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Bambu Lab is abusing the open source social contract

www.jeffgeerling.com

1,062 shares · 89 trendiness

Last year I said I’d probably never recommend another Bambu Lab printer again.

I still use my P1S, but after Bambu Lab started pushing their always-connected cloud solution as the new default:

I blocked the printer from the Internet via my OPNsense Firewall

I stopped updating the ﬁrmware

I locked the printer into Developer mode

I deleted Bambu Studio and started using OrcaSlicer

I had to do that to keep it under my control, instead of Bambu’s.

But I’m weird—I acknowledge that. I’m one of those crazy ones who likes to own something they purchased, and not have the company watch everything I do with hardware I paid for.

Bambu Lab could’ve left the status quo at that, and I wouldn’t be writing this blog post.

But they didn’t.

What happened this time?

For context: OrcaSlicer is a fork of the open source project Bambu Studio, which is a fork of Prusa Slicer, which is a fork of slic3r. (They are all licensed under the AGPLv3 open source license).

OrcaSlicer already has to dance around Bambu’s weird default setup where every ﬁle you print goes through Bambu’s servers, meaning they can see everything you ever print on your printer.

That is, unless you’re like me and you run it in Developer mode, and completely block it from the Internet on old ﬁrmware.

Some people are okay with using OrcaSlicer and printing through Bambu’s cloud. It’s convenient if you’re on the road and want to start a print on your printer at home, without managing your own VPN.

I run my own WireGuard VPN, so I don’t need that, but I understand not everyone has the resources to manage their own remote access.

Bambu saw a fork of OrcaSlicer that allowed you to use all your printer’s features without having to route prints through Bambu’s cloud called OrcaSlicer-bambulab and was like, “You know what? No. For the 0.1% of power users who want to run OrcaSlicer without the cloud delivery mechanism like we have in our AGPL-licensed Linux Bambu Studio code… no. You have to use our app, and only our app.”

So they threatened that OrcaSlicer fork’s developer with legal action for things that developer didn’t do. For example, they indicated the fork used an impersonation attack, despite the fork using Bambu Studio’s upstream code verbatim.

These are very serious public accusations.Bambu Lab did not write to me with these speciﬁc public claims ﬁrst. They also refused my request to publish the full correspondence. Instead, they published a one-sided public statement where I cannot reply directly.In practice, this presents me to the public as someone bypassing security, impersonating their client, and creating a risk to their infrastructure. I reject that characterization.— OrcaSlicer-bambulabs developer’s response

These are very serious public accusations.

Bambu Lab did not write to me with these speciﬁc public claims ﬁrst. They also refused my request to publish the full correspondence. Instead, they published a one-sided public statement where I cannot reply directly.

In practice, this presents me to the public as someone bypassing security, impersonating their client, and creating a risk to their infrastructure. I reject that characterization.

— OrcaSlicer-bambulabs developer’s response

Bambu is abusing the open source social contract, and using their legal might, to suppress a tiny number of their users1, for who knows what reason.

It seems dumb to me, because it would’ve been easier (and more profitable) to do nothing at all2. Instead, they wrote a blog post blaming an individual open source developer for their own infrastructure and security problems.

This is where the actual issue arises: the modiﬁcation in question worked by injecting falsiﬁed identity metadata into network communication.In simple terms: it pretended to be the ofﬁcial Bambu Studio client when communicating with our servers.— Bambu Lab blog post

This is where the actual issue arises: the modiﬁcation in question worked by injecting falsiﬁed identity metadata into network communication.

In simple terms: it pretended to be the ofﬁcial Bambu Studio client when communicating with our servers.

— Bambu Lab blog post

I don’t think they understand open source culture. Security either, if a public user agent string is their only protection against DDoS attacks…

Instead of ﬁnding solutions to ecosystem problems and building a more secure platform, Bambu is putting devoted power users like the fork’s developer on blast3.

When tensions ﬂared last year, they wrote a similar blog post blaming community backlash on ‘unfortunate misinformation’. I imagine they meant speculation from community members (like myself) frustrated the whole software ecosystem and ownership model was turned upside down post-purchase.

This year they’re blaming one developer of a tiny slicer fork for the potential impact he could have on their entire cloud infrastructure.

It creates structural vulnerability. If this method were widely adopted or incorrectly conﬁgured, thousands of clients could simultaneously hit our servers while impersonating the ofﬁcial client. Our systems would have no way to distinguish trafﬁc, because the requests would look identical.— Bambu Lab blog post

— Bambu Lab blog post

I love how they frame this as a developer trying to impersonate their app, when he’s literally using the same AGPL-licensed code their Linux app uses.

I ﬁnd it doubly ironic since their own fork caused Bambu users’ telemetry to hit Prusa’s servers back in 2022, and (to my knowledge) Prusa didn’t snap back with a C&D.

They spent the rest of their blog post talking about vulnerabilities, bugs, and instabilities—as if that has anything to do with a developer using upstream code verbatim in his fork.

Maybe they could take a new approach and just not lock down their whole ecosystem in the ﬁrst place.

But who am I kidding? Nothing I say, and no amount of complaining in the comments below, seems to help Bambu see the fault in their ways.

Spending a little more for a printer from another company just might do it, though.

Louis Rossmann posted a video saying he’d pledge $10,000 to help the open source dev ﬁght Bambu’s legal threats. And I’d happily chip in too, but that’s only useful if the dev wants to put himself back in Bambu’s crosshairs.

The better play might just be to skip Bambu altogether.

The OrcaSlicer fork in question didn’t seem to have much uptake outside of a very small subset of users prior to Bambu Lab’s cease and desist order. ↩︎

Maybe ask for the fork to not include “bambulabs” in the name, since that could be a reasonable trademark-related demand. ↩︎

The fork’s developer mentioned “I previously helped Bambu Studio users with Linux and Wayland issues, including on Bambu Lab’s own GitHub. That makes it especially absurd to me that I am now being publicly presented as someone dangerous to their infrastructure.” ↩︎

Read more Read the original on www.jeffgeerling.com →

Read the original on www.jeffgeerling.com →

Googlebook: Designed for Gemini Intelligence

googlebook.google

572 shares · 86 trendiness

Be in the know.

