KR101695718B1 - Data center and server management apparatus and method for managing server thereof - Google Patents

Abstract

The present invention relates to a server management apparatus for managing a data center and its servers. The server management apparatus of the present invention generates a virtual server based on a resource utilization rate, and controls the physical server to sequentially boot and use the physical server according to the resource utilization rate. This allows the server management device to efficiently use the resources of the data center and reduce the power consumed in the data center.

Description

DATA CENTER AND SERVER MANAGEMENT APPARATUS AND METHOD FOR MANAGING SERVER THEREOF FIELD OF THE INVENTION [0001]

The present invention relates to a distributed data center, and more particularly, to a data center, a server management apparatus, and a server management method for managing a physical server and a virtual server in a geographically dispersed cloud data center.

The data center is a facility equipped with computer systems, communication equipment, and storage devices. Data centers require large amounts of power as a core infrastructure for storing and distributing big data. These data centers use large-scale power and have power generation facilities to provide stable services even in the event of a power outage. Data centers that rely heavily on these power plants are experiencing pollution problems such as diesel emissions. To increase the efficiency of energy use of these data centers and to reduce greenhouse gas emissions, there is a tendency to operate a distributed data center operating locally in a small data center.

However, existing data centers are not able to dynamically operate physical servers depending on the usage rate of physical resources. In other words, all physical servers that are not used at a particular point in time are running. Such a data center operation method has a problem in that it can not efficiently use resources such as a physical server, and consumes enormous power.

It is an object of the present invention to provide a data center, a server management apparatus, and a server management method thereof that can efficiently use physical resources in a data center and reduce power consumption.

A data center according to the present invention includes a physical server monitor unit for collecting information on a resource utilization rate of a booted physical server, a virtual server monitor unit for collecting information on a resource utilization rate of a virtual server configured in the physical server, A virtual server management unit for controlling the virtual server to create a new virtual server in the physical server where the virtual server is located if the resource usage rate of the server exceeds a preset threshold value; And a physical server management unit for controlling the physical server to boot other physical servers.

In this embodiment, the server management apparatus is connected to a plurality of data centers, and each of the plurality of data centers includes a plurality of physical servers.

In this embodiment, the virtual server management unit includes a resource information threshold processing unit in which a threshold value for the resource utilization rate of the virtual server and the physical server is set.

In this embodiment, when the resource utilization rate of the physical server exceeds a preset threshold value and the other physical server is booted, the virtual server management unit controls to create the new virtual server in the other physical server do.

A data center according to the present invention includes a plurality of physical servers, a physical server resource management unit for measuring a resource utilization rate for a booted physical server, a virtual server resource management unit for measuring a resource utilization rate of a virtual server created in the physical server, A virtual server creation unit for creating a new virtual server by requesting creation of a new virtual server in the server, and a physical server operation control unit for controlling the booting of a new physical server by a boot request of a new physical server among the physical servers .

In this embodiment, the data center transmits information on resource utilization rates of the physical servers and the virtual server to the server management apparatus connected to the data center, And receives a boot request of the new physical server.

In this embodiment, the virtual server creation unit creates the new virtual server in the new physical server when the new physical server is booted.

In this embodiment, the boot request of the new physical server is received by the physical server to be newly booted when the resource utilization rate of the booted physical server exceeds a preset threshold value.

A server management method of a server management apparatus according to the present invention includes the steps of receiving information on a resource utilization rate of a booted physical server, controlling the booting of another physical server when the resource utilization rate of the physical server exceeds a preset threshold value Receiving information on a resource utilization rate of a virtual server generated in the physical server, and controlling, when a resource utilization rate of the virtual server exceeds a predetermined threshold value, generating a new virtual server And the server management apparatus is connected to a data center including a plurality of physical servers.

In this embodiment, the step of controlling to create the new virtual server includes the steps of controlling the physical server to generate the new virtual server when the physical server does not exceed a predetermined threshold value, Controlling the other physical server to generate the new virtual server when the other physical server is booted due to exceeding a preset threshold value.

