CN110502219B - Enterprise-level IT architecture asset management system and method - Google Patents

Abstract

The invention provides an enterprise-level IT architecture asset management system and method, comprising the following steps: the information access module is used for receiving the service scene related information and the enterprise-level IT product related information; the database is used for storing the business scene related information and the enterprise-level IT product related information received by the information access module; the business scene management module is used for managing business scenes and enterprise-level IT product architectures of different layers constructed from a business scene angle; and the architecture layering management module is used for managing enterprise-level IT product architectures of different layers constructed from the enterprise-level IT product angle. The method solves the problem that enterprise IT architecture information cannot be displayed in a layering and evolution mode in the prior art, and realizes visual tracking of enterprise-level architecture baselines and evolution.

Description

Enterprise-level IT architecture asset management system and method

Technical Field

The invention relates to the technical field of product management, in particular to an enterprise-level IT architecture asset management system and method.

Background

Large enterprises have numerous business and management systems (i.e., IT products) that are complex and interactive, and thus often suffer from difficulties in architecture management, such as lack of overall tracking and management of each system, lack of effective management of architecture specifications and principles, difficulty in rapid positioning of impact analysis involving multiple system modifications, etc. While the existing mainstream architecture management tool can partially meet the functional requirements of architecture management, the existing mainstream architecture management tool has the defects that enterprise IT architecture information cannot be displayed in a layering and evolving manner, the product function change influence cannot be rapidly positioned and completely analyzed, whether the IT architecture design can meet the specification or not is difficult to confirm, and the like.

Disclosure of Invention

The embodiment of the invention provides an enterprise-level IT architecture asset management system and method, which solve the technical problems that enterprise IT architecture information cannot be displayed in a layering and evolving manner, product function change influence cannot be positioned and analyzed quickly and completely, and whether IT architecture design can meet specifications is difficult to confirm.

The embodiment of the invention provides an enterprise-level IT architecture asset management system, which comprises:

the information access module is used for receiving the service scene related information and the enterprise-level IT product related information;

the database is used for storing the business scene related information and the enterprise-level IT product related information received by the information access module;

the business scene management module is used for managing business scenes and enterprise-level IT product architectures of different layers constructed from a business scene angle;

the architecture layering management module is used for managing enterprise-level IT product architectures of different levels constructed from the enterprise-level IT product angle;

the service scene management module designs a three-layer service management unit from top to bottom based on a hierarchical access control rule, a lower layer full multiplexing principle, a single responsibility principle and an abstract principle, and the three-layer service management unit comprises: the system comprises a business bar management unit, a business scene type management unit and a business scene transaction path diagram management unit;

the business scene type management unit is positioned at the lower layer of the business stripe management unit, and the business scene transaction path diagram management unit is positioned at the lower layer of the business scene type management unit;

the service stripe management unit is used for: constructing and displaying a service stripe frame composition, wherein the service stripe frame composition comprises preset service, technical attribute information of the preset service, preset service scenes corresponding to the preset service, technical attribute information of the preset service scenes, IT products corresponding to the preset service scenes, technical attribute information of the IT products and relations among the IT products;

the business scene type management unit is used for: constructing and displaying a service scene type structure diagram corresponding to each preset service, wherein the service scene type structure diagram comprises preset service scenes, technical attribute information of the preset service scenes, IT products corresponding to the preset service scenes, technical attribute information of the IT products and relations among the IT products;

the business scenario transaction path diagram management unit is used for: and constructing and displaying a business scene transaction path diagram corresponding to each preset business scene, wherein the business scene transaction path diagram comprises IT products corresponding to the preset business scenes, technical attribute information of the IT products and an end-to-end IT product transaction path diagram.

The technical problem that enterprise IT architecture information cannot be displayed in a layering and evolving manner is solved.

In one embodiment, further comprising: and the architecture analysis module is used for restraining and early warning the architecture model through the indexed architecture management and control rule.

The technical problem that whether the IT architecture design can meet the specification is difficult to confirm is solved.

The embodiment of the invention also provides an enterprise-level IT architecture asset management method for managing IT products by using the enterprise-level IT architecture asset management system.

