KR101887632B1 - Server rack system based on bmc - Google Patents

Abstract

As a server rack system which removes a plurality of BMCs mounted on each of a plurality of servers stored in a server rack, implements only one BMC per server rack, and enhances the flexibility and scalability of the BMC, the server rack system includes one rack-specific board management controller (BMC) which is independent from a plurality of servers and manages the plurality of servers. The rack-specific BMC includes: a linkage signal processing unit which is communicatively connected to the plurality of servers based on a bus and transmits and receives a signal to and from the plurality of servers; and a BMC control unit for transmitting a request command to the plurality of servers through the linkage signal processing unit, analyzes the states of the plurality of servers based on information received as a response to the request command, and transmits the analyzes states to an administrator terminal. Accordingly, the present invention can reduce costs and satisfy various requirements of client companies.

Description

BMC-based server rack system {SERVER RACK SYSTEM BASED ON BMC}

The present invention relates to a BMC (Board Management Controller) for managing a server, and more specifically, to a server rack system for integrally managing a plurality of servers stored in a server rack into one BMC.

BMC (Board Management Controller) is a controller that monitors and manages the state of hardware and software of a server mounted on a server. The BMC mounted on the server monitors the temperature of the server, the fan speed, the power mode, and the OS status, and informs the administrator through the network or the system interface. A conventional BMC is generally mounted on a board of a server.

The server with the BMC can check the status of the server remotely and the BMC that operates separately from the server can perform operations such as checking the status of the server remotely and restoring it without directly going to the field. Therefore, these BMC-equipped servers are generally suitable for large-scale data centers and are actually used in data centers.

FIG. 1 is a perspective view schematically showing a conventional server rack system, and FIG. 2 is a sectional view of the server rack system of FIG. The server rack system shown in Figs. 1 and 2 is installed in a data center, and a large number of servers 110 are safely stored in a server rack 120. [ In this manner, each of the plurality of servers 110 stored in the server rack is a server equipped with a BMC, and each server 110 includes a server portion and a BMC portion formed of a single PCB (Printed Circuit Board) (i.e., a motherboard) There is a problem in that a cost is wasted. In other words, each of the plurality of servers stored in the server rack is redundantly mounted with the same BMC, and the server rack system is used only for safely storing the servers, and thus does not provide functions other than the storage of the server . And very few companies are developing BMC parts, namely BMC chips and software. Therefore, server makers are using very few companies' solutions (BMC hardware and software) at very high cost of licenses (about 100 million won). Because only a few companies develop the BMC portion, not only are the software versions very old, but they are also available in embedded software rather than the flexible and scalable BMC software that customers want to use the server realistically, reducing flexibility and scalability.

It is an object of the present invention to provide a server rack system that removes a plurality of BMCs mounted on each of a plurality of servers stored in a server rack, implements only one BMC per server rack, and increases the flexibility and scalability of the BMC.

A server rack system including a plurality of servers according to one aspect includes one rack dedicated BMC (Board Management Controller) that manages the plurality of servers independently of the plurality of servers in a server rack, The BMC includes an interworking signal processor for communicating with the plurality of servers in a bus-based communication manner and transmitting / receiving signals to / from the plurality of servers; And a BMC controller for transmitting a request command to the plurality of servers through the interlocking signal processor and analyzing the states of the plurality of servers based on information received in response to the requests, and transmitting the analyzed state to the administrator terminal.

Wherein the interlocking signal processing unit comprises: a bus communication unit for transmitting and receiving signals with at least one hardware and software of the plurality of servers via a common bus line; A command conversion unit converting the request command received from the control unit into a bus communication command format corresponding to the common bus line and transmitting the bus communication command format to the plurality of servers; And a data conversion unit for converting data of a bus communication command format corresponding to the common bus line received from the plurality of servers into original data and transmitting the data to the BMC control unit.

