CN113434259A - BIM operation and maintenance management private cloud rapid deployment technology based on super-fusion framework - Google Patents
BIM operation and maintenance management private cloud rapid deployment technology based on super-fusion framework Download PDFInfo
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- CN113434259A CN113434259A CN202110772103.XA CN202110772103A CN113434259A CN 113434259 A CN113434259 A CN 113434259A CN 202110772103 A CN202110772103 A CN 202110772103A CN 113434259 A CN113434259 A CN 113434259A
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- G06F9/06—Arrangements for program control, e.g. control units using stored programs, i.e. using an internal store of processing equipment to receive or retain programs
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- G06F3/00—Input arrangements for transferring data to be processed into a form capable of being handled by the computer; Output arrangements for transferring data from processing unit to output unit, e.g. interface arrangements
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Abstract
The invention provides a rapid deployment technology of a BIM operation and maintenance management private cloud based on a super-fusion framework, which comprises the following steps: the method comprises the steps of designing a super-fusion architecture, performing resource integrated management based on the super-fusion architecture, computing virtualization oriented to a heterogeneous platform, storage virtualization based on distributed storage, network virtualization based on BIM operation and maintenance management software definition and a multi-display-card dynamic scheduling management technology. By the method and the system, a client can rapidly deploy and build a BIM operation and maintenance management private cloud platform without considering the existing software and hardware environment, the deployment period is shortened, the existing resources are compatible, and the overall implementation cost and the ownership cost (TCO) of the user are obviously reduced.
Description
Technical Field
The invention relates to the technical field of BIM construction management operation and maintenance, in particular to a rapid deployment technology of a BIM operation and maintenance management private cloud based on a super-fusion framework.
Background
BIM, a building information model, is a process and method for designing, constructing, operating and managing a building project using a three-dimensional digital model. The method takes various related data of engineering projects as a modeling basis, and establishes a building model to realize the integration, application and management of building information. The BIM model not only contains the geometric information, professional attributes and states of the building, but also contains information such as building structure, building functions, electromechanical equipment and the like. The existing BIM operation and maintenance management system deployment has the following problems: 1. the bottom layer architecture is complex, the standardization degree is low, and the deployment period is long; 2. BIM operation and maintenance has high requirements on a GPU and a display card, and the cost is high; 3. reasonable resource allocation is difficult; 4. the IT operation and maintenance difficulty is high; 5. the integration requirement of the functional modules of the BIM operation and maintenance is high. In view of the above, there is a need for improvement in the prior art to solve the above problems.
Disclosure of Invention
The invention aims to disclose a rapid deployment technology of a BIM operation and maintenance management private cloud based on a super-fusion framework, realize rapid deployment and build a BIM operation and maintenance management private cloud platform, shorten the deployment period, efficiently realize compatibility with the existing resources, and obviously reduce users.
In order to achieve the above object, the present invention provides a rapid deployment technology for BIM operation and maintenance management private cloud based on a super-fusion architecture, which includes: the method comprises the steps of designing a super-fusion architecture, performing resource integrated management based on the super-fusion architecture, computing virtualization oriented to a heterogeneous platform, storage virtualization based on distributed storage, network virtualization based on BIM operation and maintenance management software definition and a multi-display-card dynamic scheduling management technology.
As a further improvement of the invention, the super-fusion architecture design is composed of a super-fusion architecture hardware layer, a super-fusion resource pool and a resource scheduling layer;
the ultra-fusion architecture hardware layer is formed by reconstructing hardware in an integrated closed server mainframe box by physical infrastructure of a BIM operation and maintenance management system, and comprises: the system comprises a CPU pool formed by a heterogeneous CPU server cluster, a GPU pool formed by graphic display cards of various types, a computing storage pool formed by a trillion network and a memory pool formed by different capacity models; the super-fusion architecture hardware layer provides support for a super-fusion resource pool;
the super-fusion resource pool adopts virtualization and super-fusion technologies to perform virtualization packaging on hardware and application software in the all-in-one machine, a super-fusion component is deployed on a heterogeneous server of an operation and maintenance machine room, a unified virtualization resource pool is constructed by using the super-fusion technology, namely a uniform heterogeneous storage resource pool is constructed by Docker lightweight virtualization, a network environment is virtualized by software defined networking technologies, and a graphics card rendering resource pool is established in a GPU sharing mode;
the super-fusion resource scheduling layer provides a light-weight virtualized resource environment which is rapid in deployment, calling as required, rapid in response, safe and reliable for the whole BIM operation and maintenance system through load management of a CPU, dynamic on-demand distribution of a GPU (graphics processing unit) with multiple rendering display cards and queue management of a BIM operation and maintenance display model.
