JPS62217352A - Search system for idle personal computer - Google Patents

Abstract

PURPOSE:To quickly give a job request to an idle personal computer by dividing plural personal computers receiving job requests into groups and reorganizing these groups according to the working efficiency. CONSTITUTION:The personal computers 10-14 receive job requests and personal computers 15 and 16 have job requests respectively. Here the personal computers 10-14 are divided into two groups, for example. Then multiple addresses are given to the personal computers of a group having the lowest working efficiency and the working states of these computers are reported when the computers 15 and 16 have job requests. Based on said report, the job request is given to an idle computer and at the same time the working computers are shifted to a group having high working efficiency. While the appropriate one of those computers of a group having high working efficiency is shifted to a group having low working efficiency. Thus a job request is quickly given to an idle personal computer by reorganizing the groups of personal computers in such a way.

Description

[Detailed Description of the Invention] [Summary] In a personal computer network system in which a large number of personal computers are connected via an 1ffl communication network and processes tasks by requesting each other to do something, The personal computers in the computer are divided into several groups and memorized, and when requesting a job, a broadcast is sent to the personal computers in the group that has the lowest operating rate, and each personal computer reports the processing status. In addition to requesting work to vacant personal computers, the operating personal combinators are moved to a group with a high operating rate, and the operating rate of appropriate personal combinators among the personal computers of the group determined to have a high operating rate is increased. By reorganizing the groups by operating rate so that the computer is moved to the group with the lowest operating rate and stored, requests for work to vacant personal computers can be made quickly.

[Industrial application field]

With the development and spread of personal computers and personal computer communication technology, these personal combinators are connected through communication lines to form a personal computer network, so that work can be outsourced to each other's available personal computers. Research is underway to make effective use of data and speed up work processing.

[Conventional technology]

There is still no established method for this kind of personal combination bib, and it would be difficult to apply the same method used in large printers as it is to the equipment. Since the method is also large and complicated, it is necessary to develop a simpler method.

Particularly in personal computer networks, where many personal computers are connected to a communication network, it is impossible to constantly monitor the operating status of each other's processors, unlike in computer networks consisting of large processors. When requesting work, it becomes necessary to search for personal computers that are not in operation.

[Problem that the invention seeks to solve]

SUMMARY OF THE INVENTION An object of the present invention is to provide a method for quickly searching for vacant parts in a network that are not being processed in order to request work.

[Means for solving problems]

The personal computer that requests work is equipped with a 4G device that stores groups of personal combinators divided by operating rate, and when requesting work, the personal computer that belongs to the group with the lowest operating rate is installed. Circulate a message to computers to report their operating status, request unoccupied personal computers to do the work, move personal computers that were in operation to a group with a high operating rate, and send an appropriate message within the group determined to have a high operating rate. move the personal computer to a group with a low operating rate and record it in the storage device ↑, a,
Groups are now reorganized based on utilization rate.

[For production]

According to the structure in Section F, in many cases, even if a message is broadcast to a group with a low operating rate, no free personal computers will be found, and the message will be sent to a group with a higher operating rate to report the operating status. However, each time you request a job, the groups according to the operating rate recorded in the 4a device are reorganized, and the group with the lowest operating rate is assigned the actual -L
Personal computers with a lot of free time will now belong to the group, and free personal computers can be searched for by simply sending a message to the group with the lowest operating rate.

This will be explained using a specific example.

There are 10 personal computers #1 to #10, which are divided into two groups of 5 computers each, the first and second groups. Initially, the first group #1 to #5 is the group with the lowest operating rate. When requesting work, a message is sent to the personal computers in this group to report the operating status.

On plywood, the operating rate of odd-numbered personal computers is 0%, and the operating rate of even-numbered personal computers 1-1 is 1.
The operation when set to 00% is not shown in the table below.

# in the first row of this table is the number of the personal computer, G is the group, ■ is the first group, ■(: [second group, → indicates the change of the group, and the numbers 1 to 5 are the number of the personal computer. Required for the first to fifth job
This is a broadcast that is 1'f. × in this column indicates that it is in operation, and ◯ indicates that it is vacant.

First, when the first job is requested, the operating status reported from personal computers #1 to #5 is #1.
, #3, #5 personal computers are idle, #
2. The personal computer #4 is in operation.

Assuming that the replacement between groups is done one at a time, the #2 personal computer that was in operation will be moved to the second group, and the #6 personal computer from the second group will be moved to the first group instead. .

The operating status reported in the second broadcast is #1, #
3. Since #5 is in an empty state and #4 and #6 are in an operating state, this time move #4 to the second group and #7 to the first group.

