KR101365562B1 - Multiple data-storage-system for having power-saving function using meta-data and method for power-saving thereof - Google Patents

Abstract

The present invention is a multi-data storage system configured to store a large amount of data, multiple data storage system having a power saving function using the metadata that can save the power consumption of the data storage system using the metadata and its It relates to a power saving method.
In the multiple data storage system having a power saving function using metadata according to the present invention and a power saving method thereof, a power control device, a data processing device, and a data storage means are configured to communicate with each other, and the data storage means is connected to the main storage means. And a storage means, wherein the data processing apparatus separately stores the data in the main storage means or the sub storage means according to the characteristics of the data provided from the terminal, generates, stores and manages metadata for the data, and controls the power. The apparatus is configured to determine the power saving mode based on the metadata stored in the data processing apparatus, and in the power saving mode, provide standby power to the sub storage means of the data storage means.

Description

Multiple data-storage-system for having power-saving function using meta-data and method for power-saving about

The present invention relates to a data storage system composed of multiple for storing a large amount of data, multiple data storage system having a power saving function using metadata that can save power consumption of the data storage system using metadata and It is about the power saving method.

In general, a data storage system is a database system, and includes a plurality of storage means.

At this time, the storage means is operated through the management of the metadata consisting of the index information of the data stored in the storage means.

Recently, with the rapid development of the Internet, the types and amounts of data stored in data storage systems are also increasing.

Accordingly, the storage means of the data storage system is also used to increase the number or to replace the storage means having a large capacity.

At this time, the data storage system is operated by setting a plurality of storage means always in the operating state in order to improve the efficiency of information provision and service provision quality.

However, since there are frequently used data and infrequently used data according to the usage environment or the kind of data, a method of always driving a plurality of storage means has a disadvantage of power consumption.

Accordingly, the present invention was created in view of the above circumstances, and analyzes the data type using metadata and classifies the data according to the analysis result to separate and store the data in the main data storage means and the sub data storage means. It is a technical object of the present invention to provide a multiple data storage system and method having a power saving function using metadata that can reduce power consumption while maintaining a service performance by performing a power saving function for a means.

In the multiple data storage system having a power saving function using metadata according to the first aspect of the present invention for achieving the above object, a power control device, a data processing device, and a data storage means are configured to communicate with each other, and the data storage means Is composed of a main storage means and a sub storage means, and the data processing apparatus separately stores and stores the metadata in the main storage means or sub storage means according to the characteristics of the data provided from the terminal, And the power control device determines a power saving mode based on metadata stored in the data processing device, and provides a standby power to the sub storage means of the data storing means in the power saving mode. Is distributed data and time work type for data provided from terminal. Data, main frequency data, and general data, wherein the distributed storage type data are distributed and stored in the main storage means and the sub storage means, the time-work type data is stored in the sub storage means, and the main frequency data is stored in the main storage. And general data is distributed and stored in the main storage means and the sub storage means according to the size of the data, wherein the main storage means and the sub storage means are each provided with a plurality of storage parts, In the multiple data storage system having a power saving function using metadata, characterized in that the data storage means comprises a plurality of main storage means and a plurality of secondary storage means,
The power controller checks metadata from the data processing apparatus in a normal operation state to determine whether to save power to the sub storage means, and at a time when data stored for any sub storage of the sub storage means is not read. Request power saving features for
When the data processing device receives a power saving function request from the power control device, the data processing device sends a power saving request message to the sub storage means based on this, and the sub storage means does not provide data reading and writing without providing data. Provided is a multiple data storage system having a power saving function using metadata, which is set in a standby state capable of transmitting and receiving data with a processing device.