The BMC controller may include: a power controller configured to supply or shut off the power of the power supply to the plurality of servers; A temperature controller for transmitting temperature information request commands to the plurality of servers, receiving temperature information in response thereto, and transmitting fan speed control commands to the plurality of servers according to received temperature information; A hardware state measurement unit for transmitting a hardware state information request command to the plurality of servers and receiving hardware state information in response thereto; A software state measurement unit for transmitting software state information request commands to the plurality of servers and receiving software state information in response thereto; And a status information management unit for recording information acquired by the power control unit, the temperature control unit, the hardware status measurement unit, and the software status measurement unit and outputting the information to the administrator terminal through the console port.

The BMC control unit may further include an alarm unit for outputting an alarm when an emergency situation is determined based on the information acquired by the power supply control unit, the temperature control unit, the hardware state measurement unit, and the software state measurement unit.

Wherein the BMC control unit authenticates a manager connected via a network and provides a server management work environment of the manager and controls the power management unit, the temperature control unit, the hardware state measurement unit, and the software state measurement unit And a remote access control unit transmitting the information to the manager through the network.

The BMC control unit may further include a remote firmware control unit for downloading firmware through the network and updating or upgrading the firmware recorded in the memory of the rack dedicated BMC.

The rack dedicated BMC may further include a rack environment data collecting unit for collecting and outputting environmental data in the server rack.

A server rack system including a plurality of servers according to another aspect includes one rack dedicated BMC included in any one of the plurality of servers in the server rack to manage the plurality of servers, The BMC includes: a server signal processing unit for transmitting and receiving signals with any one of the servers; An interworking signal processor for communicating and communicating signals with other servers except for the one of the plurality of servers based on a bus; And a BMC controller for transmitting a request command to the plurality of servers through the server signal processor and the interworking signal processor, analyzing a state of the plurality of servers based on information received in response thereto, and transmitting the analyzed state to an administrator terminal do.

Wherein the interlocking signal processing unit comprises: a bus communication unit for transmitting and receiving signals with at least one hardware and software of the remaining server through a common bus line; A command conversion unit converting the request command received from the control unit into a bus communication command format corresponding to the common bus line and transmitting the command to the remaining server; And a data conversion unit for converting data of a bus communication command format corresponding to the common bus line received from the remaining server into original data and transmitting the converted data to the BMC control unit.

The BMC controller may include: a power controller configured to supply or shut off the power of the power supply to the plurality of servers; A temperature controller for transmitting temperature information request commands to the plurality of servers, receiving temperature information in response thereto, and transmitting fan speed control commands to the plurality of servers according to received temperature information; A hardware state measurement unit for transmitting a hardware state information request command to the plurality of servers and receiving hardware state information in response thereto; A software state measurement unit for transmitting software state information request commands to the plurality of servers and receiving software state information in response thereto; And a status information management unit for recording information acquired by the power control unit, the temperature control unit, the hardware status measurement unit, and the software status measurement unit and outputting the information to the administrator terminal through the console port.

The BMC control unit may further include an alarm unit for outputting an alarm when an emergency situation is determined based on the information acquired by the power supply control unit, the temperature control unit, the hardware state measurement unit, and the software state measurement unit.

Wherein the BMC control unit authenticates a manager connected via a network and provides a server management work environment of the manager and controls the power management unit, the temperature control unit, the hardware state measurement unit, and the software state measurement unit And a remote access control unit transmitting the information to the manager through the network.

The BMC control unit may further include a remote firmware control unit for downloading firmware through the network and updating or upgrading the firmware recorded in the memory of the rack dedicated BMC.

The rack dedicated BMC may further include a rack environment data collecting unit for collecting and outputting environmental data in the server rack.

According to an embodiment, a plurality of servers in a server rack can be managed by removing a BMC portion mounted on each individual server of the server rack and using one rack dedicated BMC in the server rack, thereby mounting the BMC directly on the individual server The cost can be reduced compared with the prior art.

According to one embodiment, the software of the rack-only BMC can be easily upgraded remotely, and it is possible to satisfy various requirements of the customer using the server rather than the conventional technology implemented with the embedded software.