Therefore, the operating status reported in the third broadcast is #
Only #6 is in operation, and the others #I, #3, #5, and #7 are idle. As a result, #6 is replaced with #8 of the second group.

In response to the next broadcast, only #8 is in the active state, and the others #1, #3, #5, and #7 are in the idle state, so
This #8 will be replaced with #9 in the second group, so the next time you broadcast to request work, the group determined to have a low utilization rate will have #1, 3, 5, 7, 9 Personal computers assumed to have an operating rate of O belong to all of the odd-numbered personal computers, and the other group consists only of even-numbered personal computers whose operating rate is assumed to be 100%.

In the example in 2, the machines were replaced between groups one at a time, but it is also possible to replace two or more machines at a time.You can also set up three or more groups and scale their operating rates from low to high. If you send a message to the group with the lowest operating rate to request work, and all the personal computers in these groups are running, the next highest operating rate will be selected. Circulate the information to groups that have been determined to have low performance and have them report on the operating status.
If you replace the groups in the same way as in the case of the two groups above, the groups will be reorganized each time a broadcast is sent to request work, and the groups will be divided according to the operating rate determined at the beginning. It turns out.

〔Example〕

FIG. 2 is an embodiment showing the configuration of a personal computer according to the present invention having a function of requesting work to another personal computer.

When a request to request a job to another personal computer is given, for example, from an operator, the job requesting unit 1 sends the number of personal computers belonging to the group via the management unit 2 to each group determined by the operating rate. The table 3 consisting of the storage device that stores the call information such as the telephone number is accessed. A status report request signal is sent to the network I/work via the transmission/reception management section 5.

Each called personal computer returns its operating status, whether it is in operation or not, to the personal computer from which the call was made, as shown in FIG.

The personal computer that sent the request sends the received status message ■ from the bucket transmission/reception management section 5 to the status collection section G, and transfers the number of the personal computer in the vacant state to the job requesting section l to request a job. At the same time, the number of the operating Verso J/Monday 1 Videoter is transferred to the management section 2 for each group, and as explained in the previous section, the personal computer number of this number is transferred to the management section 2. The group table 3 is updated by moving the personal combo unit 1-1 with an appropriate number from that group to the group determined to have the lowest operating rate.

While this process of requesting work and collecting its status is repeated, personal combinations corresponding to the actual operating rate are assigned to groups with predetermined operating rates. , Send a status report request signal as described in l- to the group determined to have the lowest operation/r.
By doing this, you will be able to find available personal combiators who are available to request work.

In addition, it is possible to request multiple free personal computers by dividing the 41 tasks into one computer at the same time, and switching between groups will result in a higher utilization rate than all personal computers that have been reported to be in operation. By replacing the status report request signal with one from a group determined to be high, it is possible to reduce the number of times the status report request signal is sent until an appropriate group is formed.

In addition, if a personal computer is requested to report status B, it does not just indicate whether it is running or not, but also information such as the amount of free memory, the content of work that can be processed, and the presence or absence of an operator. 1. For example, the sender's personal computer that makes the request will make the request based on the job it is requesting and the information reported. It is possible to select a suitable partner personal combination.

〔Effect of the invention〕

Personal duos who may be able to request work, 1.
-Initially, the actual I-
Since groups are organized according to the operating rate of personal computers, there is no need to perform strict grouping from the beginning, and even if the operating rate of a personal computer has changed significantly for some reason, it can be moved to an appropriate group. Therefore, if the present invention is applied between personal computers in an in-house local area network, the personal combinator can be used effectively.

[Brief explanation of drawings]

FIG. 1 is a block diagram showing the principle of the present invention, and FIG. 2 is a block diagram showing the main parts related to the present invention of a personal computer that requests work. In FIG. 1, 10 to 16 are personal computers, 20 is a communication network, and 3 is a group table. In FIG. 5 is a status information requesting unit, 5 is a bucket transmission/reception management unit, and 6 is a status collecting unit.

Claims (1)

[Scope of Claims] A personal computer network system consisting of a large number of personal computers (10 to 16) and a communication network (20), in which at least one personal computer can request work from another personal computer. In, Personal computer requesting work (15, 16)
In this case, the personal computers that can process the work requested from this personal computer are divided into several groups and stored as multiple groups, and when requesting work, the computer with the lowest operating rate is selected. It broadcasts a message to personal computers in a predetermined group to have the personal computers belonging to this group report their operating status, requests work to unoccupied personal computers, and transfers operating personal computers to a group with a high operating rate and stores them. In a personal computer network system, the free space in a personal computer network system is characterized in that appropriate personal computers in a group determined to have a high utilization rate are moved to a group with a low utilization rate and stored, thereby updating these groups. Personal computer exploration method.