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In addition, in the multi-data storage system according to the second aspect of the present invention for achieving the above object, a power saving method using metadata is configured in which the power control device, the data processing device, and the data storage means are communicatively coupled with each other. Means for the power saving method using the metadata of the data storage system consisting of the main storage means and the sub-storage means, which is stored separately in the main storage means or sub-storage means in accordance with the characteristics of the data provided from the terminal in the data processing apparatus; In addition, a first step of generating, storing and managing metadata for the corresponding data, and in the state where the first step is being performed, the power control device determines the power saving mode based on the metadata stored in the data processing device. In the power saving mode, the sub storage means of the data storage means And a second step of providing a circle, wherein the first step is an eleventh step of dividing the data provided from the terminal into distributed data, time-worked data, main frequency data, and general data. And distributing and storing the distributed storage data in the main storage means and the sub storage means, storing the time working data in the sub storage means, and storing the main frequency data in the main storage means. And a thirteenth step of distributing and storing the data in the main storage means and the sub storage means according to the size of the data, and the thirteenth step of generating and storing metadata about the data. Determining a power saving mode time for the sub-storing means by checking the metadata stored in the data processing apparatus; In step 22, the power control apparatus provides power saving request information to the data processing apparatus and requests the sub storage means to be set in the standby state, and the power control apparatus checks metadata to switch the sub storage means to the standby state. In the power saving method using metadata in a multiple data storage system, characterized in that it comprises a twenty-third step of providing standby power to the secondary storage means,
In step 21, the power control device requests a power saving function for a time period during which data stored in an arbitrary sub storage unit of the sub storage unit is not read.
In the twenty-third step, the standby state is a state in which the sub-storage means can transmit and receive data to and from the data processing device without providing data to the sub-storage means. A power saving method using data is provided.

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Further, in the twenty-third step of the present invention, the power control apparatus checks the metadata of the data storage means at regular intervals to determine whether the sub storage means is in a standby state.

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According to the present invention, the data storage means is composed of a main storage means which is always set to an operational state and a sub storage means capable of switching to a power saving state when necessary, and is separated into a sub storage means and a sub storage means according to data characteristics. In this case, the data storage means is operated by setting the sub storage means to the standby state when necessary.

Therefore, according to the present invention, it is possible to easily reduce the power consumption of the data storage means in a simple manner while maintaining the performance of the data storage system.

1 is a view showing a schematic configuration of a multiple data storage system having a power saving function using metadata according to the present invention.
2 is a view for explaining a power saving process using metadata of the multiple data storage system shown in FIG.
FIG. 3 is a diagram for explaining the operation of the data storage process shown in FIG.
FIG. 4 is a diagram for explaining the operation of the power control process shown in FIG.

Hereinafter, embodiments according to the present invention will be described with reference to the drawings. However, the embodiments described below are illustrative of one preferred embodiment of the present invention, and examples of such embodiments are not intended to limit the scope of the present invention. The present invention can be variously modified without departing from the technical idea thereof.

1 is a view showing a schematic configuration of a multiple data storage system having a power saving function using metadata according to the present invention.

As shown in FIG. 1, a multiple data storage system having a power saving function using metadata according to the present invention includes a power control apparatus 100, a data processing apparatus 200, a main storage means 310, and a sub storage means 320. Data storage means 300 is configured to be coupled to each other via a LAN (1).

In this case, the plurality of terminals 400 are coupled to the LAN 1. In this case, the terminal 400 may be connected to the data storage means 300 such as a user computer to store data or read data stored in the data storage means 300.

In addition, the data processing apparatus 200 includes metadata storage means 210 for storing metadata about data stored in each storage means in the data storage means 300, and the terminal 400. The metadata of the data provided from the data is analyzed and selectively stored in the main storage means 310 and the sub storage means 320. In addition, the data processing device 200 reads out data required from the terminal 400 from the data storage device 300 and provides the data to the corresponding terminal 400.

In addition, the data processing apparatus 200 classifies data required for storage from the terminal 400 according to data characteristics, and performs the conversion to the main storage means 310 or the power saving mode, which is always set to an operation state. The storage means 320 is stored.

On the other hand, the main storage means 310 and the sub-storage means 320 are each provided with a plurality of main storage and a plurality of sub storage. In addition, although not shown, the data storage system according to the present invention may be configured with a plurality of main storage means 310 and a plurality of sub-storage means (320).

In addition, the power control device 100 controls the power supply to the sub-storage means 320 that can save power in conjunction with the data processing device 200. At this time, the power control device 100 provides only standby power to the sub storage means 320, the sub storage means 320 is switched to the communication standby state that can transmit and receive a control signal with the data processing device 200 do.

Next, a power saving operation of the multiple data storage system having the above configuration will be described.

The power saving operation of the multiple data storage system according to the present invention is divided into a data storage process performed in the data processing apparatus 200 and a power control process performed in the power control apparatus 100 as shown in FIG. 3 illustrates a data storage processing operation, and FIG. 4 illustrates a power control processing operation.

