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Elon Musk has lost his lawsuit against Sam Altman and OpenAI

techcrunch.com

1,044 shares · 38 trendiness

Elon Musk’s claim that he was mistreated by his OpenAI co-founders failed after nine California jurors returned a unanimous verdict that his lawsuits had been ﬁled too late.

Musk accused Sam Altman, Greg Brockman, OpenAI, and Microsoft of “stealing a charity” by creating a for-proﬁt afﬁliate of the frontier AI lab. Jurors, however, found that any harms that Musk may have suffered came before the deadline for ﬁling his claims under the law.

While the trial delved deeply into the melodramatic history of OpenAI and featured testimony from leading ﬁgures in Silicon Valley, it ultimately turned on fairly narrow questions of the law. The trial focused on whether and when Altman and the other defendants had made and broken promises to Musk, but his case failed to convince jurors that he had a valid claim.

In particular, OpenAI had advanced a statute of limitations defense, which sought to prove that any harms Musk sought to litigate had taken place before 2021. (The speciﬁc date varied by the charge: before August 5, 2021, for the ﬁrst count; August 5, 2022, for the second count; and November 14, 2021, for the third count.) Ultimately, the jury found that argument persuasive, which made for a short deliberation period.

“There was a substantial amount of evidence to support the jury’s ﬁnding, which is why I was prepared to dismiss on the spot,” Judge Yvonne Gonzalez Rogers said after the verdict was delivered.

The end of the case means that one major threat to OpenAI — a possible restructuring — is now off the table ahead of its reported IPO.

“It did not take [the jury] two hours to conclude … that Mr. Musk’s lawsuit is nothing more than an after-the-fact contrivance that bears no relationship to reality,” OpenAI’s lead attorney, Bill Savitt, said after the verdict. “They kicked it exactly where it belongs — just to the side. This lawsuit is a hypocritical attempt to sabotage a competitor.”

Microsoft, which Musk sued for aiding and abetting OpenAI’s alleged breach of charitable trust, welcomed the verdict. A spokesperson for the company said it “remained committed to our work with OpenAI to advance and scale AI for people and organizations around the world.”

The verdict came in the middle of a hearing to determine the potential damages to Musk if the verdict had gone the other way. While that discussion is moot for now, the judge appeared unconvinced by the analogy Musk’s lawyers drew between his charitable contributions and investments in a for-proﬁt startup.

“Your analysis seems to be devoid of connection to the underlying facts,” she told Dr. C. Paul Wazzan, the expert who came up with Musk’s estimate of OpenAI and Microsoft’s wrongful gains at his expense — some $78.8 billion to $135 billion.

In a tweet after the ruling, Musk appeared to take the procedural grounds of the dismissal as a moral victory. “There is no question to anyone following the case in detail that Altman & Brockman did in fact enrich themselves by stealing a charity. The only question is WHEN they did it!” Musk wrote. “I will be ﬁling an appeal with the Ninth Circuit, because creating a precedent to loot charities is incredibly destructive to charitable giving in America.”

Reached for comment by TechCrunch, Musk’s lead counsel, Marc Toberoff, said, “One word: Appeal.”

When you purchase through links in our articles, we may earn a small commission. This doesn’t affect our editorial independence.

Tim Fernholz is a journalist who writes about technology, ﬁnance and public policy. He has closely covered the rise of the private space industry and is the author of Rocket Billionaires: Elon Musk, Jeff Bezos and the New Space Race. Formerly, he was a senior reporter at Quartz, the global business news site, for more than a decade, and began his career as a political reporter in Washington, D.C.

You can contact or verify outreach from Tim by emailing tim.fernholz@techcrunch.com or via an encrypted message to tim_fernholz.21 on Signal.

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Removing the Modem and GPS from my 2024 RAV4 Hybrid

arkadiyt.com

996 shares · 39 trendiness

May 13th, 2026 | 14 minute read

Modern cars are computers on wheels - they have more sensors than you can count and are constantly phoning home with telemetry data like your location, speed, fuel levels, sudden accelerations/decelerations, video footage, driver attention data from eye monitoring systems, and hundreds of other data points. Cars have inward- and outward-facing cameras. They have microphones. They have always-on modems. It’s all enabled by default with difﬁcult or meaningless opt-outs, and your data is monetized through brokers like LexisNexis or Verisk. This all brings a host of security and privacy issues - here are some over the years:

In 2025 Subaru had vulnerabilities allowing anyone to remotely unlock customers’ cars, as well as access the real-time GPS location and location history of the car of the car

Car manufacturers share your driving data with insurance companies, which then increase your premiums

In 2023 Tesla employees internally shared camera footage of naked customers and other sensitive images

In 2015 Charlie Miller and Chris Valasek famously took over a Jeep Cherokee with full control of the ignition, brakes, locks, steering, etc.

Mozilla detailed how 25 car manufacturers scored abysmally on privacy and how they collect data including “sexual activity, immigration status, race, facial expressions, weight and genetic information.” They sell this data to third parties and use it to build proﬁles about you covering “intelligence, abilities, characteristics, preferences, and more.”