The embodiment of the invention also provides computer equipment, which comprises a memory, a processor and a computer program stored on the memory and capable of running on the processor, wherein the processor realizes the method when executing the computer program.

The embodiment of the invention also provides a computer readable storage medium, which stores a computer program for executing the method.

The scheme realizes the visual tracking of the baseline and evolution of the enterprise-level architecture, forms normalized architecture expression, integrates architecture management into the development process flow of procedural development, and constructs an intelligent architecture analysis system.

Drawings

In order to more clearly illustrate the embodiments of the invention or the technical solutions in the prior art, the drawings that are required in the embodiments or the description of the prior art will be briefly described, it being obvious that the drawings in the following description are only some embodiments of the invention, and that other drawings may be obtained according to these drawings without inventive effort for a person skilled in the art.

FIG. 1 is a block diagram of an enterprise-level IT architecture asset management system provided by an embodiment of the present invention;

fig. 2 is a block diagram of a service scenario management module according to an embodiment of the present invention;

fig. 3 is a schematic diagram of a product constraint rule and a product connection constraint rule according to an embodiment of the present invention.

Detailed Description

The following description of the embodiments of the present invention will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present invention, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

In order to realize huge visual tracking of enterprise-level architecture baselines and evolution, form standardized architecture expression, integrate architecture management into procedural development process flows and construct an intelligent architecture analysis system, in the embodiment of the invention, an enterprise-level IT architecture asset management system is provided, and the system manages enterprise-level IT architecture assets from two dimensions of business scene management and architecture hierarchical management, as shown in fig. 1, and the system comprises:

an information access module 101, configured to receive information related to a business scenario and information related to an enterprise-level IT product (may be an interface connection with the enterprise-level IT product, and directly receive the information);

the database 102 is configured to store the service scenario related information and the enterprise-level IT product related information received by the information access module;

the business scene management module 103 is used for managing business scenes and enterprise-level IT product architectures of different layers constructed from a business scene angle;

the architecture layering management module 104 is configured to manage different levels of enterprise-level IT product architecture that are built from an enterprise-level IT product perspective.

The business scenario management module 103 and the architecture layering management module 104 enable unified management of enterprise-level architecture assets.

In the embodiment of the present invention, for the dimension of service scenario management, the information access module 101 is specifically configured to: receiving technical attribute information of a preset service, technical attribute information of a preset service scene, IT products corresponding to the preset service scene, technical attribute information of the IT products, end-to-end IT product transaction path information and relations among the IT products;

the database 102 is specifically configured to: storing technical attribute information of a preset service, technical attribute information of a preset service scene, IT products corresponding to the preset service scene, technical attribute information of the IT products, end-to-end IT product transaction path information and relations among the IT products;

the service scenario management module 103 includes: the service line management unit 1031, the service scene type management unit 1032, and the service scene transaction path map management unit 1033, where the service scene type management unit is located at a lower layer of the service line management unit, and the service scene transaction path map management unit is located at a lower layer of the service scene type management unit, as shown in fig. 2.

The service stripe management unit 1031 is configured to: constructing and displaying a service stripe frame composition, wherein the service stripe frame composition comprises preset service, technical attribute information of the preset service, preset service scenes corresponding to the preset service, technical attribute information of the preset service scenes, IT products corresponding to the preset service scenes, technical attribute information of the IT products and relations among the IT products;

the service scenario type management unit 1032 is configured to: constructing and displaying a service scene type structure diagram corresponding to each preset service, wherein the service scene type structure diagram comprises preset service scenes, technical attribute information of the preset service scenes, IT products corresponding to the preset service scenes, technical attribute information of the IT products and relations among the IT products;

the traffic scenario transaction path diagram management unit 1033 is configured to: and constructing and displaying a business scene transaction path diagram corresponding to each preset business scene, wherein the business scene transaction path diagram comprises IT products corresponding to the preset business scenes, technical attribute information of the IT products and an end-to-end IT product transaction path diagram.

In the embodiment of the present invention, the information access module 101 is further configured to: receiving actual service scene information;

the service scenario management module 103 is further configured to: and searching a corresponding business scene transaction path diagram according to the actual business scene information, and analyzing according to the actual business scene information and the business scene transaction path diagram to obtain a business scene transaction path diagram corresponding to the actual business scene.

