CN109462536B

CN109462536B - Enterprise cloud platform implementation method with office control based on virtualization

Info

Publication number: CN109462536B
Application number: CN201811259199.4A
Authority: CN
Inventors: 谢云峰; 牛春波; 范鹍; 温晓明; 王晓蕾; 常亮; 崔政; 侯伟; 田坤
Original assignee: SD Steel Rizhao Co Ltd
Current assignee: SD Steel Rizhao Co Ltd
Priority date: 2018-10-26
Filing date: 2018-10-26
Publication date: 2021-12-21
Anticipated expiration: 2038-10-26
Also published as: CN109462536A

Abstract

The invention relates to a virtualization-based enterprise cloud platform implementation method with office control, which is characterized by comprising the following steps of: the method comprises the steps that a user is connected to a server in a network mode, internet users are connected in a VPN mode, after the user is connected to the server, the user logs in through a personal account, after unified authentication, the user immediately logs in to a host machine distributed to the user through a domain through domain authentication, and therefore the user can carry out various operations. The invention can use various applications, real-time resource allocation, comprehensive utilization of resources, automatic data backup, data storage in a platform storage system, and the data can not be taken out by an individual at will, can be used on various terminals, and supports mobile equipment to use the system.

Description

Enterprise cloud platform implementation method with office control based on virtualization

Technical Field

The invention relates to the technical field of office control systems, in particular to a virtualization-based enterprise cloud platform implementation method with office control.

Background

The private cloud of an enterprise generally deploys office desktops and virtual servers, has a single function, is only used in a simple office environment, does not contain industrial control, has weak graphic processing capacity of desktop application, and cannot run 3D application. Through the rapid development of the cloud computing technology in recent years, the obvious change is brought to the construction transformation of IT infrastructures and business platforms in various industries. The users in various industries also gradually and deeply understand the concept that the investment is changed into a profit center due to the technical change which is known as the technical change of the third-generation information technology surge, and realize the business value of the cloud computing on the business innovation and business transformation of the industries. Virtual desktops based on virtualization technologies are playing more and more important roles in enterprise novel information system construction and IT system transformation based on traditional physical PCs, and also bring great challenges to the traditional physical PC market. From a physical PC to a virtual desktop.

An IT office system constructed based on a traditional physical PC mode is also more and more inconvenient along with the development of endless new technology surge under the condition that an enterprise is familiar with a conventional office mode, for example, the single-machine office mode causes physical resource dispersion, poor sharing and low utilization rate; the movable management enables an administrator to run to east and west, if equipment fails, a large amount of manpower is needed for hardware replacement and maintenance, data loss is likely to occur, and data reliability guarantee is lacked; and the PC has poor security, is easy to generate viruses, and brings high cost due to frequent updating, and the like. The inflexibility, the weakness in the aspect of information security guarantee, the high maintenance and deployment cost and the increasing complexity make the current IT infrastructure based on the physical PC become a trails of enterprise business expansion innovation.

In the process from the physical PC to the virtual desktop, the PC is replaced by the thin user machine, the thin user machine is directly connected with peripherals such as a display, a keyboard and a mouse through a small box, and storage, calculation and application are all migrated to a cloud data center for centralized and unified management. In a broad sense, a mobile phone, a tablet and a computer on the user side can be regarded as a thin user machine, so that mobile office access based on any time, any place and any terminal is provided.

Disclosure of Invention

In order to overcome the defects, the invention aims to provide a virtualization-based enterprise cloud platform implementation method with office control.

The technical scheme adopted by the invention for solving the technical problems is as follows: a method for realizing enterprise cloud platform with office control based on virtualization provides an integral system architecture, users are connected to a server in a network mode, internet users are connected in a VPN mode, after the users are connected to the server, the users log in through personal accounts, immediately pass through domain authentication after passing through unified authentication, and log in to a host machine distributed to the users by an administrator through domains, so that the users can carry out various operations;

the whole system architecture comprises a server, a network and security virtualization layer, a service arrangement layer, a service deployment layer, an operation and maintenance management part and an availability and disaster recovery part, and the structure of the system architecture is as follows:

