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CodeMaker AI Breakthrough in Software Development: Achieves 91% Accuracy in Recreating 90,000 Lines of Code, Setting a New Benchmark for AI-driven code Generation and Fine-Tuned Model Asif Razzaq Artificial Intelligence Category – MarkTechPost

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In an era of AI-transforming industries, CodeMaker AI has achieved a landmark breakthrough by autonomously recreating a 90,000-line software library with an astounding 91% similarity to the original codebase. This achievement marks a significant shift in how AI can be utilized in software development, demonstrating the potential to reduce manual coding efforts and accelerate development timelines drastically. The CodeMaker AI is fine-tuned to understand and generate complex code structures, processes over 3,200 files, and reproduces the code in under two hours. By leveraging advanced machine learning techniques, CodeMaker AI has shown that large-scale code generation, once arduous for human developers, can now be achieved with precision, speed, and cost-effectiveness. The implications of this development extend far beyond simple code generation, as it represents a new frontier in AI’s role in automating and augmenting complex tasks within the software engineering landscape.

CodeMaker AI: The Experiment

The core of CodeMaker AI’s experiment involved fine-tuning a machine learning model specifically on a codebase, allowing the AI to generate code autonomously. Fine-tuning refers to taking a pre-trained model and further training it on a specific dataset to adapt it to a particular task. For this project, the AI was fine-tuned on a full production codebase, making it capable of generating code that aligns with specific coding styles, domain spaces, and structure.

The recreated code was published on GitHub for public scrutiny, and estimates based on the COCOMO model suggest that manually recreating the code would have taken around 25 years of developer time. This stark comparison underlines the efficiency AI brings to software development.

Fine-Tuning Process

The fine-tuning process involved training the AI model on 129 million tokens from the codebase, which took 11 hours and 44 minutes for $1949.75. The model was then used to recreate the erased code in the `src/main/java` directory using CodeMaker AI’s batch code generation feature. The command used for this operation was:

—bash
codemaker generate code –model user-model **/src/main/**/*.java

This batch generation process was completed in 1 hour and 42 minutes, showcasing the efficiency of CodeMaker AI in large-scale code generation tasks.

Code Comparison and Evaluation

To assess the accuracy of the AI-generated code, CodeMaker AI employed two key metrics: error rate and similarity rate. The error rate was defined as the Levenshtein distance between the original and generated files, measuring how far apart the two files were. The similarity rate was calculated as follows:

—Python
similarity_rate = 1 – (dist(a, b) / max(len(a), len(b)))

This metric answered the question of how similar two files were, with the results averaged across all the files in the dataset. Two models were used for comparison: a foundation 7B parameter model and a fine-tuned 7B parameter model. The results were as follows:

The fine-tuned model outperformed the foundation model, reducing the error rate and increasing the similarity. This highlights the importance of task-specific fine-tuning for AI models in software generation.

Implications of AI in Software Development

The implications of CodeMaker AI’s achievement extend far beyond this single experiment. As AI continues to evolve, it opens up possibilities for automating code generation and other aspects of software development, like testing, documentation, and even debugging.

Accelerated Development Cycles

One of the most immediate benefits of using AI like CodeMaker AI in software development is the acceleration of development cycles. By automating code generation, developers can focus more on higher-level tasks such as system architecture, design, and problem-solving. This could lead to faster product development and shorter time-to-market for software solutions.

Cost Efficiency

In the experiment, CodeMaker AI generated 90,000 lines of code in just over an hour, at a fraction of the cost and time required for human developers. AI’s financial and time savings could be a game-changer for companies looking to reduce development costs while maintaining high-quality code.

Shaping the Role of Developers

As AI tools like CodeMaker become more sophisticated, the role of software developers may shift. Rather than focusing on writing code from scratch, developers might spend more time overseeing AI-generated code, fine-tuning models for specific tasks, and addressing high-level design challenges. The future of software development could be a collaborative effort between human creativity and machine efficiency.

