SU1732352A1 - Queue system simulator - Google Patents

Abstract

The invention relates to computing and can be used to study queuing systems. The aim of the invention is to expand the functionality of the device by taking into account the shift work of the repair personnel when restoring one or more service devices. The device contains generators of quotation and failures, counters of the number of quotations and the number of serviced quotations, work shift task block, OR elements, AND element, OR-NOT element, prohibition elements, random time delay multichannel block, random time delay block, reversible counter the number of failed channels. 3 il.

Description

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The invention relates to computing and is intended to investigate queuing systems.

A device for simulating queuing systems is known, comprising a random voltage generator, blocks of nonlinear elements, a flow generator, a service time shaping unit, a failure flow generator, a queue accumulator, first and second blocks of prohibition elements, first, second and third counters. the output of the failure flow generator through the second and third counters is connected to the queue accumulator, which is connected to the first counter through a block of bar elements,

The closest in technical essence to the invention is a device for simulating queuing systems, comprising a request generator.

generator of failures, counter of the number of requests, counter of the number of completed requests, the work shift task block, the OR element, the first, second and third prohibition elements, the first and second blocks of random time delays, the failure generator output being connected to the first input of the first element prohibition, the output of which is connected to the first input of the second prohibition element, the second input of the second prohibition element is connected to the first output of the work shift assignment block, and the output through the OR element to the random block start delay start input, the first input Another prohibition element is associated with the second output of the work shift task unit, and the output through the OR element is connected to the start input of the random time delays block.

The disadvantage of the device is that it does not allow to investigate systems with

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failures and repairs of the service equipment group, in which the restoration of devices is possible only during certain periods of time, for example, during the working hours of repair personnel.

The purpose of the invention is to expand the functionality of the device by ensuring that the shift work of maintenance personnel is taken into account when restoring one or more service devices.

The goal is achieved by the fact that a device for simulating queuing systems, comprising a quota generator, a fault generator, a quota number counter, a quota number served, two OR elements, a work shift task unit, three prohibition elements, an And element, a random block a time delay and a multichannel random time delay block whose output served by the wok of which is connected to the counting input of the counter of the number served by the wok; the output of the generator of the wok is connected to the counting input of the count of the order of the wok, the output of the fault generator is connected to the information input of the first prohibition element, the output of which is connected to the first input of the AND element, the output of which is connected to the first input of the first OR element, the second input of which is connected to the output of the second prohibition element, and the output of the first OR element connected to the start input of the block random time delay, additionally contains a reversible counter of the number of failed channels and an OR-NOT element, with the generator's output connected to the information input of the multi-channel unit time delays, the channel recovery input of which is connected to a random time delay block data input, the subtracting input of the reverse counter of the number of failed channels, and the information input of the third prohibition element whose output is connected to the first input of the second OR element, the output of which is connected to the information input of the second prohibition element which input and the second input of the AND element are combined and connected to the output of the OR-NOT element, whose inputs are connected respectively to the bit outputs of the roar -intensity counter number of failed channels summing input coupled to an output failure signaling channel multichannel random time delay unit whose failure input connected to the output of the generator failure, the output starts working unit shifts

the work shift assignment is connected to the second input of the second OR element, and the output of the shift work duration is connected to the control inputs of the first and third

elements of the ban.

The device simulates the operation of the QS with failures and restoration of servicing devices, the system includes a group of servicing devices, a failure can occur for one or several servicing devices of the group, the restoration of the servicing device can begin only during the working time of maintenance personnel. Time is assumed

5 of eliminating the failure of a single device can not exceed the duration of the work shift of maintenance personnel, if the failure occurred after hours, then the restoration of the device begins with the start

0 working time. If work on the restoration of the servicing device has been started, they continue even after hours. With several failed devices, if the restoration of the device is completed5 but during working hours, then the restoration of the next failed device begins immediately, otherwise - with the start of working time.

FIG. 1 shows a device diagram; in fig. 2 is a diagram of a multichannel block of random time delays; in fig. 3 - block diagram of the job assignment shifts.

The device contains a generator 1 for wok, a generator 2 failures, a counter 3 numbers

5 request, counter 4 numbers of serviced request, block 5 assignment of work shifts, first 6 and second 7 elements OR, element AND 8, element OR-NOT 9, first 10, second 11 and third 12 prohibition elements, multichannel block 13 random time delays, block 14 random time delays, reversible counter 15 number of failed channels.

