JP2001296973A - System and method for accessing storage device - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a system and method for accessing a storage device, which accelerates an access processing by improving the access processing efficiency. SOLUTION: In this access system 1, the interval period of the access processing of high priority is detected, the data quantity of low-order accessing processing which can be carried out in an interval time is calculated, and then the low-order access processing is carried out within the interval period. When a data quantity which has to be carried out in the low-order access processing is smaller than a data quantity which can be carried out in the interval time, the data quantities of the other low-order access processing which can be carried out in a time for the portion of excess in the interval time are calculated, and then these low-order access processing is carried out within the interval period.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

[0001] 1. Field of the Invention [0002] The present invention relates to a storage device access system and an access method for executing a plurality of access processes on a single storage device.

[0002]

2. Description of the Related Art Conventionally, when a plurality of access processes are requested for a single storage device (memory), the access processes are switched based on the priority of each access process. When performing access processing in this way, switching to access processing with higher priority is delayed,
For example, in the invention described in Japanese Patent Application Laid-Open No. 64-1043, the access processing is performed by a predetermined unit access time (eg, an integral multiple of the minimum access time). It has been proposed to remove the above-mentioned adverse effects by executing the process for each unit access process divided by.

[0003]

However, the conventional access method as described above requires an overhead time for switching the divided unit access processing. Therefore, a period having a high priority such as a print job is required. When there is a typical access process, there is a problem that the access process efficiency is reduced.

That is, in the conventional access method as described above, as shown in a time chart of FIG. 7, there are a periodic access 1 having a higher priority and a lower access 2 and a lower access 2. Is the unit access time t
_{In the} case where the unit access process is divided into a plurality of unit access processes _d , it is determined whether a request for a higher-order access 1 has been made in access 2 when one unit access process is completed. If not, the next unit access process will be executed. Accordingly, as shown in FIG. 7, the overhead time t _s when switching the unit access processing is required, correspondingly lower access 2 execution was to become delayed.

SUMMARY OF THE INVENTION The present invention has been made in view of the above problems, and has as its object to provide an access system and an access method for a storage device capable of improving access processing efficiency and performing access processing quickly. And

[0006]

SUMMARY OF THE INVENTION A storage device access system according to the present invention is a storage device access system for executing a plurality of access processes on a single storage device. A priority detection means for detecting, an interval detection means for detecting an interval period from a process interruption to a process resumption in a periodic access process having a higher priority among a plurality of access processes, and a plurality of access processes. A data amount calculating means for detecting a lower access process having a lower priority than the periodic access process and calculating a data amount of the lower access process executable within the interval period; , Access processing control to execute lower access processing for the calculated data amount within the interval period Characterized in that it comprises a stage.

Further, according to a storage device access method according to the present invention, in a storage device access method for switching a plurality of access processes to a single storage device, a priority for detecting a priority order of a plurality of access processes is provided. A rank detecting step, an interval detecting step of detecting an interval period from a process interruption to a process resuming in a periodic access process having a higher priority among a plurality of access processes; A lower-level access process having a lower priority than the lower-level access process, and a data amount calculation step of calculating a data amount of the lower-level access process that can be executed within the interval period; and performing a periodic access process. Access control control that executes lower-level access processing for the Tsu, characterized in that it comprises a flop.

According to these inventions, after detecting the interval period of the periodic access process having the higher priority, detecting the lower access process and calculating the amount of data executable within the interval period , Perform periodic access processing, and perform lower-order access processing within the interval period. That is, in order to adjust the data amount of the lower access process that can be executed within the interval period according to the interval period of the upper periodic access process, the overhead time when switching the process is minimized, The operation rate of the storage device can be improved. Therefore, the access processing efficiency can be improved and the access processing can be performed quickly.

In the access system for a storage device, the data amount calculating means may include, when the data amount to be executed in the lower-order access processing is smaller than the data amount executable in the interval period,
Detecting another lower access process having a lower priority than the periodic access process, calculating the data amount of the other lower access process that can be executed within a surplus period of the interval period, It is preferable to execute the lower access processing for the calculated data amount and other lower access processing within the interval period.

In the above-mentioned storage device access method, in the data amount calculation step, if the amount of data to be executed in the lower-order access process is smaller than the amount of data executable in the interval period, a plurality of access processes are executed. The other lower-level access processing having a lower priority than the periodic access processing is detected, and the data amount of the other lower-level access processing that can be executed within a surplus period of the interval period is calculated. In the step, it is preferable to execute lower access processing for the calculated data amount and other lower access processing within the interval period.

