SU1101833A1 - Device for simulating system for sampling and processing data - Google Patents

Abstract

A DEVICE FOR MODELING A DATA COLLECTION AND PROCESSING SYSTEM containing a random number sensor, a decoder, a pulse generator, an AND element, a first and second groups of AND elements, a first and second groups of counters, a trigger, a delay element, the first and second counters, an OR element, and a block display, and the output of the sensor random numbers connected to the input of the decoder, the output of the pulse generator is connected to the input of the first counter and the first inputs of the elements And the first group, the outputs of which. connected to the inputs of the corresponding counters of the first group and the corresponding inputs of the elements OR, the output of the element OR is connected to the first input of the element AND whose output is connected to the input of the second counter with the first inputs of the elements AND of the second group, to the input of the delay element and the first input of the trigger, the output of the element the delays are connected to the second trigger input, the outputs of the first and second counters are connected to the corresponding inputs of the display unit, the outputs of the elements of the second group are connected respectively to the inputs of the counters the second group, the outputs of the counters of the first and second groups are connected to the corresponding inputs of the display unit, the trigger output is connected to the second input of the first element AND, characterized in that (L in order to expand its functional capabilities by taking into account the random distribution of the information flow, the device is entered the third group of elements And, and exits, devices are connected to the first inputs of the corresponding elements And the third. groups, the second inputs of which are connected to the corresponding outputs of the decoder, the outputs of the elements AND of its third group are connected to the second inputs of the corresponding elements with AND of the first group.

Description

1 The invention relates to digital computer technology and can be used in the design and simulation of information collection and processing systems. It is known a device for simulating the operation of a communication system containing a random generator: processors, a switch, comparison units 1-SHI element, triggers with prohibition elements ll. The disadvantage of the device is that it does not allow to model the data acquisition and processing system. The closest technical solution to the invention is an apparatus for simulating self-service processes, comprising an input pulse generator, a queue registration unit, a switch, the first input of which is connected to the first input of the control unit, the first output of which is connected to the first input of the queue simulation unit the second and third inputs of which are connected to the second and third outputs of the switch, the first and second inputs of the switch are connected to the first and second outputs of the queue simulation unit, the third input of the switch n dklyuchen to the second output of the control unit, Mo swarm input of which is an input device 21. A disadvantage of the known devices is that it does not provide the possibility of simulating data acquisition systems and processing data with different number of information sensors. The aim of the invention is to enhance the functionality by taking into account the random distribution of the flow of information. This goal is achieved in that a device for simulating a data acquisition and processing system comprising a random number sensor, a decoder, a pulse generator, an AND element, the first and second groups of AND elements, a first and second group of counters, a trigger, a delay element, the first and second counters , the OR element and the display unit, the output of the random number sensor is connected to the input of the decoder, the output of the pulse generator is connected to the input of the first counter and the first inputs of elements AND of the first group, the outputs of which are connected to} inputs the corresponding counters of the first group and the corresponding inputs of the element OR, the output of the element SH is connected to the first input of the element AND whose output is connected to the input of the second counter, with the first inputs of elements AND of the second group, with the input of the delay element and the first input of the trigger, output the delay element is connected to the second input of the trigger, the codes of the first and second counters are connected to the corresponding 1-shee inputs of the display unit, the outputs of the elements of the second group are connected respectively to the inputs of the second group of counters, the output counters of the first and second groups are connected to the corresponding inputs of the display unit, the trigger output is connected to the second input of the first element AND, a third group of elements AND is entered, and the device outputs are connected to the first inputs of the corresponding AND elements of the third group, the second inputs of which are connected to the corresponding outputs of the decoder, the outputs of the elements And the third group are connected to the second inputs of the corresponding elements And the first group. The drawing shows a block diagram of a device for modeling a data acquisition and processing system. The device contains a sensor 1 random numbers, a decoder 2, a generator of 3 pulses, the first counter 4, the first group of elements And 5, the first group of counters 6, the element YAPI 7, the element And 8, the second counter 9, the element 10 delay, trigger 11, the second group elements And 12, the second group of counters 13, the display unit 14, the third group of elements And 15. A device for modeling a data acquisition and processing system works as follows. The generator 3 pulses generates pulses with a frequency FO, which are received at the first inputs of all elements And 5 of the first group. A random number sensor 1 together with a decoder 2 produces control signals, which from the outputs of the decoder 2 are fed through the second inputs of the AND 15 elements of the third group to the second inputs of the AND 5 elements of the first group. In this case, the pulses from generator 3 are randomly distributed between the outputs