In the embodiment of the invention, three layers of service management units from top to bottom are designed based on a hierarchical access control rule, a lower layer full multiplexing principle, a single responsibility principle and an abstract principle: a traffic stripe management unit 1031, a traffic scenario type management unit 1032, and a traffic scenario transaction path diagram management unit 1033.

The hierarchical access control rule is: the upper layer component may access the lower layer component, the lower layer component prohibits access to the upper layer component, and the same layer does not generate an interaction. To better implement the hierarchical high cohesion and low coupling features, the upper layer may invoke lower layer services that prohibit access to the upper layer services. Components at the same level should disable cross-calls in order to reduce coupling to each other.

The lower layer full multiplexing principle: layering considers the problem of logic granularity of each layer, and the top-down layering is a process of gradually weakening business logic. The higher-level components provide higher business logic related services and the lower-level components provide business logic unrelated services.

Single responsibility principle: the functions of each layer are focused on the responsibility of the layer sufficiently, and the relation to other layers of logic is avoided.

Abstract principle: the service provided by the hierarchy is abstract and simple as far as possible, and the repeated redundant service design is avoided.

The main responsibility of the three presentation layers is to display information to the user and interpret the user's commands as operations on the domain and data sources. In the overall scheme of architecture management, front-end and Back-end design modes are adopted, and a display and API server separation mode can better realize separation of team division and UI logic and business logic. The navigation driving of the page is realized by Front-end, so that the complexity of background business logic is effectively reduced. Between the Front-end interface presentation and the background service, a JSBroker design model is employed, which is a new function-based view. Front-end contains three layers, page layer, component layer and JSBroker layer in order from top to bottom. The front-end hierarchical design is mainly based on the design concept of service combinability and server, the page layer can repeatedly combine component layers, the components realize reuse of a Broker, and the Broker layer realizes reuse of server-end services.

An application program interface (API: application programming interface) is a set of definitions, programs, and protocols through which computer software communicates with each other. One of the main functions of the API is to provide a generic set of functions. By developing an application program using an API function, a programmer can avoid writing unnecessary programs to alleviate programming tasks. The API is also a middleware for providing data sharing for various platforms.

In the embodiment of the invention, three layers of management modules are arranged from top to bottom: the business bar line management unit 1031, the business scene type management unit 1032 and the business scene transaction path diagram management unit 1033 realize that the business, the technical attribute and the system architecture diagram of the business bar line management unit are displayed according to the business bar line; under the service strip line, the service, the technical attribute and the system architecture diagram can be displayed according to the service scene type; the business and technical attributes of the business can be displayed according to business scenes, including product information, nonfunctional information of products, interface relation among the products, nonfunctional information among the products and the like, and an end-to-end transaction path diagram; by version comparison, the history tracing of the service scene can be realized.

In the embodiment of the invention, for the dimension of architecture hierarchical management, the hierarchical storage and display of the enterprise-level architecture framework are realized, and the flexible customization of the two-layer application architecture is supported, for example, the first hierarchy can comprise: channels, channel buses, product management, product groups, and the second hierarchy may be a detailed presentation of the first hierarchy. The two hierarchies define the hierarchy and location of each product in the enterprise-level architecture; the method can assist in determining the position of the new function in the enterprise-level application architecture and the attribution of the product; the architecture layered display result can be flexibly adjusted according to the background data configuration.

Specifically, architecture layering overview: for example, the internationalized enterprise users can screen the display results according to all products, domestic products and overseas products; clicking the selected product group to display the product set of the group; and clicking the selected product can display the detailed information of the product, including the detailed information of the main product and the sub-product, and the non-functional information. Product systems meeting the conditions can be screened out from the combination of multiple dimensions, and screening results are generated and displayed in a list, a pie chart and a histogram mode; can meet the requirements of daily product management, statistics and analysis.

In an embodiment of the present invention, as shown in fig. 1, the method further includes: the architecture analysis module 105 is configured to constrain and pre-warn the architecture model through the indexed architecture management rules.

