SU691845A1 - Polyfunctional module - Google Patents

Description

The invention relates to the field of computer technology and can be used in automatic systems for controlling complex objects and technological processes using logical processing devices of controlled parameters.

A multifunctional module is known for implementing Boolean functions of a limited number of arguments, containing AND, OR, NOT elements, triggers 1. Its disadvantage is the impossibility of implementing Boolean functions of a large number of arguments due to the complicated control scheme. The closest technical solution to this proposal is a multifunctional module containing a logic block for determining the functions of three variables, three flip-flops, the unit outputs of which are respectively the first, second, third inputs of the logic unit, the zero outputs of the flip-flops are connected respectively to the first, second, and third inverse inputs logical block 2.

The disadvantage of this module is limited. Hrie- imposed on the number of arguments

realizable boolean function. Thus, the full set of statements in this device is executed only for the case of three binary variables (arguments). In the case of four or five arguments, only separate functions are implementable. To implement all the functions of a large number of arguments with the help of this logical module, an increase in the total number of modules is required and the circuitry of their connections is complicated, which leads to the complexity of the device as a whole.

Claims (1)

The aim of the invention is to delimit the range of arguments. The goal is achieved in that the module contains And elements, the fourth trigger, the switch and the decoder, the decoder inputs being connected to the module control bus; the first, second and third decoder outputs are connected to the first inputs of the first, second and third elements, respectively, the second inputs of which connected to the switch outputs, and the outputs are connected respectively to the inputs of the first, second, third trigger ,, a quarter of the decrypted output connected to the first input of the fourth element And, the second input of which is connected to the output l cal unit and the first input switch and an output connected to the input of the fourth flip-flop connected to its output to a second input of the switch, the other inputs of which are connected to the data inputs of the module. The module is shown in the drawing. The module contains trigger 1, switch 2, triggers 3-5, element 6, decoder 7, gates 8-10, logic block 11, module output 12, control bus 3, information inputs 14. When implementing Boolean functions from one, two or three arguments, the device works as follows. In accordance with the state of code bits in the control bus 13, which determine the choice of input variables, switching takes place using switch 2 and gates 8-10, controlled by decipheror 7, and the arguments of this function are memorized on triggers 3-5. In accordance with the state of the code bits in the control bus 13, which determines the type of function being implemented, logic block 11 selects, calculates and disjuncts the constituent required by SDNF (perfect normal; disjunctive form) of this function: The result of the calculation function passes to the output of the 12 module. If it is necessary to implement functions of four or more arguments, the process of determining the value of a function is divided into several cycles, in each of which intermediate values are calculated, as described above. The type of intermediate function and its relationship with the input variables or other intermediate results are determined by the code on the control bus 13. The values of intermediate functions, if necessary, are remembered on trigger 1. Result intermediate calculations from the output of logic block 11 and trigger 1 are fed to the corresponding inputs of switch 2 as arguments for calculating the subsequent intermediate result or the final value of the functions. ; As an example, let us consider the process of calculating by the logic device the functions f (XiXjXs + XiX2X3 + X1X2Xs) X4Xs + (HbX7X8 + + HbX7X8) XsXg. The second clock is calculated by the function fa fiX4X5 The value of the functions fj is stored on trigger 1. The third taKT fs HbX7X8 + + XgXjXg, the fourth clock f4 f3X5X9. In the fifth cycle, the function f f 2 + f 4 is calculated, which is the desired one. A multifunctional logical device differs favorably from the known ones, since it provides the possibility of implementing Boolean functions of any kind from any number of arguments from a given set of logical variables, which allows it to be used in automatic control systems of complex objects, where it is often necessary to change control algorithms. The use of this logic device is also convenient when simultaneously developing an object and a control system, when, due to the specifics of the product being developed, the final algorithm appears after the development of the control object is completed. In addition, this logical device is fundamentally necessary in universal systems designed to control technical objects for various purposes. Formula of Invention A multi-functional module containing a logical block for determining the functions of three variables, three triggers whose single outputs are connected to the first, second, third the inputs of the logic block, the zero outputs of the flip-flops are connected with the first, second, third inverse inputs of the logic block, differing from That, in order to expand the range of arguments, it contains AND elements, the fourth trigger, the switch and the decoder, the decoder inputs being connected to the control width of the module, the first, second, third outputs of the decoder are connected to the first inputs of the first, second and third elements And, the second inputs of which are connected to the switch outputs, and the outputs are connected respectively to the inputs of the first, second, third trigger, the fourth output of the decoder is connected to the first input of the fourth And element, the second input of which connected to the output of the logic unit and the first input of the switch, and the output is connected to the input of the fourth trigger connected by its output to the second input of the switch, the rest are 56918456 whose docks are connected to information ones, 1- USSR Copyright Certificate No. 433476, module inputs incl. G 06 F 7/00, 12.06-72.  Sources of information, i 1. Glushkov V.M. Synthesis of digital automatics into account during examiners. Fizmatgiz, 1962, p. 187.