JPS59117642A - System for allocating processing to computer - Google Patents

Abstract

PURPOSE:To equalize use rates of individual device to improve the processing efficiency, by determining processing requests and combinations of requests so that use efficiencies of individual devices of a system are balanced and processing them in the determined order. CONSTITUTION:A processing request accepting device 1 accepts pocessing requests and decodes identification numbers, processing mode and distinction, processing request, allowable values of start and end times, and precedence relations and stores them in a temporary preserving device 2. A priority determining device 3 determines priorities on a basis of these information. A supply processing request determining device 4 reads the use rate of a resource (n) from a device 8(n) and the allowable use rate of the resource (n) from a device 42; and if the allowable use rate is higher than the use rate, the device 4 decides a high- priority processing request. An index indicating the degree of unbalance of use rates of resources is calculated. The identification number of the processing request, for which the index value is minimum, out of all processing requests is transferred to a supply processing request list 41. Processing request supply devices 8 supply processing request information of the device 2 to a computer system 7.

Description

[Detailed description of the invention] [Field of application of the invention] The present invention relates to a method for allocating processing requests to computers.

[Prior art]

A computer system normally processes multiple processing requests (a processing unit such as a job step or a transaction 1 command is hereinafter collectively referred to as a processing request) at the same time (so-called multiple programming). However, since there is a limit to the number of processing requests that can be processed simultaneously, a queue of processing requests often forms in a computer system. However, for each processing request, each resource included in the computer system (central processing unit, main memory, various storage devices,
(input/output devices, etc.) usage is different. Therefore, depending on the order in which the processing requests in the above queue are submitted, the usage status of each resource of the computer system varies. ) are often significantly affected.

Conventionally, the priority regarding the input order of processing requests has been determined based on the processing type of the processing request (online processing, time sharing processing, bunch processing, etc.), the allowable value of the processing end or start time specified for each processing request, It was automatically determined based on the preceding relationship specified between processing requests. On the other hand, the above point (that is, the usage amount of each resource differs depending on the processing request, and therefore the processing efficiency of the computer system changes depending on the order in which the processing requests are submitted) was not taken into account when specifying the order of submission. In this conventional method,
There is a drawback that the processing efficiency of the computer system decreases because the usage rate of some resources may become excessive.

[Purpose of the invention]

An object of the present invention is to provide a means for solving the above-mentioned drawbacks of the prior art, reducing imbalance in usage rates among resources included in a computer system, and thus increasing processing efficiency.

[Summary of the invention]

The present invention is characterized in that the usage amount of each resource differs depending on the processing request,
We focused on two points: (1) and the point that processing efficiency improves by reducing the imbalance in the usage rates among resources, and from among the group of processing requests that can be submitted, processing that balances the usage rates among resources. The above object is achieved by providing an input processing request determining device for determining a request or a combination thereof, and inputting a processing request to this 1-.

[Embodiment 1 of the Invention] The present invention will be described in detail below with reference to Examples. The configuration of the embodiment is shown in FIG. 1 is a processing request reception device, which decodes the contents of each processing request that arrives at the computer system. 2 is a temporary storage device for processing requests, which stores the contents of accepted processing requests.

Among the registers included in 2, 2 (111) is an area for storing the identification number of the i-th processing request, and 2 (i, 2) is an area for storing the identification number of the processing request type (described later) to which the processing request belongs. 2(il3) corresponds to an area where the priority of the processing request is stored, and 2(i, 4) corresponds to an area where other instruction information necessary for executing the processing request is stored. Reference numeral 3 denotes a priority determination device that determines the priority regarding the order in which each processing request is submitted to the computer system. here,
Priority refers to the distinction between processing types (online processing, time sharing processing, batch processing, etc.), the allowable value of processing end or start time, the preceding relationship specified between processing requests,
Determined based on etc. 4 is a decision device for input processing requests, and at each point in time, the processing request with the highest priority is
If a plurality of requests are stored in the device 2, a processing request or a combination of processing requests is determined that reduces the imbalance in usage rates among the resources. Device 4 includes devices 41-43.

The device 41 stores identification numbers of processing requests that have been decided to be submitted in a list of submitted processing requests. Reference numeral 42 denotes an allowable usage rate/storage device that stores the allowable usage rate specified in advance for each resource n, n=l, and N. Here, the usage rate of any resource n represents the ratio of time that the resource is actually used or occupied within a certain period of time. Reference numeral 43 denotes an expected usage rate/storage device which stores the expected usage rate when a further processing request is submitted in addition to the current usage rate of each resource. Reference numeral 5 denotes a resource usage rate/storage device for each processing request type, which stores the usage rate of each resource according to each processing request type. Here, "paraprocessing request" means
"Processing request type" refers to all types of processing requests that can be handled by the computer system. It is assumed that a request corresponds to any one processing request type.In addition, as an index of the use of inferior sn by each processing request type, [the processing request The index is the time that the type uses resource nf] ÷ [total execution time of the processing request type]. Here, the total execution time of each processing request type,
The usage time of each resource can be determined by the following methods: (1) actually executing and measuring the processing request independently, (2) human estimation from design materials, etc. On the other hand, in the registers included in 5, 5 (t, 0), t
=1. L is an area for storing the identification number of the processing request type t; 5(t.

``)+''1gN respectively correspond to areas for storing the usage amount of resource n by processing request type t.

Reference numeral 6 denotes a processing request inputting device, which inputs the processing requests determined by 4 or a combination thereof to the computer system.

7 is a computer system, 7(nL n=1t N represents each resource included in 7. 8(n), n-1, and N are resource usage status measurement devices that measure the current usage rate of resource 7(n). Measure.

