SU1180923A1 - Device for simulating queueing system - Google Patents

Abstract

A DEVICE FOR SIMULATING SYSTEMS OF MASS SERVICE, containing a random pulse generator, the output of which is connected to the trigger input of the counting pulse generator, the output of which is connected to the first input of the first element And, the generator of the condition, the output of which is connected to the first input of the second element And whose output is connected with the input of the generator of random intervals of the request for the request, the output of which through the first differentiating element is connected to the inverse input of the third element I, which is different In order to expand the functionality of the device by reproducing simultaneously starting preparation mode for various service devices, standby modes and system readiness for servicing the order, a random command pulse generator, a random read time generator, the second differentiating element, the first, second triggers, fourth, fifth, sixth, seventh, eighth elements AND, block counters. n different types of service devices, each of which contains a preparation generator, a differentiating element, a trigger, the first input of the block of meters connected to the output of the seventh element I, the first input of which is connected to the output of the generator of counting pulses, the input which is connected to the output of the random pulse generator, the output of the random command pulse generator is connected to the direct input of the fourth element And and to the zero input of the first trigger, inv The single unit input of the coy (line is connected to the output of the second differentiating element, whose input is connected to the output of the fourth element I, the inverse input of which is connected to the output of the generator of random readiness intervals, the output of the first trigger element is connected to the direct input of the fifth element I, and the inverse input which is connected to the output of the generator of random intervals of readiness, the output of the fifth element I is connected to the single input of the second trigger, the output of which is connected to the first input of the sixth element And I, the second input of which is connected to the output of the generator of counting pulses, the output of the sixth element I is connected to the second input of the meter block, the third input of which is connected to the output of the first element I, the fourth input to the output of the second element I, the fifth input of the block counters connected to the output of the third element And the output of the fifth element

Description

and coennFien with; the input of the preparatory generator of each of the n different types of equipment: t, each of them, the output of the preparation generator is connected through an differentiating element to the inverse single input of the trigger, the output of which is simultaneously the output of the K-th (K 1, n) device, connected to the K-mu (K 1, p) the input of the eighth element And, the output of which is connected to the zero input

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the second trigger, the start-up input of the generator, the zero-input trigger of each of the various types of services, the buzzing devices, the start-up input of the randomly available standby pulses, the output of which is connected to the second input of the second element And the direct input of the third element And, the output of the random pulse generator the time of the request is connected to the second input of the first element I.

The invention relates to computing technology and can be used in the simulation of queuing systems (QS), taking into account the dynamics and modes of operation.

The purpose of the invention is to expand the functional capabilities of the device by reproducing simultaneously the start-up mode of preparing p different types of servicing devices, standby modes and the readiness of systems for servicing the quotation.

The drawing shows a diagram of the device.

It contains the generator 1 of a random stream of pulses simulating the start of the device, the generator 2 of random command pulses, the generator of 3 counting pulses, the fourth element is AND 4, the second differentiating element 5, the first trigger 6, the second trigger 7, the fifth element And 8, the sixth element And 9, n different types of service devices, each of which includes a preparation generator 10, a differentiating element 11, a trigger 12, the device also contains an eighth element AND 13 a generator 14 random readiness pulses, a generator 15, a wok, a second element t I 16, generator 17 random pulses of service time of the application, the first differentiating element 18, the third element I 19, the seventh element I 20, the first element I 21, a block of counters 22, for K-th (k 1, n) of a different-type serving device input 23 of the preparation generator, zero input 24 of the trigger 12.

The device simulates the process of functioning of a queuing system having a n (group) of simultaneously preparing various types of servicing devices. QS can be in 4 modes

(states): waiting, preparation, readiness, work (service stock). Servicing is done only during standby mode, after which the system goes into standby mode. When a command is received for use on n diverse types of service personnel at the sampling, activities in the preparation mode, i.e. the transition to the preparation mode, the duration of which is different for each service device, when the K-th of the n different types of service devices ends; H is the longest preparation mode, the system switches to the readiness mode.

Thus, the system from the standby mode is transferred to the preparation mode by a command, its start is performed simultaneously for the entire group of service devices, and the end of the preparation mode for each device is random. Upon completion of the preparation mode of only the whole group of instruments, the queuing system enters the readiness and servicing mode of the queuing, after which the cycle is repeated.

The device works as follows.

The generator 1 of a random flow of pulses produces a pulse, which starts the generator of 2 random pulses (commands) and the generator of 3 counting pulses. At the output of the generator 2, a pulse is formed, the duration of which corresponds to the waiting time, which, through the direct input of the element 4, arrives at the differentiating element 5. The pulse from the output of the generator 2 also stresses to the zero input of the trigger 6, sets it to its initial state. Commands differentiating element 5 generates a negative impulse, which through the inverse single input of trigger 6 overturns this trigger. From the output of trigger 6, the voltage goes to the direct input of the element And 8 and at The presence of a signal at the inverse of the input element And 8 starts the generator 10 training in each of the n different types of judging devices. At the output of the generator 10 is formed

