KR20140009724A - Power and traffic menagement system for sever - Google Patents

Abstract

The present invention relates to a system for managing the power and traffic of a server and, more in detail, to a system for managing the power and traffic of a server capable of reducing the abuse of the power by concentrating user's traffics on a part among a plurality of hardware main bodies and stopping the operation of the rest if the connection rate of the users drops in the server composed of the hardware main bodies. To attain the objective, the present invention comprises: the server composed of the hardware main bodies; a power management device for managing the power of the hardware main bodies; a traffic management device for distributing the users who attempt to access the server to each of the hardware main bodies; and a central controller for controlling and monitoring the hardware main bodies, the power management device, and the traffic management device. The central controller transmits a power saving mode control signal to the traffic management device if the number of users who access to the current server drops under a set value. If the traffic management device receives the power saving mode control signal, the central controller enables to the users accessed to a preset part of the hardware main bodies among the hardware main bodes and the users accessed afterward to access the rest part of the hardware main bodies. [Reference numerals] (110) Hardware main bodies; (200) Central controller; (210) Input part; (220) Display part; (300) Power management device; (400) Traffic management device; (AA) External network

Description

Power and traffic menagement system for server

The present invention relates to a power supply and traffic management system of a server, and more particularly, when a connection rate of a user decreases in a server composed of a plurality of hardware bodies, the user's traffic among a plurality of hardware bodies is to be directed to some hardware bodies. It is about a server power and traffic management system that can reduce power waste by disabling the rest of the system.

In general, computer hardware on which a server program is executed is called a server. The server monitors and controls the entire network such as printer control and file management, or connects to another network through a mainframe or public network, data, programs, or files. It can help you share your software resources or various hardware resources.

Such a server provides various services at the request of a user (client). Such a system is called a client-server system, which means a form of distributed processing in which one or more applications are operated in a cooperative environment.

By the way, such a server may be composed of one hardware main body, and in the case of a bank or online game company with many users connected, one hardware main body cannot accommodate the needs of many users. It will connect and use as a server.

At this time, the user using the server does not actively use the service provided by the server in all time zones, but many users access the service at a specific time zone, and a user rarely uses the service at a specific time zone. Keeping all hardware bodies operating at all times in the server consists of considerable power waste.

Thus, in order to solve this problem, the technology described in Korean Patent No. 10-0905974 as shown in Figs. 1 and 2 has been developed to control the power of the server, the technical characteristics of the main power input When the main power is input from the main power 10 and the main power is outputted, the main power is outputted, and if there is no input of the main power, the UPS 20 outputs the power of the UPS battery and the power is inputted through the UPS 20 and the UPS 20. It receives and supplies to the IP-based sub power management device 40, the IP-based main power management device 30 and the IP-based main power management device 30 to manage the IP-based sub power management device 40 It receives the input to supply power to each load-side device 50, the IP-based sub-power management device 40 and the IP-based sub-power management device 40 for managing the power supply of a plurality of load-side devices (50) Remotely via the network 60 and the network 60 connected to the load-side device 50 and the IP-based main power management device 30 and the IP-based sub-power management device 40 to receive power By including an integrated power management operating server 70 for controlling the power of the load-side device 50 by controlling the IP-based main power management device 30 and the IP-based sub power management device 40, It is characterized in that the power energy can be efficiently managed by checking and managing the power supply abnormality of the power supply device.

By the way, the technology described in Korean Patent No. 10-0905974 can effectively manage the power energy by determining the abnormality of the power supply, but the user's needs are smoothly reduced even if not all hardware servers are operated because the number of users of the server is reduced. In this case, it is impossible to reduce power waste by not operating a predetermined hardware main body.

In addition, in a configuration in which one server is formed by using a plurality of hardware bodies, the traffic control device may be configured in each hardware body in order to prevent a load of a user from accessing the server through the network to one hardware body. Because of the dispersion, there is a problem that the user cannot turn off the hardware main body to which the user is connected.

In addition, a plurality of hardware main bodies may use the same motherboard, or may use different motherboards, but different motherboards have different methods for controlling power, and in the case of using a different motherboard, There is a problem in that the control is not easy, and even if they all use the same motherboard, it is easy to control the power of the server because every time the server is built, a control method must be used according to the motherboard configuring the server. There is a problem that is not.

SUMMARY OF THE INVENTION The present invention has been made to solve the above problems, and an object of the present invention is to construct a server using a plurality of hardware bodies, and a traffic management apparatus for distributing users connected from outside to each hardware body; It is equipped with a power management device that supplies power to each hardware body, a central control device that monitors and controls the traffic management device and the power management device. When the user who accesses the entire server falls below a certain capacity of the server, the central control is performed. By controlling the traffic management device in the device to maintain the user's access to a few specific hardware body, and control the power management device to shut down the hardware server that is not connected to the user, to save the power consumption in a small time period Server and power management system .

In addition, another object of the present invention is to control the power of a plurality of hardware main body constituting the server directly through the power management device, and to control through the motherboard of each hardware in the on-off control of each hardware main body In addition, by directly controlling the power supply module installed in the hardware main body to turn on and off the power, the server power and traffic that can easily turn on and off the power of each hardware main body even without using a control method corresponding to each motherboard It is to provide a management system.