As a further improvement of the present invention, the hardware includes: the system comprises a CPU, a GPU, a memory, a video memory and a hard disk; the application software comprises: the system comprises a BIM lightweight engine, a front-end large-screen display module, an operation and maintenance management module and a background management module.
As a further improvement of the present invention, the computing virtualization is based on a virtualization program of a bare metal architecture, which directly runs on a host server, so as to realize abstraction of physical resources of the host server, convert physical resources of hardware into a group of logical resources that can be uniformly managed, scheduled, and allocated, and construct a plurality of virtual machine execution environments that run simultaneously and are isolated from each other on the host server based on the logical resources.
As a further improvement of the present invention, the storage virtualization is to organize and aggregate independent hard disk storage spaces on each node server of the cluster to form a shared storage resource pool, and all storage resources are uniformly managed in the storage resource pool.
As a further improvement of the invention, the storage virtualization is based on a distributed storage system, and integrates a plurality of storage technologies of distributed cache, SSD read-write cache acceleration and a plurality of local mechanisms.
As a further improvement of the present invention, the network virtualization operates in the network environment inside the all-in-one machine by implementing various network connection services required in the network, including routing, switching, security, and load balancing.
As a further improvement of the invention, the multi-copy mechanism simultaneously stores one copy of data on a plurality of different physical server hard disks, thereby improving the reliability of the data and ensuring the safe and stable operation of key services.
As a further improvement of the invention, the BIM operation and maintenance management private cloud platform of the super-fusion architecture is in the form of a software and hardware integrated machine.
As a further improvement of the invention, the BIM operation and maintenance management private cloud platform is hermetically encapsulated and provides a limited external interface, and can provide a 4+1 three-dimensional security protection system of platform security, data security, application security, boundary security and cloud security for a user.
Compared with the prior art, the invention has the beneficial effects that:
(1) the BIM operation and maintenance management private cloud rapid deployment technology based on the super-fusion framework is a software and hardware integrated rapid deployment technology, the BIM operation and maintenance management private cloud platform based on the super-fusion framework is in a form of a hardware all-in-one machine, the BIM operation and maintenance function is modularized, a management platform is virtualized, hardware resources are configured according to requirements, the high IO requirements and the large-capacity storage requirements of a BIM operation and maintenance management system can be met, and the super-fusion framework can achieve high-speed local data access without cross-network access. After the internal configuration of the all-in-one machine is finished, the all-in-one machine can be quickly used after being placed in a machine room and butted with the external environment, and the deployment and the online operation can be finished within 1-2 days.
(2) The BIM operation and maintenance management platform has high reliability, and the enterprise-level private cloud realizes a distributed architecture irrelevant to hardware through software definition of all functional components, so that a single hardware fault can be realized without influencing services. The CDP function embedded in the platform can restore the data to any 1 second in the last 3 days by one key when an administrator deletes the database by mistake or a business system encounters a Lexovirus. The DRX/DRS intelligent scheduling technology guarantees that services are not unavailable due to insufficient resources.
(3) The BIM operation and maintenance management platform has high performance, fully meets the high performance requirements of internet services, real-time transaction systems, BI analysis and other services, database clusters such as OracleRAC and MySQL, and key applications such as ERP, MES and HIS through a distributed storage layering technology, a logic striping technology, an optimized NUMA (non uniform memory access) and a large-page memory technology.
(4) The BIM operation and maintenance management private cloud platform based on the super-fusion framework is high in safety, only limited external interfaces are provided, a 4+1 three-dimensional safety protection system with platform safety, data safety, application safety, boundary safety and cloud safety can be provided for a user, and a firm safety protection fort is constructed from inside to outside.