the bottom layer is a basic server and a network and security virtualization layer, and the basic layer is a foundation stone of the whole cloud computing data center and is used for realizing virtualization functions of physical servers and associated network and security components;

a service arrangement layer is arranged above the server, the network and the security virtualization layer, and can arrange the supported related services, combine operation flows and coordinate a plurality of systems to realize combined operation, so that a plurality of independent operations are avoided being executed on different systems;

the service deployment layer is arranged above the service arrangement layer, through which a user can automatically deploy predefined infrastructure and desktop services provided for the user through a self-service portal and a directory, and simultaneously, the service deployment layer can deploy and manage application services or deploy the PaaS of the user, and the service deployment layer does not have the capacity of virtualization resources but cooperates with a server, a network and a security virtualization layer to provide the capacity of deploying and managing the infrastructure, the desktop and the application services.

Specifically, a system architecture of the server, the network and security virtualization layer, the service orchestration layer, and the service deployment layer is shown in fig. 2, where the server, the network and security virtualization layer includes a plurality of virtual terminals, a virtual network virtual switch, and a plurality of virtualization hosts, the service orchestration layer includes an access switch and a storage switch, and the service deployment layer includes a storage area and a core switch.

Specifically, virtual terminal links to each other with virtual network virtual switch respectively, and virtual network virtual switch links to each other with the virtualization host computer, and every virtualization host computer links to each other with two access switches respectively, interconnect between two access switches, two access switches and two core switch interconnect, interconnect between two core switch, and every virtualization host computer links to each other with two storage switch respectively simultaneously, and two storage switch interconnect with two storage area, realize server and network and safe virtualization layer, service arrangement layer, the function of service deployment layer.

The invention has the following beneficial effects: the invention has the following advantages: (1) multiple applications various applications may be used; (2) managing, namely allocating real-time resources and comprehensively utilizing the resources; (3) the data is automatically backed up and stored in the platform storage system, and an individual cannot take out the data randomly; (4) the system can be used on various terminals and supports mobile equipment to use the system.

Drawings

Fig. 1 is an overall conceptual architecture diagram of the present invention.

Fig. 2 is a system architecture diagram of the present invention.

Detailed Description

The following describes embodiments of the present invention in further detail with reference to the drawings, but the embodiments of the present invention are not limited thereto.

As shown in fig. 1 and 2, an enterprise cloud platform implementation method with office control based on virtualization provides an overall system architecture, a user is connected to a server through a network, an internet user is connected through a VPN, after the user is connected to the server, the user logs in through a personal account, after unified authentication, the user immediately passes through domain authentication, and logs in to a host machine allocated to the user by an administrator through a domain, so that the user can perform various operations;

the bottom layer is the most basic server and network and security virtualization layer, which is the foundation of the whole cloud computing data center and is used for realizing the virtualization function of the physical server and the related network and security components, and the corresponding vCloudSuite product component is vSphere;

above the Server and network and security virtualization layer is a service orchestration layer, which can orchestrate the supported related services, can combine the operation streams, and coordinate multiple systems to achieve the combined operation, thereby avoiding multiple separate operations to be performed on different systems, and the product component corresponding to the layer is a vRealize Orchetrator (vRO), which is currently packaged in a vCenter Server without separate purchase;

the service arrangement layer is arranged above the service arrangement layer, a user can automatically arrange predefined infrastructure and desktop service provided for the user through a self-service portal and a directory, meanwhile, the service arrangement layer can arrange and manage Application service or deploy PaaS of the user, the service arrangement layer does not have the capability of virtualization resources, and provides the capability of arranging and managing the infrastructure, the desktop and the Application service by cooperating with a server, a network and a safety virtualization layer, and product components corresponding to the layer are vR ea li ze Au corporation (vR A) and vR ea li ze Automation Application Services contained in a vR A enterprise edition.

