KR101694375B1 - multi-functional PCB cluster server and method for forming multi-functional PCB cluster server - Google Patents

Abstract

The present invention is provided for configuring a high-density cluster server which is easy to expand. To this end, according to the present invention, a multifunctional PCB-based cluster server includes: a first electronic circuit board including one processor module and a first external device connection module, to transmit management information for managing a computing operation; a second electronic circuit board including a switch module for performing connection with a subnetwork corresponding to either one of a control path or a data path according to the management information; and a third electronic circuit board including at least one processor module and a second external device connection module, for performing the computing operation according to a signal inputted through the connected subnetwork according to an operation of the switch module.

Description

 The present invention relates to a multi-functional PCB cluster server and method for forming a multi-functional PCB cluster server,

 The present invention relates to a multi-function PCB-based integrated cluster server and a cluster server network construction method.

A conventional blade server is a thin and modular extension server that incorporates one or more microprocessors, a core component of a server such as a memory, an HDD, and an operating system (OS), and is inserted into the main body of the server system. It is also called a high-density server in the sense that a large number of servers can be inserted and installed in a narrow space. The blade server itself can not serve as an independent server, but functions as a server by supporting power, I / O, ancillary devices and various control functions from the main body. At the same time, a plurality of blade servers are clustered, Function. In addition to sharing various common facilities and improving energy efficiency, Blade Server also integrates various functions such as Web, firewall, network switch, storage, and various software functions such as database management It is evolving into a comprehensive hardware platform, or server system.

However, each electronic circuit board (PCB) is not functionally separated and the extended electronic circuit board corresponds to the level of the electronic circuit board including the switch module.

SUMMARY OF THE INVENTION It is an object of the present invention to provide a highly integrated cluster server and a method of constructing a cluster server network in which an electronic circuit board constituting a server is functionally separated and easy to expand.

According to a first aspect of the present invention, a cluster server includes a processor module and a first external device connection module, and transmits management information for managing a computing task A first electronic circuit board; A second electronic circuit board including a switch module for performing connection with a subnetwork corresponding to either a control path or a data path according to the management information; And a third electronic circuit board including at least one processor module and a second external device connection module and performing the computing operation according to a signal input through a connected subnetwork according to the operation of the switch module.

According to a second aspect of the present invention, a first electronic circuit board including a first external device connection module including a processor module and a connection module with a hard disk transmits management information for managing a computing task step; A second electronic circuit board including a switch module performs a connection with a subnetwork corresponding to either a control path or a data path according to the management information; And a third electronic circuit board including at least one processor module and a second external device connection module performing a computing operation according to a signal input through a subnetwork connected according to the operation of the switch module.

 As described above, according to the present invention, it is possible to facilitate expansion of a cluster server by providing a method of constructing a cluster server and a cluster server network.

 Also, by providing cluster server and cluster server network construction method, it is possible to build compact server with high degree of integration.

1 is a block diagram illustrating a cluster server according to an embodiment of the present invention.
2 is a block diagram of a module of an electronic circuit board for performing a management operation according to an embodiment of the present invention.
3 is a block diagram of an electronic circuit board for performing a computing operation according to an embodiment of the present invention.
4 is a network configuration diagram between electronic circuit boards constituting a cluster server according to an embodiment of the present invention.
5 is a flowchart illustrating a cluster server network establishing method according to an embodiment of the present invention.

One embodiment of the present invention will be described in detail with reference to the accompanying drawings. In the following description of the present invention, a detailed description of known functions and configurations incorporated herein will be omitted when it may make the subject matter of the present invention rather unclear.

 1 is a block diagram illustrating a cluster server according to an embodiment of the present invention.

