CN109150947B - Super fusion cloud computing micro-module with symmetrical architecture - Google Patents

Abstract

The invention provides a super-fusion cloud computing micro-module with a symmetrical framework, which comprises the following components in part by weight; the system comprises an X1 main control cabinet module, a first network management module and a second network management module, wherein the X1 main control cabinet module comprises first WAN access equipment, a first cloud security server node, a first SDN core switch, a first SDN network control node and a first gigabit access switch; the first kilomega access switch is also connected with a first kilomega management switch, a first control node and a first deployment node are further arranged between the first kilomega access switch and the first kilomega management switch, and the first kilomega management switch is connected with an X1 access convergence end; and the management control node and the resource node are respectively arranged in different cabinets, so that separation of management data and application data is realized, and the operation and maintenance management is optimized while the data exchange performance is improved.

Description

Super fusion cloud computing micro-module with symmetrical architecture

Technical Field

The invention relates to the field of basic architecture of cloud computing platforms, in particular to a super-fusion cloud computing micro-module of a symmetrical architecture.

Background

The current market solves the problem of popular and standardized symmetrical micro-modules, helps users build the cloud under the condition of no need of cloud computing experts, and is generally used for private cloud. The cloud platform has great help to IT personnel, and can be built automatically according to standardized programs. However, these cloud computing provider-provided micro-module designs typically suffer from the following problems: on the one hand, the structure is complex, and the structure is five-flower and eight-door, so that quite high expertise is needed to make a scheme.

Disclosure of Invention

The invention solves the technical problems by constructing a super fusion cloud computing micro module with a symmetrical architecture by adopting standardized IT equipment, wherein the main equipment comprises: a standardized cabinet; a universal cloud security server; SDN equipment based on OpenFlow architecture; universal network switch and universal PC server: the method specifically comprises the following steps of;

the system comprises an X1 main control cabinet module, a first network management module and a second network management module, wherein the X1 main control cabinet module comprises first WAN access equipment, a first cloud security server node, a first SDN core switch, a first SDN network control node and a first gigabit access switch, the first cloud security server node is respectively connected with the first WAN access equipment and the first SDN core switch, and the first SDN core switch is respectively connected with the first SDN network control node and the first gigabit access switch;

the first kilomega access switch is further connected with a first kilomega management switch, a first control node, a second control node and a first deployment node are further arranged between the first kilomega access switch and the first kilomega management switch, and the first kilomega management switch is connected with the X1 access convergence end.

The super fusion cloud computing micro-module with the symmetrical architecture further comprises an X2 main control cabinet module, wherein the X2 main control cabinet module is connected with the X1 main control cabinet module through an access network cable.

The above-mentioned super fusion cloud computing micro module of symmetrical framework, wherein, X2 master control rack module includes WAN access device, cloud security server node, SDN core switch, SDN network control node, giga access switch, wherein cloud security server node respectively with WAN access device and SDN core switch link to each other, SDN core switch respectively with SDN network control node, giga access switch link to each other.

The super fusion cloud computing micro module of the symmetrical framework is characterized in that the gigabit access switch is further connected with a gigabit management switch, a monitoring node, a control node and a movable ring node are further arranged between the gigabit access switch and the gigabit management switch, and the gigabit management switch is connected with an X2 access convergence end.

The above super-fusion cloud computing micro module of the symmetrical architecture, wherein a first monitoring node and a first ring node are further arranged between the first gigabit access switch and the first gigabit management switch.

The super fusion cloud computing micro-module with the symmetrical framework is characterized in that the X1 main control cabinet module and the X2 main control cabinet module are also respectively connected with a resource cabinet module.

The invention has the following advantages: 1. the capacity expansion of the cloud computing platform is greatly simplified; 2. under the condition that the existing cabinet is provided with a capacity expansion space, the capacity expansion can be completed only by configuring the same resources in the same group of 3 cabinets according to symmetrical configuration; 3. under the condition that the existing cabinets have no capacity expansion space or the capacity expansion space does not meet the requirement, the capacity expansion can be completed by adding a group of cabinets (3) and configuring the same resources in the same group of 3 cabinets according to symmetrical configuration; the capacity expansion of the cloud computing platform is not a complex plan and design; 4. the management control node and the resource node are respectively arranged in different cabinets, so that separation of management data and application data is realized, and the operation and maintenance management is optimized while the data exchange performance is improved.

Drawings

The invention and its features, aspects and advantages will become more apparent from the detailed description of non-limiting embodiments with reference to the following drawings. Like numbers refer to like parts throughout. The drawings are not intended to be drawn to scale, emphasis instead being placed upon illustrating the principles of the invention.

Fig. 1 is one embodiment of the present invention.

Fig. 2 is another embodiment of the present invention.

Detailed Description

In the following description, numerous specific details are set forth in order to provide a more thorough understanding of the present invention. It will be apparent, however, to one skilled in the art that the invention may be practiced without one or more of these details. In other instances, well-known features have not been described in detail in order to avoid obscuring the invention.

In order to provide a thorough understanding of the present invention, detailed steps and detailed structures will be presented in the following description in order to explain the technical solution of the present invention. Preferred embodiments of the present invention are described in detail below, however, the present invention may have other embodiments in addition to these detailed descriptions.

In the present invention, the technical features are defined by the first aspect, but are not particularly limited in meaning for convenience of distinction.

