SU1037268A1 - Stochastic device for simulating two-channel mass service system - Google Patents

Abstract

STOCHASTIC DEVICE FOR MODELING A TWO-CHANNEL MASS SERVICE SYSTEM, containing AND elements, a trigger control, two servicing device models, the first inputs of the first and second I elements, are connected respectively to the direct and inverse outputs of the control trigger, the inputs of which are the first and the first inputs of the first and second elements AND, respectively, are connected to the direct and inverse outputs of the control trigger, the inputs of which are the first and the first inputs of the first and second elements And are connected to the direct and inverse outputs of the control trigger, the inputs of which are the first and the first inputs of the first and second elements , the outputs of the third and fourth elements And are connected, respectively, to the inputs of the first and second models of the servicing device, the outputs of which are connected to the first inputs of TpeTbeijp in h And, respectively, is characterized in that, in order to simplify the device, the outputs of the first and fifth elements are connected to the second input of the third element, And the outputs of the second and sixth elements, And are connected to the second input of the fourth element, And, the second inputs of the first and second elements Both the direct inputs of the fifth O and sixth elements of AND are combined into an informative input of the device / unit; the inverse inputs of the fifth to the sixth elements of AND are connected respectively to the outputs of the first and second circuits of the pa.

Description

WITH

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One way is to calculate computer hardware and methods to simulate the process of the probability distribution of the incoming applications between the free-of-charge mass service system kanapes. A device is known for moderating a process of probabilistic distribution of incoming applications free at the time of entering channels for a queuing system, a social trigger for setting the probability of distribution of the applications between channels, elements I, service device models 13 The closest to the invention according to its technical essence and achievable. The effect is a stochastic device for simulating a two-channel queuing system containing a trigger control, seven AND elements, two OR elements, and two models of service devices, the first inputs of the first and second AND elements being connected to the direct and inverse outputs control trigger whose inputs are the control inputs of the model, the output of the third element AND is connected to the first, inputs of the first and second elements OR, the second inputs of which are connected respectively to the output; The first and second episodes of And, the second inputs of which are coupled with the output of the fourth element And, the first input of which and the direct input of the third epimete And are combined and are the information inputs of the model, and the second input of the fourth And element and the inverse of the third element And are connected to the output the 5th element And, the first and second input of which is connected to the outputs of the corresponding models of servicing devices to the first inputs of the sixth and seventh elements And, the outputs of which are connected to the inputs of the models of equipment, and watts rye inputs - outputs from the first and second elements of the or 23. A disadvantage of the known devices is the complexity of the technical implementation. The aim of the invention is to simplify the device. This circuit is achieved by the fact that in a stochastic device for moderating a two-channel mass system, both pools and vanes, containing the AND elements, a control trigger, two objectives of the serving device, take the input the first and second with the direct and inverse1-1m outputs of the control trigger, whose inputs are the first and second inputs of the device, the outputs of the third and fourth elements of AND are connected respectively The first and second models of the device are connected to the inputs, the outputs of which are connected to the first inputs of the third and fourth elements And respectively the outputs of the first and fifth And stages are connected to the second input of the third element And, the outputs of the second and sixth elements And are connected to the second input of the fourth element And , the second inputs of the first and second aneMeHTOB AND and the direct inputs of the fifth and sixth elements And are combined and connected to the information inputs of the device, the inverse inputs of the fifth and sixth elements AND are connected respectively to the outputs of the first and second models of the wrapping device. The drawing shows a block diagram of a stochastic device for moderating a two-pitch / shnoy queuing system. The device contains a control trigger 1, first 2, second 3, sixth 4, fifth 5 | the third 6, fourth 7 elements And, the first 8 and second 9 elements of the delay, the first 10 and the second 11 triggers, the first 12 and the second 13 modes of the serving device. The device works as follows. The models of the servicing device to the shakes canaps of the iviaccoBoro obstruction system are formed, respectively, by the delay of the first trigger “P of the delay with the second trigger 11. The presence of signals on the unit outputs of the first 1O and the second 11 triggers indicates a free state of the corresponding channel. Three states are possible in the device: both channels are free} channels are occupied; both channels are you. . The operation of the device in a state where both channels are free is carried out as follows. The input flow of the request enters the first 2, second 3, fifth 5, sixth 4 elements I. The presence of signals from the flip-flops 10 and 11 on the inverting inputs of the elements 4 and 5 prevents the passage of the request to the channels. Depending on the position of the control trigger 1, in which it is set to

by probability P, the signals arriving at the control inputs of the device, the application enters either the first canal, or the second channel through the corresponding first 2 or second 3 elements I.

In case the opium from the channels is occupied, the element And 5 or element 4 that opens in this case permits the passage of the application to the free channel, and the absence of a signal at the first input (of the third

or the fourth .7 element And it prohibits the passage of the application to a busy canap.

In case both channels are busy, for failure i1e, due to the absence of signals at the first inputs of elements 6 and 7, it is rejected.

The technical and economic effect of the acquisition is to simplify the devices while keeping all the operating characteristics at the same level.

Claims (1)

STOCHASTIC DEVICE FOR MODELING A TWO-CHANNEL MASS SERVICE SYSTEM, containing AND elements, a control trigger, two models of a service device, the first inputs of the first and second elements And are connected respectively to the direct and inverse outputs of the control trigger, the inputs of which are the first and second inputs of the device the fourth elements AND are connected respectively to the inputs of the first and second models of the serving device, the outputs of which are connected to the first inputs of the third ^ p and fourth of the elements AND, respectively, characterized in that, in order to simplify the device, the outputs of the first and fifth elements And are connected to the second input of the third element And, the outputs of the second and sixth elements And are connected to the second input of the fourth element And, the second inputs of the first and second elements And and the direct inputs of the fifth and sixth elements AND are combined and are the information input of the device ^ the inverse inputs of the fifth and sixth elements of And are connected respectively to the outputs of the first and second models of the sleeping device. >