CN114553872B - Cloud-based data center infrastructure management system and method - Google Patents

Abstract

The invention discloses a cloud-based data center infrastructure management system, which belongs to the technical field of information management and comprises: the cloud server is connected with the sub-servers and is used for establishing connection between the sub-servers and judging whether to alarm or not; the sub-server is connected with the infrastructure node and is used for summarizing sub-server information; and the monitoring equipment is connected with the sub-server. According to the cloud server backup method, the computing pressure of the cloud server can be dispersed through the arrangement of the sub servers, the stable operation of the system can be guaranteed under the condition that the network is unstable, the influence on the operation efficiency of the system due to delay caused by disconnection is prevented, and the cloud backup of management system information can be carried out through the arrangement of the cloud server with the backup function, so that backtracking is carried out after the problem occurs, and the problem caused by data loss is prevented.

Description

Cloud-based data center infrastructure management system and method

Technical field

The present invention relates to the technical field of information management, specifically a cloud-based data center infrastructure management system and method.

Background technique

Data center infrastructure management system generally refers to DCIM data center infrastructure management. DCIM (DataCenter data center infrastructure management) combines IT (information technology) and equipment management to conduct centralized monitoring, capacity planning and other centralized management of key equipment in the data center. Through software, hardware and sensors, DCIM provides an independent management platform , conduct real-time monitoring and management of data center IT equipment and infrastructure.

Data center infrastructure management (DCIM) tools can help organizations plan infrastructure and simplify data center management. To a certain extent, DCIM products are improved from traditional building management systems (BMS). These tools are designed to provide information about energy usage across a facility so facility management teams can better manage energy supplies and cooling systems. Some DCIM tools collect basic energy consumption information, or collect "IT total power consumption" through the output of the UPS, and compare it with "total facility power consumption" to obtain energy utilization (PUE) results. This baseline information can be used to improve data center site energy and cooling efficiency, as well as optimize data center management. Other DCIM products are targeted at helping IT administrators monitor rack-level energy consumption and environment. DCIM tool providers also blend IT asset management capabilities with energy utilization monitoring. Many DCIM vendors also provide "dashboards" that display power consumption data for individual racks, servers, or other IT equipment. DCIM tools can even provide graphical maps of each rack and the individual IT equipment within the rack, including its energy utilization, temperature and humidity. Of course, no DCIM tool is complete without a PUE metric calculator. Therefore, even IT-oriented products will need to have the function of monitoring the energy utilization of the facility.

Few DCIM tools are used to directly control IT equipment and operations. They also lack the ability to automatically scale and directly control facility power consumption and other equipment, such as cooling facilities for large-scale computing loads. Most DCIM tools are designed to provide a better representation and analysis of the energy utilization of different systems. However, it is inconvenient for mobile display and complicated to operate when the system is relatively large. Therefore, in order to assist the company in planning technical facility management, we propose a cloud-based data center infrastructure management system and method.

Contents of the invention

The present invention provides the following technical solutions:

Cloud-based data center infrastructure management system, including:

Cloud server, the cloud server is connected to the sub-server, and the cloud server is used to establish a connection between the sub-servers and determine whether to alarm;

Sub-server, the sub-server is connected to the infrastructure node, and the sub-server is used to summarize sub-server information;

Monitoring equipment, the monitoring equipment is connected to the sub-server, and the monitoring equipment is used to monitor infrastructure node information and perform operation management thereof;

Display management equipment, the display management equipment is connected to the sub-server, and the display management equipment is used for operation and maintenance management of the technical facilities.

As the cloud-based data center infrastructure management system of the present invention, it also includes a wireless device and a wireless supervision terminal. The wireless device is connected to the display management device. The wireless supervision terminal is connected to the display management device through the wireless device. , the wireless supervision terminal is used to realize remote operation and maintenance management.