(5) The cost performance is high, the rapid deployment technology of the BIM operation and maintenance management private cloud platform based on the super-fusion framework is adopted, the existing software and hardware environment does not need to be considered by a client, the BIM operation and maintenance management private cloud platform can be rapidly deployed and built, the deployment period is shortened, the existing resources are compatible, and the overall implementation and ownership cost (TCO) of a user is obviously reduced.
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Fig. 1 is a schematic structural diagram of a platform of a BIM operation and maintenance management private cloud rapid deployment technology based on a super-fusion architecture.
Detailed Description
The present invention is described in detail with reference to the embodiments shown in the drawings, but it should be understood that these embodiments are not intended to limit the present invention, and those skilled in the art should understand that functional, methodological, or structural equivalents or substitutions made by these embodiments are within the scope of the present invention.
To facilitate an understanding of the invention, the invention will now be described more fully with reference to the accompanying drawings. Preferred embodiments of the present invention are shown in the drawings. This invention may, however, be embodied in many different forms and should not be construed as limited to the embodiments set forth herein. Rather, these embodiments are provided so that this disclosure will be thorough and complete.
Please refer to fig. 1, which illustrates a specific embodiment of the BIM operation and maintenance management private cloud rapid deployment technology based on the super-fusion architecture according to the present invention.
The invention provides a rapid deployment technology of a BIM operation and maintenance management private cloud based on a super-fusion framework, which comprises the following steps: the method comprises the steps of designing a super-fusion architecture, performing resource integrated management based on the super-fusion architecture, computing virtualization oriented to a heterogeneous platform, storage virtualization based on distributed storage, network virtualization based on BIM operation and maintenance management software definition and a multi-display-card dynamic scheduling management technology. The super-fusion architecture design is composed of a super-fusion architecture hardware layer, a super-fusion resource pool and a resource scheduling layer; the super-fusion architecture hardware layer is formed by reconstructing hardware in an integrated closed server mainframe box by physical infrastructure of a BIM operation and maintenance management system, and comprises: the system comprises a CPU pool formed by a heterogeneous CPU server cluster, a GPU pool formed by graphic display cards of various types, a computing storage pool formed by a trillion network and a memory pool formed by different capacity models; the super-fusion architecture hardware layer provides support for the super-fusion resource pool; the super-fusion resource pool adopts virtualization and super-fusion technologies to perform virtualization packaging on hardware and application software in the all-in-one machine, a super-fusion component is deployed on a heterogeneous server of an operation and maintenance machine room, a unified virtualization resource pool is constructed by using the super-fusion technology, namely a uniform heterogeneous storage resource pool is constructed by Docker lightweight virtualization, a network environment is virtualized by software defined networking technologies, and a graphics card rendering resource pool is established in a GPU sharing mode; the super-fusion resource scheduling layer provides a light-weight virtualized resource environment with quick deployment, on-demand calling, quick response, safety and reliability for the whole BIM operation and maintenance system through load management of a CPU, dynamic on-demand distribution of a GPU (graphics processing unit) with multiple rendering display cards and queue management of a BIM operation and maintenance display model. The hardware comprises: the system comprises a CPU, a GPU, a memory, a video memory and a hard disk; the application software comprises: the system comprises a BIM lightweight engine, a front-end large-screen display module, an operation and maintenance management module and a background management module.
Computing virtualization oriented to a heterogeneous platform is a core component in the whole super-fusion architecture, a virtualization program based on a bare metal architecture directly runs on a main server to realize abstraction of physical resources of the server, the physical resources of the server such as a CPU (central processing unit), a memory, a display card, a hard disk and the like are converted into a group of logic resources which can be uniformly managed, scheduled and distributed, and a plurality of virtual machine execution environments which run simultaneously and are isolated from one another are constructed on the main physical server based on the logic resources; the method has the advantages of realizing higher resource utilization rate, reducing the complexity of system management, accelerating the response speed to business requirements and providing high-reliability and high-availability application service. The method has the advantages of realizing higher resource utilization rate, reducing the complexity of system management, accelerating the response speed to business requirements and providing high-reliability and high-availability application service.