 1, a cluster server according to the present invention includes a switch electronic circuit board 110, a management electronic circuit board 130, a computing electronic circuit board 140, a storage electronic circuit board 150, And a circuit board (160). The cluster server can mount the aforementioned electronic circuit boards on the back plane. Also, a plurality of electronic circuit boards in the cluster server may be provided. That is, even a single cluster server 100 can install a plurality of management electronic circuit boards according to the designer's intention, and can install a plurality of electronic circuit boards for computing. In addition, a single cluster server can be extended to a plurality of cluster servers 170. When expanding between the single cluster servers 100 and 170, they can be extended through the connection 180 between the switch electronic circuit boards. The above connection may be a network connection such as a FAT TREE type or 3D TORUS type which is an existing network topology. When the first cluster server is provided with the management electronic circuit board and the storage electronic circuit board at the time of expansion through the switch electronic circuit board, the second cluster of the form in which the management electronic circuit board and the storage electronic circuit board are excluded You can extend it using a server. That is, a cluster server composed of only electronic circuit board for computing can be utilized in the construction of a large-scale cluster server. In a cluster server, an electronic circuit board for a switch may have a high heat generation, so that an arbitrary empty space 120 in the cluster server can be installed to prevent heat transfer to other electronic circuit boards. The connection of storage medium to the storage electronic circuit board and the management electronic circuit board is directly connected like the SATA interface, and the electronic circuit board for computing can be connected to the electronic circuit board for management and the ETWORK File System (NFS).

The storage electronic circuit board may be provided with at least one storage medium, and a processor module may be added to improve the performance of the storage electronic circuit board. An electronic circuit board for a switch can be constituted by one set of two switch chips.

An electronic circuit board for a switch can constitute two subnetworks (or subnets) for a control path and a data path by utilizing the above two switch chips in a cluster server. The switch electronic circuit board and each electronic circuit board for computing may be connected through any one of the two subnetworks. The UP-LINK of the above-described switch chip can be made larger than the internal network bandwidth for expansion of the electronic circuit board for the switch. For example, for a 1GB internal network connection, UP-LINK can use a 10GB switch chip. The above contents can be changed according to the designer's intention. A detailed description of the electronic circuit board for management and the electronic circuit board for computing will be described in FIGS. 2 and 3 below.

2 is a block diagram of a module of an electronic circuit board for performing a management operation according to an embodiment of the present invention.

Referring to FIG. 2, the electronic circuit boards 130 and 200 for performing management operations according to the present invention may serve as head nodes of a cluster server. The management electronic circuit board includes one (single) process module 210, a hard disk connection module 240 for connecting a hard disk, and a network connection module 240 for network connection. It may also include a connection module for connecting other peripherals. The processor module 210 includes a first processing module 220 including a CPU, a GPU, and a MEMORY, and a second processing module 230 including an eMMC and a Universal Flash Storage (UFS). The above contents can be changed according to the designer's intention.

3 is a block diagram of an electronic circuit board for performing a computing operation according to an embodiment of the present invention.

Referring to FIG. 3, an electronic circuit board (or an electronic circuit board for computing) 140, 300 for performing a computing task according to the present invention includes at least one process module 310 and a network connection module 340 for network connection . It may also include a connection module for connecting other peripherals. The processor module 310 includes a first processing module 320 including a CPU, a GPU, and a MEMORY, and a second processing module 330 including an eMMC and a Universal Flash Storage (UFS). For functional isolation between the electronic circuit boards, the electronic circuit board for computing does not include a hard disk connection module for hard disk connection. The electronic circuit board for computing may include a plurality of processor modules for performing computing tasks. That is, the processor module can be installed in a plane that allows the physical size of the electronic circuit board for computing. The above contents can be changed according to the designer's intention.

4 is a network configuration diagram between electronic circuit boards constituting a cluster server according to an embodiment of the present invention.

 Referring to FIG. 4, a network of a cluster server according to the present invention may include a plurality of subnetworks 400 and 410 generated between an electronic circuit board for management and an electronic circuit board for computing. Each subnetwork can be used as a control path or a data path according to the management information transmitted from the management electronic circuit board. 4, the first subnet 400 is used as a control path according to the management information received from the management electronic circuit board, and the second subnet 410 is used as a data path according to the management information received from the management electronic circuit board. 1 < / RTI >

Therefore, the switch electronic circuit board can switch the connection with the subnetwork to either the first subnet or the second subnet according to the received management information. The management electronic circuit board also performs connection with the external communication network 420.

5 is a flowchart illustrating a cluster server network establishing method according to an embodiment of the present invention.

