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Swift for Visual Studio Code comes to Open VSX Registry | InfoWorld

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Why AI coding debt is different
Itamar Friedman · 2026-06-18 · via Swift for Visual Studio Code comes to Open VSX Registry | InfoWorld

AI-generated code is creating a new form of technical debt, less visible and harder to unwind than the traditional kind. Here’s what to do about it.

In hardware, when you ship something broken, the consequences are severe and often irreversible. That’s the world I worked in for years, in verification roles at Mellanox and later at Alibaba. The stakes forced the industry to build a rigorous verification culture. You proved designs worked before they left the building.

In software, verification disciplines look like CI/CD pipelines, static analysis, canary deployments, and observability. But those systems were built around code written at human speed, with human comprehension baked into the process. AI code generation has broken that assumption. The writing process can no longer be trusted to carry institutional knowledge and judgment into the codebase. The industry is being pushed toward the kind of rigorous verification culture that hardware engineers have practiced for decades.

Enterprises are generating code faster than at any point in history. Google recently disclosed that 75% of the company’s new code is now AI-generated. Meta has set internal targets requiring most of its engineers to generate the majority of their committed code with AI tools by mid-2026. The velocity gains are significant. But a growing body of evidence suggests the industry is accumulating a new form of technical debt, one that is less visible than the traditional kind and harder to unwind. It’s also preventable, and the organizations that get ahead of it will have a meaningful advantage over those that don’t.

Understand what makes this debt different

The standard narrative frames this as AI writing bad code. That’s not quite right. The more precise problem is cognitive debt: the loss of understanding of how and why software was built the way it was.

When a human writes code, something else happens alongside the typing. They simulate edge cases, reason through dependencies, and make judgment calls grounded in organizational context, including the business requirements behind a feature, the best practices the team has established, and the reasoning behind past architectural choices. That cognitive loop is how institutional knowledge gets built. When AI writes the code, you can get output that is syntactically correct, passes CI, ships cleanly, and leaves no one holding the mental model. The code works until something changes or breaks, and then the team is excavating a black box.

This is distinct from traditional technical debt, which is messy code. Cognitive debt is invisible code that functions but that nobody truly owns. And it compounds faster, because the same velocity that makes AI generation attractive is what prevents anyone from stopping to build the understanding that maintainability requires.

GitClear’s analysis of 211 million changed lines of code across major repositories found that during 2024, duplicate code blocks of five or more lines increased eightfold, while refactoring dropped from 25% to under 10% of all code changes. Refactoring is the slow, unglamorous work that keeps codebases healthy, and developers are doing far less of it. Google’s 2024 DORA report found that a 25% increase in AI adoption correlates with a 7.2% decrease in delivery stability. DORA analysts note that the root cause isn’t flawed code per se; AI inflates batch sizes, and larger changesets have always been riskier to ship.

These findings aren’t indictments of AI-assisted development. They’re diagnostics, and they point toward a specific set of fixes.

Close the context gap first

In a survey of 609 developers we conducted last year, 65% said AI misses relevant context during critical tasks like refactoring, writing tests, or reviewing code. Context is the primary driver of AI code quality, and it’s where most enterprise organizations are underinvesting.

When an AI tool generates code without access to your organization’s architectural decisions, historical pull requests, security policies, or existing module patterns, you get solutions that are locally correct but globally incoherent. Closing that gap requires context engineering: ensuring the tools and agents you use have access, at the right moment, to the right organizational knowledge, and the judgment to determine what is actually relevant for a given task. A retrieval system that surfaces too much irrelevant context can degrade output quality as readily as one that surfaces too little. The specific tooling matters less than the discipline. Context infrastructure needs to be actively maintained, not indexed once and forgotten.

Build this infrastructure before you scale AI generation. Retrofitting is significantly harder. Treat it the way you treat your CI pipeline, as a prerequisite for safe production deployment.

Consider what happens when a team has built this context infrastructure well. Their code review tooling knows about a deprecated internal API, because that deprecation decision lives in months of past pull request discussions that have been indexed and surfaced. When generated code references the old API, the review flags it. Without that context layer, the same mistake gets waved through every time. That’s the kind of institutional knowledge that evaporates when humans stop writing every line of code, and that you have to actively work to preserve.

Build a verification layer that matches your generation velocity

Almost all of the investment in AI-assisted development has gone into generation. Very little has gone into verification. That imbalance is where the tech debt accumulates.

I think of these as the blue team and the red team. The blue team covers code generation, autocomplete, and agentic coding. It’s getting the headlines, the budgets, and the product launches. The red team covers integrity checks, behavior coverage, and alignment with organizational standards. In most organizations, it’s an afterthought. A CI pipeline catches obvious failures. A code review might happen, but reviewers are overwhelmed by the volume of AI-generated output and cannot meaningfully evaluate all of it. The result is code with a veneer of having been reviewed without anyone having actually understood it.

The Crowdstrike outage of 2024 is worth keeping in mind here. AI didn’t generate the problematic code, but the incident illustrated what happens when a single software error propagates through production systems without sufficient verification. That exposure multiplies when code is being generated faster than humans can understand it.

A real verification layer means automated analysis that evaluates whether generated code aligns with your organization’s best practices, architectural standards, and compliance requirements. It means test coverage that reflects intended behavior, not only the happy path the AI chose to generate tests for. And it means traceability: a connection between the requirement and the implementation, so that six months from now, someone can understand what the code does and why it exists.

The numbers support investment here. In the same developer survey, teams that integrated AI into their code review workflow saw quality improvements in 81% of cases, compared to 55% for comparable teams without it. 

Make ownership non-negotiable

Every piece of AI-generated code in production needs an accountable human who understands it well enough to maintain it. This is harder than it sounds, and it’s where most organizations are falling short.

The same velocity that makes AI generation attractive also creates pressure to skip the slow work of genuine comprehension. A developer reviews a 500-line pull request that an AI generated in three minutes and faces a real choice: spend two hours actually understanding it, or approve it because it looks right, passes the test, and “LGTM” (looks good to me). 

Real ownership means slowing down generation velocity enough to allow for meaningful review, and being explicit with your team that this is the right trade-off. When that doesn’t happen, you’ve started building your next legacy system.

What to do this quarter

The good news is that none of this requires a multi-year transformation. The structural problems are real, but they have concrete solutions, and engineering leaders can make meaningful progress on all three fronts without waiting for the next budget cycle.

  • Audit your context infrastructure. If your AI tools are generating code without access to your organization’s architectural decisions, deprecated APIs, and security policies, fix that before expanding generation velocity further. The quality of context determines the quality of output.
  • Invest in the red team. Establish an automated code quality and governance layer that evaluates generated code against your specific organizational standards, beyond functional correctness. This is a distinct investment from your code generation tooling and needs to be treated as such.
  • Establish ownership explicitly. Every AI-generated feature in production should have a human owner who genuinely understands it. Make that a formal requirement.

The organizations that get this right will find that AI generation becomes far more reliable once it has a verification layer underneath it. The ones that don’t will keep shipping faster while understanding their systems less, until the accumulated debt forces a reckoning. That’s a solvable problem. The question is whether you solve it now or later.

New Tech Forum provides a venue for technology leaders—including vendors and other outside contributors—to explore and discuss emerging enterprise technology in unprecedented depth and breadth. The selection is subjective, based on our pick of the technologies we believe to be important and of greatest interest to InfoWorld readers. InfoWorld does not accept marketing collateral for publication and reserves the right to edit all contributed content. Send all inquiries to doug_dineley@foundryco.com.