CN113504968A - Method for building power plant data center - Google Patents

Abstract

The invention discloses a method for building a power plant data center, which comprises the following steps: building a super fusion server through a super fusion technology; building a VMWARE virtualization platform through the VMWARE; deploying a cloud desktop system through a computer terminal; and distributing and managing system resources and upgrading the system through the super-fusion server and the cloud desktop system. According to the invention, batch distribution and batch operation and maintenance can be realized through the cloud desktop, the manual pressure is reduced, the working efficiency is improved, a user can access the desktop of the user through the thin client in any intranet environment through the cloud desktop system, the office space is expanded, resources are reasonably integrated and distributed through the super-fusion technology, the virtual machine can be migrated from a host with high load to a host with low load through a specific algorithm, the resources are used in a balanced manner, and a super-fusion background architecture is adopted, so that double-copy backup can be realized, the data safety and stability are improved, the informatization construction cost is reduced, and the informatization management level is improved.

Description

Method for building power plant data center

Technical Field

The invention relates to the technical field of information technology, in particular to a construction method of a power plant data center.

Background

The super-fusion technology is that resources and technologies such as calculation, network, storage and server virtualization are provided in the same set of unit equipment (x86 server), and elements such as cache acceleration, data de-duplication, online data compression, backup software and snapshot technology are included, and multiple nodes can be aggregated through the network to realize modular seamless lateral expansion (scale-out) to form a uniform resource pool; the super fusion is an improved generation aiming at the traditional architecture, and the specific differences comprise: physical fusion and management fusion, wherein a super-fusion architecture fuses a server, a network and storage and is carried on a unified management platform for maintenance, while a traditional architecture is totally separated; the system comprises a storage architecture, a super fusion adopts distributed storage, and a traditional architecture uses centralized storage; the network adopts the gigabit Ethernet in the super convergence mode, and the traditional architecture mostly adopts an optical fiber switch; in the aspect of reliability, the advantages of the super-fusion architecture are very great, but the advantages are all that the distributed storage should have; in the aspect of performance, the architecture advantage of the super fusion in the aspect of performance is very obvious, and the cost is that the computing resources are consumed, so the consumption of the computing resources is an important factor for checking the speciality of the super fusion; in the aspect of expansibility, the super-fusion framework has strong expansibility, capacity expansion is simple and quick, and the complexity of the system cannot be increased along with the increase of the capacity expansion; in the aspect of deployment operation and maintenance, compared with a traditional architecture, the system is in a super-fusion layout, is simple to maintain and can realize intelligent operation and maintenance to a certain extent.

The internal and external networks are generally distinguished for information safety in the power plant constructed by information at present, the internal network is frequently used, the user quantity is large, and the user generally uses a desktop computer.

However, these methods are limited to a certain extent, the conventional desktop installation is cumbersome, once a system failure easily causes user data loss, and the management and maintenance of the desktop consumes a lot of time and energy of information personnel, and in power plants of the same type, a single server is mostly adopted to manage each intranet user, so that the energy consumption is high, the resources are unsafe, the installation is cumbersome, and once the server is broken down, the intranet is broken down, the time needed for repairing the server is unstable, and the inconvenience is caused to production and management.

Disclosure of Invention

The invention aims to solve the defects in the prior art and provides a construction method of a power plant data center.

In order to achieve the purpose, the invention adopts the following technical scheme:

a building method of a power plant data center comprises the following steps:

building a super fusion server through a super fusion technology;

building a VMWARE virtualization platform through the VMWARE;

deploying a cloud desktop system through a computer terminal;

and distributing and managing system resources and upgrading the system through the super-fusion server and the cloud desktop system.

Preferably, the server in the super-fusion server is built by adopting an X86 server through a super-fusion technology, the X86 server node occupies 2U space, the bottom layer of each node is provided with NUTANTX super-fusion software, the upper layer of each node is provided with VMWARE virtualization software, and a Control Virtual Machine (CVM) is operated on the basis of virtualization to communicate with a control plane between different nodes.

Preferably, each node is configured with an SSD hard disk and an HDD hard disk, and each node is configured with an independent CPU and an independent memory.

