SU1520536A1 - Device for modeling queueing systems - Google Patents

Abstract

The invention relates to specialized computer aids and is intended to simulate queuing systems taking into account the modes and dynamics of operation. The purpose of the invention is to expand the functional capabilities of the device by reproducing the modes and dynamics of the ergatic serving device of queuing systems. The device contains six random time generators, three random pulse generators, a random pulse generator, a single pulse generator, fifteen AND elements, twelve OR elements, seven differentiating elements, eleven triggers, a pulse counter, four delay elements, three time interval formers readiness, command pulse generator, three random pulse generator and random number generator. 1 il.

Description

The invention relates to computing and can be used to study the operation of queuing systems (QS), taking into account the modes and dynamics of application, the occurrence of failures and their elimination in these modes.

The purpose of the invention is to expand the functional capabilities of the device by reproducing the training modes of operators, auxiliary and main equipment, the servicing device, preliminary and final preparation of the servicing device, the readiness of the servicing device for carrying out and carrying out autonomous and complex checks, readiness for servicing. and service applications of various types, the occurrence of failures and their elimination in the offline verification modes, preliminary and final preparation and

The device simulates the work of an ergistic QS having a follow-out cycle of operation. The service device is in standby mode. After receiving the preparation order, the operators and the servicing instrument, consisting of the main and auxiliary equipment, are trained. At the end of the preparation mode, the servicing device is in the ready state.

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to conduct autonomous crossovers, which are held by order or upon expiration of the residence time in this state. Next, the device goes into standby mode for complex checks, which are carried out on command. At the end of the comprehensive checks, preliminary and final preparations for servicing the purchase order are carried out consistently. When conducting autonomous checks of preliminary and final preparation, failures may occur, and in the event of their occurrence, the instrument is restored and the post-restoration mode in which the failure occurred is repeated anew. Upon completion of the final preparation, the QS goes to the maintenance of various types of bids, further analyzes the service results and the system returns to the initial state. Such is the algorithm of functioning when servicing single items of the first type. When servicing single second-type inks, the system switches to analyzing the results of their servicing in the preliminary preparation mode of the servicing instrument and then as described above. When servicing order K of the second type, the system is put into standby mode and then operates according to the scheme described above.

The drawing shows a diagram of the device.

The device contains a generator of 1 single pulses, a generator of 2 random command pulses, the second element OR .3, the second trigger 4, the fourth element AND 5, the first generator 6 random intervals of time imitating the training of operators, the fourth element OR 7, the fifth element OR 8 , the second generator 9 random time intervals, imitating the duration of the preparation of the auxiliary equipment of the service device, the third generator 10 random time intervals, imitating; the duration of the PREPARATION; the main oh equipment, the first trigger 11, the third trigger 12, the first element And 13, the first driver 14 intervals of readiness, imitating the duration of the readiness mode of the equipment service

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living device to autonomous checks, the fourth di (}) entiing element 15, the first generator of 16 pulses of random duration simulating autonomous inspections of the servicing device, the first generator of 17 random pulses simulating the occurrence of failures during autonomous testing and their elimination, the first differential; the triggering element 18, the fourth trigger 19, the sixth 20 and the seventh 21 elements And, the second 22 the generator of the intervals of readiness time imitating the stay of the servicing device of readiness for the implementation of complex checks, the third element And 23, the first element OR 24, a quarter generator 25 random intervals, imitating the conduct of complex checks, the seventh element of the IPI 26, the second generator 27 pulses of random duration, simulating carrying out a preliminary preparation of the servicing device for servicing, second 28 random impulse generator that simulates the occurrence of failures during preliminary preparation and their elimination, the second differentiating element 29, the sixth trigger 30, eight Oi 31 and Nine 32 elements And, the third generator of 33 pulses of random duration, imitating the final preparation — Kh of the servicing device for servicing the application, the third generator of 34 random impulses, imitating the occurrence of failures during the final preparation and their elimination, the third differentiating element 35 , the eighth trigger 36, the tenth 37 and the eleventh 38 elements And, the third shaper 39 intervals of readiness, imitating the stay of the system in readiness for servicing the quota generator 4 0 random stream of pulses imitating incoming service fees, second element AND 41, ninth element OR 42, fifth generator 43 random time intervals, imitating direct servicing of the order, counter 44 pulses, ninth trigger 45, thirteenth element AND 46, the sixth random time interval generator 47, imitating the analysis of service results, 48 random number generator, imitating the allocation of the first and second type applications, the tenth trigger 49, the fourteenth element I 50, the tenth 51 and third 52 elements OR, twelve 53 and fifth 54 elements AND, sixth element OR 55, fourth delay element 56, fifteenth element AND 57, eleventh trigger 58, eighth 59 OR element, first delay element 60, sixth 61 and seventh 62 differentiating the elements, the second 63 and third 64 delay elements, the fifth 65 and the seventh 66 triggers, the fifth differentiating element 67,