According to one embodiment, a rack-specific BMC is implemented and linked to various kinds of servers, thereby enhancing the cost competitiveness of the server manufacturer.

1 is a perspective view schematically showing a conventional server rack system.
Figure 2 is a cross-sectional view of the server rack system of Figure 1;
3 is a perspective view schematically showing a server rack system according to an embodiment of the present invention.
Figure 4 is a cross-sectional view of the server rack system of Figure 3;
FIG. 5 is a diagram showing the configuration of the rack-dedicated BMC 330 of FIG.
FIG. 6 is a diagram showing a specific configuration of the interlocking signal processing unit of FIG. 5;
FIG. 7 is a diagram showing a specific configuration of the BMC control unit of FIG. 2. FIG.
8 is a schematic cross-sectional view of a server rack system according to another embodiment of the present invention.
FIG. 9 is a diagram showing a configuration of the rack dedicated BMC in FIG. 8; FIG.

The foregoing and other objects, features and advantages of the present invention will become more apparent from the following detailed description of the present invention when taken in conjunction with the accompanying drawings, in which: There will be. In the following description, well-known functions or constructions are not described in detail since they would obscure the invention in unnecessary detail. Hereinafter, a preferred embodiment of the present invention will be described in detail with reference to the accompanying drawings.

FIG. 3 is a perspective view schematically showing a server rack system according to an embodiment of the present invention, and FIG. 4 is a sectional view of the server rack system of FIG. Referring to FIGS. 3 and 4, a server rack system according to an embodiment is installed in a data center, and a large number of servers 310 are safely stored in a server rack 320. In this way, each of the plurality of servers 310 stored in the server rack is not equipped with the BMC. Accordingly, each of the plurality of servers 310 does not need a PCB (i.e., motherboard) for the BMC portion, and only the PCB of the server portion is required, thereby reducing the manufacturing cost of the PCB. 3, in the server rack system according to the embodiment, a single rack dedicated BMC 330 for managing a plurality of servers 310 is separated from a plurality of servers 310 in a server rack 320 . The rack-specific BMC 330 communicates with a plurality of servers 310 through a common bus communication, and manages each server 310 in an integrated manner. In addition, the rack-dedicated BMC 330 manages environment data (e.g., temperature, humidity, Power, etc.) and share the environmental data with the manager.

FIG. 5 is a diagram showing the configuration of the rack-dedicated BMC 330 of FIG. Referring to FIG. 5, the rack-dedicated BMC 330 includes an interlocking signal processor 510, a BMC controller 520, and a rack environment data collector 530. The interlocking signal processor 510 transmits request commands of the BMC controller 520 to each server 310 while communicating with a plurality of servers 310 of the server rack 320 or receives information from each server 310 And transmits it to the BMC controller 520. The BMC controller 520 transmits a request command to each server 310 through the interlocking signal processor 510 and receives information from each server 310 in response to the request command, ), And transmits the status information to the manager. The BMC control unit 520 can manage each server 310 according to a command received from a remote manager. The rack environment data collecting unit 530 collects environmental data of the server rack 320 in which the rack dedicated BMC 330 is embedded and records environmental data in a log form, It can be reported to the administrator terminal through the network function. To this end, the rack environment data collection unit 530 may include sensors such as a temperature sensor, a humidity sensor, a power meter, or the like, or may communicate with sensors installed in the server rack.

FIG. 6 is a diagram showing a specific configuration of the interlocking signal processor 510 of FIG. 6, the interlocking signal processing unit 510 includes a bus communication unit 610, a command conversion unit 620, and a data conversion unit 630.