According to these inventions, when the amount of data to be executed in the lower-level access processing (ie, the amount of data not yet executed in the lower-level access processing) is smaller than the amount of data executable in the interval period. After detecting other lower-level access processes and calculating the amount of data that can be accessed within a surplus period of the interval period, the periodic access process is executed, and the lower-level access processes are performed within the interval period. Execute access processing. That is,
Even if the interval period is left, the data amount of the other lower-level access processing is adjusted according to the surplus period of the interval period, so that the storage device is effectively used without play. Can be. Therefore, even when there are a plurality of lower-level access processes, the access process efficiency can be improved and the access process can be performed quickly.

[0012]

BRIEF DESCRIPTION OF THE DRAWINGS FIG.
An embodiment of a storage device access system and an access method according to the present invention will be described in detail. In the description of the drawings, the same or corresponding elements will be denoted by the same reference characters, without redundant description.

First, the configuration of the access system of the storage device according to the present embodiment and the basic operation of each element will be described with reference to the block diagram shown in FIG. The access system 1 includes a control unit 2, an interval detection unit 3, an access processing management unit 4, and a buffer (Buf).
fer) 5 and a hard disk drive (HDD) 6
, A priority detection unit 7, a job attribute management unit 8, a job attribute detection unit 9, a file attribute management unit 10, and a file attribute detection unit 11.

Here, each element except the control unit 2 is a control unit 2
And a signal line, and the control unit 2 and each element can mutually transmit and receive various signals. The HDD 6 is connected to the buffer 5 via a signal line, and can perform a process of writing data to a memory stored in the buffer 5 and a process of reading data from the memory. I have.

In the access system 1, data is written to the memory stored in the buffer 5, or
When a job for reading data from the memory is started, the control unit 2 detects an attribute (for example, a print job or a scan job) of the job by the job attribute detection unit 9 and a file attribute detection unit 11. Written to memory by the job, or
Attribute information (file name, data type, number of data, data amount, etc.) of data read from the memory is detected. The interval detection unit 3 refers to an interval table (see FIGS. 2A and 2B) preset according to the type of job and the data amount, and determines the access time and interval time of each job. Detect.
The job attribute information, file attribute information, interval time information, etc. detected in this way are stored in an access queue for adjusting the access time by the job attribute management unit 8, the file attribute management unit 10, and the access processing management unit 4, respectively. (See FIG. 3).

After the registration of the access queue, the access processing management unit 4 which has received an instruction to execute the access processing from the control unit 2 transmits information relating to the preset priority (in this embodiment, prints from the top. Job, a scan job, and a fax transmission / reception job), the priority detection unit 7 detects the priority, and requests the HDD 6 to start access processing from the job with the highest priority.

Next, with reference to the flow chart shown in FIG. 4 and the time charts shown in FIGS. 5 and 6, a method of controlling access processing using the storage system access system according to the present embodiment (interval period of a print job) (A method of adjusting the data amount of a scan job or the like to be executed within the printer) is described. In the present embodiment, an example will be described in which three jobs, a print job (access 1), a scan job (access 2), and a facsimile transmission / reception job (access 3) are requested to the access system 1.

When it is determined that the print job (access 1) has been interrupted and has entered the interval period (step 1, hereinafter abbreviated as S1), the interval time is derived from the access queue, and the time interval is derived. An access process that can be executed is detected (S2). Here, if there is no executable access process, the process ends. However, in the present embodiment, there is a scan job (access 2) and the like in addition to the print job (access 1).
It is determined that there is an access process that can be executed in step (1), and a job executed in the interval period (a scan job in the present embodiment) is detected.

After the job executed within the interval period is detected, the access rate of the scan job (access 2) is derived from the interval table (S).
4). Here, the access rate is a value indicating how much data amount can be accessed per unit time (see FIG. 2). The access rate is multiplied by an interval time derived from the access queue to obtain an interval. The data amount of the scan job (access 2) accessible during the period is calculated (S5).

After the accessible data amount is calculated,
Scan Job in Access Queue (Access 2)
Then, the remaining data amount to be accessed (the total data amount of the scan job when no scan job access processing is performed) is compared with the data amount calculated in S5 (S6). By this comparison (S7),
If it is determined that the remaining data amount of the scan job to be accessed is large, the access processing for all the data of the scan job cannot be completed during the current interval period, so the remaining data amount that cannot be accessed this time (that is, A value obtained by subtracting the data amount calculated in S5 from the remaining data amount to be registered) is registered in the access queue (S8), and access processing is executed only for the data amount calculated in S5 (S9).

On the other hand, if the comparison in S7 determines that the remaining data amount of the scan job to be accessed is equal to or smaller than the data amount calculated in S5,
Since the access processing of all the data of the scan job can be completed during this interval period, 0 is registered in the remaining data amount column of the access queue (S8 '), and the access processing of all the remaining data of the scan job is performed. It is executed (S9 '). After the execution of this access processing, if it is still within the interval period (that is, if the interval period remains), the process returns to S2 to detect an access process that can be executed within the surplus period, If it is determined in S3 that there is an executable access process, a job (FAX transmission / reception job in the present embodiment) executed within the remaining interval period is detected. Then, after S4, the same operation as described above is performed.