Specifically, the server, network and security virtualization layer adopts a server virtualization solution vSphere of VMware, which is a virtualization platform leading in the industry for building a cloud computing infrastructure. IT enables IT to meet the SLA of the most demanding critical business applications with the lowest TCO (total cost of ownership). vSphere implements a complete, efficient, secure virtualization platform through a complete set of applications and infrastructure services provided in terms of computing, storage, networking, availability, security, and automation, running ESXi's industry standard x86 server on bare computers. The ESxi software provides resources for the virtual machine and runs the virtual machine. Each compute server is referred to as an independent host in the virtual environment. Many similarly configured x86 servers with high-performance GPUs can be combined together and connected to the same network and storage subsystems to provide a set of resources (called a cluster) in a virtual environment. Each virtual machine contains a VMkernel exchange file. If multiple virtual machines need to fully use their allocated memory, the ESXi host will proportionally swap its memory region into a local or network Solid State Drive (SSD) device according to the memory resource settings specified for each virtual machine. The adoption of the GRID vGPU is the most advanced technology in the industry, real GPU hardware acceleration can be shared among a plurality of virtual desktops, and the graphic experience cannot be influenced at all. The functional characteristics and compatibility of the application are exactly the same as when using a desktop computer. By virtue of the GRID vGPU technology, the graphics commands for each virtual machine will be passed directly to the GPU without being decoded by the virtualization hypervisor. This enables the GPU hardware to implement time-slicing to provide a top level of shared virtualized graphics performance. And the virtual machines distributed to different resources of the users in the domain configure the application used by each user through a strategy.

Specifically, a system architecture of the server, the network and security virtualization layer, the service deployment layer, and the service deployment layer is shown in fig. 2, where the server, the network and security virtualization layer includes a plurality of virtual terminals, a virtual network virtual switch, and a plurality of virtualization hosts, the service deployment layer includes an access switch and a storage switch, and the service deployment layer includes a storage area and a core switch;

the virtual terminal links to each other with virtual network virtual switch respectively, virtual network virtual switch links to each other with the virtualization host computer, every virtualization host computer links to each other with two access switches respectively, interconnect between two access switches, two access switches and two core switch interconnect, interconnect between two core switch, every virtualization host computer links to each other with two storage switch respectively simultaneously, two storage switch and two storage area interconnect, realize server and network and safe virtualization layer, the service arrangement layer, the function of service deployment layer.

The present invention is not limited to the above embodiments, and any structural changes made under the teaching of the present invention shall fall within the protection scope of the present invention, which is similar or similar to the technical solutions of the present invention.

The techniques, shapes, and configurations not described in detail in the present invention are all known techniques.

Claims

1. A method for realizing an enterprise cloud platform with office control based on virtualization is characterized by comprising the following steps: providing an integral system architecture, connecting a user to a server in a network mode, connecting an internet user in a VPN mode, logging in through a personal account after the user is connected to the server, immediately performing domain authentication after the user is connected to the server and logging in to a host machine distributed to the user by an administrator through a domain after the user is subjected to unified authentication, so that the user can perform various operations; the whole system architecture comprises a server, a network and security virtualization layer, a service arrangement layer, a service allocation layer, an operation and maintenance management part and an availability and disaster recovery part, wherein the server, the network and security virtualization layer are set as the bottommost layer, the service arrangement layer is arranged above the server, the network and security virtualization layer, and the service allocation layer is arranged above the service arrangement layer;

through the service deployment layer, a user can automatically deploy predefined infrastructure and desktop service provided for the user through a self-service portal and a self-service directory, and meanwhile, the service deployment layer can deploy and manage application service or deploy the PaaS of the user, does not have the capacity of virtualization resources, and is cooperated with a server, a network and a security virtualization layer to provide the capacity of deploying and managing the infrastructure, the desktop and the application service;

the server, network and security virtualization layer comprises a plurality of virtual terminals, a virtual network virtual switch and a plurality of virtualization hosts, the service arrangement layer comprises an access switch and a storage switch, and the service allocation layer comprises a storage area and a core switch;

2. The enterprise cloud platform implementation method with office control based on virtualization according to claim 1, wherein: the server and network and security virtualization layer is the cornerstone of the overall cloud computing data center to implement virtualization functions for physical servers and associated network and security components.

3. The enterprise cloud platform implementation method with office control based on virtualization according to claim 1, wherein: the service orchestration layer may orchestrate the supported related services, may combine the operational flows, and coordinate multiple systems to achieve the combined operation, thereby avoiding performing multiple separate operations on different systems.