an impulse whose duration corresponds to the preparation time, and this duration is different for each of the n different types of service devices. From the output of the generator 10, the Impulse through the differentiating element 11 enters the inverse single input of the trigger 12 and overturns it with its falling front. The voltage from the output of the trigger 12 of the first of the n different types of servicing devices arrives at the first input of the element I 13, the voltage from the output of the trigger 12 of the second of the n of different types of servicing devices enters the second input of the element I 13, and from the output of the trigger 12 of the n th The nth input of the element is And 13. When the preparation mode in all of the different types of servicing devices is over at the output of the element And 13, a signal appears that starts the generator 14 at random intervals of readiness, the generator 15 for the wok. To reset the trigger 12 of each of the n different types of servicing devices, the output of the element I 13 is also connected via input 24 of each of the n servicing devices with zero

the trigger input 12. At the generator 14, a pulse is generated, the duration of which is 1, which corresponds to the time of the ready mode. From the output of the generator 14, a pulse arrives at the second input of the element AND 16, the first input of which receives pulses from the generator 15, which through the element 16 receives the fifth input of the counter block 22, where the total number of quotations that have entered the system in standby mode is counted . The applications from the output of the AND element 16 also trigger the generator 17 random service time intervals, which generates a pulse whose duration corresponds to the service time of the demand. From the output of the generator 17, a pulse through the differentiating element 18 is fed to the inverse input of the element AND 19. If the direct input of the element AND 19 is voltage from the output of the generator 14, then at the moment the pulse ends at the output of the generator 17, the output of the differentiating element 18 appears the pulse, which, through element 19, goes to the fourth input of the block of counters 22, where the number of the fully serviced charge is counted.

From the moment of occurrence of the pulse at the output of the generator 14, the element And 8 is closed, thereby passing the commands for preparing the system does not occur. At the end of this pulse, the input element And 8 opens and the device is ready for the passage of commands and the preparation of service devices. From the output of the generator 17, the voltage also enters the second input of the element 21, the first input of which receives the counting pulses from the generator 3, which through the element 21 enters the second input of the block of meters 22, where the total time the device is in the wake-up time is calculated. From the output of the element And 8, the voltage also goes to the single input of the trigger 7 and overturns it, after which the pressure from the output of the trigger 7 goes to the first input of the element 9, the second input of which receives the counting pulses from the generator 3, which element 9 is fed to the third input of the block of meters 22 where the time spent by the device is counted

va in preparation mode. The moment of termination of the preparation mode corresponds to the appearance of a pulse at the output of the element 13, which arrives at the zero input of the trigger 7, drives it to its initial state, after which the calculation of the preparation time stops. From the output of generator 2, the pulse also arrives at the second input of element AND 20, the first input of which receives counting pulses from generator 3, which through element AND 20 arrive at the input of the counter block 22, where the system idle time is counted. From the output of the generator 14, the voltage also goes to the inverse input of the elementary CH1

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And 4, which ensures the passage of the command only in the absence of voltage at the output of the generator 14, 5, i.e. when the system is not in service. From the indications of the counters combined in the block of counters 22, it is possible to estimate the probabilistic indicators of the process of servicing the application.

10 These indicators include, for example, the probability of servicing (stalling) a quotation, the probability of a system staying in i-M mode (standby, preparation, servicing, etc.) and

15 other indicators of the process of servicing the application and the dynamics of the functioning of systems with multi-type service devices.

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Claims (1)

DEVICE FOR MODELING MASS SERVICE SYSTEMS, containing a random pulse stream generator, the output of which is connected to the start input of the counting pulse generator, the output of which is connected to the first input of the first element And, the application generator whose output is connected to the first input of the second element And, the output of which is connected with the input of the generator of random intervals for servicing applications, the output of which through the first differentiating element is connected to the inverse input of the third element And, which differs by oh, in order to expand the functionality of the device by playing simultaneously the preparation mode of η different types of servicing devices, standby modes and system readiness for servicing applications, a random command pulse generator, a random ready-pulse generator, a second differentiating element, the first and second triggers were introduced fourth, fifth, sixth, seventh, eighth elements And, a block of counters, η different types of service devices, each of which contains a training generator , differentiating element, trigger, and the first input of the counter block is connected to the output of the seventh element And, the first input of which is connected to the output of the counter pulse generator, and the second to the output of the random pulse generator command, the input of which is connected to the output of the random pulse stream generator, output random command pulse generator is connected to the direct input of the fourth element And and to the zero input of the first trigger, the inverse single input of which is connected to the output of the second differentiating element, the input to of which is connected to the output of the fourth element And, the inverse input of which is connected to the output of the random time interval generator, the output of the first trigger is connected to the direct input of the fifth element And, the inverse input of which is connected to the output of the random time generator, the output of the fifth element And is connected to the single input of the second trigger, the output of which is connected to the first input of the sixth element AND, the second input of which is connected to the output of the counting pulse generator, the output of the sixth element nen with the second input of the counter block, the third input of which brings the keys to the output of the first element And, the fourth input - to the output of the second element And, the fifth input of the counter block is connected to the output of the third element And, the output of the fifth element 1 18C923 And it is connected to the input of the preparation generator for each of η different types of serving devices, and each of them the output of the preparation generator through a differentiating element is connected to the inverse single input of the trigger, the output of which, being simultaneously the output of the K-th (K = 1, p) of a different type a detecting device, connected, to the K-th (K = 1, p) input of the eighth element And, the output of which is connected to the zero input of the second trigger, the trigger input of the order generator, the zero trigger input of each of η service devices of different types, input m start random generator readiness time, the output of which is connected to the second input of the second AND gate and a direct input of the third AND gate, the output of the pulse generator of random time oblsuzhivaniya applications connected to the second input of the first element I.