Referring to FIG. 5, a cluster server network construction method according to the present invention includes a first electronic circuit board including a first external device connection module including a processor module and a connection module with a hard disk, A step S510 of connecting a second electronic circuit board including the switch module to a subnetwork corresponding to one of the control path and the data path according to the management information, (S520) a third electronic circuit board including at least one processor module and a second external device connection module performs a computing operation according to a signal input through a subnetwork connected according to the operation of the switch module (S520).

The management electronic circuit board 130 includes a first electronic circuit board including a first external device connection module including a processor module and a connection module with a hard disk for transmitting management information for managing a computing task (S500). A detailed description thereof has been given above with reference to Figs. 1, 2 and 4. Fig. The switch electronic circuit board 110 performs a step S510 of performing a connection with a subnetwork corresponding to either the control path or the data path according to the management information of the second electronic circuit board including the switch module . A detailed description thereof has been given above with reference to FIG. 1 and FIG. The electronic circuit board for computing 140 performs a computing operation according to a signal inputted through a sub network connected according to the operation of the switch module, the third electronic circuit board including at least one processor module and a second external device connection module (S520). ≪ / RTI > A detailed description thereof has been given above with reference to Figs. 1, 3 and 4.

The embodiments disclosed in the specification of the present invention do not limit the present invention. The scope of the present invention should be construed according to the following claims, and all the techniques within the scope of equivalents should be construed as being included in the scope of the present invention.

110: Electronic circuit board for switch
130: Electronic circuit board for management
140: electronic circuit board for computing
150: Electronic circuit board for storage
160: Power supply circuit board

Claims (10)

In a multi-function PCB-based cluster server,
A first electronic circuit board including one processor module and a first external device connection module and transmitting management information for managing a computing task;
A second electronic circuit board including a switch module for controlling a plurality of subnets according to the management information; And
And a third electronic circuit board including at least one processor module and a second external device connection module and performing the computing operation according to a signal input through the subnetwork connected according to the operation of the switch module,
Wherein the first electronic circuit substrate and the third electronic circuit substrate are connected to the plurality of subnets,
Wherein the plurality of subnets include a first subnet and a second subnet,
Wherein the first subnet acts as a control path or the second subnet acts as a data path corresponding to the management information,
A multi-functional PCB-based cluster server for connecting an electronic circuit board including a switch module in a cluster server to a second electronic circuit board when the multi-function PCB-based cluster server is expanded. The multifunctional PCB-based cluster server of claim 1, further comprising a fourth electronic circuit board comprising at least one storage module. The apparatus according to claim 1, wherein the first external device connection module includes a hard disk connection module, and the second external device connection module includes a connection module for connection to external devices other than the hard disk Multi-function PCB-based cluster server. The multi-functional PCB-based cluster server of claim 1, wherein the switch module further performs connection with another cluster server. The multi-functional PCB based cluster server of claim 1, wherein the first electronic circuit board further comprises a connection from an external communication network. The multi-functional PCB-based cluster server of claim 1, wherein the processor module comprises a first processing module comprising a CPU, a GPU or memory and a second processing module comprising an eMMC or a UFS. A multi-function PCB-based cluster server network construction method,
Transmitting a management information for managing a computing task to a first electronic circuit board including a first external device connection module including a processor module and a connection module with a hard disk;
A second electronic circuit board including a switch module controlling a plurality of subnets according to the management information; And
A third electronic circuit board including at least one processor module and a second external device connection module performing a computing operation according to a signal inputted through a subnetwork connected according to the operation of the switch module,
Wherein the first electronic circuit substrate and the third electronic circuit substrate are connected to the plurality of subnets,
Wherein the plurality of subnets include a first subnet and a second subnet,
Wherein the first subnet acts as a control path or the second subnet acts as a data path corresponding to the management information,
And connecting the electronic circuit board including the second electronic circuit board and the switch module in another cluster server when the multi-function PCB based cluster server is expanded. [8] The apparatus of claim 7, wherein the first external device connection module includes a hard disk connection module, and the second external device connection module includes a connection module for connection to external devices other than the hard disk Multi - functional PCB based cluster server network construction method. 8. The method of claim 7, wherein the switch module further performs connection with another cluster server. 8. The method of claim 7, wherein the first electronic circuit board further performs connection from an external communication network.

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