As the cloud-based data center infrastructure management system of the present invention, the wireless supervision terminal includes:

Mobile communication module, the communication module is a 5G communication module, and the communication module communicates with wireless devices;

A mobile input module, the mobile input module is connected to the mobile processor, and the mobile input module is used to input instruction information to perform display management operations;

A mobile display module, the mobile display module is connected to the mobile processor, the mobile display module is used for display management operations;

Mobile processor, the mobile processor is connected to the mobile communication module, the mobile input module and the mobile display module respectively, the mobile processor has a built-in app, and the app is used to perform management operations.

As the cloud-based data center infrastructure management system of the present invention, the cloud server includes:

Communication server, the communication server is connected to multiple sub-servers, and the communication server is used to communicate with the sub-servers;

Storage server, the storage server is connected to the sub-server through a communication server, and the storage server is used to receive sub-server information and perform cloud information backup;

The computing server is connected to the storage server through the communication server. The computing server is used to calculate and process the information in the storage server and determine whether to alarm.

As the cloud-based data center infrastructure management system of the present invention, the sub-server includes:

A sub-server communication module, which communicates with the communication server;

A sub-server storage module. The sub-server storage module is connected to the monitoring device. The sub-server storage module is used to receive sub-server information and perform cloud information backup;

The sub-server computing module is connected to the sub-server storage module through the sub-server communication module. The sub-server computing module is used to calculate and process the information in the storage module of the node where the sub-server is located and determine whether Need to upload to cloud server.

As the cloud-based data center infrastructure management system of the present invention, the operation management includes:

Building management for managing buildings;

Power distribution center management, the power distribution center management is used to manage the power distribution center;

Manual management terminal, which is worn by workers and used to receive and send control instructions.

As the cloud-based data center infrastructure management system of the present invention, the operation and maintenance management includes:

Automatic processing, issuing power outage and shutdown operation instructions through the display management equipment to control the stop of operations, or perform job deployment;

Manual processing, when the display management equipment cannot solve the on-site problem or there is a power outage;

Alarm processing, which includes emergency alarm plans such as 110, 110, 120 and 114.

As the cloud-based data center infrastructure management system of the present invention, the building management includes:

A video screen monitoring module, which is used to collect video information of each node;

Smoke alarm module, the smoke alarm module is used to collect information about whether a fire occurs;

Radio communication modules, which are respectively installed in the building and the main control room for communication in emergencies;

First aid indication module, the first aid indication module is used to display the first aid channel.

As the cloud-based data center infrastructure management system of the present invention, the power distribution center management includes:

Power distribution center communication module, the power distribution center communication module is connected to the sub-server, and the power distribution center communication module is used to issue control instructions to the manual management terminal;

Power distribution control module, the power distribution control module is arranged in the power distribution room, and the power distribution control module is connected to the power distribution center communication module for receiving instructions from the power distribution center communication module to control the power distribution center.

A cloud-based data center infrastructure management method, including the following steps:

To obtain on-site information, first collect the on-site video information, fire information and power information of each node through the detection module;

Preliminary processing: upload the information collected in the above steps to the sub-server, analyze and process it through the sub-server, and provide a solution;

Cloud backup processing uploads the information received by the sub-service and the processing results to the cloud server. After overall calculation, the cloud server determines whether to issue an alarm and feeds the information back to the display management device;

To solve the problem, the staff combines the feedback information from the display management equipment and makes corresponding arrangements to solve the problem;

Remote processing: staff receive feedback information synchronously through wireless supervision terminals and operate remotely.

Compared with the existing technology: the setting of sub-servers can disperse the computing pressure of the cloud server, and ensure the stable operation of the system when the network is unstable, preventing delays caused by disconnections from affecting the system's operating efficiency. The cloud server has The setting of the backup function can back up the management system information in the cloud, which is conducive to backtracking after problems occur and prevents problems caused by data loss.

Description of the drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the present invention will be described in detail below with reference to the drawings and detailed implementation modes. Obviously, the drawings in the following description are only some embodiments of the present invention. For ordinary people in the art Technical personnel can also obtain other drawings based on these drawings without exerting creative labor. in:

Figure 1 is a system block diagram of the present invention;

Figure 2 is a block diagram of the connection between the wireless device and the wireless supervision terminal of the present invention;

Figure 3 is a structural block diagram of the cloud server of the present invention;

Figure 4 is an operation management block diagram of the present invention;

Figure 5 is an operation and maintenance management block diagram of the present invention;

Figure 6 is a method block diagram of the present invention.