Preferably, the establishing of the VMWARE virtualization platform through the VMWARE ESXi includes the following steps:

uploading a client operating system installation optical disk ISO to an ESxi storage;

create a client in VMWARE ESXi;

performing network provisioning and performance enhancement operations on the client in the VMWARE ESxi;

creating a snapshot for the client;

the configuration client follows ESXi.

Preferably, the uploading of the client operating system installation optical disc ISO to the ESXi storage includes the following steps:

use VMWARE VSPHERE to connect to VMWARE ESxi;

checking the abstract information of the VMWARE ESxi host through a host abstract column, checking the use condition of a CPU and a memory of the ESxi host in a resource column, and checking a virtual machine network port group in a network column;

uploading ISO of an operating system installation optical disc to an ESxi storage;

creating a new folder and naming by ISO;

and uploading the ISO file of the installed optical disc to an ISO directory.

Preferably, said creating a client in a VMWARE ESXi comprises the steps of:

switching to a virtual machine bar, and creating a new virtual machine;

selecting a custom configuration for the virtual machine;

installing an operating system in the virtual machine system;

inputting the name of a virtual machine, selecting the storage position of the virtual machine, and selecting the version of the virtual machine;

configuring CPUs (central processing units) for the virtual machines, wherein each CPU comprises a core and configures the memory size of the virtual machine;

configuring a connection network and a controller model of a virtual machine;

selecting the size of a virtual hard disk, and selecting a thin standby mode by a server;

the virtual machine configuration is checked.

Preferably, the deploying the cloud desktop system through the computer terminal includes the following steps:

the virtual desktop runs on a hyper-fusion platform, and the console is uniformly managed through VSPHERE CILENT;

establishing a desktop pool association virtual desktop and a connection program through HORIZON software.

Preferably, the allocating and managing system resources and upgrading the system through the super-fusion server and the cloud desktop system include the following operations:

preparing a terminal configuration template, automatically distributing operation and maintenance personnel in batches through a set program, and configuring the thin client after distribution is finished;

changing a data center into a uniform resource pool through a super-fusion technology, and reallocating redundant resources at the same time;

double backup is realized on the copy through a super-fusion background architecture;

upgrading and testing the system through the VMWARE snapshot function;

the upgrading of the system is completed by adding a certain EXSI host provided with NUTANIX software into the existing cluster.

Compared with the prior art, the invention has the beneficial effects that:

1. batch distribution and batch operation and maintenance can be realized through the cloud desktop, so that operation and maintenance personnel of the power plant can maintain easily, the operation and maintenance personnel do not need to go to home for maintenance, the problem can be solved remotely by acquiring a user name and a password, and the pressure of the operation and maintenance personnel is greatly reduced; through the cloud desktop system, a user can visit the desktop of the user through the thin client in any intranet environment, office space is expanded, the user can work under the condition of leaving the office station of the user in daily work, working conditions and working efficiency of office workers are greatly facilitated, meanwhile, the thin client is low in configuration requirement, the thin client can be realized on computers of the vast majority of departments, and cost is greatly saved.

2. Resources are reasonably integrated and distributed through a super-fusion technology, the virtual machines can be migrated from a host with high load to a host with low load through a specific algorithm, the resources are used in a balanced manner, a server is deployed through a super-fusion platform, deployment of one virtual machine can be completed in 10 minutes by making a common operating system into a template and cloning the template, and the super-fusion platform can also complete system backup through template cloning without any PE system, so that the operation is very convenient; when the system resource reaches the upper limit, the calculation and the storage do not need to be upgraded respectively, and the EXSI host provided with the NUTANIX software is added into the existing cluster to complete the upgrade, so that the working efficiency is greatly improved, and the later-stage operation cost is reduced.

3. Redundant resources are redistributed through a super-fusion technology, the utilization rate of the resources is improved, double copy backup can be realized by adopting a super-fusion background framework, the data safety and stability are improved, the system upgrading test can be easily completed through the VMWARE snapshot function, once a problem occurs, the system can be quickly returned to a snapshot position, and great convenience is brought to installation and updating of a server.

Drawings

Fig. 1 is a schematic structural diagram of a construction method of a power plant data center according to the present invention.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments.

