CN210428286U - Modular edge server structure - Google Patents

Abstract

The utility model discloses a modularization edge server structure, include: a main control board module; the main control board module is provided with an accommodating area and a connector of the management module, an accommodating area and a socket of the memory bank, an accommodating area and a connector of the CPU, an accommodating area and a connector of the power module, an accommodating area and a connector of the heat dissipation module, an accommodating area and a connector of the hard disk, an accommodating area and a connector of the expansion module, an accommodating area and a connector of the I/O module and a south bridge. The south bridge is connected with the I/O module through a signal line, the management module is connected with a connector of the heat dissipation module through a signal line, and the connector of the heat dissipation module is used for connecting a fan. The management module is connected with the power module through a signal wire; the management module is connected with a connector of the hard disk through a signal line; the management module passes through the signal line with the connector of extension module and is connected, and the extension module includes: the system comprises a network function module, a storage function module, a video function module, a GPU/FPGA module and the like.

Description

Modular edge server structure

Technical Field

The utility model relates to a server structure technical field, in particular to have high usable, high extension, high density, low energy consumption, be convenient for centralized management, based on the edge server of structure of modularization overall arrangement.

Background

The development of the internet of things promotes the formation of an intelligent society with mutual object interconnection and mutual object perception, however, the construction and deployment of the current network are not well compatible with new service characteristics such as the internet of things. In order to meet the requirements of high bandwidth and low delay required by the high-speed development of the internet of things and reduce the network load, services and functions originally located in a data center need to be 'sunk' to the edge of a mobile network, and computing, storage, network and communication resources are provided at the edge of the mobile network. The edge computing system should sound accordingly.

However, the edge server as a high-performance computing device has high requirements for operation and maintenance management and exchange performance, and the edge server in the market generally has the disadvantages of non-uniform standard, poor expansion performance and the like, and is high in cost, so that the personalized requirements of users are difficult to meet.

Therefore, in the face of increasingly complex application environments and diversified application requirements in the environment of the internet of things, how to provide an edge server which is high in availability, high in expansion, high in density, low in energy consumption and convenient to centrally manage based on the structural design of full-platform modular layout is more and more necessary, and personalized requirements of users are met to the maximum extent in multiple directions.

SUMMERY OF THE UTILITY MODEL

The utility model discloses to prior art's defect, provide a modularization edge server structure, solved the defect that exists among the prior art.

In order to realize the purpose of the utility model, the utility model discloses the technical scheme who takes as follows:

a modular edge server architecture comprising: the main control board module is connected with the case shell;

the main control board module is provided with an accommodating area and a connector of the management module, an accommodating area and a socket of the memory bank, an accommodating area and a connector of the CPU, an accommodating area and a connector of the power module, an accommodating area and a connector of the heat dissipation module, an accommodating area and a connector of the hard disk, an accommodating area and a connector of the expansion module, an accommodating area and a connector of the I/O module and a south bridge.

The south bridge is connected with the I/O module through a signal line. The management module is connected with the connector of the heat dissipation module through a signal line, the connector of the heat dissipation module is used for connecting the fan, and the management module is used for controlling the on-off and the rotating speed of the fan.

The management module is connected with the power supply module through a signal wire and used for controlling the on-off of the power supply module;

the management module is connected with the connector of the hard disk through a signal line and is used for controlling the operation of the hard disk;

the management module passes through the signal line with the connector of extension module and is connected, and the extension module includes: the system comprises a network function module, a storage function module, a video function module and a GPU/FPGA module; the management module can read the working state parameters of the network function module, the storage function module, the video function module and the GPU/FPGA module and control the switch of the expansion module connector; and for data exchange.

The connector of the power module is connected with the management module, the connector of the heat dissipation module, the connector of the hard disk, the connector of the expansion module, the I/O module connector, the memory bank socket, the CPU connector and the south bridge through power lines.

The expansion module includes: the device comprises a network function module, a storage function module, a video function module and a GPU/FPGA module. According to application requirements, more kinds of expansion modules can be adapted.

The network function module is used for configuring and realizing functions or schemes including network switches, VPC networks, WIFI routers and the like.

The storage function module is used for configuring and realizing functions or schemes including full flash storage, ARM distributed storage, X86 distributed storage and the like.

The video function module is used for configuring and realizing functions or schemes including video live broadcast, high-frequency transaction and the like.

The GPU/FPGA module is used for configuring and realizing functions or schemes including camera video AI calculation, CPU/GPU/FPGA heterogeneous acceleration, cloud games and the like.

The expansion module, the fan, the power supply and the hard disk can be detachably connected to the corresponding connectors.

The main control board module is arranged in the case shell, and mounting holes are formed in the front end and the rear end of the case shell and used for mounting and taking out the expansion module, the I/O module, the fan and the power supply.

Preferably, the power supply module is selected to be composed of a single power supply or 2 power supplies according to different load sizes;

preferably, the connector of the expansion module supports hot plugging.