The generators 17, 28, and 34 produce random pulses with a random duration that simulate failures (front) and the duration of their elimination (pulse duration), and the duration of the failure recovery is significantly longer than the duration of the corresponding process, simulated by the signals of the corresponding generator 16, 27 and 33.

The device works as follows.

A single pulse generator 1 generates a pulse that triggers the device. This pulse arrives at the input of the generator 2 of random command pulses, as well as through the element OR 3 to the single input of trigger 4, processing it into state 1, which corresponds to the standby mode of the device. The voltage from the unit output of the trigger 4 is fed to the first input of the element I 5, the second input of which receives a pulse from the first output of the generator 2, imitating the receipt of an order for the preparation of an ergatic maintenance device, t, e, of operators and equipment. This impulse from the output of the element 5 goes to the zero input of the trigger 4, bringing it back to its initial state, as well as to the starting input of the generator 6, the output of which, after a time corresponding to the duration of the operator preparation stage, generates an impulse ШШ 7 is fed to the start input of the generator 9, at the output of which, after a time imitating the duration of the preparation of auxiliary equipment, a pulse appears.

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Which flips to state 1 trigger 11, arriving at its unit input. Simultaneously, from the output of the generator 6, the pulse also enters the element OR 8 at the input of the generator 10, at the output of which, after a time corresponding to the duration of preparation of the main equipment of the servicing device, a pulse appears that goes to the single input of the trigger 12, switching it to state 1 , voltage from its direct output enters.

5 to the second input element And 13, at the first input of which the voltage from the direct output of the trigger 1 1,

At the output of the element And 13, an impulse appears at the moment when the preparation of the auxiliary and main equipment of the serving device is completed. This impulse arrives at the zero input of the flip-flops 11 and 12, transferring them to the initial states, a. also to the input of shaper 14, at the output of which a pulse of duration corresponding to the duration of the ready mode is formed

Q ergatic service device to stand-alone checks. The voltage from the driver 14 acts on the first input element And 54, opening it. When a pulse is received from the second output of the generator 2, imitating a command to conduct autonomous checks, it passes through the elements AND 54 and OR 55 to the start inputs of the generators 16 and 17.

If, during the time when the servicing instrument is in standby mode for autonomous checks, the command to carry them out from generator 2 does not come, then from the differentiation by element 15 of the falling edge of the pulse of shaper 14, the output of element 15 is a pulse imitating the command to conduct autonomous checks. This pulse from the output of the differentiating element 15 is fed to the input of the element SH-55 and then to the start inputs of the generators 16 and 17.

At the output of the generator 16, a pulse with a duration corresponding to the duration of the autonomous testing phase is built-up. At the moment of termination of this pulse, at the output of the differentiating element 18 there appears a pulse that acts on the input

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stop generator 17 and the direct input element And 20 ,. the inverse input of which is acted upon from the direct output of the trigger 19, which is transferred to state 1 in the event of a failure in the servicing device during autonomous checks, which is simulated by the appearance of a pulse through a random time interval at the output of the generator 17s from the moment of its triggering with a pulse the output of the element OR 55, the output of the generator 17 is connected to a single input of the trigger 19.

If, during autonomous checks, a vozgshk failure in the service device, which is simulated by generator 17, then the pulse from its output translates trigger 19 into one state, thereby locking the element AND 20 at the inverse input, and the pulse from the output of differentiating element 18 does not pass through the element And 20 to start the shaper 22

The generator 17 accumulates random and mycals with a random duration that imitate failures and their elimination, i.e. the random moment of the appearance of a pulse corresponds to a fault; and the random pulse duration is the time to eliminate the failure (i.e., restore the servicing device). At the moment of the end of the pulse at the output of the generator 17, which corresponds to the elimination of the failure, at the output of the differentiating element 67 a pulse appears that arrives at the zero input of the trigger 19, bringing it back to its initial state. The same impulse, having passed the delay element 60, goes to the forward input of the AND 21 element and then to the second input of the OR 7 and 8 elements, switching the servicing device into a preparation mode for auxiliary and main equipment after the fault is eliminated. Further, the operation of the device is similar to that described above.