The storage virtualization based on distributed storage is to organize and aggregate independent hard disk storage spaces on each node server of a cluster to form a shared storage resource pool, and all storage resources are uniformly managed in the storage pool; the automatic management and allocation of storage resources are realized, a high-efficiency and flexible storage framework and management platform are constructed, and high-reliability and high-performance storage is provided. The storage virtualization is based on a distributed storage system, and integrates various storage technologies such as distributed cache, SSD read-write cache acceleration, multiple local mechanisms and the like;
functionally completely consistent with the independent shared storage. The storage virtualization can greatly improve the I/O performance of the server hard disk through SSD cache, and high-performance storage and efficient and reliable operation of services are realized. The storage virtualization adopts a multi-copy mechanism; one part of data is stored on a plurality of different physical server hard disks simultaneously, so that the data reliability is improved, and the safe and stable operation of key services is guaranteed. In addition, because the storage and the calculation are completely integrated on one server, the equipment such as a controller of an external disk array, an optical fiber switch and the like is omitted, and the purpose of reducing the cost is achieved. The storage virtualization is based on a distributed storage system, and integrates distributed cache, SSD read-write cache acceleration and multiple storage technologies of multiple local mechanisms.
The BIM operation and maintenance management software definition-based network virtualization realizes that various network connection services (including routing, switching, safety, load balancing and the like) required in a network run in the network environment inside the all-in-one machine, solves the management and operation and maintenance problems of multiple hardware and multiple nodes in the traditional network, and can meet the requirements of BIM operation and maintenance management application on large network bandwidth, quick response and flexible automatic deployment.
The BIM operation and maintenance management private cloud platform based on the super-fusion architecture is in a form of a software and hardware integrated machine, BIM operation and maintenance function modularization, management platform virtualization and hardware resource configuration according to needs can meet the high IO (input/output) requirements and large-capacity storage requirements of a BIM operation and maintenance management system, and the super-fusion architecture can achieve high-speed local data access without cross-network access. After the internal configuration of the all-in-one machine is finished, the all-in-one machine can be quickly used after being placed in a machine room and butted with the external environment, and the deployment and the online operation can be finished within 1-2 days. The BIM operation and maintenance management platform realizes a distributed architecture irrelevant to hardware through software definition of all functional components and enterprise-level private cloud, and can achieve that a single hardware fault does not affect service. The CDP function embedded in the platform can restore the data to any 1 second in the last 3 days by one key when an administrator deletes the database by mistake or a business system encounters a Lexovirus. The DRX/DRS intelligent scheduling technology guarantees that services are not unavailable due to insufficient resources. The BIM operation and maintenance management platform fully meets the high performance requirements of internet services, real-time transaction systems, BI analysis and other services, database clusters such as OracleRAC and MySQL, and key applications such as ERP, MES and HIS through a distributed storage layering technology, a logic striping technology, an optimized NUMA (non uniform memory access) and a large-page memory technology. The BIM operation and maintenance management private cloud platform based on the super-fusion framework is in closed encapsulation, only limited external interfaces are provided, a 4+1 three-dimensional safety protection system with platform safety, data safety, application safety, boundary safety and cloud safety can be provided for a user, and a firm safety protection fort is constructed from inside to outside. By adopting the rapid deployment technology of the BIM operation and maintenance management private cloud platform based on the super-fusion framework, a customer can rapidly deploy and build a BIM operation and maintenance management private cloud platform without considering the existing software and hardware environment, the deployment period is shortened, the existing resources are compatible, and the overall implementation and ownership cost (TCO) of the user is obviously reduced.
Furthermore, it should be understood that although the present description refers to embodiments, not every embodiment may contain only a single embodiment, and such description is for clarity only, and those skilled in the art should integrate the description, and the embodiments may be combined as appropriate to form other embodiments understood by those skilled in the art.
Claims (10)
1. A BIM operation and maintenance management private cloud rapid deployment technology based on a super-fusion framework comprises the following steps: the method comprises the steps of designing a super-fusion architecture, performing resource integrated management based on the super-fusion architecture, computing virtualization oriented to a heterogeneous platform, storage virtualization based on distributed storage, network virtualization based on BIM operation and maintenance management software definition and a multi-display-card dynamic scheduling management technology.