Sorry, something went wrong. Please enter your name and email again.

I conﬁrm I am 18 years of age or older. I accept and acknowledge that my information will be used in accordance with

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Intelligence is the new spec.

Link to Youtube Video (visible only when JS is disabled)

The best of Gemini meets our most advanced laptops.

Select anything to ask, compare, or create with Gemini, instantly.1

Open your phone apps on your laptop, no installs needed.2

Access ﬁles from your phone as if they live on your laptop.2

Be in the know.

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I conﬁrm I am 18 years of age or older. I accept and acknowledge that my information will be used in accordance with

Check responses. Internet connection required. 18+. Results may vary based on visual matches and are for illustrative purposes only. Sequences shortened.

Setup required. Phone with Android 17 or above required.

Read more Read the original on googlebook.google →

Read the original on googlebook.google →

GitHub - davmlaw/they_live_adblocker: Replace Ads with They Live style slogans

github.com

540 shares · 24 trendiness

They Live Adblocker

A fork of uBlock Origin Lite that, instead of hiding cosmetically-blocked ads, replaces them with white tiles bearing slogans from John Carpenter’s 1988 ﬁlm They Live: OBEY, CONSUME, WATCH TV, SLEEP, SUBMIT, CONFORM, STAY ASLEEP, BUY, WORK, NO INDEPENDENT THOUGHT, DO NOT QUESTION AUTHORITY.

Each blocked ad gets a single phrase, picked at random from the list.

The idea is from a blog post I wrote in 2015 (and never got around to building): They Live adblock mode.

Screenshot

Install

Download the latest uBOLite_theylive.chromium.zip from the Releases page, extract it, then in Chromium / Chrome / Brave / Edge:

Open chrome://extensions

Toggle Developer mode on (top-right)

Click Load unpacked and select the extracted folder

Keep the folder around — the extension is loaded from that path.

Make it actually replace ads

By default uBO Lite uses Basic ﬁltering mode, which blocks ads at the network layer. Network-blocked ads never produce a DOM element, so there’s nothing to “they-live-ify” — you just get empty space, as with normal uBO Lite. To see the OBEY tiles:

Click the uBO Lite toolbar icon → cog (⚙) → Dashboard.

Set the ﬁltering mode for the sites you care about to Optimal or Complete.

Reload.

Building from source

Requires Node 22.

git clone –recursive https://github.com/davmlaw/they_live_adblocker cd they_live_adblocker/uBlock nvm use 22 # or otherwise ensure Node >= 22 tools/make-mv3.sh chromium # or: ﬁrefox | edge | safari

The packaged extension lands in uBlock/dist/build/uBOLite.chromium/ — load it as an unpacked extension.

How it works

uBO Lite’s cosmetic ﬁltering normally injects CSS like selector { display: none !important } to hide matched ad elements. This fork patches those injection sites to instead apply a white-box mask with a ::after overlay whose content is read from a data-ubol-they-live attribute, then walks the DOM (with a MutationObserver for late-loaded ads) to tag each matched element with a random phrase from the list.

Touched ﬁles in the davmlaw/uBlock submodule:

platform/mv3/extension/js/scripting/they-live.js (new) — phrase list, CSS generator, DOM tagging

platform/mv3/extension/js/scripting/css-{speciﬁc,generic,procedural-api}.js — call sites

platform/mv3/extension/js/scripting-manager.js — registers they-live.js ahead of consumers

Caveats

Personal hobby fork; not an ofﬁcial uBlock Origin product. Don’t ﬁle uBO issues against this.

Forcing previously-hidden elements visible can occasionally shift page layout where the site’s CSS assumed the ad slot collapsed.

Custom user-deﬁned cosmetic ﬁlters still hide normally (no OBEY treatment).

Network-blocked ads (most of uBO Lite’s blocking) don’t get replaced — only cosmetic-ﬁltered ones do.

License

GPL-3.0, same as upstream uBlock Origin / uBO Lite.

Read more Read the original on github.com →

Read the original on github.com →

Learning Software Architecture

matklad.github.io

518 shares · 34 trendiness

In reply to an email asking about learning software design skills as a researcher physicist:

I was attached to a bioinformatics lab early in my career, so I think I understand what you are talking about, the phenomenon of “scientiﬁc code”! My thoughts:

First meta observation is that “software design” is something best learned by doing. While I had some formal “design” courses at the University, and I was even “an architect” for our course project, that stuff was mostly make-believe, kindergarteners playing ﬁre-ﬁghters. What really taught me how to do stuff was an accident of my career, where my second real project (IntelliJ Rust) propelled me to a position of software leadership, and made design my problem. I did make a few mistakes in IJ Rust, but nothing too horrible, and I learned a lot. So that’s good news — software engineering is simple enough that an inquisitive mind can ﬁgure it out from ﬁrst principles (and reading random blog posts).

Second meta observation, the bad news: Conway’s law is important. Softwaregenesis repeats the social architecture of the organization producing software. Or, as put eloquently by neugierig,

If I were to summarize what I learned in a single sentence, it would be this: we talk about programming like it is about writing code, but the code ends up being less important than the architecture, and the architecture ends up being less important than social issues.

I suspect that the difference you perceive between industrial and scientiﬁc software is not so much about software-building knowledge, but rather about the ﬁeld of incentives that compels people to produce the software. Something like “my PhD needs to publish a paper in three months” is perhaps a significant explainer?

Two things you can do here. One, at times you get a chance to design or nudge an incentive structure for a project. This happens once in a blue moon, but is very impactful. This is the secret sauce behind TIGER_STYLE, not the set of rules per se, but the social context that makes this set of rules a good idea.

