third information inputs of the restoring authority. This reduces the functionality of the device when it is used in the logic circuits of automation and reduces the reliability of the formation of information.

The purpose of the invention is the expansion of functional capabilities, in particular, the implementation of a complete system of logical functions, and increasing the reliability of information recovery.

This goal is achieved by the fact that in the recovery logic device containing a three-channel TWO-LAYER STRUCTURE IN WHICH 25 the first inputs of the first and second elements of the OR (I) of the second layer are connected to each other, the second inputs are connected respectively to the inputs of the third element of the OR (AND) of the second layer, j ₀ and the outputs of elements or (ii) form the outputs of the reducing device, input elements or (ii) a second layer connected to the outputs of elements OR-HE (NAND) of the first layer of its channel, the inputs of which are connected pairwise to information inputs tron devices.

The drawing shows a diagram of a recovery logical device.

The device includes information inputs 1-3, logical elements OR NOT 4-6 of the first layer, logical elements OR 7 ^_ 9 of the second layer, outputs 10-12.

The restoring logical device is a three-channel two-layer structure on the logical elements OR-HE, OR, which implement the complete system (basis) of logical functions.

The device operates as follows.

Upon receipt of the same information in the form of 1 and 0 at all information inputs 1-3, signals at 0 or 1 respectively appear on all outputs 10-12.

When one of the inputs, for example Ί, receives erroneous information in the form of a false O, and the remaining inputs 2 and 3 of information in the form of 1, the outputs 10-12 of the device are set to signals equal to 0, i.e. error correction occurs.

Upon receipt of one of the inputs, for example 1, of erroneous information in the form of “false 1,” and the remaining inputs 2 and 3 of information in the form of O, the correct signals equal to 1 are set at the outputs 10 and 11 of the device, and an error signal is established at the output 12 of the device equal to 0, i.e. a single error of type false 1 is converted to a single error of type false 0, which is corrected by the following similar recovery logic device. *

To implement the logical function of several variables, the number of inputs of the OR-NOT 4-6 elements of the first layer is increased, while the grouping of the inputs remains the same as for the case with one logical variable. The grouping of the inputs of the elements OR 7-9 of the second layer does not change.

With an increase in the number of logical variables, information recovery occurs in the same way as for a single variable, i.e. device howl ·, sets information in the presence of erroneous information on any one information input for each logical variable.

Thus, the proposed device allows to correct erroneous ₄₀ information, implements a complete basis of logical functions, in addition, the recovery ability of the device does not decrease with an increase in the number of input logical variables.

Claims (2)

 (5) RESTORING LOGICAL DEVICE The invention relates to discrete automata and can be used in the construction of reliable logic circuits of restoring devices. A three-channel recovery device is known on the AND and OR logic elements, with the number of inputs equal to the number of outputs of the logical excess structure made as a two-layer channel structure, in each channel of which the first input of the logical element OR of the second layer is connected to the output of the logical element And the first layer of the corresponding channel, and the first input of this logical element I is connected to the input of the corresponding channel, and in the first layer of each channel an additional logical element I, which has About one of the inputs is connected to the input of the subsequent channel, the other input is connected to the input of the next channel through one channel, and the output is connected to the input of the OR gate of the second layer of the corresponding channel fl. The closest k to the proposed technical solution is a device on AND and OR logic elements, containing a three-channel multilayer structure, the first and third information inputs of which are connected to the first inputs of the first and second logic elements of the second layer and to the first inputs of the first and second logic elements AND of the first layer , the second inputs of which are connected to the second information input, the second inputs of the first and second elements OR are connected to the inputs of the third element OR of the second layer and, accordingly, with the outputs of the elements And the first layer, the first inputs of the first and second elements OR of the third layer are connected to each other, and the second inputs are connected respectively to the inputs of the third element OR of the third layer and connected to the outputs of the elements OR 3 of the second layer of the corresponding channel, the outputs of the elements OR of the third layer form the outputs of the restoring organ 2. The real disadvantage of this device is the impossibility to realize the complete system of logical functions of two variables, and also to correct the error of the type false 1 by its division by the first or third data inputs reducing body. This reduces the functionality of the device when it is used in the logic circuits of automation and reduces the reliability of the information. The purpose of the invention is the expansion of functional capabilities, in particular, the implementation of a complete system of logical functions, and increasing the reliability of information recovery. This goal is achieved by the fact that in a regenerating logic device containing a three-channel two-layer structure in which the first inputs of the first and second elements OR (and) of the second layer are interconnected, the second inputs are connected respectively to the inputs of the third element OR (AND) of the second layer the outputs of the OR (AND) elements form the outlets of the restoring device, the inputs of the OR (AND) elements of the second layer are connected to the outputs of the OR-NOT (AND-H) elements of the first layer of their channel, whose inputs are pairwise connected to the information device moves, The drawing shows a diagram of the restoring logic device, the device includes information inputs 1-3, logic elements OR-NOT-6 of the first layer, logic elements OR of the second layer, outputs 10-12. The restoring logic device is a three-channel two-layer structure on the logical elements of the IPI-NOT, OR, implementing the complete system (basis) of logical functions. The device works as follows. When all information inputs 1–3 of the same type Vl 6 form 1 and O arrive at all outputs 10–12, signals appear as O or 1, respectively. 1 When entering one of the inputs, for example 1, an erroneous information appears as false O, and the remaining inputs 2 and 3 of information in the form of 1 on the outputs 10-12 of the device are set to signals equal to O, i.e. error correction occurs. When one of the inputs, for example 1, receives erroneous information in the visible T and on the remaining inputs 2 and 3 of the information is O, the output signals 10 and 11 of the device are set to the correct signals equal to 1, and the output 12 of the device is set to an erroneous signal equal to 0 i.e. a single error of type false 1 is converted to a single error of type false O, which is corrected by the following similar restoring logic device. For the implementation of the logical function of several variables, the number of inputs of the elements of OR-NOT 4-6 of the first layer increases, while the grouping of the inputs remains the same as for the case with one logical variable. The grouping of the inputs of the OR elements of the second layer does not change. When the number of logical variables increases, information recovery is the same as for a single variable, i.e. the voi-device sets the information in the presence of erroneous information on any one information input for each logical variable. Thus, the proposed device allows correcting erroneous information, realizes a complete basis of logical functions, and, moreover, the recovery capacity of the device does not decrease with an increase in the number of input logical variables. The claims of the Logic Repairing Device, containing a three-channel two-layer structure in which the first inputs of the first and second ILIS AND elements BTODoro layer are interconnected, the second inputs are connected respectively to the inputs of the third OR element (And the second layer, and the outputs of the OR element (And form the outputs of the restoring device, characterized in that, in order to expand the functional capabilities and increase the reliability of information recovery, the inputs of the OR (AND) elements of the second layer are connected to the output I will give the elements of I.PINE () the peal layer of my channel, the inputs of which are connected in pairs to the information inputs of the device. 78351 Sources of information taken into account during the examination 1. USSR author's certificate (f. 8k. class. 03 K 19/23; 1975. 5 2. USSR author's certificate. No. 75129, cl. H 03 K 19/23, 1980.