2. The BIM operation and maintenance management private cloud rapid deployment technology based on the super-fusion architecture as claimed in claim 1, wherein the super-fusion architecture design is composed of a super-fusion architecture hardware layer, a super-fusion resource pool and a resource scheduling layer; the method is characterized in that:
the ultra-fusion architecture hardware layer is formed by reconstructing hardware in an integrated closed server mainframe box by physical infrastructure of a BIM operation and maintenance management system, and comprises: the system comprises a CPU pool formed by a heterogeneous CPU server cluster, a GPU pool formed by graphic display cards of various types, a computing storage pool formed by a trillion network and a memory pool formed by different capacity models; the super-fusion architecture hardware layer provides support for a super-fusion resource pool;
the super-fusion resource pool adopts virtualization and super-fusion technologies to perform virtualization packaging on hardware and application software in the all-in-one machine, a super-fusion component is deployed on a heterogeneous server of an operation and maintenance machine room, a unified virtualization resource pool is constructed by using the super-fusion technology, namely a uniform heterogeneous storage resource pool is constructed by Docker lightweight virtualization, a network environment is virtualized by software defined networking technologies, and a graphics card rendering resource pool is established in a GPU sharing mode;
the super-fusion resource scheduling layer provides a light-weight virtualized resource environment which is rapid in deployment, calling as required, rapid in response, safe and reliable for the whole BIM operation and maintenance system through load management of a CPU, dynamic on-demand distribution of a GPU (graphics processing unit) with multiple rendering display cards and queue management of a BIM operation and maintenance display model.
3. The BIM operation and maintenance management private cloud rapid deployment technology based on the super-converged architecture according to claim 2, wherein the hardware comprises: the system comprises a CPU, a GPU, a memory, a video memory and a hard disk; the application software comprises: the system comprises a BIM lightweight engine, a front-end large-screen display module, an operation and maintenance management module and a background management module.
4. The BIM operation and maintenance management private cloud rapid deployment technology based on the super-fusion framework as claimed in claim 1, wherein the computing virtualization program based on the bare metal framework directly runs on the main server to realize abstraction of physical resources of the main server, converts physical resources of hardware into a group of logical resources which can be uniformly managed, scheduled and allocated, and constructs a plurality of virtual machine execution environments which run simultaneously and are isolated from each other on the main server based on the logical resources.
5. The BIM operation and maintenance management private cloud rapid deployment technology based on the super-fusion architecture as claimed in claim 1, wherein the storage virtualization is to organize and aggregate independent hard disk storage spaces on each node server of the cluster to form a shared storage resource pool, and all storage resources are uniformly managed in the storage resource pool.
6. The BIM operation and maintenance management private cloud rapid deployment technology based on the super fusion architecture as claimed in claim 5, wherein the storage virtualization is based on a distributed storage system, and integrates multiple storage technologies of distributed caching, SSD read-write caching acceleration and multiple local mechanisms.
7. The BIM operation and maintenance management private cloud rapid deployment technology based on the super-fusion architecture as claimed in claim 1, wherein the network virtualization is implemented by implementing various network connection services required in the network to operate in a network environment inside the all-in-one machine, and the network connection services include routing, switching, security and load balancing.
8. The BIM operation and maintenance management private cloud rapid deployment technology based on the super-fusion architecture as claimed in claim 6, wherein the multi-copy mechanism is used for simultaneously storing one copy of data on a plurality of different physical server hard disks, so as to improve data reliability and guarantee safe and stable operation of key services.
9. The BIM operation and maintenance management private cloud rapid deployment technology based on the super-fusion framework as claimed in claim 1, wherein the BIM operation and maintenance management private cloud platform of the super-fusion framework is in a form of a software and hardware all-in-one machine.
10. The BIM operation and maintenance management private cloud rapid deployment technology based on the super-fusion architecture as claimed in claim 9, wherein the BIM operation and maintenance management private cloud platform is a closed package and provides limited external interfaces, and can provide a 4+1 three-dimensional security protection system for platform security, data security, application security, boundary security and cloud security for users.
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