elements And 5 of the first group, imitating a random data stream from the sensor of insuction.

From the outputs of the elements And 5 pulses arrive at the corresponding inputs of the element OR 7, which combines the pulses into a common stream, which enters the input of the element And 8, and from its output, the input of the delay element 10 and the second input of the trigger 11. The pulse arriving at the second input trigger 11, sets it to the state O (prohibiting the passage of pulses through the element And 8). The same pulse delayed by time t arrives at the first input of the trigger 11, sets it to state 1 (allowing the pulses to pass through the AND 8 element). Thus, the AND 8 element, the delay element 10 and the trigger 11 simulate the data processing.

From the output of the element And 8 pulses arrive at the input of the counter 9 and to the second inputs of all elements And 12 of the second group. The permission for the passage of these pulses is given by pulses coming from the outputs of the And 5 elements of the first group.

Thus, each of the pulses from the output of the element And 8 enters only the output of one of the elements And 12 of the second group. From the output of the elements And 12 of the second group of pulses arriving at the inputs of the corresponding counters of the second group.

The third group of elements And 15 is designed to measure the number of information sensors in the simulated data acquisition and processing system. The maximum number of information sensors is K (the resolution signal comes from the operator to the first inputs of all elements And 15 of the third group). To reduce the number of information sensors in the simulated system, it is enough for the operator to send prohibition signals to the first inputs of a part of the And 15 elements of the third group.

Thus, counter 4 counts the total number of pulses (information words) received at the input of the data acquisition and processing system from all information sensors. The counters 6 of the first group count the number of pulses received from each of the information sensors. The second counter 9 counts the total number of pulses that have been processed. Counters 13 of the second group count the number of information words that have been processed, for each of the information sensors. All counters 4, 6, 9 and 13 are supplied to the corresponding inputs

display unit 14 for displaying

I

Thus, by introducing new connections between the elements, the functionality of the device has expanded.

Claims (1)

DEVICE FOR SIMULATING A DATA COLLECTION AND PROCESSING SYSTEM, comprising a random number sensor, a decoder, a pulse generator, an AND element, the first and second groups of AND elements, the first and second groups of counters, a trigger, a delay element, the first and second counters, an OR element and an indication unit moreover, the output of the random number sensor is connected to the input of the decoder, the output of the pulse generator is connected to the input of the first counter and to the first inputs of the elements And of the first group, the outputs of which are connected to the inputs of the corresponding counters of the first load pp and the corresponding inputs of the OR elements, the output of the OR element is connected to the first input of the AND element, the output of which is connected to the input of the second counter with the first inputs of the And elements of the second group, with the input of the delay element and with the first input of the trigger, the output of the delay element is connected to the second input of the trigger , the outputs of the first and second counters are connected to the corresponding inputs of the display unit, the outputs of the elements And of the second group are connected respectively to the inputs of the counters of the second group, the outputs of the counters of the first and second groups are connected s with the corresponding inputs of the display unit, the trigger output is connected to the second input of the first element And, <d characterized in that, in order to expand its functionality by taking into account the random distribution of the information flow, a third group of And elements is introduced into the device, and the outputs of the device are connected with the first inputs of the corresponding elements AND of the third group, the second inputs of which are connected to the corresponding outputs of the decoder, the outputs of the elements of the third group are connected to the second inputs of the corresponding ele ENTOV And the first group.