SU708345A1 - Arrangement for performing logarithmic operations - Google Patents

Description

The invention relates to the field of computer technology and can be used in automatic control and monitoring systems.

A device is known for multiplying signals of a pulse sequence [1], comprising a binary counter, delay elements, a logical element AND, an encoder.

However, this device cannot be used for bitwise performing logical operations with source codes and obtaining resulting codes.

Closest to the technical nature of the proposed device is £ 2], containing a control unit, the input of which is the input of the device, and the first and second outputs are connected by control inputs of keys of the corresponding groups, the information inputs of which are connected respectively to the first and second groups of inputs of the device, the third and the fourth outputs of the control unit are connected respectively to the control input of the keys of the third group and to the zero inputs of the code analysis triggers, a load resistor of the separator group th diodes, the outputs of the third group of keys are the outputs of the device.

However, the known device cannot be used for simultaneous bitwise various logical operations on codes with the output of results on separate channels.

The aim of the invention is to expand the class of tasks by providing the ability to simultaneously obtain various combinations of codes on different channels. This is achieved by the fact that the device contains a block of elements AND, a prohibition element and a switch, information inputs of the first and second groups of inputs of the device are connected respectively to the first and second inputs of the elements AND block, the outputs of which are connected through the switch and the third group of keys to the outputs of the device, outputs the keys of the first and second groups are connected respectively to the unit and counting outputs of the code analysis triggers, the zero outputs of which are connected through the switch and the third group of keys with the corresponding outputs -keeping and eda- _5-boundary exits through a load resistor - to a first power source bus and via a group of diodes dividing the first input element of the ban, the second input of which is connected to the second> 0, the power supply bus, and the output - via a third key group - with a corresponding device output.

The drawing shows a functional diagram of a device for performing logical operations containing a control unit 1, first, second and third groups of 2, 3, 4 keys, triggers 5 code analysis, switch 6 (containing switches 7, 8 and a group of dividing 20 diodes 9 , 10, 11) a fourth group of isolation diodes 12, a load resistor 13, an AND block 14, an inhibit element 15, a power source 16, a control unit 1, comprises a ring ²⁵ counter 17, a trigger 18, a key 19, an input bus 20, and a diode 21 , groups of outputs 22, 23, 24 and output 25 of the device, groups 26, 27 input dov device.

The operation consists in the following ³⁰ present.

By the command Initial (Ex) trigger 18 goes to zero and sets the ring counter 17 to its original state. ³⁵

Codes XiX-pXg. ·· * „) (1).

(2) served on groups of inputs 26 and 27.

On command start trigger 18 dit transition ₄₀ in a single position and opens the switch 19. The first pulse frequency F, applied to the input of the ring counter 17 generates a control signal at its fourth output ₄₅ triggers and transfers the analysis of 5 to zero codes. The control pulse from the first output of the ring counter 17 opens the key group 2 and the code signal (1) is supplied to the unit inputs of the triggers 5.

. The control signal from the second output of the ring counter 17 opens the key group 5 and the code signal (2) is supplied to the counting inputs of the triggers 5. During the operation of the triggers 5, the code analysis, the block of 14 AND elements, the ban element 15, the switches 7, 8 of the diodes 10, 9 11 and their logical interaction at the input of key group 4, the resulting codes are formed.

The control signal from the third output of the ring counter 17 opens a group of keys 4, the resulting codes ^{4 are} sent to the corresponding outputs of the device 22, 23, 24 and output 25.

The control signal from the fifth output of the counter 17 through the diode 21 puts the trigger 18 in the zero state, the key 19 is closed, the counter 17 returns to its original state. This completes the cycle of the device.

During one cycle of operation, the device performs logical operations on codes (1) and (2) 'addition according to mod 2, AND, OR equivalence, while the resulting codes are removed from outputs 22, 23, 24.

When the switches 7 and 8 are open, the result code corresponding to the addition operation by mod2 is removed from outputs 24, the result code corresponding to the equivalence operation 'is removed from outputs 23, the result code corresponding to operation I is removed from outputs 22.

When the switches 7 and open 8 are closed, the code corresponding to the OR operation is removed from the outputs 24, the code corresponding to the equivalence operation is removed from the outputs 23, the code corresponding to operation I is removed from the outputs 22.

With the closed switches 8 and open 7, the code corresponding to the addition operation according to mod 2 is removed from the outputs 24, the code corresponding to the equivalence operation and the outputs 22 are the code from outputs 23. corresponding operation OR.

When the switches 7 and 8 are closed, the codes corresponding to the OR operation are removed from the outputs 24, 22, and the code corresponding to the equivalence operation is removed from the outputs 23.

In addition to these operations, the device performs the following code analysis operations;

1. When comparing two codes (1) and (2) representing bursts of pulses (all bits of the codes are filled with unit pulses), we consider code (1) as the controlling one and code (2) as working. If it turns out that the number of pulses in the codes is related by the relation n-m, then a single signal is generated at output 25. With 1L Hi (and s m, C <m), a zero signal will be generated at output 25.

2. Let an arbitrary code (1) be compared with an arbitrary code (2), with H'Hi. If the zero and single values of the pulses coincide in all bits of the code, then a single signal will be generated at output 25, otherwise, a zero signal will be generated at output 25.

3. Let an arbitrary code (2) be compared with a code (1) representing a packet of AND pulses. If in the bits of the code (2) there is one or more zero pulses, then the output 25 generates a zero command. If there is not a single zero pulse in the bits of the code (2), then a single command is generated at the output 25. 20

The proposed device extends the class of tasks in comparison with the prototype, allowing you to simultaneously perform logical operations on codes mod addition 2, equivalence, AND, OR, and to take the results from separate outputs.