A method for managing a server in a data center according to the present invention includes the steps of creating a virtual server in a physical server booted by a virtual server creation request, measuring a resource utilization rate of the booted physical server, To the server management apparatus; booting a new physical server when booting of a new physical server is requested from the server management apparatus; measuring a resource utilization rate of the created virtual server; To the server management apparatus, and when the server management apparatus is requested to create a new virtual server, generating a new virtual server.

In this embodiment, the step of creating a new virtual server includes creating the virtual server in the physical server if the new physical server is not booted, and if the new physical server is booted, And creating the virtual server.

The server management apparatus of the present invention creates and manages a virtual server in a physical server, which is a resource of data centers, and boots and uses physical servers one by one through monitoring of resource utilization rates, thereby efficiently using physical resources of the data center, The power consumption of the center can be reduced.

Figure 1 illustrates a distributed data center according to an embodiment of the present invention;
FIG. 2 illustrates a connection structure of a data center through a switch according to an embodiment of the present invention; FIG.
FIG. 3 illustrates a concept of dividing a physical server of a data center into virtual servers according to an embodiment of the present invention; FIG.
4 is a diagram exemplarily showing an operation of creating a virtual server in a physical server according to an embodiment of the present invention;
FIG. 5 illustrates a message exchanged between a server management apparatus and a data center according to an embodiment of the present invention; FIG.
6 is a diagram illustrating a server management apparatus according to an embodiment of the present invention.
Figure 7 illustrates a data center according to an embodiment of the present invention;
8 is a diagram illustrating an exemplary operation of a server management apparatus according to an embodiment of the present invention, and Fig.
9 is a diagram illustrating an exemplary operation of a data center according to an embodiment of the present invention.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings. In the following description, only parts necessary for understanding the operation according to the present invention will be described, and descriptions of other parts will be omitted in order to avoid obscuring the gist of the present invention.

The present invention provides a data center, a server management apparatus and a server management method thereof that can efficiently use physical resources of a data center and reduce power consumption.

1 is a diagram illustrating a distributed data center according to an embodiment of the present invention.

Referring to FIG. 1, a distributed data center 10 includes a server management apparatus 100 and data centers 210, 220, 230, and 240.

The server management apparatus 100 is connected to a plurality of data centers 210, 220, 230, and 240 via the Internet. The server management apparatus 100 can manage servers (e.g., a physical server or a virtual server) within a plurality of data centers 210, 220, 230, and 240 via the Internet. Here, the virtual server is a virtual server implemented in the physical server.

Each of the data centers 210, 220, 230, and 240 may be connected through the Internet, and may manage internal servers through the control of the server management apparatus 100. At this time, each of the data centers 210, 220, 230, and 240 supplies power by booting servers for providing services when service is required according to the control of the server management apparatus 100.

Accordingly, the data centers 210, 220, 230, and 240 do not need to supply power to all the internal servers, so that the physical resources can be efficiently used and power consumption can be reduced.

2 is a diagram illustrating a connection structure of a data center through a switch according to an embodiment of the present invention.

2, the data center 210 includes an aggregation switch 211, access switches 212 and 213, and a TOR (Top Of Rack) switch 214, 215, 216).

The data center 210 also includes a plurality of racks including physical servers or storage.

The aggregation switch 211 is connected to the access switches 212 and 213 in the data center 210 and provides communication to the Internet.

The access switches 212 and 213 are connected to the ThioAr switches 214 and 215 and 216 and connect the ThioAr switches 214 and 215 and 216 to the grounding switch 211.

The thiol switches 214, 215, 216 are located in each of the racks and are connected through access switches 212, 213.

Through the switches 211 to 216, a network is configured so that each rack of the data center 210 can communicate with external users via the Internet.

Here, the data center 210 is illustrated as an example, and other data centers 220, 230, and 240 may have a structure similar to the data center 210.

3 is a diagram illustrating a concept of dividing a physical server of a data center into virtual servers according to an embodiment of the present invention.

