SU798845A1 - Information processing device - Google Patents

Description

The invention relates to computer technology and can be used, in particular, for scanning in a quasi-electronic automatic telephone exchange, with a spatial separation of channels.

. A device for communication of a digital computer with objects is known, which comprises sensors, a decoder, a control unit, an electronic computer, and corresponding communications £ 1J.

However, in the known device, information from the sensors is removed by cyclic input into the computer and, in the absence of new information on the sensors, sequential input cycles are alternated, which leads to irrational loading of the electronic computer.

Closest to the proposed technical solution is a system for processing information containing sensors, store memory, a shift control unit, an electronic computer, an information input connected to the information output of the store memory, the control input of which is connected to the output of the shift control unit, as well as a group of elements NOT, first ~ and second registers, switch, decoder, AND elements, and corresponding communications f2] ..

³ '. A disadvantage of the known system is the serial interrogation of sensors, which leads to a delay in the processing of information.

. l The purpose of the invention is improving performance.

This goal is achieved by the fact that the system contains state change control units, a recording unit, an encoder, a reversible counter15 chic, the first output of which is connected to the control input of an electronic computer, the control output of which is connected to the first input of the shift control unit and a re20-reversible counter, the second the input of which is connected to the second input of the shift control unit and the output of the recording unit, the outputs of which are connected to the corresponding inputs of the ma * 5 gas memory and to the outputs of the corresponding control units The field of state changes, the inputs of which are connected to the corresponding outputs of the encoder ·>, the second output of the reverse counter 30 is connected to the third ^ input

79864 ^

BEFORE the shift control unit and the fact that the state change control unit contains a series-connected adder, a counter and a delay element, the output of which is connected to the first input of the adder, the second input of the adder and its output is co. Responsibly input and output unit.

In FIG. ί a structural diagram of the system is presented, and FIG. 2 is a structural diagram of a block for monitoring changes, states on which are indicated: scanned object 1, sensors 2, encoder 3, state change control block 4, recording block 5, store memory 6, block 7, shear control, reverse counter 8, electronic computer 9, adder 10, counter 11, delay element 12.

The encoder 3 is used to encode the serial number of the sensor 2 ,. changed his condition. The state change control unit 4 is intended for tuning to an existing combination of input signals and issuing an impulse in case of violation of this combination with subsequent tuning to the next combination. Block 5 recording serves to generate a signal by which block 6 records information and to increment’reversive counter 8 on the Ch-1. The reversible counter 8 with the output 1 of the processing request is connected to an electronic computing machine 9, the control output of which generates the formation of the read end signal.

A reversible counter 8, having a number of states equal to the capacity of the store memory 6, is designed to control recording in the store memory 6.

The system operates as follows.

Changes in the state of the scanned 1 are processed by the corresponding sensors 2. Changing the logic level at the output of any .2 through encoder 3 leads the object of the sensor to changes in the combinations of input signals at the inputs of those state change control units 4 that correspond to the unit in the serial number of this sensor presented in binary code. As a result, pulses appear at the outputs of the state change control units 4, the duration of which is determined by the sum of the delays.

To obtain a high resolution device, the pulse duration time should be minimal. After the end of the pulses, the state change control units 4 are tuned to a new combination of input signals. When pulses appear at the output of control units 4, state changes turn out to be tuned to a new combination of input signals. When-65 "0. of pulses at the output of the state change control blocks 4, the record block 5 provides an information recording signal to block b at an address determined by the state of the reverse counter 8. In the initial state, the contents of the reverse counter 8 are zero, after the write signal, its content increases by one, which causes the appearance of a signal on the first output of the reversible counter 8 - a request for processing, as well as the choice through block 7 of the next address of block 6.

The system is in processing mode in real-time using _g When the information obtained from the sensors 2, 15 require the intervention of an electronic computer 9 in the process. In this case, when the processing request is received, the electronic computer 9 reads the information from block 6, after which the end signal decreases the state of the counter 8 by one unit of information in block 6 at the control output of the electronic computer.

The operation of the system in the mode of batch processing of information is used in the case when the information received from the sensors 2 is of a statistical nature. At the same time, such a delay in reading information is permissible during which the state of a particular sensor 2 changes several times. All changes in the state of the sensors 2 are accumulated in block 6, upon filling of which an overflow signal is transmitted to the electronic computer 9 from the reverse counter 8 and is used to read the entire array of information from the storage device 9.

