I never heard that. It didn’t seem like 3D-printing ever showed sings of displacing existing ways of manufacturing at scale, did it? Units per hour and dollars per unit was never its strength. It was always going to be small things (and if anything big grew out of it, those would naturally transition to the more efficient manufacturing at scale).

Vibe coding, on the other hand, is competing against hand coding, and for many use cases is considerably more efficient. It’s clearly replacing a lot of hand coding.

BTW, I think a lot of people were/are greatly overestimating the value of coding to business success. It’s fungible from a macro perspective, so isn’t a moat by itself. There’s certainly a cost, but hardly the only one if you’re trying to be the next big startup (for that, the high cost of coding was useful — something to deter potential competitors; you’ll have to make up the difference in some other way now).

Also, software is something that already scaled really well in the way businesses need it to — code written once, whether by human or LLM, can be executed billions of times for almost nothing. Companies will be happy to have a way to press down the budget of a cost center, but the delta won’t make or break that many businesses.

As always, the people selling pick-axes during the gold rush will probably do the best.

The crux of the problem. The only way to truly know is to get your hands dirty. There are no shortcuts, only future liabilities.

The real parallel might be the early web era where anyone could make a website but finding them required Yahoo directories and later Google. Right now vibe coded apps have the same discovery problem - they exist but there's no effective way to find or evaluate them.

Physical making is hard: you run up against the limits of plastic or the difficulty of cnc planning for various materials, as well as the limited value for small projects: people rarely make entire projects, instead making parts. So there is an upper bound for the utility of making. (btw, anyone have a laser welder or steel-capable CNC's they're tired of?)

Software making is what you make it, subject to the laws of complexity, and as valuable as its integration (computers, robotics). These in theory are limiting, but in practice there are effectively an infinite supply of valuable projects when the cost of production reduces. Deployments will be limited by access to customers, which is not a problem when people make software for themselves.

Vibe coders treating those as the same category is what actually worries me. Even in regular software there's a feedback mechanism - unit tests go red, CI breaks. Vibe coding skips that too. You get working code that passes the happy path and nothing that tells you which 5% failure rate is the dangerous one. That judgment about problem category severity is the thing that's hard to develop without breaking things first.

Vibe coding does none of the above

Couldn't be happier. I make things because I want to see them exist, not because it was hard.

Actually, the future isn't vibe coding, it's vibe agenting. GPT 5.3 is so advanced, you don't need to write a program to do something. You tell the agent what you want, and it does it for you by "using" desktop apps like a person. If it can't do it manually, it'll write a program to do it. That's where we're headed.

As for the parallels with the maker movements, here's one example: drones are one of my hobbies. I love drones and I've built countless fpv ones. For anyone that hasn't done that, the main thing to know is that no two self-build drones are the same - custom 3d printed parts, tweaks, tons of fiddling about. The main difference is that while I am self-taught when it comes to drones, I have some decent knowledge in physics, I understand the implications of building a drone and what could go wrong: you won't see me flying any of my drones in the city - you may find me in some remote, secluded area, sure. The point is I am taking precautions to make sure that when I eventually crash my drone(not IF but WHEN), it will be in a tree 10km from anything that breathes. Slop code is something you live with and there are infinite ways to f-up. And way too many people are living in denial.

If at all it will make me do more little hyper specific projects.

It's like comparing Christianity to water wheels or gay pride to to the Saturn V rocket. It's just not really analogous in any way.

I do agree with the author about commoditization, however.

The most likely outcome is that software will be commoditized and software developers commoditized even harder. If we still need software engineers to prompt, you'll find plenty of people in India able to do those tasks, not necessarily with great quality until they too are replaced by better AI.

This whole situation inspired me to actually dive harder into Maker type stuff such as learning how to design PCBs, but one thing I found is that this TOO is very close to being automated by AI. To actually get hardware made, even prototyping PCBs, you NEED to go to China, and the Trump tariffs cut into the cost of doing these activities hard.

Im also not sure if “vibe coding” did not have a phase where early adopters were mucking around? I saw the early versions of gpt much earlier than chatgpt and a lot of folks were using transformers for coding before claude.

edit: I read this title wrong, thought it said "end the maker movement"

personally I enjoy creation and writing code so I'm not going to vibe code my hobby/passion project, I don't care if theoretically it'll save me x amount of time, the code is rote for me anyway but I have to be actively engaged in it to enjoy it

Lots of powerplants to fuel the surplus.

> The central promise—that distributed digital fabrication would bring manufacturing back to America, that every city would have micro-factories, that 3D printing would decentralize production—simply didn’t materialize.

This version of the Maker Movement only ever existed in news articles and hype bubbles.

The Maker Movement was never about building small factories and consumer 3D printing was never about manufacturing things at scale. Everyone who was into 3D printing knew that we weren't going to be 3D printing all of our plastic parts at home because the limitations of FDM printing are obvious to anyone who has used one. At the time, consumer 3D printers were rare so journalists were extrapolating from what they saw and imagined a line going up and to the right until they could produce anything you wanted in your home.