The bus communication unit 610 transmits and receives signals between the respective servers 310 and the BMC control unit 520. The rack-only BMC 330 monitors and controls the various parts of each server 310. Accordingly, in order to support various parts of the plurality of servers 310 with one communication method, the bus communication unit 610 is configured with bus-based communication capable of transmitting and receiving signals to one communication line. The results of the various parts of the plurality of servers 310 responding are transmitted to the bus communication unit 610 through one common bus line. Conversely, various request commands from the BMC controller 520 of the rack-specific BMC 330 to the respective servers 310 or result values processed by the BMC controller 520 are also transmitted through one common bus line of the bus communication unit 610 And transmitted to the server 310.

The command converting unit 620 converts the commands into a bus communication format so that various commands of the BMC controller 520 are transmitted to each server 310 through one common bus communication and transmits them to the bus communication unit 610 do. The data conversion unit 630 converts various data of the bus communication format received from each server 310 through the bus communication unit 610 into original data again and transfers the data to the BMC control unit 520.

FIG. 7 is a diagram showing a specific configuration of the BMC control unit 520 of FIG. 7, the BMC control unit 520 includes a power control unit 710, a temperature control unit 720, a hardware status measurement unit 730, a software status measurement unit 740, a status information management unit 750, A remote access control unit 770, and a remote firmware control unit 780. [ The BMC controller 520 includes a low-performance processor such as an ARM processor and a memory, and the components of the BMC controller 520 shown in FIG. 7 may be implemented in software, stored in a memory, and executed by a processor. The memory may include high speed random access memory and may also include one or more magnetic disk storage devices, non-volatile memory such as flash memory devices, or other non-volatile semiconductor memory devices.

The power control unit 710 supplies or cuts off the power of the power supply to each server 310. The power control unit 710 can supply or shut off power to each server 310 based on the power supply or power down command received through the remote connection control unit 770, The server 310 can be powered on or off. Each server 310 and the power supply unit can be connected by a switch, and the power supply control unit 710 can control the power supply by turning on / off the switch. Alternatively, the power of the power supply unit may be supplied directly to the server 310 through the power control unit 710, and the power control unit 710 may supply or cut off the power. The power control unit 710 can notify the alarm unit 760 when a problem occurs in power supply and interruption.

The temperature control unit 720 transmits a temperature information request command to each server 310 through the bus communication unit 610 and receives temperature information in response to the temperature information command, To each of the servers 310, a fan speed control command for controlling the fan speed control command. In each server 310, a temperature sensor is mounted, and the temperature sensor returns temperature information in response to the temperature information request command of the temperature controller 720. The temperature controller 720 stores the set value of the fan speed according to the temperature and can control the fan speed using the set value. The temperature control unit 720 transmits the temperature information of each server 310 to the administrator terminal through the remote connection control unit 770. The temperature information may include identification information of the server, temperature value, and temperature measurement time information. The temperature control unit 720 can transmit the temperature information to the administrator terminal together with the status information of the software measured by the software status measurement unit 740 so that the administrator can analyze the temperature according to the situation.

The hardware status measuring unit 730 periodically measures the status of various hardware (CPU, memory, disk, etc.) of each server 310 through the bus communication unit 610. The hardware status measuring unit 730 transmits the hardware status information request command to each server 310 through the bus communication unit 610 and receives the status information in response thereto. At this time, the hardware status information request command may include identification information of a server to be measured, and hardware identification information. The hardware state measurement unit 730 includes a hardware-based communication interface, a driver capable of controlling the corresponding hardware-based communication interface, and a software daemon for requesting and receiving the hardware state, for measuring the state of the hardware. The hardware status measuring unit 730 transmits the measured hardware status information of each server 310 to the administrator terminal through the remote access control unit 770.

The software status measuring unit 740 periodically measures the status of software (OS, server daemon, user application, etc.) executed in each server 310 via the bus communication unit 610. The software status measuring unit 740 transmits the software status information request command to each server 310 through the bus communication unit 610 and receives the status information in response thereto. The software status information request command may be a finger signal including identification information of the server and identification information of the software. The software state measurement unit 740 includes a separate software daemon that monitors the software running on each server 310 to measure the state of the software and result confirmation software for confirming the monitoring result. The software state measuring unit 740 transmits the state information of the measured software of each server 310 to the administrator terminal through the remote connection control unit 770.