Block of 13 random time delays

5 contains the first 16 and second 17 outputs, the probability switch 18, N delay blocks 19 (by the number of channels), each of which contains prohibition elements 20 and 21, triggers 22 and 23, elements AND 24 and 25, elements OR 26- 28, element NOT 29, element OR-NOT 30, element 31 of delay, element OR 32, inputs 33-35, element OR 36.

The work shift task unit 5 contains output 37, a pulse generator 38, an element

5 39 delays, trigger 40, exit 41.

The block assignments work shifts 5 works as follows.

The pulse generator produces a pulse that simulates the beginning of the work shift, which goes to the output of block 37, to

the input of the delay element 39 and the zero input of the trigger 40, is set at the output of the trigger, and hence at the output 41 of the block, a low level signal. The pulse delay corresponds to the duration of the work shift. The pulse from the output of the delay element is fed to a single input of the trigger 40, and a high level signal is set at its output.

Multichannel unit 13 random time delays operates as follows.

In the initial state, the triggers 23 of all channels are in the single state, the triggers 22 are in the zero state, while the triggers 23 provide for the presence of zero potentials at the outputs of the OR-NOT elements 30 channels with numbers greater than or equal to the channel number of the trigger 23. For opening Each of the AND 25 elements requires a single potential from the output of the corresponding element OR NOT 30.

Therefore, if one of the channels is free, suppose with the number K, then its trigger 23 is in a single state and the signal from its output excludes the possibility of a pulse imitating the receipt of the application to the inputs of the channels with numbers greater than K. The impulse received on the input through the open element I 25 of the first channel passes to the zero input of the trigger 23 and to the input of the element 31 of the random time delay of the first channel, until this pulse appears at the output of the element 31 of the random time delay, the trigger 23 first The channel will be in the zero state and only element 25 of the second channel will be open. When the next pulse arrives at the first E. Output 33 of the block, it enters the input of the element 31 of the random time delay of the second channel and sets the corresponding trigger to zero. .d Thus, the occupied channel corresponds to a low signal level at its trigger 23. If the pulse imitating the service, goes to the first input of 33 blocks, when a low level signal is set at the outputs of all the flip-flops 23 (i.e., all channels are busy either failed), it is lost.

The impulse that occurred at the output of the element 31 of the random time delay after a time equal to the duration of the service sets the corresponding trigger 23 to one state and enters the output of the block.

The impulse from input 34, which imitates the failure of one of the servicing devices, enters the input of the probability switch 18 and further with a certain probability to the input of the element 21 of the prohibition of one of the channels. When passing through the open element 21 of the prohibition of the impulse from its output

arrives at the stop input of the element 31 of a random time delay, through the OR element 28 at the zero input of the trigger 23, setting a low signal level at the output of the trigger 23, and output 17 of the block. Besides

moreover, the impulse from the output of the inhibition element 21 goes to the single input of the trigger 22, setting its output to a high signal level and locking the prohibiting element 20 of the next channel. Thus, the failed channel corresponds to a high level of the signal at the output of its trigger 22 and, therefore, an open element AND 24. If the pulse from the output of the probability switch 1C is sent to the already failed channel,

then it is lost at the input of AND 21 without making any changes in the system.

The impulse received at the input 35 of the block and simulating the restoration of the service channel passes through the open prohibition elements 20 to the first open element AND 24 corresponding to the failed channel, while the element 20 of the next channel is in the closed state. The pulse from the output of the element 24 goes to the zero input of the trigger 22, setting at its output a low signal level and opening the passage of the next channel for the passage of the restoration pulses 20

also through the element OR 27 to a single input of the trigger 23, a high level is set at its output, which corresponds to the readiness for servicing the application.

Generators 1 application and 2 failures generate pulses with a random repetition interval, which simulate, respectively, the random flow of the request and failures of the service device.

At the initial moment of the device operation

reversible counter 15 contains the value of the number of failed channels, equal to zero. In this case, AND 8 is open, and the prohibition element 11 is closed.

The device works as follows.

The pulses from the generator 1 for the wok arrive at the input of the counter 3 numbers for the wok and at the first input of the multichannel unit 13 random time delays. Pulse delay in a multichannel block of 13 random time delays simulates the process of servicing a queuing with servicing devices. The impulse from the first output of the multichannel block, 13 random time delays, served to the model, changes the contents of the counter 4, the number of served requests.