Reproducibility: Challenges and Successes

Reproducibility is a key concern in AI-generated software, and the CodeMaker AI experiment provides valuable insights into the challenges and successes of recreating code.

Error Rates and Model Fine-Tuning

As seen in comparing the foundation and fine-tuned models, fine-tuning is essential for improving the accuracy and similarity of AI-generated code. The fine-tuned model achieved significant similarity but could still not recreate the original code perfectly. This raises concerns about the limitations of current AI models in fully replicating complex codebases.

Ambiguity in Code

One of the challenges in reproducibility is the inherent ambiguity in coding. Code is not always a one-to-one mapping of functionality; often, multiple ways exist to implement the same function. This can make it tough for AI models to determine the “correct” version of the code without additional context.

For example, consider the following piece of code:

—Java
public MockitoException(String message) {
super(message);
unfilteredStackTrace = getStackTrace();
ConditionalStackTraceFilter filter = new ConditionalStackTraceFilter();
filter.filter(this);
}

After refactoring, the code might look like this:

—Java
public MockitoException(String message) {
super(message);
filterStackTrace();
}

If the AI model understands the intent behind the original code, it can reproduce the refactored version. In this case, however, the ambiguity arises because the AI cannot infer the reasoning behind the code simplification.

The Role of Fine-Tuning

Despite these challenges, fine-tuning remains the best solution for improving the reproducibility of AI-generated code. Training models on specific codebases can increase the generated code’s accuracy and relevance, even though perfect replication may still be necessary.

Future Directions

The success of CodeMaker AI demonstrates that AI can play a great role in software development, but it also highlights areas for further research and development.

Specialization Over Generalization

One key takeaway from this experiment is that specialization is more effective than generalization regarding AI-generated code. Training models on specific codebases, rather than trying to generalize across all programming languages and coding styles, yields better results. Codebases are an example of data that has poor generalizability. This observation could lead to the development of specialized AI models tailored to very narrow tasks in exchange for achieving high accuracy of the results.

Continuous Training and Knowledge Drift

Another important consideration is knowledge drift, which occurs when a codebase evolves. As the AI model is trained on a static version of the code, it may become less effective as the codebase changes. This suggests that AI models must be continuously retrained to keep up with updates and modifications to the code. The frequency of retraining will depend on the rate of change in the codebase and the acceptable error level in the AI-generated code.

Toward AGI in Coding

While CodeMaker AI represents a significant step forward, achieving true general-purpose AI in software development has yet to reach its goal. Coding requires generating code and problem-solving skills beyond AI’s capabilities. However, users may see further breakthroughs in this area as AI models become more sophisticated and better at handling complex tasks.

Scaling Operations

By extrapolating model performance, estimating the cost and time required to process even the largest open-source code base, such as the Linux kernel, is possible. Reconstructing the full 35.8 million lines of code would cost approximately $70,000 and take around 7 days. Due to advancements in hardware and software, both cost and time are expected to improve over time.

Conclusion

CodeMaker AI’s ability to recreate 90,000 lines of code with 91% similarity marks an important milestone in using AI for software development. By fine-tuning AI models on specific codebases, CodeMaker AI has demonstrated that AI can significantly accelerate development cycles, reduce costs, and improve efficiency. However, challenges such as reproducibility, ambiguity in code, and knowledge drift remain, and further research is needed to address these issues. The CodeMaker AI team has made the entire recreated codebase available for public viewing on GitHub, encouraging developers to explore and analyze the generated code. This open-access approach allows the community to understand the AI’s capabilities and limitations better. Developers interested in learning more about CodeMaker AI‘s projects, fine-tuning models, or innovative automation solutions can visit their official website for detailed insights and updates.

Sources

CodeMaker AI Beta Site

Project GitHub

Blog on Medium I

Blog on Medium II

CodeMaker AI Update on Yahoo

Thanks to CodeMaker AI team for the thought leadership/ Resources for this article. CodeMaker AI has supported and sponsored this content/article.

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