Among the above, the newly installed equipment according to the present invention is 4.
．． It is 41-43.5. Other devices are already included in conventional computer systems. In particular, the priority determining device 3 and the resource usage measuring device 8 are provided for the purpose of resource management.

Next, the operation of the embodiment configured as described above will be explained.

The processing request reception device 1 receives processing requests, and identifies the identification number of each processing request i, the processing form/distinction, the corresponding processing request/type, the allowable value of processing end or start time, and the interval between processing requests. The specified preceding relationship is decoded and transferred to the processing request temporary storage device 2. 2 is the first free register (
Now, this is referred to as i). That is, 2('11) is the identification number of the processing request i, 2('-2) is the processing request type of i, and 2(1°4).
Other instruction information necessary for executing the requested processing amount is stored in each of the sections. The priority determination device 3 has 2(i).

4) + n=x, 2. ..., at pre-specified time intervals, based on information stored in the processing format/distinction of each processing request i, tolerance for processing end or start time, preceding relationship between processing requests, etc. Alternatively, each time the computer system 7 completes execution of a certain number of processing requests, it calculates the priority of the processing request group stored in the device 2, and uses this result as 2! (j.

3) *'=t, 2. I remember it in... Here, the priority calculation method may be a method generally adopted by existing computer systems, and its explanation will be omitted. The input processing request determining device 4 determines the use of resource n from the device s('')+ '' = i +N at prespecified time intervals or each time the computer system 7 completes execution of a processing request. rate from device 42 to resource n.

n=1. Read the allowable utilization of N and determine for each n:

(Permissible usage rate of resource n)> (Usage rate of resource n) If the above holds true for all n, perform the operations listed below. If that happens, we don't have any resources to spare, so we will do nothing and wait.

(a) Determine the identification number of the processing request with the highest priority and the identification number of the processing request type from among the devices 2.

(b) Each unallocated processing request q included in the priority level
Do the following about First, the usage rate ρ, (q) of each resource n, n=l, N by the processing request q from the device 5 is calculated by the device 42.
The allowable usage rate ρr of each resource is determined by the device 43, and each resource n is
The expected usage rate ρt of each is read. Next, an index representing the degree of imbalance in usage rates among resources when the processing request q is submitted to the computer system is calculated. For example, the following formula is used as this index.

In the above formula, [ρr-ρ, s -p, (q)] is
The allowable usage rate of the resource n when the processing request q is submitted represents the degree of variation in the usage rate margin between each resource. Here, if ρnee ρI−ρ−(qKo, .

If there is even one n such that, by submitting the processing request, the usage rate of resource n becomes a bottleneck.
Since there is a risk that the overall processing efficiency will decrease, it will be excluded from the input processing request.

The above index is calculated for all processing requests included in the priority, and the processing request q that minimizes this index value is set to 1.
The user selects one and transfers this identification number to the input processing request list 41. Furthermore, each resource n stored in the device 43, n=
1. Add ρ (q apt ) to the expected utilization rate of N.

In the above, if for all processing requests, be ρ;-ρ, (qKOlo) for any resource n, proceed to (d).

(C) If there are unallocated processing requests included in the priority, return to (b). If so, return to (a) after lowering the priority level by one rank.

(d) The identification symbol of the processing request stored in the submitted processing request list 41 is transferred to the processing request submission device 8.

Next, the device 8 outputs the processing request information corresponding to the identification number of the processing request transferred from the device 4 from the device 2, and
Input it into the computer system 7.

〔Effect of the invention〕

As explained above, according to the present invention, it is possible to automatically determine a processing request or a combination thereof that reduces the imbalance in usage rates among resources included in a computer system, and to start execution from this processing request (group). do. Therefore, it is possible to reduce the imbalance in usage rates among resources, thereby increasing processing efficiency.

[Brief explanation of drawings]

FIG. 1 is a diagram showing a schematic configuration of an embodiment of the present invention. 1... Processing request receiving device, 2... Processing request temporary storage device, 2(i, x) to 2(i, 4)... i-th processing request in the register included in 2. Corresponding to 3...
・Priority determining device, 4... Determining device for input processing request,
41... Input processing request list, 42... Allowable usage rate/storage device, 43... Expected usage rate/storage device, 5...
・Resource usage of processing request type ・Storage device, 5 (t. n) t t=ir L+ rl=Q, N-・Register included in 5, 6...Processing request input device, 7...Computer System S 7(n)In=l, N...included in 7ti
us, 8(n)...Resource usage status measuring device corresponding to resource n.

Claims (1)

[Claims] 1. In the method of allocating processing requests to computers, the types of processing requests that can be handled by the computer and the estimated usage rate of each resource included in the computer according to each processing request type are determined in advance. a first area for storing, a second area for storing the allowable usage rate of each resource, and a third area for storing the priority of each processing request.
a first step of searching for a processing request (group) with the highest priority from the information in the third storage area; and a system for estimating the usage rate of each resource by each processing request type in the first storage area. Based on the value, the usage rate of each resource in the fourth storage area, and the allowable usage rate of each resource in the second storage area, from among the above processing requests (group), select one within the allowable usage rate of each resource. 1. A method for allocating processing to computers, comprising a second step of determining a processing request or a combination thereof that reduces the imbalance in usage rates between resources, and allocating the request to the computers. 2. In the method described in item 1 above, the index representing the imbalance in usage rates between each resource is determined by the sum of squares of the value obtained by subtracting the expected usage rate from the allowable usage rate of each resource. A method for allocating processing to computers.