Preferably, the heat dissipation module includes 1 to 4 fans.

Preferably, the number of the hard disks is 1 to 2.

Preferably, the memory bank sockets are arranged in two rows with the same number, wherein at least 6 memory bank sockets exist in one row.

Preferably, the I/O module comprises a VGA interface, a USB interface and an electric port network connection port.

Preferably, the chassis housing is completely and fixedly installed in the server chassis through screws, or is installed in the server chassis by adopting a telescopic sliding rail, or is installed in the server chassis by adopting a blade type integral plug-in installation mode.

Preferably, the chassis housing is 19 inches.

Compared with the prior art, the utility model has the advantages of:

1. the edge server baseboard structure has the advantages of high availability, high extension, high density and modularization technology based.

2. Various resource configurations such as calculation, network, storage, video, GPU/FPGA, management and the like are effectively integrated, and various characteristics such as flexible deployment and effective expansion are realized.

3. The hot plug installation of various expansion modules can be realized on the same main control board module, the expansion modules can be a network module, a storage module, a video module and a GPU/FPGA module, and an I/O module, a management control module and a heat dissipation module can also be configured, so that various application requirements of different users are met.

4. The monitoring and monitoring of the running state of each functional module system are realized through the management control module, the operation and maintenance of users are convenient, and the method is very simple.

Drawings

Fig. 1 is a schematic diagram of a layout of a main control board module according to an embodiment of the present invention;

fig. 2 is a schematic diagram of the server shell according to the embodiment of the present invention after different expansion modules are configured at the front end of the server shell;

fig. 3 is a schematic diagram of the server casing according to the embodiment of the present invention after the heat dissipation module, the I/O module, and the power module are configured at the rear end of the server casing.

The labels in the figure are: 10 is a main control board module, 101 is a management module, 102, 106 are hard disk accommodating areas, 103, 104, 105 are expansion module accommodating areas, 107, 109 are memory strip sockets, 108 are CPU accommodating areas, 110-113 are heat dissipation module accommodating areas, 114 are I/O module accommodating areas, 115, 116 are power supply accommodating areas, and 117-119 are expansion modules.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more apparent, the present invention will be further described in detail with reference to the accompanying drawings and examples.

As shown in fig. 1, a modular edge server includes: a chassis housing and a main control board module 10;

the main control board module 10 is provided with a management module accommodating area 101, memory bank sockets 107 and 109, a CPU accommodating area 108 and a south bridge; the CPU receiving area 108 can be installed with different types of CPUs to meet and be compatible with various applications.

The main control board module 10 is further provided with accommodating areas 115 and 116 and connectors of the power module, accommodating areas 110 to 113 and connectors of the heat dissipation module, accommodating areas 102 and 106 and connectors of the hard disk, accommodating areas 103 to 105 and connectors of the expansion module, and an accommodating area 114 and connectors of the I/O module.

In this embodiment, 2 power supplies are configured on the main control board module 10, and the power supply module may be selected to be composed of a single power supply or 2 power supplies according to the difference of load sizes, and operates in a load balancing redundancy manner, thereby effectively improving the power supply safety and reliability of the server system on the basis of considering energy saving.

The I/O module comprises 1 VGA interface, 2 USB interfaces and 2 electric port network connection ports, and different users can select the types and the number of the connection ports according to requirements to realize the data communication between the main control board module and the previous layer structure or the outside.

The heat dissipation module comprises 4 fans, and the rotating speed can be automatically adjusted to provide heat dissipation for the case.

The management control module is used for controlling and monitoring the running state of each module on the main control board module, and comprises an opening/closing expansion template, a fan rotating speed and starting and stopping control module and a power supply module switch.

The connector of the memory bank interface can realize memory expansion with ultra-large limit. The memory bank sockets are arranged into two columns with the same number, wherein at least 6 memory bank sockets exist in one column.

2 connectors for installing and connecting hard disks are also configured on the main control board module,

the south bridge chip is responsible for communication between I/O buses, such as PCI bus, USB, LAN, ATA, SATA, audio controller, keyboard controller, real-time clock controller, advanced power management, etc.

This embodiment can connect 3 extension modules 117 ~ 119 of the same kind or different kinds, and the extension module includes: the network function module, the storage function module, the video function module, the GPU/FPGA module and the like can be adapted to a wider variety of expansion modules according to application requirements. Preferably, the connector of the expansion module is a pcie x8 connector interface.

The network function module is used for configuring and realizing functions or schemes including network switches, VPC networks, WIFI routers and the like.

The storage function module is used for configuring and realizing functions or schemes including full flash storage, ARM distributed storage, X86 distributed storage and the like.

The video function module is used for configuring and realizing functions or schemes including video live broadcast, high-frequency transaction and the like.

The GPU/FPGA module is used for configuring and realizing functions or schemes including camera video AI calculation, CPU/GPU/FPGA heterogeneous acceleration, cloud games and the like.

