Artificial Intelligence

2025’s AI predictions: what happens next?

26th November 2024
Harry Fowle
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Dr. Leslie Kanthan, Founder and CEO of TurinTech explores the key developments for software engineering in 2025 and AI predictions for the future.

As we assess the impact of AI on software engineering in 2024, a clear pattern has emerged: while AI tools have accelerated initial development, they've also introduced new challenges in code quality and reliability. The industry's growing discussion of "AI Debt" – the technical debt accumulated from hastily deployed AI-generated code – signals the need for more sophisticated approaches to AI-assisted development.

Current tools show promise but fall short in production environments. Studies indicate AI coding assistants can introduce up to 41% more bugs, creating a paradox where initial speed gains are offset by increased debugging and optimisation time. These aren't failures of AI technology, but rather indicators of how AI tools need to evolve to meet engineering requirements.

As the industry responds to this paradox, here are five key developments that will reshape software engineering in 2025:

System-aware architecture will drive code quality

Future AI tools will incorporate comprehensive understanding of system architecture, infrastructure requirements, and deployment environments. This engineering-focused approach will ensure generated code is optimised for specific technical environments from inception, dramatically reducing post-generation modifications and performance issues. Code is performance-ready from the outset.

LLMs will transform into core infrastructure components

The evolution of LLMs from applications to infrastructure components will reshape how we architect AI development tools. Engineering teams will leverage multiple LLMs as modular components, orchestrating them through sophisticated middleware that optimises model selection and execution. This architectural approach enables better resource utilisation while avoiding vendor lock-in, and will allow developers to improve their code generation and optimisation techniques.

Performance optimisation will become continuous and autonomous

AI systems will continuously monitor and optimise code performance through sophisticated genetic algorithms. These systems will automatically generate and test code variations, measuring against specific performance metrics like processing efficiency, memory usage, and resource utilisation. This creates a continuous optimisation cycle that ensures code remains efficient as system requirements evolve. Above all, this will mean that the code is consistently performing to the best of its ability.

Engineering validation will move to real-time

Automated, real-time validation will become integral to the engineering process. AI platforms will perform continuous testing against security, performance, and compatibility requirements as code is developed. This integration of engineering validation into the development process ensures that AI-generated code meets production standards from the start. So, instead of developers carrying out laborious work iteratively refining and testing the code after it has been generated – a process that can take days, if not weeks, of time – AI will automate it for them in real time.

Intelligent engineering platforms will emerge as development hubs

The result of all of these developments will be the advent of intelligent engineering platforms that transform how we approach software development. These systems, such as TurinTech's Artemis, will provide comprehensive environments that combine multiple AI technologies with sophisticated engineering tools and validation frameworks.

What sets these platforms apart is their ability to learn and adapt to specific engineering contexts. By analysing performance data, studying successful implementations, and incorporating engineer feedback, they'll continuously improve their understanding of optimal engineering practices. This means increasingly sophisticated technical solutions that evolve alongside your engineering requirements.

This evolution represents a fundamental shift in how we approach software engineering. Rather than treating AI as a simple code generation tool, these platforms will serve as intelligent engineering partners that understand and optimise for specific technical requirements while continuously learning from real-world implementations.

Shaping the future of AI-powered code

The widespread deployment of AI tools to generate code has significantly sped up the initial process. But this hastily produced code has created new problems, with building AI debt creating heaps of code often crawling with bugs and leading to developers spending more time extensively reviewing this code. Therefore, the natural step in the evolution of AI tools will be to create more sophisticated methods for AI-assisted development.

A key part of this centres on improving the quality of the code from the start. System-aware architecture, LLM architectures and automated real-time validation will mean code is production and performance ready upon generation and companies are less dependent on specific vendors. AI systems will then continuously optimise code performance using genetic algorithms, ensuring the best code survives. All of this will contribute to the adoption of intelligent engineering platforms providing continual and tailored support to specific developer needs.

For software engineering, 2025 will begin to witness the exciting evolution of AI from generation tools to highly intelligent assistants.

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