Referring to fig. 1, a method for building a power plant data center includes the following steps:

building a super fusion server through a super fusion technology;

building a VMWARE virtualization platform through the VMWARE;

deploying a cloud desktop system through a computer terminal;

and distributing and managing system resources and upgrading the system through the super-fusion server and the cloud desktop system.

Through the super-fusion technology, a server in the super-fusion server is built by adopting an X86 server, X86 server nodes occupy 2U space, NUTANTX super-fusion software is installed on the bottom layer of each node, VMWARE virtualization software is installed on the upper layer of each node, and a Control Virtual Machine (CVM) is operated on the basis of virtualization to communicate with control planes among different nodes.

Each node is provided with an SSD hard disk and an HDD hard disk, and each node is provided with an independent CPU and an independent memory.

The method for building the VMWARE virtualization platform through the VMWARE ESxi comprises the following steps:

uploading a client operating system installation optical disk ISO to an ESxi storage;

create a client in VMWARE ESXi;

performing network provisioning and performance enhancement operations on the client in the VMWARE ESxi;

creating a snapshot for the client;

the configuration client follows ESXi.

Uploading the client operating system installation optical disc ISO to the ESxi storage comprises the following steps:

use VMWARE VSPHERE to connect to VMWARE ESxi;

checking the abstract information of the VMWARE ESxi host through a host abstract column, checking the use condition of a CPU and a memory of the ESxi host in a resource column, and checking a virtual machine network port group in a network column;

uploading ISO of an operating system installation optical disc to an ESxi storage;

creating a new folder and naming by ISO;

and uploading the ISO file of the installed optical disc to an ISO directory.

Creating a client in VMWARE ESXi comprises the steps of:

switching to a virtual machine bar, and creating a new virtual machine;

selecting a custom configuration for the virtual machine;

installing an operating system in the virtual machine system;

inputting the name of a virtual machine, selecting the storage position of the virtual machine, and selecting the version of the virtual machine;

configuring CPUs (central processing units) for the virtual machines, wherein each CPU comprises a core and configures the memory size of the virtual machine;

configuring a connection network and a controller model of a virtual machine;

selecting the size of a virtual hard disk, and selecting a thin standby mode by a server;

the virtual machine configuration is checked.

The method for deploying the cloud desktop system through the computer terminal comprises the following steps:

the virtual desktop runs on a hyper-fusion platform, and the console is uniformly managed through VSPHERE CILENT;

establishing a desktop pool association virtual desktop and a connection program through HORIZON software.

The method for distributing and managing the system resources and upgrading the system through the super-fusion server and the cloud desktop system comprises the following operations:

preparing a terminal configuration template, automatically distributing operation and maintenance personnel in batches through a set program, and configuring the thin client after distribution is finished;

changing a data center into a uniform resource pool through a super-fusion technology, and reallocating redundant resources at the same time;

double backup is realized on the copy through a super-fusion background architecture;

upgrading and testing the system through the VMWARE snapshot function;

the upgrading of the system is completed by adding a certain EXSI host provided with NUTANIX software into the existing cluster.

According to the invention, batch distribution and batch operation and maintenance can be realized through the cloud desktop, so that operation and maintenance personnel of a power plant can maintain easily, the operation and maintenance personnel do not need to go to home for maintenance, the problem can be solved remotely by acquiring a user name and a password, and the pressure of the operation and maintenance personnel is greatly reduced; through the cloud desktop system, a user can access the desktop of the user through the thin client in any intranet environment, office space is expanded, the user can work under the condition of leaving the office station of the user in daily work, working conditions and working efficiency of office workers are greatly facilitated, meanwhile, the thin client has low configuration requirement, can be realized on computers of most departments, and cost is greatly saved; resources are reasonably integrated and distributed through a super-fusion technology, a virtual machine can be migrated from a host with high load to a host with low load through a specific algorithm, the resources are used in a balanced manner, a server is deployed through a super-fusion platform, deployment of a virtual machine can be completed in 10 minutes by making a common operating system into a template and cloning the template, and the super-fusion platform can also complete system backup through template cloning without any PE system, so that the operation is very convenient; when the system resources reach the upper limit, the calculation and the storage do not need to be upgraded respectively, and the EXSI host provided with the NUTANIX software is added into the existing cluster to complete the upgrade, so that the working efficiency is greatly improved, and the later-stage operation cost is reduced; redundant resources are redistributed through a super-fusion technology, the utilization rate of the resources is improved, double copy backup can be realized by adopting a super-fusion background framework, the data safety and stability are improved, the system upgrading test can be easily completed through the VMWARE snapshot function, once a problem occurs, the system can be quickly returned to a snapshot position, and great convenience is brought to installation and updating of a server.

