CN212208288U - ARM cluster service complete machine - Google Patents

Abstract

The utility model discloses a complete machine of ARM cluster service, including main power supply, stand-by power supply, power control module and power strip, main power supply and stand-by power supply are connected respectively to power control module's input, and power strip is connected to power control module's output, are equipped with 12 main control board interfaces on the power strip, and 10 of them main control board interfaces are connected the main control board mainboard, and two remaining main control board interfaces are redundant interfaces, the utility model discloses the biggest support of single server inserts 12 main control boards, supports 10 main control boards and works simultaneously, and the main control board supports hot plug; a single main control board can be connected with 12 core board modules, internal structural modules are arranged, the flexibility of deployment requirements is good, and the highest 120 core modules can be supported by a single Eostek ARM cluster service.

Description

ARM cluster service complete machine

Technical Field

The utility model relates to a server technical field specifically is a complete machine of ARM cluster service.

Background

The rapid development of mobile internet application and the expansion and deepening of cloud computing and big data application are that a data center is gradually transferred to an ARM architecture server from a mainframe and a mini-machine of a traditional x86 architecture, and with the new demand of people on a server work load mode, more and more intelligent scenes need the mini-server to be deployed.

Based on the elastic computing power of the ARM cluster server, the business requirements of lightweight scenes in the Internet industry can be met, and personalized industry solutions are created. The method comprises the industry fields of games, advertisements, live broadcast, AI, VR, security protection, face recognition, video and the like. In a single 2U server system, the system provides the ultra-strong computing performance of up to 120 core boards, flexible storage expansion and high-speed network access capability, and is very suitable for complex infrastructure environments with multiple service loads, including enterprise-level deployment, cloud environment deployment, big data application environments and the like.

The application scenes of the current floor ARM cluster server project mainly include 3 types: the NPU cluster computing power is provided for the artificial intelligent project by being used as a cloud server to simulate the mobile phone environment.

As the cloud server is basically consistent with the scene requirements of X86, users can deploy applications in a large-scale cloud manner like a server using a currently mainstream X86 architecture, thereby reducing the dependence on terminal hardware. Compared with an X86 server, the ARM server adopts a mother board and daughter board mode, more core processors can be accommodated in the same specification, and an ARM cloud service computing cluster is easily built. And the ARM processor performs better than the X86 processor in terms of energy consumption ratio, which is very important for the server industry operating 7X 24 continuously.

In order to meet the labor demand of artificial intelligence projects, all ARM cluster server daughter boards are provided with corresponding independent NPU product schemes. The NPU is a processor designed specifically for neural network models, and the efficiency of running AI models is much higher than that of conventional logical processors.

Based on the above, a service complete machine with high integration level, strong expansion performance, stability and reliability needs to be provided.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide an ARM cluster service complete machine to solve the problem that proposes among the above-mentioned background art.

In order to achieve the above object, the utility model provides a following technical scheme:

the utility model provides a complete machine of ARM cluster service, includes main power supply, stand-by power supply, power control module and power strip, main power supply and stand-by power supply are connected respectively to power control module's input, and power strip is connected to power control module's output, is equipped with 12 main control board interfaces on the power strip, and wherein 10 main control board interfaces connect the main control board mainboard, and two remaining main control board interfaces are redundant interfaces.

As a further technical solution of the present invention: a maximum of 12 core boards can be inserted into each main control board main board.

As a further technical solution of the present invention: and the main control board mainboard is provided with a core node control board for controlling the operation, configuration and control of all core boards on the cluster server.

As a further technical solution of the present invention: and the main control board main board is provided with a USB port for debugging and configuring the core node control board.

As a further technical solution of the present invention: and the main control board main board is provided with an HDMI display output for displaying a UI system interface of the main control board main board.

As a further technical solution of the present invention: the main control board mainboard adopts gigabit network connection to the host port, and the core board adopts gigabit network switching.

As a further technical solution of the present invention: and a heat radiation fan is arranged on the power panel.

Compared with the prior art, the beneficial effects of the utility model are that: the utility model discloses single server supports to insert 12 main control boards to the maximum, supports 10 main control boards to work simultaneously, and the main control board supports hot plug; a single main control board can be connected with 12 core board modules, internal structural modules are arranged, the flexibility of deployment requirements is good, and the highest 120 core modules can be supported by a single Eostek ARM cluster service.

Drawings

Fig. 1 is a block diagram of the overall structure of the present invention.

Fig. 2 is a diagram of the main board structure of the main control board.

Fig. 3 is a communication architecture diagram of the main control board.