This allows the device to be used in automated systems to solve a wide class of synthesis problems and to monitor • the health of discrete automaton structures.

Claims (2)

respectively, single and counting triggers of code analysis, the zero outputs of which are connected via the switch and the third group of keys to the corresponding outputs of the device, and the single outputs through the load resistor - with the first power supply bus and through the separation diode group with the first input of the prohibition element , the second input of which is connected to the second power supply bus, and the output through the third group of keys with the corresponding output of the device. The drawing shows a functional diagram of a device for performing logical operations comprising a control unit 1, first, second and third groups 2, 3, 4 keys, code analysis triggers 5, switch 6 (containing switches 7, 8 and dividing diodes groups 9, 10, 11 a) the fourth group of isolation diodes 12, a load resistor 13, a block 14 of elements I, a prohibition element 15, a power source 16, a control block 1, contains a ring counter 17, a trigger 18, a key 19, an input bus 2O and a diode 21, groups of outputs 22, 23, 24 and output 25 of the device, group 26, 27 input device s. The operation of the device is as follows. Upon a command of the Original (Ex) trigger 18, it goes to the zero state and sets the ring counter 17 to the initial state. Codes K (X, X2 --- n (1). MCN, .a ...), (2) are fed to groups of inputs 26 and 27. At the command the trigger 18 switches to the single position and opens the key 19. First key the pulse of frequency f, received at the input of the ring counter 17, generates a control signal at the fourth of its output and sets the triggers, 5 code analysis to the zero position. Up -i p "tptt - a sa" sh-gt 1O. In this case, the equalizing pulse from the first output of the ring counter 17 opens a group of key 2 and the code signal (1) is applied to the single inputs of the trigger 5.. The control signal from the second output of the ring counter 17 opens the key group 5 and the code signal (2) is fed to the counting inputs of the triggers 5. In the first process of the operation of the code analysis triggers 5, block 14 elements And, prohibition element 15, switches 7, 8 diodes 10 9, 11 and their logical interaction at the input of a group of keys 4, result codes are formed. The control signal from the third output of the ring counter 17 opens a group of keys 4, the resulting codes arrive at the corresponding outputs of the device 22, 23, 24 and output 25. The control signal from the fifth output of the counter 17 through the diode 21 transfers the trigger 18 to zero, the key 19 is closed, the counter 17 goes to its initial state. This ends the cycle of the device. During one cycle of operation, the device performs logical operations on codes (1) and (2) mod mod 2, equivalence AND, OR, and the resulting codes are removed from outputs 22, 23, 24. With open switches 7 k 8, the output code modulo 2 is removed from outputs 24, the result code is removed corresponding to the equivalence operation, and the output code corresponding to operation I is removed from outputs 22. With closed switches 7 and open 8 simultaneously with the output 24, the code corresponding to the operation OR is removed, the code corresponding to the operative equivalence is removed from the outputs 23, the code is removed from the outputs 22, the corresponding operation is AND, With the closed switches 8 and 7 open, simultaneously the mod 24 is removed from the outputs 24. 2, from outputs 23, the code corresponding to the equivalence operation and from outputs 22 to a code. corresponding operation. When the switches 7 and 8 are closed, simultaneously with the inputs 24, 22, the codes corresponding to the OR operation are removed, the input from the outputs 23 is the code corresponding to the equivalence operation. In addition to the above operations, the device performs the following code analysis operations; 1, When comparing the two codes (1) and (2), representing the bursts of pulses (all bits of the codes are filled with single pulses), code (1) is considered correct, and code (2) is working. If it turns out that the number of pulses in the codes is related to the ratio then a single signal is generated at the output 25. When n m (and, h Vri), a zero signal will be generated at output 25. 2. Let arbitrary code (1) be compared with arbitrary code (2), while NR1. If the zero and single values of the pulses coincide in all bits of the code, then a single signal is generated at output 25, Otherwise, a zero signal will be generated at output 25. 3. Let arbitrary code (2) be compared with code (1) representing a burst per Q pulses. If one or more zero pulses are present in the code bits (2), then zero output forms at output 25. If there is not a single zero pulse in the bits of code (2), a single command is formed at output 25. The proposed device extends the class of tasks to be solved in comparison with the prototype, allowing for the logical operations-days to be combined over codes with codes niod 2, equivalence, AND, OR, and to remove the results from separate outputs. This makes it possible to use the device in automated systems for solving a wide class of problems of synthesis and monitoring the health of structures of discrete automata. The invention The device for performing logical operations, comprising a control unit, the input of which is the device input, and the first and second output are connected to the control inputs of the keys of the respective groups, the information inputs of which are connected respectively to the first and second groups of device inputs, and the fourth outputs of the control unit are connected respectively to the control input of the keys of the third group, with zero inputs of the code analysis triggers, a load resistor, a group of isolation diodes, The keys of the third group are the outputs of the device, it is different from the fact that, in order to expand the class of tasks being solved, the possibility of simultaneously obtaining different combinations of codes on separate channels, the device contains a block of elements And, an element of adreta and a switch, information inputs the first and second groups of device inputs are connected respectively to the first and second inputs of the AND blocks, the outputs of which through the switch and the third group of keys are connected to the outputs of the device, the outputs of the keys the first and second groups are connected respectively to the unit and counting inputs of the trigger code analysis, the zero outputs are connected via a switch and the third group of keys to the corresponding outputs of the device, and the single outputs via a load resistor to the first power supply bus and through a group of isolation diodes to the first input of the element prohibition, the second input of which is connected to the second bus of the source of power supply, and the output through the third group - with the corresponding output of the device. Sources of information taken into account in the examination 1. The author's certificate of the USSR N 417896, to. N OZ K 5 / OO, 1972. 2. USSR author's certificate Ni 4820О9, cl. .N 03 K 19 / OO, 1973,