In the access processing control method according to the present embodiment, the above operation is repeatedly performed in each interval period of the print job (access 1), and a plurality of access processings are performed. FIG. 5 and FIG. 6 are examples of time charts showing each access process performed in this manner. In these time charts, a peak indicates that an access process is being performed, and a valley indicates an interval period or an access processing waiting period. FIG. 5 shows an example in which the scan job (access 2) has just finished during the interval of the print job (access 1).
Shows an example in which the scan job (access 2) is completed in the middle of the interval period of the print job (access 1), and the fax transmission / reception job (access 3) is subsequently performed.

As is clear from the time charts shown in FIGS. 5 and 6, according to the access system and the access method of the storage device according to the present embodiment, the operation rate of the memory can be improved, and the priority order can be improved. Even lower-level access processing can be executed quickly.

It should be noted that the access system and the access method of the storage device according to the present invention are not limited to the embodiments described in the above embodiments, but can take various modifications in accordance with other conditions and the like. It is. Further, in the above-described embodiment, the case where the periodic access processing with a high priority is a print job has been described. However, the storage device according to the present invention can be applied to the case where other periodic access processing is performed. Access system and access method can be applied.

[0025]

As described above, according to the access system and the access method for a storage device according to the present invention, the access processing efficiency can be improved and the access processing can be performed quickly.

[Brief description of the drawings]

FIG. 1 is a block diagram of a storage device access system according to an embodiment;

FIG. 2 is a table showing an example of an interval table used in the storage device access method according to the embodiment;

FIG. 3 is a table showing an example of an access queue used in the storage device access method according to the embodiment;

FIG. 4 is a flowchart illustrating a control method of access processing using the access system of the storage device according to the embodiment;

FIG. 5 is a time chart illustrating an access process using the access method of the storage device according to the embodiment;

FIG. 6 is a time chart illustrating an access process using the access method of the storage device according to the embodiment;

FIG. 7 is a time chart showing an access process using a conventional access method.

[Explanation of symbols]

DESCRIPTION OF SYMBOLS 1 ... Access system, 2 ... Control part, 3 ... Interval detection part, 4 ... Access processing management part, 5 ... Buffer (Bu)
hard disk drive (HDD),
7: priority detection unit, 8: job attribute management unit, 9: job attribute detection unit, 10: file attribute management unit, 11: file attribute detection unit

Claims (4)

[Claims] 1. An access system for a storage device that executes a plurality of access processes on a single storage device, wherein: a priority detection unit that detects a priority of the plurality of access processes; An interval detecting means for detecting an interval period from the interruption of the process to the resumption of the process in the periodic access process having a higher priority; and a lower priority than the periodic access process among the plurality of access processes. A data amount calculating unit that detects a lower-order access process and calculates a data amount of the lower-order access process that can be executed within the interval period; and executes the periodic access process, and calculates a data amount corresponding to the calculated data amount. Access processing control means for executing the lower-level access processing within the interval period. Access system memory device according to claim. 2. The method according to claim 1, wherein the data amount calculation unit is configured to execute the periodic access processing in the plurality of access processes when the data amount to be executed in the lower access processing is smaller than the data amount executable in the interval period. Detecting another lower access process having a lower priority than the other access process, calculating the data amount of the other lower access process that can be executed within a surplus period of the interval period, 2. The storage device access system according to claim 1, wherein the lower access processing and the other lower access processing for the calculated data amount are executed within the interval period. 3. An access method for a storage device that executes a plurality of access processes on a single storage device, wherein: a priority detection step of detecting a priority of the plurality of access processes; An interval detecting step of detecting an interval period from the interruption of the process to the resumption of the process in a periodic access process having a higher priority; and a lower priority than the periodic access process among the plurality of access processes. A data amount calculating step of detecting a lower-order access process and calculating a data amount of the lower-order access process executable within the interval period; and performing the periodic access process, An access processing control step of executing the lower access processing within the interval period; Access method of a storage device, characterized in that it comprises. 4. The data amount calculating step, wherein when the amount of data to be executed in the lower-level access process is smaller than the amount of data executable in the interval period, the periodicity of the plurality of access processes is Other lower-level access processing with a lower priority than
Calculating a data amount of the other lower-level access process that can be executed within a surplus period of the interval period; and in the access process control step, the lower-level access process and the other lower-level process for the calculated data amount are performed. 4. The access method for a storage device according to claim 3, wherein the access processing is performed within the interval period.