SUMMARY OF THE INVENTION [0006]

A server comprising a plurality of hardware main bodies, a power management apparatus for managing power of the hardware main body, a traffic management apparatus for distributing and connecting a user connected to the server to each hardware main body, the hardware main body, a power management apparatus, Characterized in that the central control unit for controlling and monitoring the traffic management device.

Here, the traffic management device transmits the current traffic situation to the central control device, and the power management device is characterized in that the current power supply status, temperature, humidity to the central control device.

When the user currently accessing the server falls below a predetermined value, the central control apparatus transmits a power saving mode control signal to the traffic management apparatus, and when the power saving mode control signal of the central control apparatus is received by the traffic management apparatus, Among a plurality of hardware bodies, a user connected to a predetermined hardware body and a user who connects thereafter may be connected to the other hardware body.

In this case, the central control apparatus connects the accessor only to a predetermined hardware main body in the traffic management apparatus, and when receiving the traffic control completion signal, controls the power management apparatus to operate the hardware main body to which the user is not connected. To terminate the power supply.

On the other hand, the central controller operates only a part of the hardware main body because there are few users connecting to the server, and when the number of users connecting to the server increases above the set value, the central controller transmits a power saving mode release signal to the power management apparatus. When the power management device receives the power saving mode release signal, it operates by supplying power to a hardware body that has not been operated.

In this case, the central controller operates a hardware main body which was not operated in the power management apparatus, and when the operation completion signal is received, the central control apparatus controls the traffic management apparatus to access a user assigned to some hardware main bodies set and controlled. Thereafter, the accessing user is distributed to all hardware bodies.

And, the motherboard constituting the hardware main body is provided with a power module for converting and outputting the power transmitted from the power management device to match the motherboard, the power module is provided with a terminal for receiving a power on off signal It features.

According to the present invention having the above-described configuration, a traffic management apparatus for constructing one server using a plurality of hardware bodies and distributing users connected from outside to each hardware body and power management for supplying power to each hardware body It is equipped with a central control unit that monitors and controls the traffic management device and the power management device. When a user accessing the entire server falls below a certain capacity of the server, the central control device controls the traffic management device. By maintaining the user's connection to a specific hardware main body, and controlling the power management device to terminate the hardware server that is not connected to the user, there is an effect that can reduce the power consumption in a small time period.

In addition, the present invention is to control the power of the plurality of hardware main body constituting the server directly through the power management device, and not to control through the motherboard of each hardware during the on-off control of each hardware main body, the hardware By directly controlling the power supply module installed in the main body to turn the power on and off, it is possible to easily turn on and off the power of each hardware main body even without using a control method corresponding to each motherboard.

1 is a conceptual diagram of a conventional power management system.
2 is a perspective view of a power management system using a conventional serial communication.
3 is a block diagram of a power and traffic management system of a server according to the present invention.

Hereinafter, with reference to the accompanying drawings will be described in detail a preferred embodiment of the present invention. The same reference numerals are used for the same constituent elements in the drawings and redundant explanations for the same constituent elements are omitted. It is to be understood that the present invention may be embodied in many different forms and should not be construed as limited to the embodiments set forth herein.

3 is a block diagram of a power and traffic management system of a server according to the present invention.

The present invention relates to a power management system and a traffic management system of the server. As shown in FIG. 3, the configuration is a power management for managing the power of the server 100 and the hardware main body 110 including a plurality of hardware main bodies 110. Traffic management device 400 and the hardware main body 110, the power management device 300, traffic management device for distributing and connecting the user to the device 300 and the server 100 to each hardware main body 110 It consists of a central control unit 200 for controlling and monitoring (400).

Here, the hardware main body 110 is provided with a CPU (not shown), a motherboard (not shown), a hard disk (not shown), etc., respectively, to constitute an independent system, and the power management device is provided on the motherboard. A power module (not shown) is provided for converting and outputting power transmitted from the 300 to fit on a motherboard. The power module includes a power on / off signal for turning on and off power as well as a terminal for supplying power. It is provided with a terminal for receiving.

Thus, in the related art, in order to control the power of the hardware main body 110, the on / off of the power is controlled through a control method suitable for each motherboard. In the present invention, by directly controlling the power of the power module for supplying power, Without using other control methods according to the motherboard, by controlling the power of the power module in one method (signal), it is possible to easily turn on and off the power of the hardware main body 110.

When the user accesses the server 400 through an external network (not shown), the traffic management apparatus 400 appropriately distributes the plurality of hardware bodies 110 so that a load is placed on a specific hardware body 110. The traffic situation according to the number of users who are currently connected is transmitted to the mall central controller 200.

In addition, the power management device 300 transmits the information on the power and current temperature, humidity used by the hardware main body 110 and the entire hardware main body 110 currently operating to the central controller 200. In this case, the central control unit 200 can accurately know the current state of the server 100 in real time.

