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Main Authors: Grynets, Oleg, Lyashkevych, Vasyl
Format: Preprint
Published: 2026
Subjects:
Online Access:https://arxiv.org/abs/2604.00171
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author Grynets, Oleg
Lyashkevych, Vasyl
author_facet Grynets, Oleg
Lyashkevych, Vasyl
contents The rapid development of AI and LLMs has driven new methods of SDLC, in which a large portion of code, technical, and business documentation is generated automatically. However, since there is no single architectural framework that can provide consistent, repeatable transformations across different representation layers of information systems, such systems remain fragmented in their system representation. This study explores the problem of creating a unified architecture for LLM-oriented applications based on selected architectural frameworks by SMEs. A framework structure is proposed that covers some key types of architectural diagrams and supports a closed cycle of transformations, such as: "Code to Documentation to Code". The key architectural diagrams are split equally between main architectural layers: high-layer (business and domain understanding), middle-layer (system architecture), and low-layer (developer-layer architecture). Each architectural layer still contains some abstraction layers, which make it more flexible and better fit the requirements of design principles and architectural patterns. The conducted experiments demonstrated the stable quality of generated documentation and code when using a structured architectural context in the form of architectural diagrams. The results confirm that the proposed unified architecture metamodel can serve as an effective interface between humans and models, improving the accuracy, stability, and repeatability of LLM generation. However, the selected set of architectural diagrams should be optimised to avoid redundancy between some diagrams, and some diagrams should be updated to represent extra contextual orchestration. This work demonstrates measurable improvements for a new generation of intelligent tools that automate the SDLC and enable a comprehensive architecture compatible with AI-driven development.
format Preprint
id arxiv_https___arxiv_org_abs_2604_00171
institution arXiv
publishDate 2026
record_format arxiv
spellingShingle Unified Architecture Metamodel of Information Systems Developed by Generative AI
Grynets, Oleg
Lyashkevych, Vasyl
Software Engineering
Artificial Intelligence
Logic in Computer Science
68T07 (Primary), 03G99 (Secondary)
C.5; D.2; E.4; F.2; F.3; F.4; H.1; H.4; H.5; J.1
The rapid development of AI and LLMs has driven new methods of SDLC, in which a large portion of code, technical, and business documentation is generated automatically. However, since there is no single architectural framework that can provide consistent, repeatable transformations across different representation layers of information systems, such systems remain fragmented in their system representation. This study explores the problem of creating a unified architecture for LLM-oriented applications based on selected architectural frameworks by SMEs. A framework structure is proposed that covers some key types of architectural diagrams and supports a closed cycle of transformations, such as: "Code to Documentation to Code". The key architectural diagrams are split equally between main architectural layers: high-layer (business and domain understanding), middle-layer (system architecture), and low-layer (developer-layer architecture). Each architectural layer still contains some abstraction layers, which make it more flexible and better fit the requirements of design principles and architectural patterns. The conducted experiments demonstrated the stable quality of generated documentation and code when using a structured architectural context in the form of architectural diagrams. The results confirm that the proposed unified architecture metamodel can serve as an effective interface between humans and models, improving the accuracy, stability, and repeatability of LLM generation. However, the selected set of architectural diagrams should be optimised to avoid redundancy between some diagrams, and some diagrams should be updated to represent extra contextual orchestration. This work demonstrates measurable improvements for a new generation of intelligent tools that automate the SDLC and enable a comprehensive architecture compatible with AI-driven development.
title Unified Architecture Metamodel of Information Systems Developed by Generative AI
topic Software Engineering
Artificial Intelligence
Logic in Computer Science
68T07 (Primary), 03G99 (Secondary)
C.5; D.2; E.4; F.2; F.3; F.4; H.1; H.4; H.5; J.1
url https://arxiv.org/abs/2604.00171