SU746501A1 - Device for discriminating multidigit code - Google Patents

Description

The invention relates to the field of automation and computer technology and can be used to create highly reliable digital information processing systems. A device for extracting a multi-bit code is known, which allows to extract a maximum code from a set of m codes and containing AND, OR, NOT l elements. The drawback of the device is that it makes it possible to select only the maximum (minimum code. As a result, the calculation error increases. Reducing the calculation error can be achieved by extracting the middle code. The closest technical solution to the invention is the device l for selecting multi-bit code containing the nx (2m-l) analysis node, the majority elements. The information input of each (ixj) -th analysis node is connected to the j-biM input of the 1st group of inputs, where i 1,2 ,,,, , p, j 1,2 ,,., (). Output of the i-th ma the primary element is connected to the first control input (ixl), (ix2), ... ix (2m-l) -g. of analysis nodes. In addition, the device contains majority elements for the information inputs of bits of the same number are given the same numbers, and a dedicated number is removed from the outputs, however, such a device selects the maximum or minimum values, which exceed the values of the codes being compared, the purpose of the invention is to enhance the functionality by extracting the average of the analyzed numbers. The goal is achieved by the fact that in the proposed device the first, second, third, fourth and fifth outputs of each (ixj) -th analysis node are connected to the second, third, fourth, fifth and sixth control inputs t (i + l) node analysis. The output of the result of the (ixj) -th analysis node is connected to the jth input of the i-ro major element and the fact that it has a (ixj) and analysis node, where i "2,3, n; j 1, 2 ,,, (2m-l), content, the element lives and the elements of inequality and the element apret. The first input of the first element I is connected to the information input of the node. The output of the first element and

 Jambled to the first in the course of the first element OR, whose output is connected to the first inputs of the element unequal; Yakoyoet and the element of the prohibition and from the output 5 of the result of the analysis node,; Outputs of the inequality element and the Ban element are connected to the first inputs

-in the third and third elements OR, respectively. The second and third entrances of the first element Yu. And connected to the second and fourth control inputs

node aiH a li 3 a, the second in the xoA element is a / inadequate, and the second input of the prohibition element is connected to the first iS

ø not inferred aneshiz site. The second. CBD of the second element OR connected

 with the third control input of the node, analysis, the second inputs of the first and third elements OR are connected to the neck - 20

rfSwiy and the inputs of the analysis control boards, respectively. The output of the second element OR is connected with the first input of the second element AND / with the second OUTPUT of the analysis node and through the first 25

the item is NOT with the first output of the node ana-. liza.Vakhod third element OR

is connected to the second input of the second element, And, to the fourth one, the output of the analysis node and, through the second element, NOT to -Q to the third input of the analysis node. The output of the second element I is connected to the fifth output of the analysis unit. Each ixj) -and analysis node, where, 2,., (2m-1),

 - Holds an element of inequality, an element of prohibition, elements AND, NOT. Per-

The signals of the disparity element ™ 1G 1daye1G1 are connected to the information input of the analysis node, their second inputs to the first control input, and the output of the element is unequal -40

M is connected with the first one; And, with the second output of the analysis node and through the first element, NOT with the first output of the analysis node. Item output

-§Efrg-gfa-tglyadklyuchen to the second input 45 of the element And, to the fourth output of the node;

 Sjljaa and through the second e-mail NOT to

The third exit node analysis. Output . element, and connected to the outlet. analysis node, 50

The block diagram of the device is shown in the drawing,

The device contains nx (2m-l) analysis nodes 1, 145, 1l (1t-h) and 1a7 ;. la (im-yt) in2, (2nri) its Mawcopi element elements 2;, - yy ,.

Each {ixj) -th analysis node, where, 3 ,,,, n,, 2,., (2m-l) consists of an element AND 3 / element of the Synergy 4, an element of prohibition 5 / Shementov OR 6, 7.8, elements NOT 9,10 and 0 elements And 11 ,. .

Each (Ixj) -and node, where, 2 ,,,, (2m-l) (estbit from inequality 12, prohibition element 1,3, elements ALL 14, 15 and element 1665

The device has n groups of inputs ;, 2t-1) the input in each group is 17 17p and the outputs,

The device works as follows.

Let the codes of the three numbers enter the device inputs: 100, 010, 001,; this means that 14 values of the first code bits, i, e, signals 1,0,0 / to the inputs of the analysis nodes Iq - signals 0,1,0; to the inputs of the analysis nodes-1 Sigals 0, 0, 1 (the inputs of each group are numbered from left to right), The signals from the inputs of the angular node ttoc yriajOT are not majorized. 2 B element in response to the logic of this element 1 2 output will generate a zero signal, which goes to the first output of the device 18 ;, and to the second inputs of all elements of the prohibition 5 and unequalities 14,

Thus, at the output 13 of the device, an O code will be generated,

For the first input, the signals on the output of the 9lx elements of unequal 4 and the prohibition are equal to one, since the first inputs of these elements receive a single signal from the first input, and on the second input there is a zero signal From the output of the majority element 2, Single sygny; and prohibition 5 is fed to the inputs of the element And 12, ensuring the formation of a single signal at its output, and to the inputs of the element HE 9.10, ensuring the formation of zero signals at their outputs.

