SU1705833A1 - Queuing system simulator - Google Patents

Abstract

The invention relates to specialized computing equipment and is intended to simulate the process of two-stage service of applications with different quality by one serving device. The purpose of the invention is to expand the functional capabilities of the device by simulating two-stage service processes of the application with different quality, highlighting substandard-served service and re-servicing them. The device contains an element 14, a trigger, three OR elements, four pulse generators with a random interval, and a block of counters. The device allows simulating queuing systems with a high quality of service: a request served with high quality leaves the device, a request with a low quality of service repeats either the entire service cycle or only one service stage. 1 il.

Description

ate

WITH

The invention relates to specialized computer aids and is intended to simulate the process of servicing a application with one servicing device in queuing systems.

A device for simulating queuing systems is known, which contains two OR elements, a trigger for AND elements, and N pulse generators with a random interval. The device simulates the process of servicing a single device of any number of flows of equal priority priority and different laws of service.

The disadvantage of this device is that it does not take into account the quality of service of the application, i.e. Any output that arrives at the input regardless of the quality of service arrives at the exit.

The closest to the present invention is a device for simulating queuing systems, which contains N service units, each of which has an AND element, a trigger, an OR element, and two pulse generators with a random following interval, and in each service unit connected to the start inputs of the first and second pulse generators with a random following interval and a single trigger input, the direct output of which is connected to the first input of the And element, the first and second inputs of the ale OR coagulant are respectively connected to first and second pulse generator outputs the random interval sequencers output of OR element connected to the first input of the flip-flop, the first output of the pulse generator with random intervals sequencers

Vj

About SP 00 SA CO

connected to the stop input of the second pulse generator with a random interval following, the output of which is connected to the stop input of the first pulse generator with a random interval, the second input of the element And the first service unit of the group is the information input of the device, the output of the first pulse generator with a random interval is a service output with high quality of the order of the unit of service of the application of the group, the output of the second impulse generator at random intervals Vani K-th block of the service applications are groups (R 1, N) is connected to the second input of AND (K-N) th block the service for the wok.

However, the known device for simulating queuing systems does not provide simulation of two-stage service processes of the application with different quality, identifying poorly served applications and re-servicing them.

The purpose of the invention is to expand the functionality of the device by providing simulation of two-stage service processes with different quality, highlighting substandard-served applications and re-servicing them.

The goal is achieved by the fact that the device additionally contains the second and third OR elements, the delay element, the third and fourth pulse generators with a random interval, and a counter block, the output of the AND element connected to the first input of the second OR element, the output of the second OR element is connected to the input start the third pulse generator with a random interval of the next, the output of which is sped-j-en with the first input of the third element OR. the output of which is connected to the start input of the first, second and fourth pulse generators with a random following interval, the output of the fourth pulse generator with a random following interval is connected through a delay element to the second input of the third OR element, as well as to the first input of the counter block and the third input of the first OR element whose output is connected to the stop inputs of the first, second and fourth pulse generators with a random following interval, the output of the first pulse generator with a random input The following interval is connected to the zero input of the trigger and the second input of the counter block; the output of the second pulse generator with a random interval of the next is connected to the second input of the second OR element and to the third input of the counter block.

The drawing shows a diagram of the device.

A device for simulating queuing systems comprises an element AND 1, a second element OR 2, a third generator 3 pulses with a random interval, a trigger 4, a third 5 and first 6 elements OR, a first 7, second 8 and fourth 9 pulse generators with a random interval following, block of 10 counters

5 and the delay element 11.

The inlet flow of the device is a random sequence of pulses. Quality of service is set by generators 7–9 pulses with

0 at random intervals, the generator 7 determines the high quality of service of the pump, the generator 8 - low quality, requiring repetition of the service in full, the generator 9 - low quality, requiring partial repetition of the service application.

In the initial state, the trigger 4 is in the single state and keeps the AND element 1 open at the second input.

0 Generators 3, 7-9 stopped, block 10 counters reset.

The device provides the following simulation logic.

At the entrance of the device are applications.

5 While the device is engaged in servicing a previously received application, the subsequent ones are lost. The application in the device is served either in high quality or in low quality in one of two ways. If the service is high quality, it goes to the output of the device. If the application is served with low quality, the service is repeated, partially or in full, depending on the quality

5 service.

The device works as follows.

Entries for service come to the input of the device. Through the open item

0 and 1 signal is fed to the single input of the trigger 4, its transfer to the zero state. Element AND 1 is locked at the second input. The same signal goes to the first input of the element OR 2 and through it to the input

5 start of generator 3. After some random time, a pulse appears at the output of generator 3 (the end of the first stage of servicing the application is simulated), which goes to the first input of the element OR 5 and through it goes to the inputs

running generators 7-9. After some time, an impulse appears at the output of one of these generators (the end of service of the application with high quality or service of the application with low quality is simulated), which goes to the first, second or third input of the OR 6 element, respectively, and through it to the stop inputs generators 7-9. The same pulse goes to the third, second or first input of the counter block, respectively, increasing the content of the corresponding counter by one.

Let the signal on the wils at the output of the generator 7 (for the service is served with high quality) and, accordingly, at the output of the device. Then the same signal arrives at the zero input of the trigger 4, transferring it to the single state and opening the element I 1 at the second input (the device is ready to accept the next one).

Let the pulse be driven at the output of the generator 8. Then this pulse goes to the second input of the element OR 2 (the low quality of service of the application, which requires maintenance of the application in full, is simulated. Then the process proceeds in the same manner as described.

Let the pulse be wilted at the output of the generator 9 and go through the delay element 11 to the second input of the element OR 5 (the poor quality of service of the application is simulated, which requires partial repetition of the service of the application). In this case, the process of servicing the application is repeated, but not in full.

In the second and third variants, the signal is again fed to the start inputs of the generators 7-9, after which the quality of service is evaluated. The process is repeated until the application is served with high quality, i.e. first pulse according to generator 7.

Thus, a device for simulating queuing systems allows simulating the processes of servicing applications with different quality, isolating substandard-served applications and re-servicing them.

Based on the indications of the counters of unit 10, it is possible to estimate the quality indicators of the process of servicing the quota in the device.

Claims (1)

Claims An apparatus for modeling queuing systems comprising an AND element, a trigger, the first OR element. The first and second pulse generators with a random spacing interval, the first input of the AND element is the input of the device, the output of the AND element is connected to a single trigger input, direct output which is connected to the second input element And, the output of the first pulse generator with a random interval following is the output of the device and is connected to the first input of the first element OR, the second the input of which is connected to the output of the second pulse generator with a random following interval, characterized in that, in order to expand the functionality of the device by providing simulation of two-stage service processes of applications of different quality, highlighting poorly served applications and re-servicing them, it additionally contains the second and the third OR elements, the delay element, the third and fourth pulse generators with a random following interval and a counter block, the output of the AND element connected to the first input of the second OR element, the output of the second OR element connected to the start input of the third pulse generator with a random following interval, output which is connected to the first input of the third element OR, the output of which is connected to the start inputs of the first, second and fourth impulse generators with a random following interval, the output of the fourth gene pulse generator with random intervals sequencer is coupled via a delay element to a second input of the third OR gate and the first input of the block counter and a third input of the first OR gate whose output is connected to inputs of the first stop, the second and the fourth pulse generator with a random interval of the next; the output of the first pulse generator with a random interval of the next is connected to the zero input of the trigger and to the second input of the counter block. the output of the second pulse generator with a random spacing interval is connected by the second input of the second OR element and the third input of the counter block. entrance