On the other hand, the central control unit 200 is to transmit the power saving mode control signal from the central control unit 200 to the traffic management device 400, if the user currently connected to the server 100 falls below the set value. .

When the power management mode control signal of the central control apparatus 200 is received by the traffic management apparatus 400, a user connected to a predetermined hardware main body 110 among a plurality of hardware main bodies 110 is connected to the remaining hardware main body ( 110, and the subsequent users also connect to the rest of the hardware body (110).

At this time, the traffic management device 400 is to connect the existing accessor and the new accessor only to the set part of the hardware main body 110, and then transmits a traffic control completion signal to the central control unit 200, the central control unit ( When the 200 receives the traffic control completion signal, it transmits the power saving mode control signal to the power management device 300 again.

Then, the power management device 300 transmits a power off signal to the power module of the hardware main body 110 to which the user is not connected under the control of the central processing unit 200 to terminate the operation of the hardware main body 110. And cut off the power supply.

In the case of the conventional general server, not only it is not easy to control the traffic distributed to each hardware body 110, but also it is not easy to control the power of each hardware body 110, all hardware servers 110 always In the present invention, when the number of users is small when managing the server 100 provided with a plurality of hardware main body 110, the main body 110 is operated in the present invention, while wasteful power was considerable. By reducing the number of, power consumption can be saved.

On the other hand, as described above, when the number of users connected to the server 100 to operate the hardware main body 110 only a small number of users connected to the server 100, the center of the number is increased above the set value, The control device 200 transmits a power saving mode release signal to the power management device 300.

In this case, when the power management device 300 receives the power saving mode release signal, the power is cut off to supply power to the hardware main body 110 that was not operated, and transmits the power on signal to the power module, thereby all the hardware main body. Allow 110 to operate normally.

Then, the hardware main body 110, which did not operate in the power management device 300, is operated, and the operation completion signal is transmitted to the central processing unit 200, and the central processing unit 200 receives the operation completion signal. In this case, the central processing unit 200 controls the traffic management device 400 to distribute the user's connection allocated to only some of the hardware main body 110 set to all the hardware main body 110, thereby increasing the demand of the accessor. To meet.

On the other hand, the central control unit 200 is provided with a display unit 210 and the input unit 220, the administrator through the display unit 210 can know the situation of the server 100 in real time, the input unit Through 220, the value of the accessor for performing the power saving mode and the hardware main body 110 to be operated are set.

In addition, the manager can control the operation and interruption of each hardware main body 110 in real time through the input unit 220 of the central controller 200.

While the present invention has been described in connection with certain exemplary embodiments, it is to be understood that the scope of the present invention is not limited to the disclosed embodiments, It will be understood by those skilled in the art that various changes in form and details may be made therein without departing from the spirit and scope of the invention as defined by the appended claims.

The present invention relates to a power supply and traffic management system of a server, and more particularly, when a connection rate of a user decreases in a server composed of a plurality of hardware bodies, the user's traffic among a plurality of hardware bodies is to be directed to some hardware bodies. It is about a server power and traffic management system that can reduce power waste by disabling the rest of the system.

100: server 110: hardware body
200: central control unit 210: display unit
220: input unit 300: power management device
400: traffic management device

Claims (7)

A server consisting of a plurality of hardware bodies,
A power management device managing power of the hardware main body;
A traffic management apparatus for distributing and connecting users connecting to the server to each hardware main body;
And a central control device for controlling and monitoring the hardware main body, power management device, and traffic management device.
The method of claim 1,
The traffic management device transmits the current traffic situation to the central control device,
The power management device power and traffic management system of the server, characterized in that for transmitting the current power usage status, temperature, humidity to the central control unit.
The method of claim 1,
The central controller transmits a power saving mode control signal to the traffic management apparatus when the user currently accessing the server falls below a set value.
When the traffic management device receives the power saving mode control signal of the central controller,
A power and traffic management system for a server, characterized in that for connecting a user connected to a predetermined hardware main body of the plurality of hardware main body and a user who subsequently connects to the remaining hardware main body.
The method of claim 3,
When the central control unit receives the traffic control completion signal after connecting the accessor only to the set part of the hardware main body in the traffic management apparatus,
And controlling the power management device to terminate the operation of the hardware main body to which the user is not connected and to cut off the power supply.
The method of claim 1,
When the number of users connecting to the server increases because the number of users connecting to the server is small and the number of users connecting to the server increases by more than the set value, the central controller sends a power saving mode release signal to the power management device.
When the power management device receives the power saving mode release signal, power and traffic management system of the server, characterized in that to operate by supplying power to the hardware main body did not operate.
The method of claim 5,
When the central control unit operates the hardware main body which was not operated in the power management unit and receives the operation completion signal,
A centralized power supply and traffic management system of a server, characterized in that the central control device controls the traffic management device to distribute the user's access to the hardware body and the user who is subsequently connected to all the hardware body.
The method of claim 1,
The motherboard constituting the hardware main body is provided with a power module for converting and outputting the power transmitted from the power management device to match the motherboard,
The power module server power and traffic management system, characterized in that the terminal for receiving a power on off signal.

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