Two, you can speedrun the four stages of grief to acceptance. Incentive structure is almost never what you want it to be, but, if you can’t change it, you can adapt to it. This is also true about most industrial software projects — there’s never a time to do a thing properly, you must do the best you can, given constraints.

Let me use rust-analyzer as an example. The physical reality of the project is that it’s simultaneously very deep (it’s a compiler! Yay!) and very wide (opposite to an LLM, a classical IDE is a lot of purpose-built special features). The social reality is that “deep compiler” can attract a few brilliant dedicated contributors, and that the “breadth features” can be a good ﬁt for an army of weekend warriors, people who learn Rust, who don’t have sustained capacity to participate in the project, but who can sink an hour or two to scratch their own itch.

My insistence that rust-analyzer doesn’t require building rustc, that it builds on stable, that it doesn’t have any C dependencies, and that the entire test suite takes seconds, was in the service of the goal of attracting high-impact contributors. I was wrangling the build system to make sure people can work on the borrow checker without thinking about anything else.

To attract weekend warriors, the internals of rust-analyzer are split into multiple independent features, where each feature is guarded by catch_unwind at runtime. The thinking was that I explicitly don’t want to care too much about quality there, that the bar for getting a feature PR in is “happy path works & tested”. It’s ﬁne if the code crashes, it will only attract further contributors, provided that:

the quality is isolated to a feature, and doesn’t spill over,

at runtime, the crash is invisible to the user (it’s crucial that rust-analyzer features work with an immutable snapshot, and can’t poison the data).

In contrast, when working on the core spine which provided support for features, I was very relatively more pedantic about quality.

A word of caution about adapting to, rather than ﬁxing incentive structure — the future is uncertain, and tends to happen in the least convenient manner. The original motivation behind rust-analyzer experiment was to avoid the need to write a parallel compiler (the one in IntelliJ Rust), and to prototype a better architecture for LSP, so that the learnings could be backported to rustc. So, even in core (especially in core), the code was very experimental. Oh well. Stuck with one more compiler now, I guess?

I might hazard a guess that something similar happened to uutils project, which started as the primary destination for people learning Rust, and ended up as Ubuntu coreutils implementation.

Third, now to some concrete recommendations. Sadly, I don’t know of a single book I can recommend which contains the truths. I suspect one can only ﬁnd such a book in an apocryphal short story by Borges: practice seems to be an essential element here. But here are some things worth paying attention to:

Boundaries talk by Gary Bernhardt is all-time favorite. It contains solid object-level advice, and, for me, it triggered the meta inquiry.

How to Test is something I wish I had. I immediately understood the importance of testing, but it took me a long time to grow arrogant enough to admit that most widely-cited testing advice is shamanistic snake-oil, and to conceptualize what actually works.

∅MQ guide and, more generally, writings by Pieter Hintjens introduced me to Conway’s Law thinking. That “feature development” architecture of rust-analyzer? — optimistic merging, applied.

Reﬂections on a decade of coding by Jamii is excellent, goes very meta. It is intentionally the ﬁrst of my links.

Ted Kaminski blog is the closest there is to a coherent theory of software development, appropriately framed as a set of notes to a non-existing book!

As for the actual books, Software Engineering at Google and Ousterhout’s The Philosophy of Software Design are often recommended. They are good. SWE, in particular, helped me with a couple of important names. But they weren’t ground breaking for me.

Read more Read the original on matklad.github.io →

Read the original on matklad.github.io →

EU to crack down on TikTok, Instagram's ‘addictive design’ targeting kids on social media

www.cnbc.com

465 shares · 33 trendiness

The TikTok app logo is seen in this photo illustration taken in Warsaw, Poland on 18 November, 2024.

Nurphoto | Nurphoto | Getty Images

The EU is clamping down on social media ﬁrms and plans to target “addictive design” features on TikTok and Instagram as governments worldwide look to protect children from the harms of social media.

The region will take action against certain features on social media platforms later in the year, EU Commission President Ursula von der Leyen said Tuesday at the European Summit on Artiﬁcial Intelligence and Children in Denmark.

CNBC has approached ByteDance and Meta for comment.

“We are taking action against TikTok and its addictive design — endless scrolling, autoplay, and push notiﬁcations. The same applies to Meta, because we believe Instagram and Facebook are failing to enforce their own minimum age of 13,” Von der Leyen said.

“We are investigating platforms that allow children to go down ‘rabbit holes’ of harmful content — such as videos that promote eating disorders or self-harm,” she added.

The EU’s executive arm has also developed its own age veriﬁcation app, which has the “highest privacy standards in the world,” according to Von der Leyen.

Member states will soon be able to integrate it into their digital wallets, and it can easily be enforced by online platforms. “No more excuses — the technology for age-veriﬁcation is available,” the EU chief said.

The EU Commission could have a legal proposal prepared as soon as the summer, as it awaits the advice and ﬁndings of its ‘Special Panel of experts on Child Safety Online.’

U.S. crackdown

The EU has been cracking down on U.S Big Tech in the past year as it enforces legislation aimed at strengthening accountability of the tech giants. A slew of ﬁnes has drawn criticism from U.S. ofﬁcials who have warned the bloc risks missing out on partaking in the AI economy.

U.S. President Donald Trump is combating the penalties against U.S. businesses, which have totalled over $7 billion in the past two years.

Apple, Meta, and Google, are among the companies facing ﬁnes over violations of the bloc’s antitrust and competition laws, which they have contested.

Trump signed a memorandum in February that would consider issuing tariffs to “combat digital service taxes (DSTs), ﬁnes, practices, and policies that foreign governments levy on American companies.”

Earlier this year, the EU Commission launched an investigation against Elon Musk’s X, formerly known as Twitter, for the spreading of sexually explicit non-consensual content of women and children generated by its chatbot Grok.

watch now

The increased legal scrutiny around child safety on social media platforms comes after Meta and YouTube lost a high-proﬁle court ruling in the U.S. in March, which found that design features such as inﬁnite scrolling and autoplay contributed to addiction and mental health harms in teenagers.

