SU1335974A1 - Universal logic module - Google Patents

Abstract

The invention relates to computing and is intended to be realized by tuning any Boolean function of three variables. The purpose of the invention is to increase the reliability of the module by reducing the number of leads. The module contains inputs 1-6, the ADDITION ON MODULE TWO 7, elements AND 8-12, elements OR 13-15, elements NOT 16, 17, output 18. When tuning belonging to the set O, 1, X, X „, module implements all logic functions of three variables. 1 il. 3 tab. from 00 ate with i

Description

The invention relates to a computational technique and is intended to be realized by setting up any Boolean function of three variables.

The purpose of the invention is to increase the reliability of the module by reducing the number of leads.

The drawing is given a functional diagram of the device.

The device contains information inputs 1-3 module; configuration inputs A-6 module; element COMPOSITION ON MODULE TWO 7, elements 8-12; elements OR 13-15; the elements are NOT 16 and 17; output 18 mod.

At the output of the module, the function

f Z, (X ,, VX, X, X, vX, X,) v

V Z2 (x ,,, x., X,)., X ,.

The work of the module consists in the allocation of the necessary component of the units according to tables 1-3.

All three tables are built on the same principle. The first column indicates the name of the training signal and records those constituents of the unit whose entry or non-entry into the implemented function is determined by the value of this training signal. The first line lists all possible values for the training signal. In the cells of the table, the occurrence (1) or non-occurrence (0) of the corresponding constituent units in the implemented functions at different values of the training signals is indicated. So, if we want the constituents X,, X, X, X5 and .Xj to be in the realizable function and the constituents X,, X,,, X, X2Xj and X, X .., Xs are not included in it, then the values of the tuning signals are selected in Tables 1-3 as E, X. 2. Xs and.

The method for determining the values of the training signals can be described as follows.

First, the realizable function is represented in perfect disjunctive normal form as a logical sum of the corresponding constituent units. Then, for each of tables 1-3, a column containing symbols 1 is determined for only those constituents that are in the implemented function. The value of the corresponding tuning signal is determined from the first row of such a column.

For example, if you need to implement the function F X, XjVX, (Xj + Xj), then we preliminarily define,, (X., + X,) X, X vx, (X., X, V,) X, X., X, V VX, X ,,, VX,

From here on the table. 1 we define that

cha input Z, it is necessary to submit the value ,, since X, is included in F, and X, X, X, and X. not included in F. Further according to Table. 2 we find that Z ,, 1, since all the constituents of table. 2

(X, X. X ,, X ,, and X.,) are included in F. Then, according to Table 3, we find that Z, 0, since all the constituents of Table 3 (X, and X,) are not included in function F.

Therefore, to implement the function

F X ,, (.j)

the modulation inputs of the module need to send signals

Z, X5, Z, 1,,

From the data table. 1-3, the module realizes by tuning any Boolean function of three variables.

Claims (1)

Invention Formula Universal logic module containing five elements AND, two elements OR, two elements NOT and an element COMPLICATION ON MODULE TWO, the first information input of the module connected to the first input of the element COMPONENT ON MODULE TWO, the second input of which is connected to the output of the first element AND, the first and the second inputs of which are connected to the second and third the information inputs of the module, the first setup. The input is connected to the first input of the second element And, the second input of which is connected to the output of the element COMPONENT BY MODULE TWO and the input of the first element is NOT, the output of which is connected to the first input of the third element And, the second input of which is connected to the second tuning input of the module, the outputs of the second and third elements And is connected to the first and second inputs of the first IP element, the output of which is connected to the first input of the fourth element And, the output of which is connected to 1335974 the first input of the second element OR, ipv, the module contains the third element the second input of which is connected to you-IPD, the second and third informative of the sixth element I, the first input inputs of the module are connected to which is connected to the third tuning-the first and the second inputs of the third anelen input of the module, the output of which is OR-OR, the output of which is connected single with the output of the second element with the second input of the fourth element OR, wherein AND and the input of the second element are NOT, subtracted, with the purpose of increasing the reliability of which is connected to the second farm by reducing the number of outputs of the fifth element I. Table 1 X, Xj X, O1 2g O (X, J Xs 1 X, X, J Xs | X, | 1 X, X Xs OO X, X Xs Ooh l l l h about 1. a Zj j About X / j X, I 1 X, X X, OO1 X / Xj Xj about 1 about table 2 Table 3