The state information management unit 750 receives the state information acquired by the power control unit 710, the temperature control unit 720, the hardware state measurement unit 730, and the software state measurement unit 740, And outputs the status information recorded in the log format to the console port. The administrator can confirm the status information through the display device by connecting the display device and the input device to the console port locally rather than remotely. The state information management unit 750 can transmit the state information recorded in a log form to the administrator terminal through the remote connection control unit 770. [ The state information management unit 750 accumulates the state information recorded in a log form and predicts the state of the server 120 through learning through machine learning or the like.

The alarm unit 760 is connected to each server 310 according to internal logic based on state information obtained from the power control unit 710, the temperature control unit 720, the hardware state measurement unit 730, and the software state measurement unit 740, And outputs an alarm when an emergency occurs and also outputs status information. The alarm unit 760 can analyze the emergency state based on the state information recorded by the state information management unit 750. [ The alarm unit 760 can output an alarm through a status indicator such as an LED or a display device such as an LCD or a speaker. In addition, the alarm unit 760 can transmit an alarm to the administrator terminal through an e-mail or a text message through a network communication function built in the BMC 330 dedicated to the rack.

Generally, the data center with the server 310 is installed in a place where the power supply is smooth and the network function exists, and is in a space separate from the manager. Therefore, in order to efficiently operate the plurality of servers 310, an administrator can directly visit the data center and work through the console port of the rack-dedicated BMC 330. At the same time, To be able to do. The remote access control unit 770 can remotely access the administrator terminal through the network communication function of the rack dedicated BMC 330 and receive the remote control command from the administrator terminal, 310 and an alarm. The remote access control unit 770 performs security authentication processing in various manners so that only an authenticated administrator can access the server, and confirms the status information of each server 310 and provides a work environment in which each server 310 can be managed. The remote connection control unit 770 has a terminal mode in which a command necessary for management of each server 310 can be transmitted as a work environment capable of managing each server 310 and a request of an administrator actually using each server 310 It supports web mode which is easy to expand and modify according to the requirements. Rack-only BMC 330) may include a communication circuit capable of transmitting and receiving signals by wire or transmitting and receiving electromagnetic waves wirelessly. A communication circuit converts electrical signals to electromagnetic waves and vice versa and is capable of communicating with the communication network, other mobile gateways and communication devices through the electromagnetic waves. The communication circuitry may include, but is not limited to, an antenna system, an RF transceiver, one or more amplifiers, a tuner, one or more oscillators, a digital signal processor, a CODEC chipset, a subscriber identity module And may include well-known circuits for performing these functions. The communication circuitry may be implemented by means of the Internet, called the World Wide Web (WWW), the intranet and the network and / or a wireless network such as a cellular telephone network, a wireless LAN and / or a metropolitan area network (MAN) And can communicate with other devices. Wireless communication may be implemented in a variety of communication systems such as Global System for Mobile Communications (GSM), Enhanced Data GSM Environment (EDGE), wideband code division multiple access (WCDMA), code division multiple access (CDMA), time division multiple access (TDMA) Protocols and techniques, including but not limited to Bluetooth, Wi-Fi, or any other suitable communication protocol including communication protocols not yet developed at the time of filing of the present application.

When the management instructions of the server 310 are changed, the firmware which is the server management protocol software must be updated or upgraded accordingly. For this, it is necessary to be able to efficiently conduct remote access without visiting the data center directly. The remote firmware control unit 780 securely authenticates the manager connected remotely through the network communication function of the rack-only BMC 330 and downloads the firmware according to the input of the manager upon successful security authentication to update or upgrade the firmware. To upgrade the firmware, the upgrade interface must be implemented in hardware in the flash memory where the firmware is recorded.