Specifically, the service stripe frame composition and the service scene type composition provided by the invention belong to static models, are used for analyzing the relationship between one service stripe and the products of the next transaction, and are architecture panoramic views including products and product connecting lines. The business scene transaction path diagram belongs to a dynamic model and is used for defining the behavior relation of products, analyzing the sequence relation of each product in the transaction execution process and analyzing the data dependency relation. Including end-to-end transaction path panoramic views, product interfaces, non-functional information, etc.

The architecture analysis module 105 performs architecture constraint analysis on the business scenario transaction path graph (dynamic graph) according to the business scenario type architecture graph (static graph). The static graph may place architectural constraints on the products and product lines in the dynamic graph below.

Specifically, the indexed architecture management rules may include business scenario constraint rule information, and the architecture analysis module 105 is specifically configured to: based on the business scene constraint rule information, carrying out architecture constraint analysis on the business scene transaction path diagram according to the business stripe frame composition and the business scene type architecture composition.

The indexed architecture management rules may include IT product constraint rule information and IT product link constraint rule information, as shown in fig. 3, and the architecture analysis module 105 is specifically configured to: and carrying out architecture constraint analysis on the IT products and the IT product links in the end-to-end IT product transaction path diagram based on the IT product constraint rule information and the IT product link constraint rule information.

The indexed architecture management rules may include interface information and interface normalization information, and the architecture analysis module 105 is specifically configured to: the system is used for carrying out normalization check on the relation among IT products and/or the end-to-end IT product transaction path diagram according to the interface information and the interface normalization information.

In an embodiment of the present invention, as shown in fig. 1, the enterprise-level IT architecture asset management system further includes: the information maintenance module 106 is configured to maintain one or more of a service stripe frame pattern, a service scene type frame pattern, and a service scene transaction path pattern.

The information maintenance module 106 provides maintenance functions of three layers of service striping, service scene types and service scene transaction paths, and visual management of service scenes is realized; the service strip line frame composition and the service scene type composition are used for analyzing the relationship between products of a service strip line or a scene; and the business scene transaction path diagram is used for analyzing the behavior relation of the product.

Specifically, when one or more of the service stripe frame composition, the service scene type structure composition and the service scene transaction path diagram is in a non-editing state, the functions of modification, deletion and release are provided; when one or more of the business strip frame composition, the business scene type structure composition and the business scene transaction path diagram are in an editing state, the functions of emptying, saving and canceling are provided. The architecture diagram being edited is compared with the historical architecture diagram to achieve a draft-to-historical version comparison.

In addition, the information maintenance module 106 is further configured to: and setting labels for special business scenes and corresponding end-to-end IT product transaction path diagrams, and maintaining the set labels.

At this time, the information access module 101 is further configured to: receiving non-functional deduction data of the input IT product;

the information maintenance module 106 is further configured to: and according to the nonfunctional deduction data, carrying out simulation deduction on the special service scene of the set label and the corresponding end-to-end IT product transaction path diagram, and carrying out end-to-end influence analysis.

Specifically, through the labeling design of the service scenes, the service scenes sensitive to special days and the end-to-end transaction path panoramic views corresponding to the scenes can be effectively identified. According to the design capacity and nonfunctional index information of the products in the graph and the nonfunctional index information of the connecting line between the upstream and downstream products, simulation deduction of the product group sensitive to the special day is realized by inputting nonfunctional deduction data, and end-to-end influence analysis is carried out.

In conclusion, the product information is collected and recorded through the information access module 101, so that the standardization and normalization of the product information are realized; the information maintenance module 106 is used for realizing the product information maintenance function, so that the secondary architecture layering and part of product attributes corresponding to the product can be adjusted; through the maintenance function of the non-functional information of the product, the input and modification of the non-functional information with different index types can be realized.

Architecture statistics and analysis are provided from multiple dimensions, providing data support for architecture decisions and planning for architecture administrators. And constructing an architecture analysis model, analyzing and reporting architecture decisions, architecture exceptions, architecture problems and architecture suggestions, and intelligently pre-warning architecture risks.

In an embodiment of the present invention, the enterprise-level IT architecture asset management system may further include: the query module is used for querying the related interface list according to the IT product information received by the information access module 101; inquiring the relation between the product and the scene according to the IT product information and the business scene information received by the information access module; and inquiring the relation between the interface and the scene according to the IT product information and the business scene information received by the information access module.