If the failure did not occur during the preparation of the main and auxiliary equipment, i.e. the generator 17 did not generate a pulse, then the pulse from the output of the differentiating element 18 stops the generator 17, arriving at its stop input, and also, having passed the element 20, enters the start input of the driver 22, the output of which forms

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A pulse is generated, the duration of which imitates the duration of the readiness of the servicing instrument for complex checks. If there is voltage at the first input of element And 23 from shaper 22 and the appearance of a pulse at the second input of element AND 23- from generator 2 (third output), imitating a command to conduct complex checks, this pulse passes elements And 23 and OR 24 and starts a generator 25, at the output of which, after a time imitating a continuous duration of complex checks, an impulse appears that through the OR 26 element enters the start input of the generators 27 and 28 and the single input of the trigger 65, putting it into a single state. At the output of the generator 27, a pulse appears, the duration of which corresponds to the duration of the preliminary preparation of the servicing instrument for servicing the application.

If a failure occurs during the preliminary preparation, which is simulated by the appearance at the output of the generator 28 of a pulse (leading edge) at a random time interval after its start. This impulse translates trigger 30 into a single state, thereby closing element 31 through the inverse input to the time when the fault occurred, which is simulated by a random failure pulse duration from generator output 28.

At the moment of termination of the pulse at the output of the generator 28, which corresponds to the moment of the termination of the elimination of the failure, at the output of the differentiating element 61 a pulse appears that arrives at the zero input of the trigger 30, the erg returns to the initial state. The same impulse, having passed the delay element 63, goes to the second direct input of the AND 32 element and then through the OR 24 element to start the generator 25, simulates a repeated complex check, as well as to the zero input of the trigger 65, its initialization, further - similar to that described above.

If the failure did not occur during the preliminary preparation of the servicing device, i.e. the generator 28 did not generate a pulse, then the pulse from the output of the differentiating element 29, received from the slice of the pulse of the generator 27, stops the generator 28, arriving at its stop input, and also, having passed And 31, enters the single input of trigger 66, translating it into a single state, the start-up input of the generator 34 and the generator 33, at the output of which a pulse is produced, the duration of which simulates the duration of the final preparation of the servicing device for servicing the application. If a refusal did not occur during the final preparation, i.e. the generator 34 did not beat the pulse, then the pulse from the output of the differentiating element 35, obtained from the back of the pulse of the generator 33, stops the generator 34, arriving at its stop input, and, having passed the open element I 37, enters the starting input of the generator 40, imitating vki and shaper 39.

If a failure occurs during the final preparation, which is simulated by the appearance at the output of the generator 34 of a pulse (leading edge) at random intervals after its launch. This impulse translates trigger 36 into one state, closing the element I 37 through the inverse input for the duration of the failure, which corresponds to a random pulse duration generated at the output of the generator 34. At the moment the pulse ends at the generator output 34, which corresponds to the moment the end of the failure recovery, at the output of the differentiating element 62 a pulse appears that goes to the zero input of the trigger 36, bringing it back to its original state. The same impulse, having passed the delay element 64, goes to the second direct input of the AND 38 element and then through the OR 26 element to start the generator 25, simulates a repeated complex check as well as to the zero input of the trigger 66, its initialization, then the device works the same as above.

: At the output of the imaging unit 39, a pulse is generated, the duration of which corresponds to the duration of the readiness mode of the servicing instrument for servicing the application.