Referring to FIG. 3, the data center 210 may create and operate virtual servers, such as several servers, for each physical server. For example, a hypervisor such as a KVM or a Xen can be used to create and operate one physical server 311 as if it were a plurality of servers.

In this way, the data center 210 can reduce the waste of physical resources. In addition, the data center 210 can be utilized as servers providing a variety of services by installing a plurality of operating systems to one physical server 311.

4 is a diagram illustrating an operation of creating a virtual server in a physical server according to an embodiment of the present invention.

Referring to FIG. 4, physical servers 311 and 312 are shown.

The server management apparatus 100 generates a first virtual server VS1 for providing a specific service in the first physical server 311 and provides a service. Then, the server management apparatus 100 monitors the status of the resources of the first virtual server VS1. When the performance of the first virtual server VS1 deteriorates, the server management apparatus 100 sequentially generates the second virtual server VS2, the third virtual server VS3, and the fourth virtual server VS4, And distributes the services to the servers (Scale-Up). That is, when the performance of the second virtual server VS2 deteriorates, the third virtual server VS3 is created. Thereafter, when the performance of the third virtual server VS3 deteriorates, the fourth virtual server VS4 is generated.

At this time, the server management apparatus 100 monitors the resource status of the first physical server 311 as well. If the resources of the first physical server 311 are insufficient, the server management apparatus 100 boots the new second physical server 312 (Scale-Out), and the virtual servers (for example, The fifth virtual server VS5) as in the first physical server 311.

Accordingly, the server management apparatus 100 does not need to boot all the physical servers that are not provided with the actual service based on the current point in the data center. In addition, when the server management apparatus 100 requires a physical server, the server management apparatus 100 can have a large power saving effect by sequentially booting.

5 is a diagram illustrating a message exchanged between a server management apparatus and a data center according to an embodiment of the present invention.

Referring to FIG. 5, the server management apparatus 100 may monitor and manage four distributed data centers 210, 220, 230, and 240. To this end, the server management apparatus 100 receives a Resource Monitor (Resource_Monitor) message from the data centers 210, 220, 230,

Each of the data centers 210, 220, 230, and 240 monitors resource information of the physical servers and virtual servers to transmit a resource monitor message to the server management apparatus 100. Here, the resource information to be monitored includes a central processing unit (CPU) usage rate, a memory usage rate, a disk usage rate, and the like. Each of the data centers 210, 220, 230, and 240 transmits a resource monitor message including the monitored resource information to the server management apparatus 100.

The server management apparatus 100 confirms the resource information included in the resource monitor message and transmits a Scale_Up message for adding a new virtual server to the same physical server when the preset threshold value is exceeded, And transmits a Scale_Out message to the data centers 210, 220, 230, and 240 to boot the new physical server.

The server management apparatus 100 may use a wake-on-LAN (WOL) technology to boot a new physical server in the data centers 210, 220, 230, Can be used. Here, WOL technology is a combination of hardware technology and software technology for waking up a system in a sleep mode. To this end, the WOL technology uses a network packet coded as a Magic Packet. Although the WOL technology operates in the sleep mode, the network interface card (NIC) continues to receive power and waits for reception of a magic packet from the network. The physical server performs the boot operation by receiving the magic packet.

Such a magic packet may be delivered using a connectionless protocol such as UDP or IPX.

6 is a diagram illustrating a server management apparatus according to an embodiment of the present invention.

6, the server management apparatus 100 includes a physical server monitoring unit 110, a virtual server monitoring unit 120, a virtual server managing unit 130, a physical server managing unit 140, and a resource information thresholding processing unit 150 ). Here, the server management apparatus 100 can monitor data centers and manage data centers.

The physical server monitoring unit 110 transmits a command message for monitoring the physical server to the data centers. Thereafter, the physical server monitoring unit 110 receives monitoring results from the data centers. Accordingly, the physical server monitoring unit 110 is provided with information on the resource information of the physical server, that is, the resource utilization rate. The physical server monitoring unit 110 provides the physical server management unit 140 with information on the resource utilization rate of the physical server received from the data centers.