Detailed ways

In order to make the purpose, technical solutions and advantages of the embodiments of the present invention clearer, the technical solutions in the embodiments of the present invention will be clearly and completely described below in conjunction with the drawings in the embodiments of the present invention. Obviously, the described embodiments These are some embodiments of the present invention, rather than all embodiments. The components of the embodiments of the invention generally described and illustrated in the figures herein may be arranged and designed in a variety of different configurations.

Therefore, the following detailed description of the embodiments of the invention provided in the appended drawings is not intended to limit the scope of the claimed invention, but rather to represent selected embodiments of the invention. Based on the embodiments of the present invention, all other embodiments obtained by those of ordinary skill in the art without making creative efforts fall within the scope of protection of the present invention.

It should be noted that similar reference numerals and letters represent similar items in the following figures, therefore, once an item is defined in one figure, it does not need further definition and explanation in subsequent figures.

In the description of the embodiments of the present invention, it should be noted that if the terms "center", "upper", "lower", "left", "right", "vertical", "horizontal", "inside", The orientation or positional relationship indicated by "outside" is based on the orientation or positional relationship shown in the drawings, or the orientation or positional relationship in which the product of the invention is customarily placed when used. It is only for the convenience of describing the present invention and simplifying the description. It is not intended to indicate or imply that the device or element referred to must have a specific orientation, be constructed and operate in a specific orientation, and therefore is not to be construed as a limitation of the invention. In addition, if the terms "first", "second", "third", etc. appear, they are only used to differentiate the description and shall not be understood as indicating or implying relative importance.

In addition, the presence of the terms "horizontal", "vertical", "overhanging", etc. does not mean that the component is required to be absolutely horizontal or overhanging, but may be slightly tilted. For example, "horizontal" only means that its direction is more horizontal than "vertical". It does not mean that the structure must be completely horizontal, but can be slightly tilted.

In the description of the embodiments of the present invention, it should also be noted that, unless otherwise clearly stated and limited, the terms "setting", "installation", "connecting" and "connecting" should be understood in a broad sense. For example, they can It can be a fixed connection, a detachable connection, or an integral connection; it can be a mechanical connection, or it can be an electrical connection; it can be a direct connection, or it can be an indirect connection through an intermediate medium, or it can be an internal connection between two components. For those of ordinary skill in the art, the specific meanings of the above terms in the present invention can be understood according to specific circumstances.

Figures 1 to 6 show the cloud-based data center infrastructure management system and method of the present invention. The computing pressure of the cloud server can be dispersed through the setting of sub-servers, and the stable operation of the system can be guaranteed when the network is unstable. , to prevent delays caused by disconnection from affecting system operation efficiency. Through the setting of the cloud server with a backup function, the management system information can be backed up in the cloud, which is conducive to backtracking after the problem occurs and prevents problems caused by data loss. Specifically, including :

Cloud-based data center infrastructure management system, including:

Cloud server, the cloud server is connected to the sub-server, and the cloud server is used to establish a connection between the sub-servers and determine whether to alarm;

Sub-server, the sub-server is connected to the infrastructure node, and the sub-server is used to summarize sub-server information;

Monitoring equipment, the monitoring equipment is connected to the sub-server, and the monitoring equipment is used to monitor infrastructure node information and perform operation management thereof;

Display management equipment, the display management equipment is connected to the sub-server, and the display management equipment is used for operation and maintenance management of the technical facilities.

Further, it also includes a wireless device and a wireless supervision terminal, the wireless device is connected to the display management device, the wireless supervision terminal is connected to the display management device through the wireless device, and the wireless supervision terminal is used to realize remote operation and maintenance management.