The main control board module 10 is used as a substrate of a modular layout structure, and uniformly performs data configuration on each module. The management control module is responsible for monitoring and controlling the running state of each module configured on the main control board module 10, so that a user can conveniently operate and maintain each module through the management control module, and the operation and maintenance are very simple.

The connectors of the various modules in this embodiment support hot plugging, such as the connector of the expansion module, the connector of the fan, the connector of the expansion module, the connector of the power module, and the connector of the I/O module. The user can replace the utility model conveniently.

The main control board module 10 is installed inside the chassis shell, and mounting holes are formed in the front end and the rear end of the chassis shell and used for inserting and taking out the expansion module, the fan, the I/O module and the power supply.

The case shell can be completely and fixedly installed in the server case through screws, or installed in the server case by adopting a telescopic sliding rail, or installed in the server case by adopting a blade type integral plugging installation mode.

In this embodiment, the server chassis is a 19-inch chassis, which can be well adapted to the 19-inch racks currently used in large quantities in the industry, and the compatibility is better.

It will be appreciated by those of ordinary skill in the art that the examples described herein are intended to assist the reader in understanding the manner of practicing the invention, and it is to be understood that the scope of the invention is not limited to such specific statements and examples. Those skilled in the art can make various other specific modifications and combinations based on the teachings of the present invention without departing from the spirit of the invention, and such modifications and combinations are still within the scope of the invention.

Claims (9)

1. A modular edge server architecture comprising: the main control board module is connected with the case shell;

the method is characterized in that: the main control board module is provided with an accommodating area and a connector of the management module, an accommodating area and a socket of the memory bank, an accommodating area and a connector of the CPU, an accommodating area and a connector of the power module, an accommodating area and a connector of the heat dissipation module, an accommodating area and a connector of the hard disk, an accommodating area and a connector of the expansion module, an accommodating area and a connector of the I/O module and a south bridge;

the south bridge and the I/O module are connected by signal wires and are responsible for communication between I/O buses, and the I/O module comprises a VGA interface, a USB interface and an electric port network connection port and is responsible for data communication between the main control board module and a previous layer structure or the outside;

the management module is connected with a connector of the heat dissipation module through a signal line, the connector of the heat dissipation module is used for connecting the fan, and the management module is used for controlling the on-off and the rotating speed of the fan;

the management module is connected with the power supply module through a signal wire and used for controlling the on-off of the power supply module;

the management module is connected with the connector of the hard disk through a signal line and is used for controlling the operation of the hard disk;

the management module passes through the signal line with the connector of extension module and is connected, and the extension module includes: the system comprises a network function module, a storage function module, a video function module and a GPU/FPGA module; the management module can read the working state parameters of the network function module, the storage function module, the video function module and the GPU/FPGA module and control the switch of the expansion module connector; and for data exchange;

the connector and management module of the power module, the connector of the heat dissipation module, the connector of the hard disk, the connector of the expansion module, the I/O module connector, the memory bank interface, the CPU connector and the south bridge are connected through power lines;

the expansion module includes: the system comprises a network function module, a storage function module, a video function module and a GPU/FPGA module; according to application requirements, more kinds of expansion modules can be adapted;

the network function module is used for configuring and realizing functions or schemes such as a network switch, a VPC network, a WIFI router and the like;

the storage function module is used for configuring and realizing functions or schemes including full flash storage, ARM distributed storage, X86 distributed storage and the like;

the video function module is used for configuring and realizing functions or schemes including video live broadcast, high-frequency transaction and the like;

the GPU/FPGA module is used for configuring and realizing functions or schemes including camera video AI calculation, CPU/GPU/FPGA heterogeneous acceleration, cloud games and the like;

the expansion module, the fan, the power supply and the hard disk can be detachably connected to the corresponding connectors;

the main control board module is arranged in the case shell, and mounting holes are formed in the front end and the rear end of the case shell and used for mounting and taking out the expansion module, the I/O module, the fan and the power supply.

2. A modular edge server architecture according to claim 1, wherein: the power supply module is selected to be composed of a single power supply or 2 power supplies according to different load sizes.

3. A modular edge server architecture according to claim 2, wherein: the connector of the expansion module supports hot plug.

4. A modular edge server architecture according to claim 3, wherein: the heat dissipation module includes 1 to 4 fans.

5. The modular edge server architecture of claim 4, wherein: the number of the hard disks is 1 to 2.

6. The modular edge server architecture of claim 5, wherein: the memory bank sockets are arranged into two columns with the same quantity, wherein at least 6 memory bank sockets exist in one column.

7. The modular edge server architecture of claim 6, wherein: the I/O module comprises a VGA interface, a USB interface and an electric port network connection port.

8. The modular edge server architecture of claim 7, wherein: the case shell is completely and fixedly installed in the server case through screws, or is installed in the server case by adopting a telescopic sliding rail, or is installed in the server case by adopting a blade type integral plugging installation mode.

9. The modular edge server architecture of claim 8, wherein: the chassis housing is 19 inches.

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