8 is a schematic cross-sectional view of a server rack system according to another embodiment of the present invention. The server rack system of the embodiment described with reference to FIG. 3 has one rack dedicated BMC 330 installed in a server rack in which a plurality of servers 310 are not equipped with BMCs and are independently separated from the plurality of servers 310 to perform bus communication. 8, a modular rack-dedicated BMC 820 is mounted in one of a plurality of servers 810 installed in a rack, and the rack-dedicated BMC 820 is connected to the other It works with servers. The BMC 820 installed in one of the servers is installed in a PCI slot of the server, communicates with the server through a PCI slot, and interworks with the remaining servers by bus communication.

FIG. 9 is a diagram showing a configuration of the rack-dedicated BMC 830 of FIG. In Fig. 9, the same reference numerals as those in Fig. 5 include all the functions and operations described with reference to Fig. The rack dedicated BMC 830 referring to FIG. 9 further includes a server signal processing unit 910 in comparison with the rack dedicated BMC 330 described with reference to FIG. The rack dedicated BMC 830 referring to FIG. 9 transmits and receives signals through the server signal processing unit 910 to a server on which the corresponding rack dedicated BMC 830 is mounted among a plurality of servers 810 installed in the rack, And transmits and receives signals through the bus communication with the servers through the interlocking signal processing unit 510. The server signal processing unit 910 performs communication according to a protocol of a server equipped with the corresponding BMC 830 separately from the interlocking signal processing unit 510.

While the specification contains many features, such features should not be construed as limiting the scope of the invention or the scope of the claims. In addition, the features described in the individual embodiments herein may be combined and implemented in a single embodiment. Conversely, various features described in the singular < Desc / Clms Page number 5 > embodiments herein may be implemented in various embodiments individually or in combination as appropriate.

Although the operations have been described in a particular order in the figures, it should be understood that such operations are performed in a particular order as shown, or that all described operations are performed to obtain a sequence of sequential orders, or a desired result . In certain circumstances, multitasking and parallel processing may be advantageous. It should also be understood that the division of various system components in the above embodiments does not require such distinction in all embodiments.

It will be apparent to those skilled in the art that various modifications and variations can be made in the present invention without departing from the spirit or scope of the invention. The present invention is not limited to the drawings.

120, 320: Server rack
310, 810: Server
330, 830: Rack only BMC
510: interlocking signal processor
520: BMC controller
510: bus communication section
620:
630: Data conversion unit
710:
720:
730: hardware state measurement unit
740: software state measurement unit
750: Status information manager
760:
770: Remote connection control unit
780: Remote firmware control section
910: Server signal processor

Claims (14)