Further, the wireless supervision terminal includes:

Mobile communication module, the communication module is a 5G communication module, and the communication module communicates with wireless devices;

A mobile input module, the mobile input module is connected to the mobile processor, and the mobile input module is used to input instruction information to perform display management operations;

A mobile display module, the mobile display module is connected to the mobile processor, the mobile display module is used for display management operations;

Mobile processor, the mobile processor is connected to the mobile communication module, the mobile input module and the mobile display module respectively, the mobile processor has a built-in app, and the app is used to perform management operations.

Further, the cloud server includes:

Communication server, the communication server is connected to multiple sub-servers, and the communication server is used to communicate with the sub-servers;

Storage server, the storage server is connected to the sub-server through a communication server, and the storage server is used to receive sub-server information and perform cloud information backup;

The computing server is connected to the storage server through the communication server. The computing server is used to calculate and process the information in the storage server and determine whether to alarm.

Further, the sub-servers include:

A sub-server communication module, which communicates with the communication server;

A sub-server storage module. The sub-server storage module is connected to the monitoring device. The sub-server storage module is used to receive sub-server information and perform cloud information backup;

The sub-server computing module is connected to the sub-server storage module through the sub-server communication module. The sub-server computing module is used to calculate and process the information in the storage module of the node where the sub-server is located and determine whether Need to upload to cloud server.

Further, the operation management includes:

Building management for managing buildings;

Power distribution center management, the power distribution center management is used to manage the power distribution center;

Manual management terminal. The manual management terminal is worn by workers and used to receive and send control instructions. Specifically, the manual management terminal is a smart phone-enabled device carried by the staff to receive instruction information and facilitate remote control. Blending.

Further, the operation and maintenance management includes:

Automatic processing, issuing power outage and shutdown operation instructions through the display management equipment to control the stop of operations, or perform job deployment;

Manual processing, when the display management equipment cannot solve the on-site problem or there is a power outage, it is helpful to refine the overall manual deployment and reduce the waste of human resources;

Alarm processing, which includes emergency alarm plans such as 110, 110, 120 and 114, is conducive to prompt alarm.

Further, the building management includes:

A video screen monitoring module, which is used to collect video information of each node;

Smoke alarm module, the smoke alarm module is used to collect information about whether a fire occurs;

Radio communication modules, which are respectively installed in the building and the main control room for communication in emergencies;

First aid indication module. The first aid indication module is used to display first aid channels. The first aid knowledge module is an emergency exit indicator light plate and a firefighting material indicator light plate.

Further, the power distribution center management includes:

Power distribution center communication module, the power distribution center communication module is connected to the sub-server, and the power distribution center communication module is used to issue control instructions to the manual management terminal;

Power distribution control module, the power distribution control module is arranged in the power distribution room, and the power distribution control module is connected to the power distribution center communication module for receiving instructions from the power distribution center communication module to control the power distribution center.

Cloud-based data center infrastructure management method includes the following steps:

To obtain on-site information, first collect the on-site video information, fire information and power information of each node through the detection module;

Preliminary processing: upload the information collected in the above steps to the sub-server, analyze and process it through the sub-server, and provide a solution;

Cloud backup processing uploads the information received by the sub-service and the processing results to the cloud server. After overall calculation, the cloud server determines whether to issue an alarm and feeds the information back to the display management device;

To solve the problem, the staff combines the feedback information from the display management equipment and makes corresponding arrangements to solve the problem;

Remote processing: staff receive feedback information synchronously through wireless supervision terminals and operate remotely.

Embodiment 1: During normal operation, the on-site video information, fire information and power information of each node are first collected through monitoring equipment, and the information is sent to the sub-server. The sub-server processes the information and tags it with node labels. , and then uploaded to the cloud backup processing system. The cloud backup processing system processes the information and determines whether an alarm is needed. Then the information is fed back to the display management equipment, and the operators of the display management equipment will make further detailed judgments on whether an alarm is needed. Call the police.

Embodiment 2: Information tracing. After an accident occurs, the display management device can access the cloud server and obtain the information recorded on the cloud server to trace the cause of the problem.