For the second and TpeTbeo of the ujriOB analysis inputs 1, the signals at the outputs ele1mento.v inequality 4 and prohibit 5 nullo 1, because at their inputs tiOciynaipT If the signals from the second and rub fas w inputs of the nodes of analysis 1 | and null CHrHajttj from the output of element 2 of the first group. Null sigi & s from the output of elements of inequality 4 and prohibition 5 arrive at the input of AND 12, ensuring the formation at their outputs of zero Sigals and siiBxoitbi HE 9, 10 elements, providing forForkparbvaniya and YHX of outputs of single 11Hlr 8: -.

Claims (2)

Zero at the first input of the analysis nodes 1 enters the first element AND 11, ya the other two inputs of which receive zero signals from the inputs of the elements 9, 10 previous levels of analysis. At the output of the first element 11, there will be formed a zero sigyap that arrives at the primary level of the first element OR 8, the second of which receives a single signal from the output of the element 12 of the previous analysis node. A single signal from the output of the first element OR 8 is fed to the inputs of the elements of nonconformity 4 and prohibition 5 and to the input of the majority element 2 analysis nodes 2, .. A single signal from the second input of analysis nodes 1 enters the input of the first element 11, to the other two KOTopioro inputs Single signals from the outputs of the elements HE 9, 10 of the previous analysis nodes are received. As a consequence, a single signal will be formed at the output of the first element I 1. which through the first element OR 8 enters the inputs of the elements of unequal 4 / prohibition 5 and majority elements 2. The second input of the first element OR 8 receives a zero signal from the output of the element AND 12 (of the previous (first) group. The following analysis nodes work in the same way. As a result, at the device inputs of the three codes - 100, 010, 001 - at the device output generated code 010, which is average between codes 100 and 001. If using majority elements, a minimum code of 000 would be formed at the outputs of the device. Claim 1 1. A device for allocating a multi-bit code containing an nx (2m-1) analysis node, majority element c, the informational input of the hygdia (ixj) -ro analysis node is connected to the jth input of the i-th group of the device, where, 2 ,,,, n,, 2 ,, .. (2m-1), output i- of the major element is connected to the control input terminal (ixl), (ix2), 0, .ix (2m-l) of the 1st analysis node, so that, in order to expand the functional capabilities by dividing the average of the analyzed numbers, in it the first, second, third, fourth, and fifth outputs of each (ixi) -ro analysis node are connected to the second, third, fourth, fifth, and sixth control inputs ((iH) xj) -ro of the analysis node, output of the result (ixj ) -ro analysis node is connected to the Jth input of the i-ro majority element,. 2, The device according to claim 1, 1 and 2, with the fact that it is a Jrx (ixj) th node analysis, where i 2, 3 ,,., P; j 1, 2, ... 2m-l) contains the elements AND, OR, NOT, the element of inequality, the element for: preta and the first input of the first element AND is connected to the information input of the node, the output of the first element AND connect to the first input of the first element OR The output of which is connected to the first inputs of the inequality element and the prohibition element and with the output of the result of the analysis node, the outputs of the inequality element and the prohibition element are connected to the first input of the second and third elements OR, respectively, the second and third inputs of the first element AND are connected to the second and fourth control inputs of the analysis node, the second input of the inequality element and the second input of the inhibit element are connected to the first analysis control bus, the second input of the second OR element is connected to the third control input of the analysis node, the first and third OR inputs are connected to the sixth and fifth inputs control of the node ana, liza, respectively, the output of the second element OR is connected to the first input of the second element AND, to the second output of the analysis node and through the first element NOT to the first output of the analysis node, the output of the three This element OR is connected to the second input of the second element and, to the fourth output of the analysis node and through the second element NOT to the third input of the analysis node, the output of the second element I is connected to the fifth output of the analysis node, 3, The device according to claim 1 that each (1x) -th analysis node, where j 1,2 ,,, (2m-l) contains an element of inequality, an element of prohibition, elements I, NB, and the first inputs of the element of inequality and prohibition element are connected to the information input of the analysis node, the second input of the inequality element and the prohibition element connected to the first axciay control, the output of a non-uniform element is connected to the first Bxcnmt of the element. And, with pi: iM output of the analysis node and through the first element NOT to the first output of the analysis node, the output of the inhibit element is connected to the fourth output of the analysis node and through the second element NOT to the third output of the analysis node, the output of the AND element is connected to the fifth output of the analysis node,,. Sources of information taken into account experts, tizv: 1. USSR author's certificate No. 521566, class, G 06 P, 17,05,74, 2, Pakulov N, I, Ukhanov V, F, Chernyshev P, N ,: Majority; the principle of building reliable nodes and devices for women, M, Sov, radio, 1 $ 74, s, 172, rice, 3.6,