SU1640708A1 - Computer system simulator - Google Patents

Abstract

The invention relates to specialized computer facilities and can be used to determine the operating modes of computerized information systems of the automated control system. The purpose of the invention is to expand the field of application by simulating the choice of operating mode of computer systems. The device contains a voltage source, the output of which is connected to the inputs of a group of keys, outputs which are connected to the inputs of the elements OR, the elements AND, indicators of Transparents fix a certain mode of operation, based on the qualities properties of the tasks of the incoming stream, 1 table0, 1 or 0

Description

The invention relates to specialized computer facilities and can be used to simulate the selection of operating modes of information and computer complexes (CPI) of computer systems, automated control systems and training with

The purpose of the invention is to expand the scope of application by simulating the choice of the operating mode of the computing complexes.

The drawing shows a diagram of the device

The device contains a source of 1 voltage, keys 2, elements OR 3, elements AND 4, indicator 5 Natural time division, indicator 6 Artificial time division, indicator 7 Natural batch processing, indicator 8 Artistic batch processing, indicator 9 Parallelization of 10 Parallel

cottages and task solution indicator 0

The practice of operating the CPI of computing systems allows to introduce the following properties into consideration: task attributes: quantization, time scale, determinism, importance, recoverability of information arrays and stationarity to information arrays. Depending on the nature of the tasks, each of the attributes can be assigned to three characteristics; for example, on quantization () - problems with natural quantization, 2 - problems of mixed quantization; 3 - unquantized tasks

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Natural quantization tasks are associated with such physical processes that involve the step-by-step execution of actions of the same content, and the neighboring stages can be separated by time intervals. 0 Such tasks are an objective possibility of organizing the solution of several problems on a single-processor computer and relate to them dialogue chambers: entering information from the display, editing the program text, etc. „

Unquantized tasks are characterized by the fact that they can be solved in the form of a single act, not required on their own initiative to interrupt the computational process. These tasks include such as translating tasks, in which the computational process can be interrupted for some time intervals. on the initiative of the algorithm of the task itself or of the operator leading the task, are tasks with mixed quantization. This type, for example, includes the task of long-term planning, tasks using the ba control system oh (DBMS), when information is posted on several magnetic diskaho

By the type of time scale (): 1 - tasks of real time scale, 2 - tasks of essential limited expectation, 3 - tasks of weakly limited expectation

Real-time tasks assume that the control actions are calculated and issued not later than required by the physical essence of the system maintaining its own trajectory, allowing it to achieve the desired goal.

 Tasks with significantly limited expectations allow time shifts in the moments of obtaining results. An example of this type of tasks is tasks that ensure communication between operators and officials of the ACS. Tasks with poorly limited expectations are not critical to significant displacements in time of setting them up for solution and should be solved in a reasonable time.

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According to the degree of determinism

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tasks, 3 - tasks of random nature.

For deterministic problems, it is important in principle to accurately plan in time the moments of their formulation and solution. The limitation of determinism means that it is possible to plan the arrival of tasks with a certain probability, for example, problems solved during the period of communication with external objects.

The tasks of a random nature are tasks related to a sudden change in the mode of operation of the ACS, due to emergency and conflict situations at the facility.

In order of importance (): 1 - constant high importance, 2 - variable importance, 3 - usual importance

The tasks of constant high importance are associated with the provision of some information to high-priority subscribers, variable importance - with a strict program management of some processes. Usually, the same importance characterizes the tasks of a calculated nature that are not critical to the time of their implementation.

According to the degree of recoverability of information files (): 1 - impossible recovery, 2 - difficult recovery, 3 - easy recovery.

For the case of unconditional storage of information arrays, a special organization of the computational process is required, as well as additional performance and memory costs. Difficult restoration is inherent, for example, to tasks containing large data arrays and T0d0

By the degree of stationarity of the incoming task flow (): 1 - tasks with variable intensity, 2 - tasks with constant intensity, 3 - episodic tasks

For streams with variable intensity over time, the number of events that can occur on equal lengths of non-intersecting segments is different. In solving problems with a constant intensity, planning or forecasting for a certain period of time is not required. 0 Episodic problems are solved outside a rigid functional relationship with the usual

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operational mode of operation of the CPI ACS.