1. Data storage process (Figure 3)

First, the data processing apparatus 200 analyzes data provided from the terminal 400 when a data storage request is received from the terminal 400.

In this case, the data processing apparatus 200 classifies and processes the data required for storage into the following items.

A. Distributed Storage Data

Data that has a high throughput and can be efficiently processed by being distributed to data storage means.

B. Time Work Data

Data that is read only at certain times

C. Frequency Data

Data that is frequently read. Distributed data is not needed, but data needs to be kept accurate when replicating data.

D. General Data

Data that does not define characteristics

In addition, the data processing apparatus 200 stores the corresponding data in the data storage means 300 corresponding to the classification item.

That is, the data processing apparatus 200 distributes and stores the A. distributed storage data in the main storage means 310 and the sub storage means 320 for the classified items, and B. the data for the time working data. C. Store the main frequency data in the main storage means 310, D. If the general data is large in size according to the size of the data, and the main storage means 310 When the storage means 320 is distributed and stored in a small size, the main storage means 310 is stored. A large amount of throughput in the category A can be arbitrarily determined by the user (for example, 1M to 10M or 10M or more), which is a user's option, and is frequently read in the category C (for example, Several times a day) can be specified, and data such as numbers, dates, etc., for which the accuracy needs to be maintained, can be specified, and the classification item D can specify data other than the classification items A, B, and C. The classification item is a matter that is arbitrarily determined by the user and is easily understood by those skilled in the art, and thus, further detailed description thereof will be omitted.

In this case, the data processing apparatus 200 does not perform the optimized distributed storage operation when the sub storage means 320 is stopped and started for the time-operated data. On the other hand, the data processing apparatus 200 performs an optimized distributed storage operation when the sub storage means 320 is stopped and started for the distributed storage type data and general data having a large distributed storage size. The optimized distributed storage operation is to optimize the distributed storage operation, and optimization is performed by an optimization software tool and the like, and thus a detailed description thereof will be omitted.

On the other hand, the data processing apparatus 200 when the storage of the data received from the terminal 400 is completed, generates the metadata for the data and stores the metadata in the metadata storage unit 210 metadata By controlling the operation for the data storage means 300.

That is, the data processing apparatus 200 classifies and stores the corresponding data in the data storage means 300 so as to correspond to the characteristics of the data.

2. Power Control Process (Figure 4)

First, as described above, in a state in which data is separately stored in the data storage device 300 according to its characteristics, the power control device 100 supplies power for driving to the data processing device 200 and the data storage device 300. To control.

In the normal operation state, the power control apparatus 100 checks the metadata from the data processing apparatus 200 to determine whether the power saving time is performed for the data storage means 300, more specifically, the sub storage means 320. . In this case, the power control apparatus 100 may request the data processing apparatus 200 for a power saving function for the sub storage unit stored in the sub storage unit 320. For example, the power control apparatus 100 may request a power saving function for a time period during which data stored for any sub storage unit of the sub storage unit 320 is not read.

In addition, when the data processing apparatus 200 receives a power saving function request from the power control apparatus 100, the data processing apparatus 200 performs power saving processing on the sub storage means 320. That is, the data processing apparatus 200 sends a power saving request message to the sub storage means 320, and the sub storage means 320 provides data with the data processing apparatus 200 without reading and writing data. Set to the standby state where transmission and reception are possible. In this case, the data processing apparatus 200 may request to provide a power saving function only to some sub storage units of the sub storage unit 320.

Subsequently, the data processing apparatus 200 updates the metadata of the sub storage means 320 which is in the power saving process and stores the metadata in the metadata storage 210.

In addition, the data processing apparatus 200 provides the metadata for the sub storage means 320 to the power control device 100, and the power control apparatus 100 based on this to the sub storage means 320. To control the power supply. For example, the power control device 100 provides only standby power to the secondary storage means 320 in the minimum standby state. At this time, the power control device 100 checks the metadata of the data processing apparatus 200 at regular intervals, thereby confirming the sub storage means 320 switched to the standby state, and waits for the sub storage means 320. It is also possible to control to provide power.

Subsequently, when it is determined that the power saving time ends, the power control device 100 provides the power saving end message to the data processing device 200. At this time, the data processing apparatus 200 confirms the power saving end time for the sub storage means 320 by checking the metadata for the sub storage means 320, and when the power saving end time is reached, the power saving end message is controlled. By providing the device 100, the power control device 100 can be performed to determine the power saving end time. In addition, the power controller 100 may periodically communicate with the data processing apparatus 200 to check the metadata of the sub storage means 320 to determine the power saving end time.