The Maker Movement where people play with Raspberry Pi, Arduino, and cheap 3D printers is possibly stronger than ever. Everything is so cheap and accessible now. 10 years ago getting a 3D printer to produce parts was a chore that required a lot of knowledge and time. Now for a couple hundred dollars anyone can have a 3D printer at home that is mostly user friendly and lets them focus on printing things.

The real version of the Maker Movement just isn't that interesting to mainstream because, well, it's a bunch of geeks doing geeky things. There's also sadly a lot of unnecessary infighting and drama that occurs in maker-related companies, like the never ending Arduino company drama, the recent Teensy drama that goes back years, or the way some people choose their 3D printer supplier as their personal identity would rather argue about them online than print.

An example 3D workflow: Prototype design -> 3D print -> test/break -> production design -> real manufacturing process

The equivalent vibe code Vibecobe -> slop -> test/break -> real developers -> real development process

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The real test for vibe coded stuff (much like 3D printed crap at craft fairs) will be if someone actually buys it. But much like those 'makers', vibe coders will have to go through the "real development process" if they want to make money at scale.

It is not just vibe coding that is being developed, but general intellegence.

None of these sophisticated articles mention that you could already steal open source with the press of a button before LLMs. The theft has just been automated with what vibe coders think is plausible deniability.

No, because too much money has been pumped into it.

from individual tinkerers and ideas guys cranking out all the projects they would have never subsidized, there's a lot of that

and with corporations I'm seeing there are lots of products that would have taken 8 quarters to do, all being compressed into one now. The flip side is that all 8 quarters wouldn't have been allowed to happen as priorities would have shifted before the product or feature roadmap was ever allowed to get that far, but instead now all of it is being built out and other iterations and directions are being done simultaenously

after all of this is shown not to be saving money, or creating much value because they're doing too much without market validation, then a more intelligent approach will occur and less vibe coding will occur

Anyway I think we are seeing a scenius phase -- it's just happening everywhere all at once on a world stage. And it's exciting. As with any moment in time there's a ton of experimentation and a small number of break-out hits. Also the pace of change means there's less staying power for a break-out hit than there used to be.

But the quick break-out hit phenomenon is particularly applicable for things that are more about the attention economy and less about the boring hidden things that traditionally have been where the economy's silent toil is really centered.

All of this makes me feel the author is too close to the creative end-consumer layer e.g. "make something flashy and cool whether it's a 3d-printer in a 5th avenue dept. store window, or a new app front end" but perhaps less focused on the full depth of things that really exist around them.

This really resonates with me in that a lot of NYC's "tech" circa 2013 was 3d printing oriented, much more so than in Silicon Valley. And I wondered why? but then it was a reflection that tech in NYC then was more about marketing, story telling, and less about the depth...

Obviously you had the west coast makers, you had the burners, so I don't mean to conflate all these differnet things. But the idea that Maker Faires were really about bringing manufacturing back... I don't know I think it was more about the counterculture, about having fun. I think that's coming back to tech right now as well in a sense. Even if it's also got dystopian overtones

There are plenty of products now that only exist because of what it did deliver on. Any one who spends time in the niche communities where it is thriving can see that... On the low end look at Apollo automation, the story of Grismo Knives, at the high end look a Hadrian Manufacturing.

Vibe coding is a terrible name, but what a skilled dev can do with a deeply integrated AI coding assistant is amazing. It changes the calculus of "Is it worth your time" (see: https://xkcd.com/1205/ ).

Is it helpful in my day to day: it sure is. Is it far more helpful in doing all the things that have been on the back burner for YEARS? My gods yes! But none of that is matching the hype thats out there around "vibe coding".

If someone tells me they ran a marathon, I'm impressed because I know that took work. If someone tells me they jogged 100 meters, I don't care at all (unless they were previously crippled or morbidly obese etc.).

I think there are just a ton of none-engineers who are super hyped right now that they built something/anything, but don't have any internal benchmark or calibration about what is actually "good" or "impressive" when it comes to software, since they never built anything before, with AI or otherwise.

Even roughly a year ago, I made a 3D shooting game over an evening using Claude and never bothered sharing it because it seemed like pure slop and far too easy to brag about. Now my bar for being "impressed" by software is incredibly high, knowing you can few shot almost anything imaginable in a few hours.

Quick answer: No. Long answer: its the opposite; as an example, can use claude code to generate, build and debug ESP32 code for a given purpose; suddenly everyone can build smart gizmos without having to learn c/c++ and having knowledge of a ton of libraries.

Vibe coding skips that floor entirely. Software "just works" until it doesn't, and the failure mode is invisible until it's customer-facing. Hardware at least tells you when something is wrong because it sparks or stops blinking.

That said: the maker movement didn't die. It got serious -- RISC-V, open silicon, edge inference. The people who started with Arduinos are now doing real work.

My bet is vibe coding has the same trajectory. The floor failure will just be more catastrophic when it comes, because software doesn't spark.