Thus, this system allows you to unload the electronic computer from routine scanning operations by presenting the serial number of the sensor, simplify the processing process, increase the speed of processing information in real time, and also be able to delay the processing of information of a statistical nature, which is economically profitable .

reading, reversing and shifting machines

Claims (2)

(54) SYSTEM FOR PROCESSING INFORMATION of the shift control unit and the fact that the state control unit contains a series-connected adder, a counter and a delay element whose output is connected to the first input of the adder, the second input of the adder and its output are respectively the input and output of the unit h ffa FIG. i presents a structural scheme of the system, and in FIG. 2 is a structural diagram of the state change control unit, on which the indicated object to be scanned is 1, sensors 2, cipherto 3, state change control block 4, record block 5, store memory 6, a shift control unit 7, a reverse counter 8, an electronic computer 9, an adder 10, a counter 11, a delay element 12. The encoder 3 serves to encode the sequence number of the sensor 2 ,. changed his condition. The state control unit 4 is designed to tune in to an existing combination of input signals and to give an impulse in the event of a violation of this combination, followed by tuning to the next combination. The recording unit 5 serves to generate a signal on which the unit 6 records information and to increment the reversible counter 8 by H-1. A reversible counter 8 with the output 1 of the processing request is connected to an electronic computer 9, which controls the output of which generates a signal for the end of reading. A reversible counter 8, having a number of states equal to the capacity of the mag- netic memory b, is designed to control the writing to the magazine memory b. The system works as follows. Changes in the state of the scanned object 1 are processed by the corresponding sensors 2. Changing the logic level at the output of any sensor .2 through the encoder 3 leads to changes in the combinations of the input signals H9 inputs of those state control blocks 4 corresponding to one in order of number of this sensor represented in binary code. As a result, at the outputs of the state change control unit 4, pulses appear, the duration of which are determined by the sum of the delays. In order to obtain a high resolution of the device's capabilities, the duration of the pulse duration must be minimal. After the end of the pulses. The state control blocks 4 are tuned to a new combination of input signals. When the pulses appear at the output of the state control units 4, they are tuned to a new combination of input signals. When there is a scientific research institute of pulses at the output of state change control unit 4, recording unit 5 generates a signal for recording information in block b at an address that is determined by the state of the reversible counter 8. In the initial state, the contents of the reversible counter 8 are zero after the recording signal its content is increased by one, which causes the appearance of a signal at the first output of the reversing counter 8 — a request for processing, as well as the selection via block 7 of the next block 6 address. The system operates in real-time processing mode. When the information is obtainable from the sensors 2, requires the intervention of an electronic computer 9 in the process. In this case, upon receiving a processing request, information is read from blot 6, next to which a read end signal appears at the control output of the electronic computer, decreasing the state of the reversible counter 8 by one and shifting the information in block 6. The operation of the system in the batch processing mode is used in the case when the information received from sensors 2 is of a statistical nature. In this case, such a delay in reading information is permissible, during which the state of a particular sensor 2 changes several times. All changes in the state of the sensors 2 are accumulated in block 6, when filled, from the reversible counter 8, an overflow signal is sent to the electronic computer 9, which is used to read the entire array of information from the memory 9. Thus, this system allows to unload the electronic computer from routine scanning operations by presenting the sensor sequence number, simplify the processing process, increase the speed of processing information in real time, and also be able to delay the processing of information that is statistical in nature. cost effective. Claim {. A data processing system comprising sensors, a store memory, a shift control unit, an electronic computer, an information input connected to a store information output, the control input of which is connected by the output of the shift control unit, characterized in that In order to improve speed, the system contains state control units, a recording unit, an encoder, a reversible counter, the first output of which is connected to a control input of an electronic computational the machine, the control output of which is connected to the first input of the shift control unit and the reversible counter, the second input of which is connected to the second input of the shift control unit and the output of the recording block whose outputs are connected to the corresponding inputs of the store memory, and whose inputs are connected to the corresponding output 1 "1 and encoder, the second output A reversible counter is connected to the third input of the shift control unit. 2. The device of claim 1, wherein the state control unit contains a series-connected adder, a counter and a delay element whose output is connected to the first input of the adder, the second input of the adder and its output are respectively input and block output. Sources of information taken into account in the examination 1. USSR author's certificate number 377773, cl. Q 06 F 9/00, 1973. 2. Patent of the USSR No. 363266, cl. q 06 F 11/00, 1973. 1