The virtual server monitoring unit 120 transmits a command message for monitoring the virtual server to the data center. Thereafter, the virtual server monitoring unit 120 receives monitoring results from the data centers. Accordingly, the virtual server monitoring unit 120 is provided with information on the resource information of the virtual server, that is, the resource utilization rate. The virtual server monitoring unit 120 provides the virtual server managing unit 130 with information on the resource utilization rate of the virtual server received from the data centers.

The virtual server management unit 130 receives a threshold value of the resource usage rate for the virtual server set in the resource information threshold processing unit 150. [ The virtual server management unit 130 compares the resource usage rate of the virtual server received through the virtual server monitoring unit 120 with a threshold value. The virtual server management unit 130 controls the creation operation of a new virtual server in the same physical server when the resource usage rate of the virtual server exceeds the threshold value. To this end, the virtual server management unit 130 transmits the scale-up message to the corresponding data server.

The physical server management unit 140 receives a threshold value of the resource usage rate for the physical server set in the resource information threshold processing unit 150. [ The physical server management unit 140 compares the resource usage rate of the physical server received through the physical server monitoring unit 110 with a threshold value. The physical server management unit 140 controls the booting operation of the physical server so that one new physical server is booted when the resource utilization rate of the physical server exceeds the threshold value. To this end, the virtual server management unit 130 transmits a message to boot the new physical server to the corresponding data server. For example, the physical server management unit 140 may boot the physical server using the above-described WOL message (e.g., magic packet, etc.).

The resource information threshold value processing unit 150 stores threshold values of resource utilization rates for generating a new physical server and a new virtual server. The resource information threshold value processing unit 150 outputs a threshold value of the resource usage rate of the virtual server to the virtual server management unit 130 and outputs a threshold value of the resource usage rate to the physical server to the physical server management unit 140.

7 is a diagram illustrating a data center according to an embodiment of the present invention.

7, the data center 210 includes physical servers 310, a physical server resource management unit 320, a virtual server resource management unit 330, a virtual server creation unit 340, and a physical server operation control unit 350 ).

The physical servers 310 constitute a data center 210. Further, a plurality of virtual servers can be created and operated through the hypervisor technology in each of the physical servers 310. [

When the physical server resource management unit 320 receives a command message for monitoring the physical server, it monitors the resource usage rate of the physical server. The physical server resource management unit 320 transmits the resource usage rate of the monitored physical server to the server management apparatus.

When the virtual server resource management unit 330 receives the command message for monitoring the virtual server, the virtual server resource management unit 330 monitors the resource usage rate of the virtual server. The virtual server resource management unit 330 transmits the resource utilization rate of the monitored virtual server to the server management apparatus.

The virtual server creation unit 340 creates a virtual server on a specific physical server upon receiving a scale-up message for controlling the creation of the virtual server in the specific physical server from the server management apparatus.

When the physical server operation control unit 350 receives a message for booting a new physical server from the server management apparatus, the physical server operation control unit 350 boots the new physical server.

On the other hand, when a new physical server is booted, the virtual server creation unit 340 creates a virtual server in the booted physical server, when a virtual server is requested to be created from the server management apparatus.

The physical server monitor unit 110, the virtual server monitor unit 120, the virtual server management unit 130, and the physical server management unit 140 shown in FIG. 6 can operate in the form of a server. The physical server resource management unit 320, the virtual server resource management unit 330, the virtual server generation unit 340, and the physical server operation control unit 350 may operate as clients.

At this time, the physical server monitoring unit 110, the physical server resource managing unit 320, the virtual server monitoring unit 120 and the virtual server managing unit 130, the virtual server managing unit 130 and the virtual server generating unit 340, The server management unit 140 and the physical server operation control unit 350 may operate as a server-client.

8 is a diagram illustrating an exemplary operation of the server management apparatus according to the embodiment of the present invention.