More recently, the Commission found that Meta breached the EU’s Digital Services Act by failing to keep under-13s off its platforms, with a preliminary investigation determining that minors are easily able to bypass checks.

Meanwhile, a social ban for under-16s is gaining traction with governments worldwide, after Australia became the ﬁrst country to enforce a sweeping ban in December. Several European countries including Spain, France, and the U.K., are proposing their own legislation to keep children off social media.

Read more Read the original on www.cnbc.com →

Read the original on www.cnbc.com →

On Rendering the Sky, Sunsets, and Planets - The Blog of Maxime Heckel

blog.maximeheckel.com

399 shares · 36 trendiness

There’s this photo that’s been sitting on my inspiration board for a while, of the space shuttle Endeavour, suspended in space in low Earth orbit at sunset. It shows Earth’s upper atmosphere as a backdrop, featuring beautiful, colorful layers ranging from dark orange to blue before fading away into the deep black of space. Not only is that gradient of color aesthetically pleasing, but the phenomenon behind those colors, atmospheric scattering, is even more of an interesting topic once you start looking into how it works and how to reproduce it.

I wanted to build my own version of this effect with shaders, rendering the sky’s distinctive blue color and realistic sunsets and sunrises directly in the browser. The goal was to get as close as I could to that photo, while also moving toward the kind of atmospheric rendering often seen in games and other shader-based media.

Here’s a compilation of what came out of this month-long journey, all running in real time:

I didn’t originally plan on writing about this subject, but the enthusiasm around the recent Artemis II mission, combined with my own interest in all things space, made it feel worth exploring in depth. It also felt like the perfect opportunity to build an interactive experience that could make the topic more accessible. In this write-up, we’ll see how to implement an atmospheric scattering shader post-processing effect step-by-step, starting with the implementation of the different building blocks (raymarching, Rayleigh and Mie scattering, as well as ozone absorption) to render a realistic sky dome, and then adapt the result to render it as an atmospheric shell around a planet. Finally, we’ll look into Sebastian Hillaire’s LUT-based approach for a more performant result, or at least my attempt at implementing it, as this was very much the stepping outside of my comfort zone phase for this project.

You may have, at some point or another, tried to slap a blue gradient background behind some of your work in an attempt to give it a more “atmospheric” look and call it a day, but quickly noticed doing so never feels quite right 1.

For a more true to life implementation, we must treat the sky and its color as the result of light interacting with air and its constituents, while taking into account several variables, such the altitude of the observer, the amount of dust, the time of day, etc, all of that in a volume.

With that established, our goal for this ﬁrst part is to use this as guiding principle to lay the foundation for our atmosphere shader, and get to a result that feels almost indistinguishable from a real sky, at any time of the day.

Sampling Atmospheric Density

Much like how we’d approach volumetric clouds or volumetric light, one easy way to sample the atmosphere is through raymarching. We can cast rays from the camera’s position into the scene and step through the transparent medium to answer the two following questions:

How much light survives traveling through the atmosphere? This is the transmittance term.

How much light is redirected toward the camera at each sample? Also known as scattering.

To answer the ﬁrst one, we need to accumulate the atmospheric density encountered along the ray to obtain what is known as the optical depth. We will model this using the Rayleigh density function, which tells us how much “air” there is at a given altitude h. This is important to take into account that the atmosphere gets thinner as altitude increases.

Sampling Rayleigh density and accumulating optical depth

1const ﬂoat RAYLEIGH_SCALE_HEIGHT = 8.0; 2const ﬂoat ATMOSPHERE_HEIGHT = 100.0; 3const ﬂoat VIEW_DISTANCE = 200.0; 4const int PRIMARY_STEPS = 24;5const vec3 SUN_DIRECTION = normalize(vec3(0.0, 1.0, 1.0));67ﬂoat rayleighDensity(ﬂoat h) {8 return exp(-max(h, 0.0) / RAYLEIGH_SCALE_HEIGHT);9}1011void main() {12 vec2 p = vUv * 2.0 – 1.0;1314 vec3 color = vec3(0.0);15 vec3 viewDir = normalize(vec3(p.x, p.y, 1.0));16 vec3 skyDir = normalize(vec3(viewDir.x, max(viewDir.y, 0.0), viewDir.z));1718 ﬂoat stepSize = VIEW_DISTANCE / ﬂoat(PRIMARY_STEPS);19 ﬂoat viewOpticalDepth = 0.0;2021 for (int i = 0; i < PRIMARY_STEPS; i++) {22 ﬂoat t = (ﬂoat(i) + 0.5) * stepSize;23 ﬂoat h = t * skyDir.y;2425 if (h < 0.0) break;26 if (h > ATMOSPHERE_HEIGHT) break;2728 ﬂoat dR = rayleighDensity(h);29 viewOpticalDepth += dR * stepSize;303132 }33343536 color = ACESFilm(color);3738 fragColor = vec4(color, 1.0);39}

const ﬂoat RAYLEIGH_SCALE_HEIGHT = 8.0;

const ﬂoat ATMOSPHERE_HEIGHT = 100.0;

const ﬂoat VIEW_DISTANCE = 200.0;

const int PRIMARY_STEPS = 24;

const vec3 SUN_DIRECTION = normalize(vec3(0.0, 1.0, 1.0));

ﬂoat rayleighDensity(ﬂoat h) {

return exp(-max(h, 0.0) / RAYLEIGH_SCALE_HEIGHT);

}

void main() {

vec2 p = vUv * 2.0 – 1.0;

vec3 color = vec3(0.0);

vec3 viewDir = normalize(vec3(p.x, p.y, 1.0));

vec3 skyDir = normalize(vec3(viewDir.x, max(viewDir.y, 0.0), viewDir.z));

ﬂoat stepSize = VIEW_DISTANCE / ﬂoat(PRIMARY_STEPS);

ﬂoat viewOpticalDepth = 0.0;

for (int i = 0; i < PRIMARY_STEPS; i++) {

ﬂoat t = (ﬂoat(i) + 0.5) * stepSize;

ﬂoat h = t * skyDir.y;

if (h < 0.0) break;

if (h > ATMOSPHERE_HEIGHT) break;

ﬂoat dR = rayleighDensity(h);

viewOpticalDepth += dR * stepSize;

}

color = ACESFilm(color);

fragColor = vec4(color, 1.0);

}

Then, from the optical depth, we can compute the transmittance T at a given point along the ray: the fraction of light that survives while traveling through the atmosphere.