Specifically, the relevant interface list can be queried according to the product identifier of the requester system or the product identifier of the provider system, and further the associated service scene can be further known through the query result; the method can fully know a certain product as a requesting party or a provider and all interfaces related to the certain product, and provides basis for correlation influence analysis of the product.

Based on analysis of interface information data, providing a function of inquiring upstream products, downstream products or all upstream and downstream products according to product identification, wherein an inquiry result comprises a product relation diagram and a product relation list, and clicking the number of interfaces in the product relation list to further inquire the interface list; the function can enable a user to fully know the upstream and downstream relation of the product, and provides a basis for the association influence analysis of the product.

Based on the same inventive concept, the embodiment of the invention also provides an enterprise-level IT architecture asset management method, which is used for managing IT products.

The embodiment of the invention also provides computer equipment, which comprises a memory, a processor and a computer program stored on the memory and capable of running on the processor, wherein the processor realizes the method when executing the computer program.

The embodiment of the invention also provides a computer readable storage medium, which stores a computer program for executing the method.

In summary, the scheme realizes the visual tracking of the baseline and evolution of the enterprise-level architecture, forms normalized architecture expression, integrates architecture management into the development process flow of procedural development, and constructs an intelligent architecture analysis system.

It will be appreciated by those skilled in the art that embodiments of the present invention may be provided as a method, system, or computer program product. Accordingly, the present invention may take the form of an entirely hardware embodiment, an entirely software embodiment or an embodiment combining software and hardware aspects. Furthermore, the present invention may take the form of a computer program product embodied on one or more computer-usable storage media (including, but not limited to, disk storage, CD-ROM, optical storage, and the like) having computer-usable program code embodied therein.

The present invention is described with reference to flowchart illustrations and/or block diagrams of methods, apparatus (systems) and computer program products according to embodiments of the invention. It will be understood that each flow and/or block of the flowchart illustrations and/or block diagrams, and combinations of flows and/or blocks in the flowchart illustrations and/or block diagrams, can be implemented by computer program instructions. These computer program instructions may be provided to a processor of a general purpose computer, special purpose computer, embedded processor, or other programmable data processing apparatus to produce a machine, such that the instructions, which execute via the processor of the computer or other programmable data processing apparatus, create means for implementing the functions specified in the flowchart flow or flows and/or block diagram block or blocks.

These computer program instructions may also be stored in a computer-readable memory that can direct a computer or other programmable data processing apparatus to function in a particular manner, such that the instructions stored in the computer-readable memory produce an article of manufacture including instruction means which implement the function specified in the flowchart flow or flows and/or block diagram block or blocks.

These computer program instructions may also be loaded onto a computer or other programmable data processing apparatus to cause a series of operational steps to be performed on the computer or other programmable apparatus to produce a computer implemented process such that the instructions which execute on the computer or other programmable apparatus provide steps for implementing the functions specified in the flowchart flow or flows and/or block diagram block or blocks.

The above description is only of the preferred embodiments of the present invention and is not intended to limit the present invention, and various modifications and variations can be made to the embodiments of the present invention by those skilled in the art. Any modification, equivalent replacement, improvement, etc. made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (13)

1. An enterprise-level IT architecture asset management system, comprising:

the information access module is used for receiving the service scene related information and the enterprise-level IT product related information;

the database is used for storing the business scene related information and the enterprise-level IT product related information received by the information access module;

the business scene management module is used for managing business scenes and enterprise-level IT product architectures of different layers constructed from a business scene angle;

the architecture layering management module is used for managing enterprise-level IT product architectures of different levels constructed from the enterprise-level IT product angle;

the service scene management module designs a three-layer service management unit from top to bottom based on a hierarchical access control rule, a lower layer full multiplexing principle, a single responsibility principle and an abstract principle, and the three-layer service management unit comprises: the system comprises a business bar management unit, a business scene type management unit and a business scene transaction path diagram management unit;

the business scene type management unit is positioned at the lower layer of the business stripe management unit, and the business scene transaction path diagram management unit is positioned at the lower layer of the business scene type management unit;

