CN212302372U - Edge computing center integrated server - Google Patents

Abstract

The invention relates to an edge computing center integrated server, which comprises a hardware resource layer and is characterized in that the hardware resource layer comprises a main board, a computing board, a network board, a storage board, an expansion board and an interface board, wherein the main board is provided with interfaces and reserved interfaces of the computing board, the network board, the storage board, the expansion board and the interface board, and the computing board, the network board, the storage board, the expansion board and the interface board are connected with the main board through the interfaces. The hardware resource layer can flexibly and conveniently update hardware according to the change of the demand, is deployed at the front end, carries out data localization calculation and processing, reports results to the upper level and executes upper level instructions, reduces the data transmission amount of the local upper level, shortens the data transmission time, shortens the reaction time of the application with higher real-time performance, avoids the service interruption influence caused by link damage, provides and integrates various services and applications, and can work together with other edge calculation servers.

Description

Edge computing center integrated server

Technical Field

The invention belongs to an edge computing server application, which is mainly applied to the field of information processing of independent areas under smart city construction.

Background

When all data in the current independent area are uploaded to a superior control center or a cloud computing center, the required network bandwidth is huge in demand and the cost is relatively high; data are transmitted to a superior control center or a cloud computing center from the local and returned to the local through computing, the data transmission time of the whole link is long, the number of nodes is large, the related area of the link is wide, the probability of link damage is high, and the application with high real-time requirements cannot be met.

The current edge computing server only processes certain data, multiple corresponding edge computing servers are required to be configured for processing various types of data, and independent areas, such as communities and villages, have data in multiple formats, such as videos, voices, characters, digital signals and analog signals, and a server with a single edge computing function cannot meet the requirements.

The current configuration of the edge computing server is fixed, the single selected and configured function configuration cannot be changed, the edge computing server with higher configuration needs to be replaced when the processing requirement exceeds the processing capacity, and the hardware configuration cannot be upgraded conveniently; software and hardware are matched, and a plurality of applications run in one operating system and cannot run independently and simultaneously in other operating systems.

Disclosure of Invention

To solve the above-mentioned prior art problems of edge calculation, the present invention aims to:

an edge computing center integrated server is designed, is deployed at the front end, carries out data localization computation and processing, reports results to an upper level and executes an upper level instruction, reduces the data transmission quantity of the local upper level, shortens the data transmission time, shortens the reaction time of high real-time application, avoids the service interruption influence caused by link damage, provides and integrates various services and applications, and can flexibly and conveniently carry out hardware upgrading according to the change of requirements.

In order to realize the purpose of the invention, the technical scheme is as follows:

an edge computing center integrated server mainly comprises a hardware resource layer, a virtual resource layer and a software application layer.

The hardware resource layer mainly comprises a main board, a computing board, a network board, a storage board, an expansion board and an interface board.

The main board is a carrier of various hardware boards and comprises interfaces and reserved interfaces of a computing board, a network board, a storage board, an expansion board and an interface board.

The computing board mainly comprises main computing unit accessories such as a CPU, a DSP, a memory and the like, is mainly responsible for control management and data processing of the system, and cooperates different types of instruction sets and computing units with different system architectures to process various types of data such as structured data, unstructured data and the like.

The network board mainly comprises data exchange unit accessories such as a network exchange chip, a network card, a PHY chip, a port and the like, realizes the functions of receiving, storing and forwarding Ethernet data frames, supports various two-layer and three-layer protocols, is embedded with a software defined network system, has a massive terminal access architecture, separates a control plane and a data forwarding plane of a network, and can be used for controlling the configuration of the network in a programmable way.

The storage board mainly comprises various required data interfaces, a certain storage space and a storage array management function, and provides storage management and query of data.

The expansion board mainly includes a video card, or an accessory with a specific function such as an encoder or a decoder.

The interface board mainly comprises one or more combinations of a network interface, an optical fiber interface, an RS485/232 interface, an analog signal interface, a power interface and the like.

The edge computing center integrated server is designed according to a board card framework, only the board card needs to be inserted or pulled out according to the change of requirements, and the maximization of the utilization efficiency of hardware is achieved.

The virtual resource layer virtualizes all hardware resources to form a virtualization layer, adopts functions such as a virtual machine manager and the like to directly run on a system hardware platform, then runs an operating system and virtualization functions, and virtualizes three resources, namely computing resources, network resources and storage resources.

The software application layer is to software and service functions, decoupled from the proprietary hardware platform. Based on the virtualization technology, on the same hardware platform, hardware, a system, specific software and the like can be longitudinally combined according to services, and a plurality of independent service intervals are virtualized and isolated from one another. The method can be flexibly combined and arranged, can be flexibly migrated and flexibly expanded on different hardware platforms and different devices, and realizes the dynamic scheduling of resources and the agile service. Software services with different functions can be installed according to different requirements.

One or more independent areas are provided with an edge computing center integrated server which is responsible for processing the basic functions of local voice, video, text and other data analysis and calculation and application services with high real-time performance, executing the operation instruction of a superior management center and uploading the data processing result to an upper level.

The edge computing center integrated servers form a plurality of edge computing center integrated server groups according to needs through an edge cooperation mechanism, meanwhile, the edge computing center integrated server groups virtualize a larger computing resource pool, a network resource pool and a storage resource pool, related functions such as data analysis and calculation are jointly completed through resource service discovery, unified management and arrangement of the edge cooperation mechanism, and the requirement of business calculation which cannot be realized by a single node is met through the edge computing center integrated server groups.