Referring to FIG. 8, the physical server monitor 110 collects resource utilization information of the physical server (step 410). To this end, the physical server monitoring unit 110 transmits a command for monitoring the resource usage rate of the physical server to the physical server resource management unit 320, and transmits a command for monitoring the resource usage rate of the physical server received from the physical server resource management unit 320 Collect information.

The physical server management unit 140 determines whether the resource usage rate of the physical server is less than or equal to a threshold based on the collected information (operation 420).

As a result of the determination in step 420, the physical server management unit 140 proceeds to step 430 when the resource usage rate of the physical server exceeds the threshold value.

In step 430, the physical server management unit 140 transmits a command for booting the new physical server to the physical server operation control unit 350 (WOL message, for example), and proceeds to step 440.

On the other hand, if it is determined in step 420 that the resource usage rate of the physical server is less than the threshold value, the physical server management unit 140 proceeds to step 440.

The virtual server monitoring unit 120 collects resource utilization information of the virtual server (step 440). For this, the virtual server monitoring unit 120 delivers a command for monitoring the resource utilization rate of the virtual server to the virtual server resource management unit 330, and transmits a command for monitoring the resource utilization rate of the virtual server received from the virtual server resource management unit 330 Collect information.

The virtual server management unit 130 determines whether the resource utilization rate of the virtual server is less than or equal to a threshold based on the collected information (operation 450).

As a result of the determination in step 450, the virtual server management unit 130 proceeds to step 460 when the resource usage rate of the virtual server exceeds the threshold value.

The virtual server management unit 130 transmits a command (e.g., a scale-up message) for creating a new virtual server to the virtual server creation unit 340 (operation 460). Thereafter, the virtual server management unit 130 proceeds to step 410.

As a result of the determination in step 450, the virtual server management unit 130 proceeds to step 410 if the resource usage rate of the virtual server is below the threshold value.

9 is a diagram illustrating an exemplary operation of a data center according to an embodiment of the present invention.

Referring to FIG. 9, the virtual server creation unit 340 receives a virtual server creation request from an operator or a user of the data center (operation 510).

The physical server resource management unit 320 monitors the resource usage rate of the physical server (step 520).

The physical server resource management unit 320 transmits information on the resource usage rate of the monitored physical server to the physical server monitoring unit 110 (step 530).

The physical server operation control unit 350 determines whether a boot command (WOL message) to boot the new physical server has been received from the physical server management unit 140 (operation 540).

If it is determined in step 540 that the physical server operation control unit 350 has received the new physical server boot command, the physical server operation control unit 350 boots the new physical server (operation 550).

On the other hand, if it is determined in step 540 that the physical server operation control unit 350 does not receive the new physical server booting command,

The virtual server resource management unit 330 monitors the resource usage rate of the virtual server (step 560).

The virtual server resource management unit 330 transmits information on the resource utilization rate of the monitored virtual server to the virtual server monitoring unit 120 (step 570).

The virtual server creation unit 340 determines whether a new virtual server creation command (e.g., a scale up message) has been received from the virtual server management unit 130 (operation 580).

As a result of the determination in step 580, if the virtual server creation unit 340 receives a command to create a new virtual server, the virtual server creation unit 340 proceeds to step 590.

The virtual server creation unit 340 creates a new virtual server (step 590). Then, the virtual server creation unit 340 proceeds to step 510.

If it is determined in step 580 that the virtual server creation unit 340 does not receive a new virtual server creation command, the virtual server creation unit 340 proceeds to step 510.

The server management apparatus monitors resource utilization rates of a physical server in a data center and virtual servers generated in the physical server. Accordingly, if the resource usage rate of the virtual server exceeds the threshold value, the data center is controlled to create a new virtual server. When the resource utilization rate of the physical server exceeds the threshold value, the new physical server is booted and added.

This makes it possible to efficiently use the virtual server resources by creating a virtual server in the data center when the load of the virtual server is increased and the service is difficult to provide without having to create a virtual server in advance in the physical server.