the service stripe management unit is used for: constructing and displaying a service stripe frame composition, wherein the service stripe frame composition comprises preset service, technical attribute information of the preset service, preset service scenes corresponding to the preset service, technical attribute information of the preset service scenes, IT products corresponding to the preset service scenes, technical attribute information of the IT products and relations among the IT products;

the business scene type management unit is used for: constructing and displaying a service scene type structure diagram corresponding to each preset service, wherein the service scene type structure diagram comprises preset service scenes, technical attribute information of the preset service scenes, IT products corresponding to the preset service scenes, technical attribute information of the IT products and relations among the IT products;

the business scenario transaction path diagram management unit is used for: and constructing and displaying a business scene transaction path diagram corresponding to each preset business scene, wherein the business scene transaction path diagram comprises IT products corresponding to the preset business scenes, technical attribute information of the IT products and an end-to-end IT product transaction path diagram.

2. The enterprise-level IT architecture asset management system of claim 1, wherein the information access module is specifically configured to: receiving technical attribute information of a preset service, technical attribute information of a preset service scene, IT products corresponding to the preset service scene, technical attribute information of the IT products, end-to-end IT product transaction path information and relations among the IT products;

the database is specifically used for: storing technical attribute information of a preset service, technical attribute information of a preset service scene, IT products corresponding to the preset service scene, technical attribute information of the IT products, end-to-end IT product transaction path information and relations among the IT products.

3. The enterprise-class IT architecture asset management system of claim 2, further comprising: and the architecture analysis module is used for restraining and early warning the architecture model through the indexed architecture management and control rule.

4. The enterprise-level IT architecture asset management system of claim 3, wherein the indexed architecture management rules comprise business scenario constraint rule information;

the architecture analysis module is specifically configured to: based on the business scene constraint rule information, carrying out architecture constraint analysis on the business scene transaction path diagram according to the business stripe frame composition and the business scene type architecture composition.

5. The enterprise level IT architecture asset management system of claim 3, wherein the indexed architecture management rules comprise IT product constraint rule information and IT product link constraint rule information;

the architecture analysis module is specifically configured to: and carrying out architecture constraint analysis on the IT products and the IT product links in the end-to-end IT product transaction path diagram based on the IT product constraint rule information and the IT product link constraint rule information.

6. The enterprise IT architecture asset management system of claim 3, wherein the indexed architecture management rules comprise interface information and interface normalization information;

the architecture analysis module is specifically configured to: the system is used for carrying out normalization check on the relation among IT products and/or the end-to-end IT product transaction path diagram according to the interface information and the interface normalization information.

7. The enterprise-class IT architecture asset management system of claim 1, further comprising: and the information maintenance module is used for maintaining one or more of the business strip frame composition, the business scene type structure composition and the business scene transaction path diagram.

8. The enterprise-class IT architecture asset management system of claim 7, wherein the information maintenance module is specifically configured to:

when one or more of the business strip frame composition, the business scene type structure composition and the business scene transaction path diagram are in a non-editing state, providing the functions of modification, deletion and release;

when one or more of the business strip frame composition, the business scene type structure composition and the business scene transaction path diagram are in an editing state, the functions of emptying, saving and canceling are provided.

9. The enterprise-class IT architecture asset management system of claim 7, wherein the information maintenance module is further configured to: and setting labels for special business scenes and corresponding end-to-end IT product transaction path diagrams, and maintaining the set labels.

10. The enterprise-class IT architecture asset management system of claim 7, wherein the information access module is further configured to: receiving non-functional deduction data of the input IT product;

the information maintenance module is further configured to: and according to the nonfunctional deduction data, carrying out simulation deduction on the special service scene of the set label and the corresponding end-to-end IT product transaction path diagram, and carrying out end-to-end influence analysis.

11. An enterprise-level IT architecture asset management method, characterized in that enterprise-level IT products are managed using the enterprise-level IT architecture asset management system of any of claims 1-10.

12. A computer device comprising a memory, a processor and a computer program stored on the memory and executable on the processor, characterized in that the processor implements the method of claim 11 when executing the computer program.

13. A computer readable storage medium, characterized in that the computer readable storage medium stores a computer program for executing the method of claim 11.