Technical Innovation and Breakthrough of Computer Room Three-dimensional Monitoring System

Technical Innovation and Breakthrough of Computer Room Three-dimensional Monitoring System

This article mainly introduces the technical innovation and breakthrough of the computer room three-dimensional monitoring system.

Traditional monitoring

The monitoring system integrates information processing and control functions, and its application area is very wide. With the rapid development of computer technology, there are some new demands in the traditional monitoring field. These new requirements include the large-scale and complexity, wide-area distribution, mobility, self-discipline and foreign matter, the system is in a rapidly changing environment, and smart and other convenient requirements.

Problems of traditional
<br> <br> conventional monitoring system monitoring system presented because small, relatively simple control tasks, etc., in the system design, the use of a self-down design top, i.e. for the function (Structured The design method of the method: In terms of software architecture, the centralized structure or the client/server structure of the color system is adopted, and in terms of system reliability, the redundant backup method is adopted. These technologies meet the basic requirements of the monitoring system to some extent. However, with the new demands presented in the control field, these technologies will gradually become unadapted.

Traditional monitoring drawbacks

Interface: 2D display plane mirror, can not be 360-degree rotation visualization view. The parameter buttons are not intuitively visible. Only the click of the loop interface parameter diagram appears.

Operability: the traditional monitoring structure is complex, non-room operators are not easy to operate skilled visual: common, simple, visual effects General equipment failure: equipment failure, the software can not indicate the exact location of the faulty product, maintenance personnel can not catch the first time Go to repair the equipment.

Scene replacement: Traditional monitoring can monitor only one surveillance picture and cannot switch costs of other sites: Relatively high costs and complex functions.

Embedded engine room power: Although the embedded interpretation and active reporting transmission mechanism are adopted, the monitoring data is received by the monitoring host. If a strong network fails or the monitoring host fails, monitoring and throwing will be lost.

Multi-serial server power: transparent transmission mechanism is adopted, and the device communication protocol interpretation is completed by the monitoring host. If the network fails or the control host fails, the monitoring will be lost; due to multiple interface conversions, the risk of failure increases; the point-type acquisition mechanism is adopted. The interpretation of the protocol is realized by the monitoring host. The network data flow is large and the bandwidth pressure is high. Traditional power environment monitoring: The engineering wiring is more complicated, the wiring cost is high, and it depends on the performance of the IPC. The device communication protocol is explained by the IPC. If the IPC is faulty (IPC After all, the machine is a computer, 7 * 24 * 365 days of work, hard drives, memory, host, power supply, virus caused by a high failure rate), monitoring will be missing, the formation of monitoring temporary dead zone. The industrial control computer needs to provide a suitable installation environment: power supply, ambient temperature, mounting racks, etc.

Function: monitor the content simple, timely and poor, can not provide a sound management system, the lack of data to support post-mortem analysis <br> <br> traditional room monitoring as shown in Figure

3D 3D monitoring

The 3DDCIMMS provides 3D DCIMMS to remotely monitor and manage the equipment room, dynamically display equipment alarm information and equipment parameters in real time, quickly locate faulty equipment, and centralize maintenance and management from manual and passive monitoring to the computer. And the paradigm shift in management. The breakthrough three-dimensional simulation technology is an important part of the intelligent visual data center construction. The equipment room equipment has many features such as large quantity, various types, high value, long life cycle, scattered use locations, lack of real-time management, and difficult management. All three-dimensional visual monitoring platform, visualized virtual scenes and real data combine to enhance the intuitive visibility of equipment room and facility data and improve their utilization.

Three-dimensional virtual visualization platform

Based on the existing database of resource management systems, the operation of the data center is presented in the form of three-dimensional virtual reality. Enables visual management and precise positioning of server devices' physical locations. The three-dimensional virtual reality method visually displays ancillary facilities such as computer room floors, equipment areas, equipment installation and deployment, and power environment, and displays monitoring and alarm data in real time. 360-degree viewing angle adjustment can be achieved.

The configuration function of the newly developed 3D data center visualization platform of Guangzhou Maijing Technology Co., Ltd. has a huge difference from the past company's products DCV1.0, DCV2.0 and DCV3.0. No need for professional 3D technicians to implement 3D scenes, users only need to use the mouse to click, drag and other operations can quickly, easily, efficiently and flexibly build various types of data center computer room 3D scene, after setting up a good scene can be imported to DCV4.0 customers End-to-end device model binding data greatly reduces project production time.


Virtual Simulation: The system uses virtual reality technology to simulate the scene in 3D and reproduce the scene's resources, geological features and other characteristics.

virtual reality

Free travel: Through the operation of the mouse, you can walk freely in the virtual simulation scene and interactive teaching walking function: You can use the first / third person perspective to walk freely in the simulation scene, and you can choose the appropriate jump, with voice commentary .

Free travel
Bird's eye view function: You can overlook the panorama and simulate the sandbox to conduct an overview of the panorama of the simulation scene.

Device Name: You can add the device name to the monitoring product.

Navigation map function: Provides a complete system of scene navigation maps, by clicking on the map can directly reach the corresponding landscape.

Stereoscopic/non-stereoscopic switching Stereoscopic/non-stereoscopic switching: Supports real-time switching between stereo and non-stereo modes.

Monitoring and Visualization Management: (asset management, capacity storage, wiring, battery monitoring, etc.) integrates multiple monitoring data, establishes a unified monitoring window, changes the islanding phenomenon of monitoring data, and maximizes the value of monitoring tools and monitoring data.

Monitoring Visualization Management Airflow simulation: The temperature of the air-conditioner goes from bottom to top and back again, so that the room temperature can reach the normal room temperature.

Airflow simulation operability: non-room monitoring personnel may be readily available, easy to use.

1. Improve the intuitive visibility of equipment room and facility data and increase their utilization.

2. The combination of visualized virtual scenes and real data provides decision-making basis for daily management, asset management, project approval and project construction of power systems.

3. Express the location of fixed assets through spatial distribution, and increase the speed of management's response to fixed assets data.

4. Strengthen the management of computer room resources, realize the full monitoring and tracking of the life cycle of assets, and improve the operation level of the communication system.
3D room monitoring interface

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