Tesla had a vulnerability in 2017 that allowed anyone to remotely see your car’s location, manage other features, and even summon the car to themselves

The Car That Watches You Back details how cars are now serving you ads, as well as collecting vast amounts of data about you. The Hacker News discussion about this article is what prompted this blog post

Now that we’re sufﬁciently motivated, what can we do about it? In this blog post, rather than relying on companies’ promises or meaningless opt-outs, we’re going to stop the data at the source by physically removing the modem (the DCM, or Data Communication Module) as well as the built-in GPS on my 2024 RAV4 Hybrid, so the car will no longer have the capability to send any telemetry data back home. Let’s dive in:

Will the car still be functional?

Yes. Depending on how different car manufacturers have wired their cars, how their software and ﬁrmware were written, etc., varying levels of functionality might be affected by removing the modem and GPS. For this car:

Everything that relies on a data connection will no longer work. This includes things like over-the-air updates as well as Toyota cloud-based services and SOS functionalityThis is a safety tradeoff - you’re disabling automatic crash notiﬁcation and emergency calling

This is a safety tradeoff - you’re disabling automatic crash notiﬁcation and emergency calling

The car’s microphone is wired through the DCM, and in the absence of any other changes removing the DCM means the in-car microphone won’t work, which is inconvenient if you plan on taking calls in the car. However we’ll install a DCM Bypass Kit (discussed more below) to restore all functionality and have a working microphone

CarPlay has a quirk: the phone uses its own GPS but also accepts a location signal from the car’s GPS unit. After removing the DCM, the car would get confused about its location and sometimes jump my position to the middle of Nevada (I live in San Francisco), making navigation annoying. To work around this we’ll fully disconnect the car’s GPS, so it can’t send a bad location to the phoneFrom the title of the blog post you might have wondered why bother removing the GPS after we’ve removed the modem - who cares if the car has built-in location when it can’t phone home with that data? This is whyThis is a well-documented bug with discussions on Apple Support threads as well as car-speciﬁc forums like rav4world. This bug affects more than just Toyotas, it’s a generic Apple bug even for people who haven’t removed their modem (but anecdotally removing my modem made the problem worse)

From the title of the blog post you might have wondered why bother removing the GPS after we’ve removed the modem - who cares if the car has built-in location when it can’t phone home with that data? This is why

This is a well-documented bug with discussions on Apple Support threads as well as car-speciﬁc forums like rav4world. This bug affects more than just Toyotas, it’s a generic Apple bug even for people who haven’t removed their modem (but anecdotally removing my modem made the problem worse)

Removing the DCM and GPS may void parts of your warranty - just something to be aware of. Thanks to the Magnuson–Moss Warranty Act, it cannot void the whole car warranty. It can void coverage related to the work you did (cloud services, telematics, etc.) but unrelated failures like engine problems must still be covered

So thankfully everything in the car remains 100% functional except the cloud-based services mentioned above, which I didn’t want anyway. There is also one critical caveat about Bluetooth:

No more Bluetooth

Important: Even after the modem is removed, if you connect your phone to the car via Bluetooth then the car will use your phone as an internet connection and send all the same telemetry data back to Toyota. However, if you use a wired USB connection then it does not do that (see the discussion here and elsewhere), so I exclusively use CarPlay via USB. I wish I had a way to completely disable the car’s Bluetooth functionality, but it’s deeply integrated into the head unit.

If you need USB cables for CarPlay I like these USB-A to Lightning and USB-A to USB-C cables from Anker.

Or, if you prefer the convenience of Bluetooth, you can use a Bluetooth -> wired USB adapter like this one. The adapter receives Bluetooth from your phone and presents itself to the car as a USB device, so the car treats it like a wired connection and won’t tether through your phone.

Now, onto the necessary tools and parts:

Tools/parts needed

For this project you’ll need:

A trim removal kit (I used this one)

A ratchet, extension, 10mm socket, and 8mm socketI’ve been extremely happy with this set. However if you’re not planning on doing more handyperson type work then just borrow these 4 parts from a neighbor instead of spending the money on a whole set

I’ve been extremely happy with this set. However if you’re not planning on doing more handyperson type work then just borrow these 4 parts from a neighbor instead of spending the money on a whole set

(Optional) A precision ﬂathead screwdriver (like this one). This can help with disconnecting wire plugs

This Telematics DCM Bypass Kit, for ﬁxing the in-car microphone$90 is a bit steep for a part that probably costs less than $1 to produce, but the makers of the kit did the work of reading the (paywalled) Toyota diagnostics to produce a working product. If you’d like to build your own version you’ll need to subscribe to Toyota TIS to access the car wiring schematics. It’s unfortunate that these schematics and other repair manuals aren’t public

$90 is a bit steep for a part that probably costs less than $1 to produce, but the makers of the kit did the work of reading the (paywalled) Toyota diagnostics to produce a working product. If you’d like to build your own version you’ll need to subscribe to Toyota TIS to access the car wiring schematics. It’s unfortunate that these schematics and other repair manuals aren’t public