T=1.0 means that there is no loss of light.

T=0.0 means that the light is totally extinguished.

If you’ve read my article on volumetric clouds 2, we’re using a formula that may look familiar for this: Beer’s Law:

Computing transmittance

123ﬂoat dR = rayleighDensity(h);4viewOpticalDepth += dR * stepSize;56vec3 transmittance = exp(-rayleighBeta * viewOpticalDepth);7scattering += dR * transmittance * stepSize;89

ﬂoat dR = rayleighDensity(h);

viewOpticalDepth += dR * stepSize;

vec3 transmittance = exp(-rayleighBeta * viewOpticalDepth);

scattering += dR * transmittance * stepSize;

Read more Read the original on blog.maximeheckel.com →

Read the original on blog.maximeheckel.com →

Why senior developers fail to communicate their expertise

www.nair.sh

347 shares · 45 trendiness

§01

A senior developer is a problem avoider

When I join a team there are two kinds of senior developers I meet.

The ﬁrst kind says things like:

“I found this new tool and it’s pretty cool …”“This company <company totally unlike the one we’re in> does things this way, so …”“Here, look at this HackerNews post that says this is best practice, we should probably …”

“I found this new tool and it’s pretty cool …”

“This company <company totally unlike the one we’re in> does things this way, so …”

“Here, look at this HackerNews post that says this is best practice, we should probably …”

I don’t like this kind of senior developer. A little self-protective, lots of time spent in the industry, probably a good people person.

But not my wavelength.

Then there’s also this kind of senior developer:

“Do we really need that?”“What happens if we don’t do this?”“Can we make do for now? Maybe come back to this later when it becomes more important?”

“Do we really need that?”

“What happens if we don’t do this?”

“Can we make do for now? Maybe come back to this later when it becomes more important?”

Ah, baby, this is my senior developer. The avoider, the reducer, the recycler. They want to avoid development as much as they can.

Why? Because they hunt a singular monster in professional software development: complexity.

Special cases, if conditions, new database tables, new components. All yuck yucks. The senior developer wants as little of this as possible, spending lots of time making sure they absolutely need to add more code.

Because adding to a system is risking more complexity.

Yes, yes, of course this is simplistic. There are senior developers who excel at taking on unsolved problems and ﬁnding new creative designs.

But eventually, if you’re taking responsibility for a working system, you’re scared of complexity.

Now, why is that? What’s the downside of complexity? And why doesn’t anybody else get it?

§02

The rest of the business is scared of uncertainty

We’re going to be simplifying what a business is using two loops.

This is the ﬁrst loop; marketers, salespeople, product managers, the CEO, they all live here:

The main goal of this loop is to try and learn. The business wants to take things to market and then get feedback on whether they’ve got something valuable or not.

The monster, for people in this loop, is uncertainty.

And uncertainty is cruel because no strategy is guaranteed to work. When combined with time (compensation for marketing/sales, or payroll for founders, or data for product managers) it can feel like taking things to market as fast as possible is the only way to reduce uncertainty before a deadline. The more you can take to the market, the more you can get feedback from it, the more you can (potentially) reduce uncertainty.

This loop, and all companies start with this loop, is about pure, raw, speed.

But what happens when a business gets customers?

§03

Senior developers care a lot about stability

Ah, now, here’s our second loop. People paying for a service.

This loop is where a lot of senior developers ﬁnd themselves in. The main goal in this loop is the continuation and guarantee of service.

Keep things working, keep things understandable, keep things debuggable, keep things ﬁxable, keep things teachable, keep things stable.

Senior developers worry about stability because they take responsibility for the business to continue serving customers.

And what risks all of that?

Complexity.

It makes a system less understandable, less debuggable, less ﬁxable, less teachable, and ultimately, less stable.

Rising complexity = lowering stability = senior developer failing responsibility = bad bad not nice, payments interrupted, everybody sad.

So, if the ﬁrst loop’s goal was uncertainty reduction, the second loop’s goal is complexity management.

But why does this lead to communication failure?

Because once you have customers, both loops are running simultaneously. A business needs to both explore possibilities and serve customers at the same time.

Ok, now you might be able to spot my answer to the question in the title of this post.

Depending on which loop you spend your time on, your problem is framed differently (which is why I think developers get split in their opinions on AI; some work more on one loop than the other)

This was the story of the people in the ﬁrst loop:

But this was the story of the senior developer in the second loop:

The stories don’t match.

The more requests to build and add to the system the senior developer gets, the more the senior developer wants to respond with “uhhh, no complexity … maintenance costs … understandability … speed of continuing development … productivity over time …”.

But that does nothing to address the rest of the business’s need for reducing uncertainty.

The copywriter’s diagnosis: You can’t explain away someone else’s problem using your own problems.

And the copywriter’s prescription: You need to describe your solution as a solution to their problem as well.

Senior developer’s fail to communicate because they express their problems in terms of complexity management when they should be expressing their solutions in terms of uncertainty reduction.

By acknowledging that what the rest of the company is seeking for is uncertainty reduction, the senior developer can use their expertise to help.

And what’s the most useful skill a senior developer has? The reluctance to build what’s not necessary; the ability to spot an opportunity to re-use something already built.

Need to collect survey data? Google forms, baby.