delete 1. A server rack system including a plurality of servers,
A BMC (Board Management Controller) dedicated to managing the plurality of servers independently of the plurality of servers in a server rack,
The rack-
An interworking signal processor communicating with the plurality of servers based on a bus and transmitting / receiving signals to / from the plurality of servers; And
And a BMC controller for transmitting a request command to the plurality of servers through the interlocking signal processor and analyzing the states of the plurality of servers based on information received in response thereto,
The interlocking signal processor,
A bus communication unit for transmitting and receiving signals with at least one hardware and software of the plurality of servers via a common bus line;
A command conversion unit converting the request command received from the control unit into a bus communication command format corresponding to the common bus line and transmitting the bus communication command format to the plurality of servers; And
And a data conversion unit for converting data of a bus communication command format corresponding to the common bus line received from the plurality of servers into original data and transmitting the converted data to the BMC control unit. 3. The method of claim 2,
The BMC control unit,
A power supply controller for supplying or disconnecting power from the power supply to the plurality of servers;
A temperature controller for transmitting temperature information request commands to the plurality of servers, receiving temperature information in response thereto, and transmitting fan speed control commands to the plurality of servers according to received temperature information;
A hardware state measurement unit for transmitting a hardware state information request command to the plurality of servers and receiving hardware state information in response thereto;
A software state measurement unit for transmitting software state information request commands to the plurality of servers and receiving software state information in response thereto; And
And a status information management unit for recording information acquired by the power control unit, the temperature control unit, the hardware status measurement unit, and the software status measurement unit and outputting the information to the administrator terminal through the console port. The method of claim 3,
The BMC control unit,
Further comprising an alarm unit for outputting an alarm when an emergency situation is determined based on the information acquired by the power supply control unit, the temperature control unit, the hardware state measurement unit, and the software state measurement unit. The method of claim 3,
The BMC control unit,
Wherein the management server is configured to authenticate a manager connected through a network and to provide a server management work environment of the manager and to transmit information acquired by the power control unit, the temperature control unit, the hardware status measurement unit, And a remote access control unit for transmitting the information to the manager. 6. The method of claim 5,
The BMC control unit,
Further comprising a remote firmware control unit for downloading firmware through a network and updating or upgrading firmware recorded in the memory of the rack-dedicated BMC. 1. A server rack system including a plurality of servers,
A BMC (Board Management Controller) dedicated to managing the plurality of servers independently of the plurality of servers in a server rack,
The rack-
An interworking signal processor communicating with the plurality of servers based on a bus and transmitting / receiving signals to / from the plurality of servers;
A BMC controller for transmitting a request command to the plurality of servers through the interlocking signal processor, analyzing a state of the plurality of servers based on information received in response thereto, and transmitting the analyzed state to an administrator terminal; And
And a rack environment data collecting unit for collecting and outputting environmental data in the server rack. 1. A server rack system including a plurality of servers,
And one rack dedicated BMC included in any one of the plurality of servers in the server rack to manage the plurality of servers,
The rack-
A server signal processing unit for transmitting and receiving signals with any one of the servers;
An interworking signal processor for communicating and communicating signals with other servers except for the one of the plurality of servers based on a bus; And
And a BMC controller for transmitting a request command to the plurality of servers through the server signal processor and the interworking signal processor, analyzing the status of the plurality of servers based on information received in response thereto, and transmitting the analyzed status to the administrator terminal Server rack system. 9. The method of claim 8,
The interlocking signal processor,
A bus communication unit for transmitting and receiving signals with at least one hardware and software of the remaining servers via a common bus line;
A command conversion unit converting the request command received from the control unit into a bus communication command format corresponding to the common bus line and transmitting the command to the remaining server; And
And a data conversion unit for converting data in a bus communication command format corresponding to the common bus line received from the remaining server into original data and transmitting the same to the BMC control unit. 9. The method of claim 8,
The BMC control unit,
A power supply controller for supplying or disconnecting power from the power supply to the plurality of servers;
A temperature controller for transmitting temperature information request commands to the plurality of servers, receiving temperature information in response thereto, and transmitting fan speed control commands to the plurality of servers according to received temperature information;
A hardware state measurement unit for transmitting a hardware state information request command to the plurality of servers and receiving hardware state information in response thereto;
A software state measurement unit for transmitting software state information request commands to the plurality of servers and receiving software state information in response thereto; And
And a status information management unit for recording information acquired by the power control unit, the temperature control unit, the hardware status measurement unit, and the software status measurement unit and outputting the information to the administrator terminal through the console port. 11. The method of claim 10,
The BMC control unit,
Further comprising an alarm unit for outputting an alarm when an emergency situation is determined based on the information acquired by the power supply control unit, the temperature control unit, the hardware state measurement unit, and the software state measurement unit. 11. The method of claim 10,
The BMC control unit,
Wherein the management server is configured to authenticate a manager connected through a network and to provide a server management work environment of the manager and to transmit information acquired by the power control unit, the temperature control unit, the hardware status measurement unit, And a remote access control unit for transmitting the information to the manager. 13. The method of claim 12,
The BMC control unit,
Further comprising a remote firmware control unit for downloading firmware through a network and updating or upgrading firmware recorded in the memory of the rack-dedicated BMC. 9. The method of claim 8,
The rack-
And a rack environment data collecting unit for collecting and outputting environmental data in the server rack.

Images