Analysis of the features of computer application of computing systems (VS) allows introducing the following modes of operation into consideration: V - mode of natural separation of time (resources), M & a mode of artificial division of time (resources), Vj - mode of natural separation of packets processing, V.- mode of artificial batch processing, Vg- - mode of parallelization of one task on n-computer, V6 - mode of parallel solution of one problem on p-computer

The principal distinctive feature of the natural time separation mode V is the objective possibility of reducing some process to sequential-parallel processing of information and making decisions according to a strictly defined scheme. The organization of this mode is based on the idea of quantizing continuous processes, which is based on the well-known Kotepnik theorem0 Mode V of artificial time (resource) separation can be defined as the most common mode that allows for any time period reat parallel-series solution of an arbitrary set of tasks in accordance with a predetermined operation of the organization's strategy on

The distribution of resources between the tasks assigned to the solution depends on the general idea of multiprogramming work, the priorities of the tasks, the characteristics of the subscribers, the emergencies arising in the system, and t, n, the flow of each new task to the system with the previously received requires redistribution of resources. - Ug mode has many modifications, which differ in the wide range of control methods used.

Modes V and V4 batch processing

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The mode of artificial batch processing V. is the process of implementing artificially formed sets of tasks that are not related to management and information. A feature of the mode is that in the process of implementing a package, tasks are not added to it and I do not exclude it from it. Obviously, for packages that are often implemented, it is advisable to apply an optimal scheduling procedure.

Modes Vj. and V6 are narrowly spaced. The Vs mode is implemented in order to reduce the time to solve the problem. It requires performing special transformations of the original algorithm, bringing it to the form of a parallel-parallel graph with subsequent implementation on the PC of the Vg system. The purpose of improving the reliability of the results and additional explanations does not require

After analyzing all the tasks according to the indicated characteristics and distributing them into subsets with consistent properties, for each subset it is possible to determine the required, acceptable and compatible modes of operation of the ACS ACS to ensure the effective implementation of the task flow.

The results of the analysis are shown in the table, where the use of any task property for the operation modes is indicated by one, and non-use by zero ,.

The device works as follows.

If it is necessary to select the mode of operation of the computing system, for each of the six characteristics of the classification of tasks, the corresponding key 2 is included. This turns on one or 45 several indicators 5-10, if it is possible to solve this problem using several modes of operation. For example, when entering the CPI computing system of tasks with

They have one common feature: the solution of any-50 with the following qualitative characteristics of a task and a package can be implemented as a one-time action. However, there are significant differences in the implementation of modes. The natural batching mode Vj provides for the implementation of packages of related tasks, and the formation of a package is carried out by situations that arise in the course of operation.

The tricks of 1-, 4-, 7-, 10-, 14-, 16th are closed by ticks: natural quantization, real-time scale, deterministic, constant high importance of difficult restoration and with variable intensity. In this case, all six inputs of only the second element And 4 receive resolving potentials, which

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The mode of artificial batch processing V. is understood as the process of implementing artificially formed sets of tasks that are not related to management and information. A feature of the mode is that in the process of implementing a package tasks are not added to it and are not excluded from it. Obviously, for packages that are often implemented, it is advisable to apply an optimal scheduling procedure.

Modes Vj. and V6 are highly specialized. The Vs mode is implemented in order to reduce the time to solve the problem. It requires performing special transformations of the original algorithm, bringing it to the form of a parallel-parallel graph, followed by PC implementation of the Vg mode. By withdrawal does not require

After analyzing all the tasks according to the indicated characteristics and distributing them into subsets with consistent properties, for each subset it is possible to determine the required, acceptable and compatible modes of operation of the ACS ACS to ensure the effective implementation of the task flow.

The results of the analysis are shown in the table, where the use of any task property for the operation modes is indicated by one, and non-use by zero ,.

The device works as follows.