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This pulse acts on the second direct input of the element 41, the first input of which receives a pulse from the output of the generator 40, which from the output of the element 41, when the inverse input is open, enters the input of the start of the generator 43 simulating service of the demand and the input of the counter 44 , From the output of the element AND 41, the pulse is also fed to the single input of the trigger 45, transferring it to state 1, after which the permitting voltage from the inverse input of the element And 41 is removed. At the output of the generator 43, after a time corresponding to the duration of service of the demand, a pulse is generated, which, through element 46, in the absence of a signal at the output of the overflow of counter 44, enters the start input of generator 47 simulating a random time interval for analyzing the results of service of the demand, and element 56 of the input delay start generator 48 random numbers. At the output of the generator 47, after a time corresponding to the duration of the analysis of the results of the servicing of the application, a pulse appears that arrives at the single input of the flip-flops 49 and 58, transferring them to state 1. From the generator 43 output, the pulse also goes to the zero input of the flip-flop 45 , transfer it to the zero state, after which the element AND 41 opens.

At the first output of the generator 48, a pulse is generated when the device simulates the servicing of one application of the first type. This impulse through the element 50 at the permitting voltage at its input from the direct output of the trigger 49 enters through the element OR 51 to the zero input of the trigger 49 and 58, their transfer to the initial state, and also through OR 59 to the input of the generator 40, and through the elements OR 52 and 3 - to the single input of the trigger 4, after which the device again goes into standby mode and is ready for further work. From the output of the element And 50 pulse also goes through the second input-output of the element And 42 to the input of the installation in O of the counter 44, writing off the unit recorded in it (number).

When a pulse occurs at the second output of the generator 48, a case is simulated when the second type of application was serviced. This pulse through the open element And 57, the element OR 51 resets the triggers 49 and 58, the output of the element And 57, in addition, the pulse arrives at the input of the element OR 59, stops the generator 40, and at the input of the element OR 26 Next The device operates according to the above described variant. The appearance of pulses at the first and at the second outputs of the generator 48 are incompatible events, moreover, they arrive obviously after the launch of the generator 47, for which the holder element 56 is used,

In the case when several times the second output of the generator 48 is triggered, the counter 44 records a certain number of pulses, which, having reached a certain value, fills the counter 44, the overflow output of which is connected to the inverse input of the element And 46 and the second input of the element And 53. When a potential counter 44 overflows at the output, the AND 46 element closes and the AND 53 element opens, and when a pulse arrives at its second input from the generator 43 output, it passes to the first input-output of the OR 42 element and resets the counter 44, From to stroke AND gate 53 is also supplied through a pulse Hilti element 52, the second OR element 3 at the trigger input unit 4, transfer device in the sleep mode. In addition, from the output of the element And 53 pulse also acts through the element OR 59 to the input of the stop of the generator 40 and the driver 39,

By counting the time spent by the QS in each mode, the number of issued commands received by the quota, the quotes serviced, the number of failures and their elimination, as well as the number of individual device element responses, you can evaluate various probability indicators of the QS, including the probability of the QS , including in each of the modes, the probability of service and service outage failures, the probability of occurrence of failures is serviced

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device in different modes and their elimination, readiness indicators, as well as the effectiveness of the organization of the operation of the QS taking into account the modes and dynamics of functioning.

Claims (1)