Need to build a whole new feature to test it? Have you tried putting a button in the existing UI and seeing if people click it?

Need new analytics service? What’s the most important decision we need analytics for? Can we start with one decision, one chart, one metric?

You want to bake me a whole birthday cake? Just put a candle on my sandwich.

This is what senior developers learn to do: they learn how to give people what they want by being resourceful with existing software.

But how do you communicate this without sending people whole essays?

Copywriters love boiling down multiple signals into singular phrases. And so, here’s the magical phrase every senior developer must learn: ‘Can we try something quicker?’

The use of ‘quicker’ acknowledges what they’re really looking for; ‘something’ implies another way of achieving it; ‘try’ implies imperfection, but also the possibility of it being good enough.

It perfectly cuts down to the requirement of the rest of the company, speed to reduce uncertainty, while allowing the senior developer to exercise their expertise: reduce, re-use, and if life is truly a blessing, avoid.

That’s it. That’s my answer to the title of the post: senior developers talk in terms of complexity when everyone else is worried about uncertainty.

But! Big but!

AI now seems to make all of this pointless, doesn’t it? Why reduce? Why re-use? Why avoid? The AI can build so much in so little time.

Ah, well, it can’t yet do the one thing senior developers still do.

Take responsibility.

§04

Senior developers as editors more than writers

Senior developers care a lot about understanding the system because understanding allows ﬁxing it when things go wrong. It allows extending it intelligently when the system needs to grow. It allows, more than anything, the continued, reliable servicing of paying customers.

AI threatens this understandability. It is incredible at improving the speed of taking things to the market, but it also affects the other loop, the one the senior developers are responsible for.

If you have a bunch of AI agents, junior developers, non-developers, and your investors and their mothers adding code into the system, you get a system that overcompensates for speed by giving up stability.

This was the business in two loops:

And this is how AI affects the two loops:

Forget maintaining stability, AI is a downright destabilizer. It worsens understandability, ﬁxability, debuggability, teachability, guaranteability, all the bloody bilities.

AI does this and takes no responsibility.

Not nice. This is the senior developer’s main worry that’s being brushed away.

Luckily, senior developers have a few tricks up their sleeve.

Namely: decoupling.

For the longest time, software developers were the only ones who could build software. They were responsible for both loops.

That’s one system supporting two goals.

What if we had two systems, one for each goal?

An analogy: a ﬁction writer rushes to complete a ﬁrst draft (often called a vomit draft) and later extracts what’s working and gets rid of what’s not. There’s an editing process after the ﬁrst initial rapid write. The editor’s job is to take the bits that are working well and shape it all into a cohesive whole.

What if we had one system just for speed? Everyone focused on bringing things to life could work here. AI agents, our own generated and unreviewed code, junior devs, marketing etc.

We could call this the ‘Speed’ version of the system. It’s not meant to be understandable, the goal is getting things good enough to take it to the market for feedback.

And then what if we had a second system focused on stability?

We could call this the ‘Scale’ version of the system. It’s designed by senior developers to be stable, understandable, and scalable.

The ‘Speed’ version allows the rest of the business to continue learning from the market, as the senior developers build a trailing version of the system that’s well-reviewed and understandable.

Plus, the design of the ‘Scale’ version is inﬂuenced by what worked and what doesn’t work in the ‘Speed’ version of the system.

Features get built on ‘Speed’ but then stabilized on ‘Scale’.

What this looks like in practice might be unclear, but the idea is to have a well-communicated de-coupling that explains that there’s a difference between going for speed and going for stability.

Imagine you get asked to build something ambitious, and you say:

“Sure, I’ll have the Speed version ready in 3 days. Then the Scale version in about 6 weeks.”

They get what they want, speed and momentum. You get what you want, observation and design.

Maybe?

Your thoughts, senior software developer?

Or should I say, senior software editor?

Read more Read the original on www.nair.sh →

Read the original on www.nair.sh →

Just a moment...

www.epicfurious.com

323 shares · 10 trendiness

Read the original on www.epicfurious.com →

The future of Obsidian plugins

obsidian.md

287 shares · 32 trendiness

Today we’re excited to launch Obsidian Community, the new directory and developer dashboard for Obsidian plugins and themes.

Since the Obsidian API release in 2020, more than 4,000 plugins and themes have been created by our amazing community. Incredibly, Obsidian plugins have passed 120 million total downloads!

Our goal is to make it easy and safe for anyone to build, distribute, discover, and use plugins and themes.

Today’s launch is only the start of a larger set of initiatives. We’re excited to share what’s new, and what’s coming soon.

Community site

Developer dashboard

Automated reviews

Plugin safety

Tools for teams

Next steps

FAQ

Community site

The new Community site makes it easy to explore the breadth of plugins and themes with new ways to browse, search, ﬁlter, and sort.

You can browse plugins across dozens of categories such as Integrations, Bases, Charts, and many more categories. Sort projects by name, downloads, popularity, release date, and updated date.

Every project has its own detail page where you can ﬁnd screenshots, details, and a safety scorecard. New labels are present for paid plugins and ofﬁcial integrations.

Authors can customize their proﬁle pages with sponsorship options and links to their website and social media.

Developer dashboard

The Obsidian Community site also hosts our new developer dashboard. This is where authors can submit, manage, and track the status of their projects.

All existing plugins, themes, and queued submissions added via GitHub have been automatically migrated to the new site.

To claim your existing projects, sign into the new Community site and connect your GitHub account. This lets you manage your existing projects, submit new projects, and edit your proﬁle page.

Automated reviews

With this transition we are introducing automated reviews for all community projects. The new automated review system scans every version for security and code quality, not just the initial submission.

Until today, initial submissions were manually reviewed and approved by our small team to ensure they follow the Developer Policies. However, as Obsidian has grown in popularity we struggled to keep pace with submissions, and subsequent versions were not reviewed.

As coding agents accelerate the creation of plugins, the review queue was only getting longer. We don’t expect the pace of new submissions to slow down. With tools like Obsidian CLI we’re making it even easier to create plugins.