If it is necessary to select the mode of operation of the computing system for each of the six characteristics of the classification of tasks, the corresponding key 2 is included. This turns on one or 5 several indicators 5-10, if it is possible to solve this problem using several modes of operation. For example, when entering the CPI computing system of tasks with

The tricks of 1-, 4-, 7-, 10-, 14-, 16th are closed by ticks: natural quantization, real-time, deterministic, constant high importance, difficult restoration and with variable intensity. In this case, all six inputs of only the second element And 4 receive resolving potentials, which

It triggers the element And, from the output of which the signal goes to the indicator 80 So, when the listed problems with different quality characteristics arrive at the CPI input for the computing system, it is necessary to select the artificial separation mode temporarily. The scheme works in the same way, if it is necessary arrival at the input of the CPI of the computing system of any other set of qualitative characteristics of the tasks of the incoming flow

Claims (1)

Invention Formula A device for modeling a computing system, containing six elements AND, voltage source, six elements OR, five keys, the output of the first key is connected to the first input of the first element AND and the first input of the first element OR, the output of the second key is connected to the first the input of the second element OR, the output of the first element OR is connected to the first input of the second element AND, the output of the third key is connected to the first input of the third element AND, the output of the fourth key is connected to the first input of the third element OR, the output of the fifth class Cha is connected to the first input of the fourth OR element, which is so that, in order to expand the scope of application by simulating the choice of operating mode of computer complexes, it additionally contains from the sixth to the eighteenth keys, from the seventh to the fourteenth elements OR and indicators Natural time sharing, and Artificial time sharing, Natural batch processing, Artificial batch processing, Task paralleling, Parallel solution of a problem, the inputs of which are connected With the outputs from the first to the sixth AND elements, the power inputs of all keys are connected to the output of the voltage source, the output of the first key is connected to the second input of the second OR element, the output of the second key is connected to the second input of the first OR element, the third key output is connected to the third input the second OR element and the first inputs of the fourth and fifth AND elements, the output of the fourth key is connected to the first input of the fifth OR element, the output of which is connected to the second input of the fifth AND element, the output of the fifth key is connected to the second m input of the third element OR and the second input of the fifth element OR, the output of the sixth key is connected to the second input of the fourth element AND, the third input of the third element OR and the second input of the fourth element OR, the output of which is connected to the second input of the third element AND, the third input of which the second input of the first element AND is connected to the output of the sixth element OR, the output of the second element OR is connected to the first input of the sixth element AND, and the output of the third element OR is connected to the third input of the first element AND, the second input to the second And the second input of the sixth element AND, the output of the seventh key. is connected to the third input of the fourth element AND, the third input of the fifth element AND, the first input of the sixth element OR and the first input of the seventh element OR whose output is connected to the third inputs of the second and sixth And, the output of the eighth key is connected to the second inputs of the sixth and seventh OR elements, and the output of the ninth key is connected to the third input of the seventh OR element, the output of the eighth OR element is connected to the fourth inputs of the first and sixth And elements, and the output the ninth element OR to the fourth input of the second element OR, the exit of the tenth key is connected to the first input of the ninth element OR, the second input of which and the first input of the eighth element OR are connected to the output of the eleventh key, and the output of the twelfth key is connected to the second input of the eighth element OR, the third input of the ninth element OR and the fourth inputs of the third, fourth and fifth elements AND, the output of the thirteenth key is connected to the first inputs of the tenth and eleventh OR elements, the outputs of which are combined and connected to the fifth inputs of the first, second and fifth elements AND, the output of the fourteenth key is connected to the second inputs of the tenth and eleventh OR elements, the third inputs of which are connected to the output of the fifteenth key and the fifth inputs of the third and fourth elements And, the output of the sixteenth key is connected with the first inputs of the twelfth and thirteenth elements OR, the second inputs of which, the first input of the fourteenth element OR and the sixth input of the first element AND are connected to the output of the seventeenth key, the outputs of the twelfth and thirteenth elements AND LI connected to the sixth inputs of the second and third elements, respectively, and the sixth inputs of the fourth, fifth and sixth elements of AND, are connected to the output of the fourteenth element OR, the second input of which and the third input of the twelfth element OR are connected to the output of the eighteenth key. M | N V, Vz J V3 V4 Vff J V, 2, s year B s  four t. & f five &. gyo . & &. four s five Ohno