Recently, iResearch, an authoritative organization in the low-** field, releasedEnterprise-grade low buildThis article excerpts the core content, and friends who are interested in enterprise-level low** can read it for reference.
1) Definition of enterprise-level low**:Enterprise-level low** is a solution that provides a visual application development environment for enterprise developers and business personnel, reduces or eliminates the demand for native writing in application development, and then realizes convenient application building.
2) Encapsulation and integration openness are important attributes of enterprise-level low, and agility and efficiency improvement are the key words of enterprise-level low. Enterprise-level low ** is a development form that can be directly called when enterprises encapsulate common and high-frequency ** in the traditional development process, and reuse the same ** segment. When the number of packaging in enterprises increases, the frequency of use increases, and the low packaging gradually shifts from tools to platforms, becoming the technical base to support the development and integration of upper-level applications. According to the characteristics of the platform and the effect of users, more convenient development and lower time cost are the core values of the platform.
(1) Environment-driven:The accelerated integration of the digital economy and emerging technologies will bring more business opportunities and technical challenges, requiring enterprises in various industries to have higher adaptability and innovation capabilities.
(2) Building applications:Due to the large number of enterprises settled in the building, the complexity of operational resources, and the possibility of software and hardware changes, management process changes, etc., there are flexible requirements for the technical base of the system. The low-quality visual development characteristics are consistent with the agility and flexibility requirements of the application system development of building technology, which can effectively improve the efficiency of management system construction.
The average build cycle of the enterprise-level low** platform is 6 months or more, of which deployment implementation and test optimization are the main tasks, and the average build cycle is 6 months or more, of which deployment implementation and test optimization are the main work.
The construction and operation process of the enterprise-level low-level platform can be divided into six stages: demand analysis, design and planning, deployment and implementation, testing and optimization, on-line training, and operation and maintenance upgrades.
1) Demand analysis and design planning.
The principles of enterprise-grade low** build can be summarized as: security and compliance, integration and being integrated, cost reduction and business coverage, scalability and maintainability. Page modeling and service orchestration are the core aspects of application development.
2) Deployment implementation and test optimization.
In the deployment and implementation process, the technical service provider usually sets up a team of three or more people, in which the project manager is responsible for the overall control of the project and resource coordination, and the senior business consultant is responsible for coordinating the business adaptability of the platform. Low-level integration can be divided into three links: basic configuration and access debugging, business system integration, and platform testing and application.
3) On-line training and O&M upgrades.
In the operation and maintenance stage, enterprises usually set up business consultants around the low-level platform to connect and evaluate the needs of business departments, and hand over the project to the IT department, or seek support from technical service providers. The operation and maintenance of applications focuses on the running status, data security, and fault handling of applications, and regularly iterates to ensure scenario adaptation. The operation and maintenance of low-quality platforms pay attention to component updates and resource consumption to ensure the stable operation of the platform.
(1) Integration of numbers and usesIntegrate data collection, data standardization, data quality control, data analysis and modeling and other capabilities to form an ApaAs + IPAAS+ data management architecture to realize the full life cycle management of data assets.
(2)ai-code:On the user side, AI can parse user demands and automatically combine components to generate page templates. On the product side, encoders and debugging based on machine learning and knowledge graphs can improve the efficiency and accuracy of coding.
(3) Integration of software and hardware:By connecting edge devices at a low level, the combination of software and hardware is completed to realize the unified management of data production precipitation, and further improve the intelligence of enterprise business operations and scenario management.