The invention has the beneficial effects that:

an edge computing center integrated server can perform data localization computation and processing, report results to an upper level and execute an upper level instruction, reduce the data transmission amount of the local upper level and the bandwidth requirement, shorten the data transmission time, improve the reaction speed of application with higher real-time performance, reduce the probability of service interruption influence caused by link damage, provide multiple services and applications, flexibly and conveniently perform hardware upgrade according to the change of the requirement, and simultaneously can cooperatively work with other edge computing servers.

Drawings

FIG. 1 is a schematic diagram of an edge compute farm integrated server architecture.

Detailed Description

The technical solutions of the present invention will be described clearly and completely with reference to the accompanying drawings, and it is to be understood that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

The invention provides an edge computing center integrated server, which can perform data localization computation and processing, report results to an upper level and execute an upper level instruction, reduce the data transmission amount of the local upper level and the bandwidth requirement, shorten the data transmission time, improve the reaction time of application with higher real-time performance, avoid the service interruption influence caused by link damage, provide various services and applications simultaneously, conveniently perform hardware upgrading as required and can also cooperate with other edge computing servers.

In order to realize the purpose of the invention, the technical scheme is as follows:

an edge computing center integrated server mainly comprises a hardware resource layer 1, a virtual resource layer 2 and a software application layer 3.

The hardware resource layer 1 mainly includes a main board 16, a computing board 11, a network board 12, a storage board 13, an expansion board 14, and an interface board 15.

The main board 16 is a carrier of various hardware boards, and includes interfaces and reserved interfaces of a computing board, a network board, a storage board, an expansion board, and an interface board.

The computing board 11 mainly includes main computing unit accessories such as a CPU, a DSP, and a memory, and is mainly responsible for control management of the system and data processing, and cooperates different types of instruction sets and computing units of different system architectures to process various types of data such as structured data and unstructured data.

The network board 12 mainly includes data exchange unit accessories such as a network exchange chip, a network card, a PHY chip, a port, etc., realizes the functions of receiving, storing, and forwarding an ethernet data frame, supports various two-layer and three-layer protocols, is embedded with a software defined network system, has a massive terminal access architecture, separates a control plane and a data forwarding plane of a network, and controls network configuration in a programmable manner.

The storage board 13 mainly includes various required data interfaces, a certain storage space and a storage array management function to provide storage management and query of data.

The expansion board 14 mainly includes a graphics card, or an accessory for a specific function such as an encoder or a decoder.

The interface board 15 mainly includes one or more combinations of a network interface, an optical fiber interface, an RS485/232 interface, an analog signal interface, a power interface, and the like.

The edge computing center integrated server is designed according to a board card framework, only the board card needs to be inserted or pulled out according to the change of requirements, and the maximization of the utilization efficiency of hardware is achieved.

The virtual resource layer 2 virtualizes all hardware resources to form a virtualization layer 21, directly runs on a system hardware platform by adopting functions such as a virtual machine manager and the like, then runs an operating system and virtualization functions, and virtualizes three resources, namely a computing resource 22, a network resource 23 and a storage resource 24.

The software application layer 3 decouples the functional software and services from the proprietary hardware platform. Based on the virtualization technology, on the same hardware platform, hardware, a system, specific software and the like can be longitudinally combined according to services, and a plurality of independent service intervals are virtualized and isolated from one another. The method can be flexibly combined and arranged, can be flexibly migrated and flexibly expanded on different hardware platforms and different devices, and realizes the dynamic scheduling of resources and the agile service. Software services with different functions can be installed according to different requirements.

One or more independent areas are provided with an edge computing center integrated server which is responsible for processing the basic functions of local voice, video, text and other data analysis and calculation and application services with high real-time performance, executing the operation instruction of a superior management center and uploading the data processing result to an upper level.

The edge computing center integrated servers form a plurality of edge computing center integrated server groups according to needs through an edge cooperation mechanism, meanwhile, the edge computing center integrated server groups virtualize a larger computing resource pool, a network resource pool and a storage resource pool, related functions such as data analysis and calculation are jointly completed through resource service discovery, unified management and arrangement of the edge cooperation mechanism, and the requirement of business calculation which cannot be realized by a single node is met through the edge computing center integrated server groups.

Claims (6)

1. An edge computing center integrated server comprises a hardware resource layer and is characterized in that the hardware resource layer comprises a main board, a computing board, a network board, a storage board, an expansion board and an interface board, interfaces and reserved interfaces of the computing board, the network board, the storage board, the expansion board and the interface board are designed on the main board, and the computing board, the network board, the storage board, the expansion board and the interface board are connected with the main board through the interfaces.

2. The edge computing center integration server of claim 1, wherein the interface board comprises one or more of a network interface, an optical fiber interface, an RS485/232 interface, an analog signal interface, and a power interface.

3. The edge computing center integration server of claim 1, wherein the computing board comprises a CPU, a DSP, a memory, and computing unit accessories.

4. The edge computing center integration server of claim 1, wherein the network board comprises a network switch chip, a network card, a PHY chip, and a port.

5. The edge computing center integration server of claim 1, wherein the expansion board comprises a graphics card or an encoder or a decoder.

6. The edge computing center integration server of claim 1, wherein the memory board comprises a data interface, a memory space, and a memory array management module.

Images