Fig. 4 is a general configuration diagram of the gateway system.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

Referring to fig. 1, embodiment 1: the utility model provides a complete machine of ARM cluster service, includes main power supply, stand-by power supply, power control module and power strip, and main power supply, stand-by power supply's setting can ensure the stable operation of server, main power supply and stand-by power supply are connected respectively to power control module's input, and power strip is connected to power control module's output, is equipped with 12 main control board interfaces on the power strip, and wherein 10 main control board interface connection main control board mainboards remain two main control board interfaces and are redundant interface.

The main control board is configured as shown in fig. 2, and a maximum of 12 core boards can be inserted into each main control board. Totaling 120 nodes of high performance core processing units. The single core processing unit is an 8-core ARM architecture, the highest main frequency of the single core is not lower than 2.0GHz, and the processing units are mutually isolated and do not influence each other. The MCU unit on each main control board mainboard can keep communication with the core node control board and the core board and respond to the control instruction. The main control board mainboard is provided with a core node control board for controlling the operation, configuration and control of all core boards on the cluster server. The core node control board (proposal RK3128) may manage each core board restarting, closing, detection, status, etc.; corresponding every nuclear core plate has corresponding pilot lamp suggestion running state on every main control board mainboard, is equipped with the USB mouth that is used for debugging configuration core node control panel on the main control board mainboard. The mainboard of each main control board supports HDMI display output, a UI system interface of the mainboard of the main control board can be displayed, and the working state of a core board on the mainboard of the main control board can be checked through the UI.

The communication architecture diagram of the main control board is shown in fig. 3, so that a user can perform management and control of the core board through a UI (supporting operation directly on the main control board through HDMI-OUT, and also supporting access operation through a PC in a browser manner). Meanwhile, serial port communication services with the MCU and the core board and communication services with the gateway system are added. The user can directly manage the core board through the UI of the main control board; the master control board can also communicate with the gateway system, report the controlled core board and the state of the master control board, receive the management instruction sent by the gateway and manage the master control board or the core board.

The overall structure of the gateway system is shown in fig. 4, and the gateway system is connected with the gateway communication service layer of the main control board through an IP network; the service system is connected with the service system through a service system interface layer, so that the service system can manage the equipment according to the condition of the service and reasonably schedule the service according to the current state condition of the equipment. The gateway system provides a WEB UI layer so that management personnel can directly manage all hosts, the main control board and the core board of the system through the WEB UI layer.

Adopt foretell design, the utility model discloses a server has following advantage:

1. the internal structural module has good flexibility in deployment requirements, and a single Eostek ARM cluster service can support 120 core modules at most;

2. the maximum 120 paths of 4K audio and video coding can be simultaneously supported, and the frame rate can reach 60 frames;

3. the top performance ARM core (8 CPU cores, 2A 76+ 6A 55, single Cortex-A76 core main frequency is not lower than 2.0GHz, GPU: ARM G76, NPU: 2 APU) can support the maximum 120 GPU + NPU operations at the same time;

4. and GPU cloud computing service is constructed, and the requirements of artificial intelligence, big data analysis, multimedia analysis and visual computing in various industries are met. The development of artificial intelligence, robots, security and government big data analysis industries is driven. The GPU hypercalculation center plays an important role of a foundation stone in industrial transformation brought by next-generation artificial intelligence and assists in upgrading intelligent technologies of various industries.

5. The Eostek ARM cluster service structure is simple, NPU + NVR can be achieved by accessing audio and video, and the deployment is flexible and convenient;

6. for realizing image analysis, the Eostek ARM cluster service does not need special video input equipment such as a face recognition camera and the like;

7. each core module of the Eostek ARM cluster service supports gigabit network exchange and Internet data exchange extremely-fast response;

8. the system can support various management systems, data storage and user terminals in a cross-device and cross-platform manner;

9. the simulated mobile phone environment is the ARM cluster server subdivision industry with the most vigorous market demand at present. In the era of mobile internet, the application of a mobile terminal is in a well-spraying type growth, and the mobile terminal has a corresponding mobile version no matter games, social contact, office or all applications which you can think of. Therefore, it is becoming an on-demand to simulate the handset environment required for mobile applications. The distribution test and the server pressure test of the game can use an ARM cluster server simulating a mobile phone environment. The ARM cluster server can fully meet the requirements of the mobile phone environment for marketing and commercial operation based on the social network. The operation means of many merchants at present is to prepare more than 100 cheap mobile phones and then realize centralized control of these mobile application software on a computer through some software, which is already a relatively professional operation means. More merchants are holding dozens of mobile phones manually and sending messages continuously. Both of these approaches involve significant labor and hardware costs. The mobile phone environment simulated by the ARM cluster server is really high in quality and low in price, a single ARM server can simulate more than 100 mobile phone environments, the operation is uniformly controlled and controlled through a display and a keyboard and a mouse, and the efficiency is extremely high.