1-2, the present invention provides a super-fusion cloud computing micro-module of a symmetrical architecture, comprising;

the system comprises an X1 main control cabinet module, a first network management module and a second network management module, wherein the X1 main control cabinet module comprises first WAN access equipment, a first cloud security server node, a first SDN core switch, a first SDN network control node and a first gigabit access switch, the first cloud security server node is respectively connected with the first WAN access equipment and the first SDN core switch, and the first SDN core switch is respectively connected with the first SDN network control node and the first gigabit access switch;

the first kilomega access switch is further connected with a first kilomega management switch, a first control node, a second control node and a first deployment node are further arranged between the first kilomega access switch and the first kilomega management switch, and the first kilomega management switch is connected with the X1 access convergence end. Referring to fig. 1, the deployment node, the monitoring node and the moving ring node are optional nodes, and are configured according to requirements; under the condition of low reliability requirement, the single-cabinet configuration can be adopted, and the invention can realize: the difficulty of upgrading and expanding the cloud computing platform is greatly reduced; common IT technicians or technical management staff can independently complete upgrading and capacity expansion design and planning after training for half a day (2-3 hours), difficulty of IT is reduced, users are enabled to concentrate on services rather than IT, and separated control management nodes and resource nodes are enabled to enable performance of the cloud platform to be better and operation and maintenance to be simpler.

In a preferred but non-limiting embodiment of the present invention, the system further includes an X2 main control cabinet module, where the X2 main control cabinet module is connected to the X1 main control cabinet module through an access network cable, as shown in fig. 1 and fig. 2, by using an X1-X2 single or dual active main control cabinet, where the dual active main control cabinet is a standard configuration core cabinet of a highly reliable cloud computing micro-module, it may be implemented: under the condition that the existing cabinet is provided with a capacity expansion space, the capacity expansion can be completed only by configuring the same resources in the same group of 3 cabinets according to symmetrical configuration; or under the condition that the existing cabinets have no capacity expansion space or the capacity expansion space does not meet the requirement, the capacity expansion can be completed by adding a group of cabinets (3) and configuring the same resources in the same group of 3 cabinets according to symmetrical configuration; so that the capacity expansion of the cloud computing platform is not a complex plan and design. The management control node and the resource node are respectively arranged in different cabinets, so that separation of management data and application data is realized, and the operation and maintenance management is optimized while the data exchange performance is improved.

In a preferred but non-limiting embodiment of the present invention, the X2 main control cabinet module includes the WAN access device, a cloud security server node, an SDN core switch, an SDN network control node, and a gigabit access switch, where the cloud security server node is connected to the WAN access device and the SDN core switch, the SDN core switch is connected to the SDN network control node and the gigabit access switch, and further preferably, the gigabit access switch is further connected to a gigabit management switch, and a monitoring node, a control node, and a movable ring node are further disposed between the gigabit access switch and the gigabit management switch, and the gigabit management switch is connected to the X2 access convergence end.

In a preferred, but non-limiting embodiment of the present invention, there is also a first supervisory node and a first ring node between the first gigabit access switch and the first gigabit management switch.

In a preferred, but non-limiting embodiment of the present invention, the X1 master control cabinet module and the X2 master control cabinet module are further connected to resource cabinet modules respectively. The invention greatly reduces the difficult problem of upgrading and expanding the cloud computing platform; the common IT technicians or technical managers can independently complete the upgrade and expansion design and planning after training for half a day (2-3 hours), thereby reducing the difficulty of IT and enabling users to concentrate more on the business rather than the IT itself.

The preferred embodiments of the present invention have been described above. It is to be understood that the invention is not limited to the specific embodiments described above, wherein devices and structures not described in detail are to be understood as being implemented in a manner common in the art; any person skilled in the art can make many possible variations and modifications to the technical solution of the present invention or modifications to equivalent embodiments without departing from the scope of the technical solution of the present invention, using the methods and technical contents disclosed above, without affecting the essential content of the present invention. Therefore, any simple modification, equivalent variation and modification of the above embodiments according to the technical substance of the present invention still fall within the scope of the technical solution of the present invention.

Claims (6)

1. The super-fusion cloud computing micro module of the symmetrical architecture is characterized by comprising the following components;

the system comprises an X1 main control cabinet module, a first network management module and a second network management module, wherein the X1 main control cabinet module comprises first WAN access equipment, a first cloud security server node, a first SDN core switch, a first SDN network control node and a first gigabit access switch, the first cloud security server node is respectively connected with the first WAN access equipment and the first SDN core switch, and the first SDN core switch is respectively connected with the first SDN network control node and the first gigabit access switch;

the first kilomega access switch is further connected with a first kilomega management switch, a first control node and a first deployment node are further arranged between the first kilomega access switch and the first kilomega management switch, and the first kilomega management switch is connected with the X1 access convergence end.

2. The super fusion cloud computing micro-module of a symmetrical architecture according to claim 1, further comprising an X2 master control cabinet module, wherein the X2 master control cabinet module and the X1 master control cabinet module are connected by an access network cable.

3. The super-converged cloud computing micro module of claim 2, wherein the X2 master control cabinet module comprises the WAN access device, a cloud security server node, an SDN core switch, an SDN network control node, and a gigabit access switch, wherein the cloud security server node is respectively connected with the WAN access device and the SDN core switch, and the SDN core switch is respectively connected with the SDN network control node and the gigabit access switch.

4. The super-fusion cloud computing micro module of a symmetrical framework according to claim 3, wherein the gigabit access switch is further connected with a gigabit management switch, a monitoring node, a control node and a movable ring node are further arranged between the gigabit access switch and the gigabit management switch, and the gigabit management switch is connected with an X2 access convergence end.

5. The super-converged cloud computing micro module of claim 4, wherein a first monitoring node and a first ring node are further provided between the first gigabit access switch and the first gigabit management switch.

6. The super fusion cloud computing micro-module of claim 5, wherein said X1 master control cabinet module and X2 master control cabinet module are further connected with resource cabinet modules, respectively.

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