Now when a plugin or theme is submitted, the automated review system veriﬁes that it adheres to our developer policies, that the source code follows best practices, and that it is free of known vulnerabilities.

Building on this new system allows us to scalably review community projects going forward. With the ability to continuously improve our automated tests, we are more equipped to comprehensively improve the quality and safety of the Obsidian ecosystem.

Importantly, manual reviews will continue. The new system allows us to shift our efforts towards plugins that require deeper inspection such as popular plugins, featured plugins, and issues ﬂagged by the community.

All existing plugins and themes have been re-reviewed using the new system. In this process we found older plugins and themes that do not meet the latest guidelines. These older projects have been temporarily granted an exception. However, all plugins and themes that do not pass the new review process will eventually be phased out of the ofﬁcial directory. See FAQs below.

And… Yes! All queued submissions have been reviewed. With the new system we were able to process over 2,300 queued submissions in the last few days. If you’ve been waiting on us to review your plugin, sign into the Community site to see your submission’s current status.

Plugin safety

The new Community site and automated review system introduces major enhancements for the safety and security of the Obsidian ecosystem:

Automated scans. Every version is now automatically checked for code quality and security vulnerabilities. This includes malware scanning to detect potentially malicious additions to plugins. Developers can see detailed suggestions, warnings, and failure ﬂags for every project in the developer dashboard.

Scorecards. Users and developers can see the status of automated checks with scorecards on every project. These scorecards will continue to improve as we incorporate disclosures, privacy labels, artifact attestation, manual review results, and adoption of app capabilities.

Over the coming months, we will further increase transparency about plugins and their authors:

Disclosures. Plugins will declare what they access: network, ﬁle system, clipboard, and other capabilities. Users will be able to see these disclosures before installing plugins.

Veriﬁed authors. Labels will be added for trusted developers that have passed additional veriﬁcation steps and are in good standing.

As a member of the Obsidian community you play a part in keeping the ecosystem safe. Users can always ﬂag security issues directly to the Obsidian team.

Tools for teams

Teams that use Obsidian can already deploy safety controls for their users. In the coming months we will make it easier for teams to manage which community plugins are allowed, and distribute private plugins to team members.

Teams that publish ofﬁcial Obsidian plugins can now apply for the Ofﬁcial badge in the Community directory. Reach out to us if your plugin qualiﬁes.

Next steps

As you can tell, there are many moving parts! Along with improvements to the Community directory and automated review system, we will also make changes to the Obsidian app and API to improve discovery and safety.

The community ecosystem is one of the most fun and powerful aspects of Obsidian. We’re excited to give it the foundation needed to continue ﬂourishing.

We’d love for you to explore the new Obsidian Community and share your feedback with us!

FAQ

Whew! That was a lot of information, but you might still have some questions. If your questions are not answered below please reach to us via the #plugin-dev and #theme-dev channels on the ofﬁcial Obsidian Discord server.

As a user how does this affect me?

You can use the new Community site to explore plugins and themes. If you’ve installed early-access plugins manually, you might not need to anymore because the review time has been been cut down dramatically.

I found an error in a scorecard. What do should I do?

Scorecards are new and can contain errors. You may ﬁnd false positives and false negatives. If you notice something inaccurate contact us in the #plugin-dev channel on the Obsidian Discord server.

A plugin has incorrect tags or labels (e.g. ofﬁcial, paid, free). What do should I do?

Developers can update a project’s tags and pricing using the developer dashboard. Only Obsidian staff can update the Ofﬁcial label. If you see any issues contact us on the Obsidian Discord server.

How do I submit a new plugin or theme?

The process is significantly easier and faster than before:

Sign into the Community site to access the new developer dashboard.

Connect your GitHub account and choose a repo to submit.

Complete the steps in the dashboard.

Upon submission your project will be immediately reviewed. Typically, you will see the results of your review within a few minutes.

If your project passes, it will be available to search and download in the app within 24 hours.

How do I claim my existing plugins and themes?

Sign into the Community site to access the new developer dashboard. This lets you connect your GitHub account and claim your plugins. Once signed in, you can update the title, description, and screenshots.

Why does my project not appear in the directory?

If your project does not appear in search it is likely because it has errors and cannot be downloaded by users. Sign into the Community site, claim the plugin, and resolve any errors.

Can I still update my plugin/theme without using the developer dashboard?

Yes. You can continue to release new versions via GitHub without using the new developer dashboard. New releases are automatically reviewed. However if your update fails to pass review, you will need to use the developer dashboard to see all the details.

What happens to projects that are no longer maintained?

Our existing policy remains unchanged. When submitting plugins and themes, developers agree to continue maintaining their projects. If the project is no longer maintained, no longer functions with newer versions of Obsidian, and has not been transferred to a new owner, it will eventually be removed from the Community directory per the Developer Policies.

As we continue improving discovery tools, it will become easier to ﬁnd plugins that are actively maintained and up to date with Obsidian’s latest capabilities.

What happens to plugins and themes that fail the automated review system?

All new plugins and themes must pass automated review before they are added to the directory and available via search. Each new version is scanned, and if it fails to pass review, the plugin is removed from search within 24 hours. You can test changes before releasing them using new tools listed below.

All plugins and themes that were previously approved will continue to be available for now, even if they fail the automated review. Eventually, we will require older plugins to meet the new standards. We have not set a deadline for this yet and will be working closely with community developers to deﬁne that transition.

Can I run the automated review without submitting a release?

Yes. Two options:

Use our eslint plugin to check your Obsidian plugin against the ofﬁcial developer guidelines locally.

Use the developer dashboard to run a preview scan on any branch, tag, or commit.

My plugin has co-maintainers or belongs to an organization. How can I give multiple users access to the plugin in the developer dashboard?

Currently only the owner of a GitHub repo can edit it in Obsidian Community. Organization repos can be claimed and edited if you have a public membership to the organization. In the near future we will add support for multiple collaborators.