10. The system is opened more, the compatibility of software and hardware is tested, the system is diversified, and the ARM virtualization technology realizes the system-level opening more; the intelligent scheduling of the multiple open parameters of the system can be carried out, and the requirements of different service scenes are met. Compatibility is tested by multi-system debugging software in different environments, and different experiences brought by different operating systems can be experienced.

11. The system is safe, one machine has multiple functions, the system can be distinguished according to needs, the system can be used together for work and entertainment, the situation that the downloaded software carries viruses to damage work data is avoided, the multiple systems run independently and support each other, the system can be distinguished according to needs to be used and repaired mutually, and collapse and the like caused by artificial and unintentional deletion of important data of the system are avoided.

12. The cloud security developer platform is used for realizing data clouding, reducing the editing cost, realizing various selections, preventing the data from falling to the ground, helping a user to realize the safe operation and maintenance of a cloud database and avoiding artificial leakage or mistaken deletion; any equipment access is supported, the cloud database is logged in anytime and anywhere, and the required data are quickly called; the cloud platform also provides various system architectures, and can meet the user requirements in a larger mode.

13. The cloud application developer platform realizes APP clouding and OEM customization, improves channel conversion rate, directly experiences various native APPs without downloading, and creates a brand-new advertisement brand display form; the click rate of the trial advertisement playing is 3 times higher than that of the ordinary form, and the assisting power can quickly position the accurate user; and customizing private customization services such as product effect, product form, position, color matching, operation mode, data effect monitoring and the like in depth.

14. The cloud mobile phone developer platform runs in a cloud 24h mode, is free of ROOT and multi-switch synchronous operation, is applied for 24h online, is not afraid of network disconnection and shutdown, and reduces hardware cost and energy consumption of a user; the ROOT is avoided, the ROOT is perfectly compatible with all applications, one mobile phone can be provided with more applications, batch device operation is supported, multiple tasks are executed simultaneously, repeated operation is reduced, and time and labor are saved.

15. The system comprises an ARM cloud computing platform, a mass high-speed cloud storage device and a high-speed video stream collecting and editing device, wherein the ARM cloud service is based on the computing service of an ARM server, and the video stream collecting and editing technology developed by micro-computing interconnection is used for directly reading and collecting and editing the video stream from a bottom GPU, so that the video stream collecting and editing performance is greatly improved. By means of the decompression-free high-speed storage and disaster recovery backup technology, separation of computing resources and storage resources is achieved, and expansion and storage capacity of mass data are achieved.

Embodiment 2, on the basis of embodiment 1, the power board is provided with a heat dissipation fan, so as to avoid burnout caused by excessive heat dissipation of the cluster server motherboard.

It is obvious to a person skilled in the art that the invention is not restricted to details of the above-described exemplary embodiments, but that it can be implemented in other specific forms without departing from the spirit or essential characteristics of the invention. The present embodiments are therefore to be considered in all respects as illustrative and not restrictive, the scope of the invention being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned.

Furthermore, it should be understood that although the present description refers to embodiments, not every embodiment may contain only a single embodiment, and such description is for clarity only, and those skilled in the art should integrate the description, and the embodiments may be combined as appropriate to form other embodiments understood by those skilled in the art.

Claims (5)

1. The utility model provides a complete machine of ARM cluster service, includes main power supply, stand-by power supply, power control module and power strip, its characterized in that, main power supply and stand-by power supply are connected respectively to power control module's input, and the power strip is connected to power control module's output, is equipped with 12 main control board interfaces on the power strip, and wherein 10 main control board interfaces connect the main control board mainboard, and two remaining main control board interfaces are redundant interface.

2. The ARM cluster service complete machine of claim 1, wherein 12 core boards are provided on each main control board.

3. The ARM cluster service complete machine as claimed in claim 1, wherein a core node control board for controlling operation, configuration and management of all core boards on the cluster server is arranged on the main control board.

4. The ARM cluster service complete machine as claimed in claim 3, wherein the main control board is provided with a USB port for debugging and configuring the core node control board.

5. The ARM cluster service complete machine of claim 1, wherein an HDMI display output for displaying a UI system interface of the main control board is arranged on the main control board main board.

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