The above description is only for the preferred embodiment of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art should be considered to be within the technical scope of the present invention, and the technical solutions and the inventive concepts thereof according to the present invention should be equivalent or changed within the scope of the present invention.

Claims (8)

1. A building method of a power plant data center is characterized by comprising the following steps:

building a super fusion server through a super fusion technology;

building a VMWARE virtualization platform through the VMWARE;

deploying a cloud desktop system through a computer terminal;

and distributing and managing system resources and upgrading the system through the super-fusion server and the cloud desktop system.

2. The construction method of the power plant data center according to claim 1, characterized in that a server in the super-fusion server is constructed by adopting an X86 server through a super-fusion technology, nodes of the X86 server occupy 2U space, the bottom layer of each node is provided with NUTANTX super-fusion software, the upper layer of each node is provided with VMWARE virtualization software, and a Control Virtual Machine (CVM) is operated on the basis of virtualization to communicate with control planes between different nodes.

3. The construction method of the power plant data center according to claim 2, wherein each node is configured with an SSD hard disk and an HDD hard disk, and each node is configured with an independent CPU and an independent memory.

4. The construction method of a power plant data center according to claim 1, wherein the construction of the VMWARE virtualization platform through the VMWARE ESxi comprises the following steps:

uploading a client operating system installation optical disk ISO to an ESxi storage;

create a client in VMWARE ESXi;

performing network provisioning and performance enhancement operations on the client in the VMWARE ESxi;

creating a snapshot for the client;

the configuration client follows ESXi.

5. A method of building a power plant data center according to claim 4, wherein uploading a client operating system installation optical disk (ISO) to an ESxi storage comprises the following steps:

use VMWARE VSPHERE to connect to VMWARE ESxi;

checking the abstract information of the VMWARE ESxi host through a host abstract column, checking the use condition of a CPU and a memory of the ESxi host in a resource column, and checking a virtual machine network port group in a network column;

uploading ISO of an operating system installation optical disc to an ESxi storage;

creating a new folder and naming by ISO;

and uploading the ISO file of the installed optical disc to an ISO directory.

6. A method of building a power plant data center according to claim 4, wherein the creating a client in VMWARE ESXi comprises the steps of:

switching to a virtual machine bar, and creating a new virtual machine;

selecting a custom configuration for the virtual machine;

installing an operating system in the virtual machine system;

inputting the name of a virtual machine, selecting the storage position of the virtual machine, and selecting the version of the virtual machine;

configuring CPUs (central processing units) for the virtual machines, wherein each CPU comprises a core and configures the memory size of the virtual machine;

configuring a connection network and a controller model of a virtual machine;

selecting the size of a virtual hard disk, and selecting a thin standby mode by a server;

the virtual machine configuration is checked.

7. The construction method of the power plant data center according to claim 1, wherein the deploying of the cloud desktop system through the computer terminal comprises the following steps:

the virtual desktop runs on a hyper-fusion platform, and the console is uniformly managed through VSPHERE CILENT;

establishing a desktop pool association virtual desktop and a connection program through HORIZON software.

8. The construction method of the power plant data center according to claim 1, wherein the allocation management of system resources and the upgrading of the system through the super-fusion server and the cloud desktop system comprise the following operations:

preparing a terminal configuration template, automatically distributing operation and maintenance personnel in batches through a set program, and configuring the thin client after distribution is finished;

changing a data center into a uniform resource pool through a super-fusion technology, and reallocating redundant resources at the same time;

double backup is realized on the copy through a super-fusion background architecture;

upgrading and testing the system through the VMWARE snapshot function;

the upgrading of the system is completed by adding a certain EXSI host provided with NUTANIX software into the existing cluster.

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