It is possible to efficiently utilize the resources of the physical server by gradually booting the physical server when the load of each physical server exceeds the threshold without operating all of the physical servers in the data center in a booted state.

In addition, power consumption can be reduced because the physical server in the data center can be booted only when needed.

While the invention has been shown and described with reference to certain preferred embodiments thereof, it will be understood by those skilled in the art that various changes and modifications may be made therein without departing from the spirit and scope of the invention. Therefore, the scope of the present invention should not be limited to the above-described embodiments, but should be determined by the equivalents of the claims of the present invention as well as the claims of the following.

10: distributed data center 100: server management device
210, 220, 230, 240: data centers 211:
212, 213: Access switches 214, 215, 216:
311, 312: Physical servers 110: Physical server monitor
120: virtual server monitoring unit 130: virtual server management unit
140: Physical Server Management Unit 150: Resource Information Threshold Processor
310: Physical Servers 320: Physical Server Resource Management Unit
330: virtual server resource management unit 340: virtual server creation unit
350: physical server operation control section

Claims (12)

A physical server monitor unit for collecting information on a resource utilization rate of the booted physical server;
A virtual server monitor unit for collecting information on a resource utilization rate of a virtual server configured in the physical server;
A virtual server management unit for controlling the virtual server to generate a new virtual server when the resource utilization rate of the virtual server exceeds a preset first threshold value; And
And a physical server management unit for controlling the booting of a new physical server when a resource utilization rate of the physical server exceeds a preset second threshold value,
The virtual server management unit,
If the resource utilization rate of the physical server is less than or equal to the second threshold value, generates the new virtual server in the physical server where the virtual server is located, and if the resource utilization rate of the physical server exceeds the second threshold, And creates the new virtual server on a new physical server that is booted through the management unit. The method according to claim 1,
Wherein the server management apparatus is connected to a plurality of data centers,
Wherein each of the plurality of data centers includes a plurality of physical servers. The method according to claim 1,
The virtual server management unit
And a resource information threshold processing unit in which the first and second threshold values for resource utilization rates of the virtual server and the physical server are set. delete A plurality of physical servers;
A physical server resource management unit for measuring resource utilization rate of the booted physical server;
A virtual server resource management unit for measuring a resource utilization rate of a virtual server created in the physical server;
A virtual server creation unit for creating a new virtual server when a request for creating a new virtual server is received; And
And a physical server operation control unit for controlling the booting of a new physical server when a boot request of the new physical server is received,
The boot request of the new physical server includes:
When a resource utilization rate of the virtual server exceeds a preset first threshold value and a resource utilization rate of the physical server exceeds a preset second threshold value,
The virtual server generating unit may include:
If the boot request of the new physical server is not received, the new virtual server is created in the physical server where the virtual server is located, and when the boot request of the new physical server is received, And creates the new virtual server in the new physical server. 6. The method of claim 5,
Wherein the data center transmits information on resource utilization rates of the physical servers and the virtual server to a server management apparatus connected to the data center and transmits a request for creating a new virtual server and a boot Wherein the data center receives the request. delete 6. The method of claim 5,
Wherein the boot request of the new physical server is received by the physical server to be newly booted when the resource utilization rate of the booted physical server exceeds the second threshold. A server management method for a server management apparatus,
Receiving information on a resource utilization rate of a booted physical server and a resource utilization rate of a virtual server created in the physical server;
Determining whether a resource utilization rate of the physical server exceeds a preset second threshold value if the resource utilization rate of the virtual server exceeds a preset first threshold value; And
And controlling, when a resource utilization rate of the physical server exceeds the second threshold value, generating a new virtual server in a booted new physical server by booting a new physical server, and when the resource utilization rate of the physical server is less than or equal to the second threshold value , Controlling to create the new virtual server in the physical server where the virtual server is located,
Wherein the server management apparatus is connected to a data center including a plurality of physical servers. delete delete delete

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