On the other hand, if the data processing device 200 receives the power saving end message from the power control device 100, by providing a normal operating power to the sub-storage means 320, based on this, the data storage system to switch to the normal state do.

That is, according to the embodiment, the data storage means is composed of a main storage means which is always set to an operational state and a sub storage means capable of switching to a power saving state when necessary, and according to the data characteristics, the main storage means and the sub storage. By storing separately in the means, the data storage means is operated by setting the sub storage means to the standby state if necessary.

Therefore, according to the present invention, it is possible to easily reduce the power consumption of the data storage means in a simple manner while maintaining the performance of the system.

100: power control device, 200: data processing device,
210: metadata storage means, 300: data storage device,
310: primary storage means, 320: secondary storage means,
400: terminal, 1: LAN.

Claims (8)

The power control device, the data processing device and the data storage means are configured to communicate with each other,
The data storage means is composed of a main storage means and a secondary storage means,
The data processing apparatus separates and stores the data in the main storage means or the sub storage means according to the characteristics of the data provided from the terminal, generates, stores and manages the metadata for the corresponding data.
The power control device is configured to determine a power saving mode based on metadata stored in the data processing device, and in the power saving mode, provide standby power to the sub storage means of the data storage means.
The data processing apparatus divides the data provided from the terminal into distributed storage data, time-work data, main frequency data, and general data,
The distributed storage data is distributed and stored in the main storage means and the sub storage means,
The time-operated data is stored in sub-storage means,
The main frequency data is stored in the main storage means,
The general data may be distributed and stored in the main storage means and the sub storage means according to the size of the data,
The main storage means and the sub storage means are each provided with a plurality of storage,
In the multiple data storage system having a power saving function using metadata, characterized in that the data storage means comprises a plurality of main storage means and a plurality of sub storage means,
The power controller checks metadata from the data processing apparatus in a normal operation state to determine whether to save power to the sub storage means, and at a time when data stored for any sub storage of the sub storage means is not read. Request power saving features for
When the data processing device receives a power saving function request from the power control device, the data processing device sends a power saving request message to the sub storage means based on this, and the sub storage means does not provide data reading and writing without providing data. Multiple data storage system having a power saving function using the metadata, characterized in that the standby state capable of transmitting and receiving data with the processing device. delete delete A power control device, a data processing device, and a data storage means are configured to communicate with each other, and the data storage means is a power saving method using metadata of a multiple data storage system composed of a main storage means and a secondary storage means.
A first step of separately storing the data in the main storage means or the sub storage means according to the characteristics of the data provided from the terminal in the data processing apparatus, and generating, storing and managing metadata about the corresponding data;
In the state where the first step is being performed, the power control apparatus determines the power saving mode based on the metadata stored in the data processing apparatus, and in the power saving mode, provides standby power to the sub storage means of the data storage means. Including a second step,
The first step may include an eleventh step of dividing the data provided from the terminal into distributed data, time-working data, main frequency data, and general data in the data processing apparatus;
The distributed storage type data is distributed and stored in the main storage means and the sub storage means, the time-working data is stored in the sub storage means, the main frequency data is stored in the main storage means, and the general data is the size of the data. According to the twelfth step of distributed storage in the main storage means and the secondary storage means;
A thirteenth step of generating and storing metadata about the data,
The second step may include a twenty-first step of determining, by the power control device, metadata stored in the data processing device to determine a power saving mode time for the sub storage means;
A twenty-second step of providing power saving request information to the data processing device when the power saving mode time is reached, and setting the sub storage means to a standby state;
The power control apparatus checks metadata and includes a twenty-third step of providing standby power to the sub storage means when the sub storage means is switched to the standby state. In the power saving method,
In step 21, the power control device requests a power saving function for a time period during which data stored in an arbitrary sub storage unit of the sub storage unit is not read.
In the twenty-third step, the standby state is a state in which the sub-storage means can transmit and receive data to and from the data processing device without providing data to the sub-storage means. Power saving method using data. delete delete 5. The method of claim 4,
In the twenty-third step, the power control apparatus checks the metadata of the data storage means at regular intervals to determine whether the sub storage means is in a standby state. delete

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