Invention Formula A device for simulating queuing systems comprising a single pulse generator, first and second elements OR, first to third triggers, first to seventh differentiating elements, first to fourth random time interval generators, first to third random pulse generators, generator a random stream of pulses, from the first to the sixth And elements and a pulse counter, and the direct output of the first trigger is connected to the first input of the first And element, the output of which is connected n to the zero input of the first trigger, the output of the first, second, and third pulse generators of random duration are connected respectively to the inputs of the first .: the second and third differentiating elements, the output of the random pulse generator is connected to the first direct input of the second element, And the output of the third element, And connected to the first input of the first element OR, which is distinguished by the fact that, in order to expand the functionality by reproducing the modes and dynamics of the ergatic service queuing systems, it additionally contains from the first to the third shapers of the ready time intervals, the generator of random impulses of commands, the fifth and sixth generators of random time intervals, the first to the third generators of random impulses of the seventh to fifteenth elements the tenth electric OR, from fourth to eleven triggers, four delay elements and a random number generator, with the output of a single pulse generator connected to the trigger input of the generator aynyh command pulses and the first input of the second element Hilti, the second input of which is connected to the output of the third OR gate, and the output - to the single input of the second trigger, the direct output of which is connected to the first input of the fourth element I, the output of which is connected to the zero input of the second trigger and input to start the first generator of random time intervals, the output of which is connected to the first inputs of the fourth and fifth OR elements, the outputs of which are connected respectively to the start input of the second and third random time interval generators, the outputs of which are connected respectively to the single inputs of the first and third triggers, direct you The third trigger is connected to the second input of the first element I, the output of which is connected to the zero input of the third three and the start input. The first driver of the ready time intervals, the output of which is connected to the first input of the fifth element I and to the input of the fourth differentiating element, the output of which is connected to the first input of the sixth element OR, the second input of which is connected to the output of the fifth element AND, and the output to the start input of the first pulse generator of random duration and the start input of the first generator pulses, the output of the first differentiating element is connected to the direct input of the fourth element I and the input of the stop of the first random pulse generator, the output of which is connected to the single input and through the fifth differentiating element to the zero input of the fourth trigger and the input of the first delay element, direct output the fourth trigger is connected to the inverse input of the sixth and the first inverse input of the seventh And elements, the output of the seventh element And is connected to the second inputs of the fourth and fifth elements OR, the sixth output The I element is connected to the start input of the second shaper of the ready time intervals, the output of which is connected to the first input of the third And element and the second inverse of the seventh And element, whose direct input is connected to the output of the first delay element, the first, second and third outputs of the random pulse generator commands are connected respectively to the second inputs of the fourth, n Q 5 0 5 5 0 five 0 five 0 In addition, the third element AND, the output of the first element OR is connected to the start input of the fourth random time generator, the output of which is connected to the first input of the seventh OR element, the output of which is connected to the single input of the fifth trigger, the start inputs of the second pulse generator of random duration and the second the random pulse generator, the output of which is connected to the single input of the sixth trigger, and through the sixth differentiation element - to the zero input of the DiecToro trigger and to the input of the second element The output of the second differentiating element is connected to the stop input of the second random pulse generator and the direct input of the eighth element I, the direct output of the fifth trigger is connected to the first direct input of the ninth element I, the second direct input of which is connected to the output of the second delay element , the direct output of the sixth trigger is connected to the inverted inputs of the eighth and ninth elements And, the output of the eighth element And connected to the start input of the third pulse generator of random duration, the start input of the third gene at random of pulses and a single input of the seventh trigger, the output of the ninth element AND is connected to the second input of the first element OR and the zero input of the fifth trigger, the output of the third differential element to the direct input of the tenth element And, the input of the third random pulse generator, etc. my output of the seventh trigger is connected to the first direct input of the eleventh element AND, the output of the third random pulse generator is connected to the single input of the eighth trigger, and through the seventh differentiating element to the zero input of the eighth trigger and the input of the third delay element, the output of which is connected to the second direct input of the eleventh element And, the direct output of the eighth trigger is connected to the inverse inputs of the tenth and eleventh elements And, the output of the tenth element And is connected to the start input of the random flow generator pulses and the start input of the tertiary time interval generator ready, the output of the eleventh element AND is connected to the second input of the seventh element OR and the zero input of the seventh trigger, the output of the third generator of the ready time intervals and the single output of the ninth trigger are connected respectively to the second forward and inverse inputs of the second element And whose output is connected to the single input the ninth trigger, the summing input of the counter and pulses, and the start input of the n random time interval generator, the output of which is connected to the zero input of the ninth trigger, the first input One of the twelfth and direct inputs of the thirteenth And elements, the output of the pulse counter overflow is connected to the inverse of the thirteenth and second inputs of the twelfth And elements, the output of the twelfth And elements connected to the first inputs of the third, eighth and ninth elements OR, the thirteenth element And’s output connected with the start input of the sixth random time interval generator and through the fourth delay element with the start input of the random number generator, the output of the sixth random time interval generator is connected input unit of the tenth and eleventh triggers straight outputs are connected respectively to the first inputs chetf- enth and fifteen AND gates, the second inputs of which are connected corresponding to the first and second outputs of the random number generator, the output of the fourteenth element And is connected to the second inputs of the third, eighth, ninth and first input the tenth element OR, the output of the tenth element OR is connected to the zero inputs of the tenth and eleventh triggers, the output of the fifteenth element AND is connected to the third inputs the seventh, eighth and second inputs of the tenth OR element, the output of the eighth OR element is connected to the stop inputs of the random pulse generator and the third generator of the ready time intervals, the output of the ninth OR element is connected to the counter output pulse counter. 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