The impulse from the generator 2 of failures, imitating the failure of the service channel, is fed to the input of the prohibition element 10 and to the input of the multichannel block 13 random time delays. The impulse received at the second input of the multichannel block 13 random time delays, if the barring element 21 of the corresponding channel is open, arrives at the summing input of the reversible counter 15 and adds one to its contents reflecting the number of failed channels. The content of the reversible counter 15 decreases by one there is a small arrival of a pulse from the output of a block of 14 random time delays, simulating the end of the recovery of one serving instrument. The same impulse arrives at the third input of the multichannel block of 13 random time delays, opening one of the failed channels for accepting a service request, and also at the first input of prohibition element 12.

During the working time of the repair personnel (element 10 is open), pulses directly from generator 2 can reach the input of the block 14 random time delays only when the contents of the reversible counter 15 are zero (And element 8 is open), i.e., when efficient servicing devices the first failure occurs. In this case, the pulse from the output of the block 14 of random time delays, corresponding to the restoration of the servicing device, is lost when the closed element 11 is received at the input.

If there are already failed and unrepaired channels, the AND 8 element is closed, the prohibition element 11 is open, the impulse arrives at the block 14 random temporary delays through the prohibition element 11 and the OR 6 element. At the same time, the impulse enters the input of the prohibition element 11 either after the restoration of the previous servicing device from the output of the block 14 of random time delays through the prohibition element 12 and the element OR 7 (if it is completed during the working time of the repair personnel, i.e. element 12 is open), or at the beginning of the work shift from the secondthe output of the block 5 task shifts through the element OR 7.

In order for the device to function properly, the following conditions must be met: the signal transit time through the multichannel block 13 random time delays (from input 34 to output 17), the reversible counter 15, and the element OR NOT

9 must be greater than the time required for the signal to pass through prohibition element 10 and element 8; the time of passage of the signal through the reversible counter 15 and the element OR-HE 9, as well as the time of installation of the prohibition element 11 must be less than the time of passage of the signal through the element 12 of the prohibition and the element OR 7.

The fulfillment of these conditions is achieved by appropriate selection of elements, either by selecting the appropriate length of connecting wires, or by including technological delay elements in the circuit.

Thus, the device allows simulating queuing systems, including several servicing devices, and second servicing devices can only be reconstructed for j time intervals (for example, and the working time of maintenance personnel). Using the same device, it was possible to make the numerical composition of the service personnel, depending on the staff level / 5; .oG (reliability of their functions.

Claims (1)

Invention Formula A device for simulating queuing systems containing a generator, a generator of failures, a count of the number of orders, a Seetch number of serviced customers, two OR elements, a task setting unit, en, t, / prohibition element, And, 5lo element, i-guine a time delay and a Muglo, random block, a temporary block, the output of which serves the bill of which is connected to the counting input of a counter. the number of serviced quotes, the generator output quota is connected to the counting input of the quota meter, the generator output from the SASL is connected to the information input of the first prohibition element, the output of which is connected to the first input of the AND element, the output of which is connected to the first input of the OR element, the second input which is connected to the output of the second prohibition element, and the output of the first element OR is connected to the trigger input of a random time delay block, characterized in that, in order to expand the field of application of the device through simulators ani shifts the work of the service personnel when restoring the service devices, it additionally contains a reversible counter of the number of failed channels and an OR NOT element, and the generator output is connected to the information input of a multichannel block of random time delays, the channel recovery input of which is connected to the output of the random time delay block, subtracting the input of the reversible counter of the number of failed channels and the information input of the third prohibition element whose output is connected to the first input of the second OR element, whose output is connected to the information input of the second prohibition element whose control input and the second input of the AND element is combined and connected to the output of the OR-NOT element, whose inputs connected, respectively, to the razr, 4nig outputs of the reverse counter of the number of failed channels, the summing input of which is connected to the output of the channel failure alarm signal of a multichannel block of random time delays, the fault input of which is connected to the output of the failure generator, the output of the work shift of the work shift set unit is connected to the second input the OR element, and the output of the shift work duration is connected to the control inputs of the first and third prohibition elements. Phia.1 FIG. 2 Have i BEFORE 58 57 V Fig.Z 39