Can closed source plugins be added to the new directory?

For now, we are not accepting new closed source plugins into the directory. Existing closed source plugins will continue to be available until further notice. In the future we will consider how the new review system can be adapted for closed source plugins.

Does the developer dashboard require an Obsidian account?

Yes. You must have an Obsidian account to access the new developer dashboard.

Does the new site require using GitHub?

For now, yes. In the future we will consider adding other software hosting platforms.

What is shared with Obsidian when logging in via GitHub?

Logging in via GitHub shares your username and list of public repositories. It is only used to verify ownership of your repository.

What does it mean for a plugin to be Paid or have Optional Payments?

Obsidian Community is not a store, and does not offer any built-in payment solutions.

Developers can continue to use external payment mechanisms such as license keys, API keys, and login gates. Developers must accurately label plugins under one of these three categories:

Free means the plugin does not have any form payment and is not tied to any paid services whatsoever. Donation links and sponsorship links are acceptable for Free plugins.

Optional payments means users may optionally pay to unlock additional features or the plugin connects to paid services. If a plugin connects to a paid service or API, it must be labeled as having Optional payments, even if the service has a free tier.

Paid means users must pay to use its primary features, even if it offers a free trial.

These labels determine what users should expect to pay, not whether the developer of the plugin collects payments.

What should I do if I run into problems with the new Community directory and developer dashboard?

Our team is here to help to make sure everything goes smoothly. If you have any questions or concerns, reach out to us in the #plugin-dev channel of the Obsidian Discord server.

Read more Read the original on obsidian.md →

Read the original on obsidian.md →

GitHub - cactus-compute/needle: 26m function call model that runs on incredibly small devices

github.com

253 shares · 39 trendiness

We distilled Gemini 3.1 into a 26m parameter “Simple Attention Network” that you can even ﬁnetune locally on your Mac/PC. In production, Needle runs on Cactus at 6000 toks/sec preﬁll and 1200 decode speed. Weights are fully open on Cactus-Compute/needle, as well as the dataset generation.

d=512, 8H/4KV, BPE=8192 ┌──────────────┐ │ Tool Call │ └──────┬───────┘ ┌┴──────────┐ │ Softmax │ └─────┬─────┘ ┌─────┴─────┐ │ Linear (T)│ ← tied └─────┬─────┘ ┌─────┴─────┐ │ ZCRMSNorm │ └─────┬─────┘ ┌────────┴────────┐ │ Decoder x 8 │ │┌───────────────┐│ ││ ZCRMSNorm ││ ││ Masked Self ││ ││ Attn + RoPE ││ ││ Gated Residual││ │├───────────────┤│ ┌──────────────┐ ││ ZCRMSNorm ││ │ Encoder x 12 │──────────────────────▶Cross Attn ││ │ │ ││ Gated Residual││ │ ┌──────────┐ │ │└───────────────┘│ │ │ZCRMSNorm │ │ └────────┬────────┘ │ │Self Attn │ │ ┌─────┴─────┐ │ │ GQA+RoPE │ │ │ Embedding │ ← shared │ │Gated Res │ │ └─────┬─────┘ │ │ │ │ ┌───────┴───────-┐ │ │ (no FFN) │ │ │[EOS]<tool_call>│ │ └──────────┘ │ │ + answer │ │ │ └───────────────-┘ └──────┬───────┘ │ ┌────┴──────┐ │ Embedding │ └────┬──────┘ │ ┌────┴──────┐ │ Text │ │ query │ └───────────┘

Pretrained on 16 TPU v6e for 200B tokens (27hrs).

Post-trained on 2B tokens of single-shot function call dataset (45mins).

Needle is an experimental run for Simple Attention Networks, geared at redeﬁning tiny AI for consumer devies (phones, watches, glasses…). So while it beats FunctionGemma-270m, Qwen-0.6B, Graninte-350m, LFM2.5 – 350m on single-shot function call for personal AI, Those model are have more scope/capacity and excel in conversational settings. Also, small models can be ﬁnicky. Please use the UI in the next section to test on your own tools, and ﬁnetune accordingly, at the click of a button.

Quickstart

git clone https://github.com/cactus-compute/needle.git cd needle && source ./setup needle playground

Opens a web UI at http://127.0.0.1:7860 where you can test and ﬁnetune on your own tools. Weights are auto-downloaded.

Usage (Python)

from needle import SimpleAttentionNetwork, load_checkpoint, generate, get_tokenizer

params, conﬁg = load_checkpoint(“checkpoints/needle.pkl”) model = SimpleAttentionNetwork(conﬁg) tokenizer = get_tokenizer()

result = generate( model, params, tokenizer, query=“What’s the weather in San Francisco?”, tools=‘[{“name”:“get_weather”,“parameters”:{“location”:“string”}}]’, stream=False, ) print(result) # [{“name”:“get_weather”,“arguments”:{“location”:“San Francisco”}}]

Finetuning

# Playground (generates data via Gemini, trains, evaluates, bundles result) needle playground

# CLI (auto-downloads weights if not local) needle ﬁnetune data.jsonl

CLI

needle playground Test and ﬁnetune via web UI needle ﬁnetune <data.jsonl> Finetune on your own data needle run –query ”…” –tools Single inference needle train Full training run needle pretrain Pretrain on PleIAs/SYNTH needle eval –checkpoint <path> Evaluate a checkpoint needle tokenize Tokenize dataset needle generate-data Synthesize training data via Gemini needle tpu <action> TPU management (see docs/tpu.md)

@misc{ndubuaku2026needle, title={Needle}, author={Henry Ndubuaku, Jakub Mroz, Karen Mosoyan, Roman Shemet, Parkirat Sandhu, Satyajit Kumar, Noah Cylich, Justin H. Lee}, year={2026}, url={https://github.com/cactus-compute/needle} }

Read more Read the original on github.com →

Read the original on github.com →

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