The above are only preferred embodiments of the present invention and are not intended to limit the present invention. For those skilled in the art, the present invention may have various modifications and changes. Any modifications, equivalent substitutions, improvements, etc. made within the spirit and principles of the present invention shall be included in the protection scope of the present invention.

Claims (6)

1. A cloud-based data center infrastructure management system, comprising: the cloud server is connected with the sub-servers and is used for establishing connection between the sub-servers and judging whether to alarm or not;

the sub-server is connected with the infrastructure node and is used for summarizing sub-server information;

the monitoring equipment is connected with the sub-server and is used for monitoring the node information of the infrastructure and performing operation management on the node information;

the display management equipment is connected with the sub-server and is used for carrying out operation and maintenance management on the technical facilities;

the cloud-based data center infrastructure management system further comprises wireless equipment and a wireless supervision terminal, wherein the wireless equipment is connected with the display management equipment, the wireless supervision terminal is connected with the display management equipment through the wireless equipment, and the wireless supervision terminal is used for realizing remote operation and maintenance management;

the wireless supervision terminal comprises: the mobile communication module is a 5G communication module and is communicated with the wireless equipment;

the mobile input module is connected with the mobile processor and is used for inputting instruction information to perform display management operation;

the mobile display module is connected to the mobile processor and is used for displaying management operation;

the mobile processor is respectively connected with the mobile communication module, the mobile input module and the mobile display module, and is internally provided with an app for executing management operation;

the cloud server includes: the communication server is connected with the plurality of sub-servers and is used for communicating with the sub-servers;

the storage server is connected with the sub-servers through the communication server and is used for receiving the sub-server information and carrying out cloud information backup;

the computing server is connected with the storage server through the communication server and is used for computing the information in the storage server and judging whether to alarm or not;

the sub-server includes: the sub-server communication module is communicated with the communication server;

the sub-server storage module is connected with the monitoring equipment and is used for receiving sub-server information and carrying out cloud information backup;

the sub-server computing module is connected with the sub-server storage module through the sub-server communication module and is used for computing information in the storage module of the node where the sub-server is located and judging whether the cloud server needs to be uploaded.

2. The cloud-based data center infrastructure management system of claim 1, wherein the operation management comprises: building management for managing a building;

the power distribution center management is used for managing the power distribution center;

and the manual management terminal is worn by a worker and used for receiving and sending the control instructions.

3. The cloud-based data center infrastructure management system of claim 1, wherein the operation and maintenance management comprises: automatic processing, namely, issuing a power-off and power-off operation instruction through display management equipment to control and stop operation or perform operation allocation;

manually processing, namely manually processing when the display management equipment cannot solve the field problem or has a power failure;

an alarm process including 110, 120, and 114 emergency alarm plans.

4. The cloud-based data center infrastructure management system of claim 2, wherein the building management comprises: the video monitoring module is used for collecting video information of each node;

the smoke alarm module is used for collecting whether fire information appears;

the radio communication modules are respectively arranged in the building and the general control room and are used for communication in emergency;

the first aid indication module is used for displaying a first aid channel.

5. The cloud-based data center infrastructure management system of claim 2, wherein the power distribution center management comprises: the power distribution center communication module is connected with the sub-server and is used for issuing control instructions to the manual management terminal;

the power distribution control module is arranged in a power distribution room and is connected with the power distribution center communication module to receive the power distribution center communication module instruction to control the power distribution center.

6. A cloud-based data center infrastructure management method applied to the cloud-based data center infrastructure management system of claim 1, comprising the steps of: acquiring field information, namely acquiring field video information, fire information and electric power information of each node through a detection module;

preliminary processing, namely uploading the information acquired in the steps to a sub-server, and analyzing and processing the information through the sub-server to give a solution;

cloud backup processing, namely uploading information and processing results received by the sub-service to a cloud server, and judging whether to alarm or not and feeding back the information to display management equipment after overall calculation by the cloud server;

the problem is solved, and the staff combines the feedback information of the display management equipment to perform corresponding allocation and solve the problem;

and (3) remote processing, wherein staff synchronously receives feedback information through the wireless supervision terminal and remotely operates the wireless supervision terminal.