Overall this was a medium-difﬁculty project that took me a few hours to complete. Now, let’s get to work:

Removing the car modem

1) Push down on the leather of your shifter and remove the pin (don’t lose it!):

2) Remove the shifter top:

3) Use the trim tool to pop out the base of the shifter. Just lean it to the side, no need to disconnect anything:

4) Use your hands to pop out the next panel and lean it to the side:

5) Remove these three 10mm bolts:

6) Pull on this light gray trim piece until it disconnects slightly:

7) Pull the radio out, disconnect the plug, and put the radio aside. The radio is held on by clips only and can even be pulled out with your hands, but it requires a little force and the trim removal tool may be helpful. When disconnecting the plug it may help to use the precision screwdriver to push down on the tab to unlock it, but you can also do it with your hands:

8) Pull the next panel (the seat warming controls) out with your hands. It’s only held on by clips but may require a bit of force to remove:

9) Take a photo of all the wiring connections on the seat warming controls so you can assemble it correctly later, unplug all the wires, and set the controls aside:

10) You now have access to the DCM:

11) Removing the DCM requires a lot of maneuvering, tight spaces, and patience, but you can do it. There are two 8mm bolts on the right and one 8mm bolt on the left that need to be removed. Getting access to them may require removing some of the other harnesses or components that are in the way - just go slow and steady, take your time, and take photos of things before you move them. After those 3 bolts are removed you have a little more play to pull the unit out, and after disconnecting the wires in the back you can completely remove the DCM. Here’s mine out of the car, part number 86741 – 06130:

12) Now that the modem is removed we need to install the DCM Bypass Kit so the in-car microphone continues to work. It’s extremely straightforward, just plug it into the wiring harness that you removed from the DCM. The plugs will only ﬁt on the correct wires, there’s no way to get it wrong:

13) Reassemble everything by going in reverse order. Make sure all clips, bolts, etc. are back in their original position and everything is seated correctly. This part should go much faster than disassembly.

Now you’re done with the hard part. Next we disconnect the GPS from the head unit, which is significantly easier:

Removing the GPS antenna

1) Use the trim tool to remove the back panel behind the infotainment screen:

2) Unscrew these four 10mm bolts:

3) Pop the head unit out (it’s only held on by 2 clips at this point). The part number will vary but for my car it was 86140 – 0R710.

4) The GPS antenna is one of the single-wire cables (not the multi-wire plugs). I had 3 single-wire cables in my unit and the GPS wire was the black wire shown in the picture. I was able to determine this by process of elimination - unplugging one of the wires disconnected my car’s reverse camera, unplugging another one disconnected CarPlay completely, and the last one was the GPS - worked like a charm. Again, with a Toyota TIS subscription you can get access to the head unit wiring diagram and not have to make guesses about which wire is which, but process of elimination worked ﬁne for me:

5) Reassemble everything by going in reverse order. Again, make sure that all the clips seat properly.

Conﬁrming it worked

After you have everything reassembled, turn the car on.

1) If you unplugged the modem successfully then:

The infotainment screen will have an icon in the upper right corner indicating no connection

The SOS light in the overhead console will be off:

2) If the DCM Bypass Kit was installed successfully then:

Make a phone call through CarPlay. The recipient should be able to hear you / the microphone should be working

Congratulations - your car no longer has the capability to transmit telemetry data. Of course it may still be captured to local storage and can be physically collected later, but for me that was ﬁne.

Conclusion

Overall I’m very happy with this project. Unfortunately I think it’s only a matter of time before the modem and GPS become more deeply integrated into the car (making this blog post infeasible), or cars have more drastic failure modes when the modem/GPS is removed, or anti-right-to-repair laws get passed to further clamp down on this behavior. For now the win stands - no telemetry leaves the car. Strong Federal privacy laws would make posts like this unnecessary, that’s the world I’d rather live in.

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How I Moved My Digital Stack to Europe

monokai.com

959 shares · 35 trendiness

On digital sovereignty, and why European cloud is better than you think

April 29, 2026 10 min. Digital SovereigntyDigital InfrastructureDigital AutonomyEuropean CloudEurope

There’s a version of this post that starts with a spreadsheet and ends with a quiet sense of satisfaction. That’s mostly how it went. But underneath the practical exercise of swapping one SaaS tool for another was something that felt more urgent, a growing discomfort with how much of my digital infrastructure sat on servers I didn’t control, in a jurisdiction increasingly prone to unpredictability, operated by companies whose incentives don’t always align with mine.

Digital sovereignty sounds like a buzzword until you think carefully about what it means. It means knowing where your data lives. It means not being one policy change, one acquisition, or one executive’s bad mood away from losing access to tools your business depends on. It means choosing infrastructure based on values, not just convenience.

So I started migrating.

Analytics

Google Analytics was the obvious ﬁrst target. It’s the canonical example of a service that’s free because you are the product, your visitors’ behavior funneled back into Google’s advertising machinery.

Self-hosting Matomo solved this cleanly. The data stays on my own server, and I’m fully GDPR-compliant without the cookie consent theater that Google Analytics typically requires. The reporting is comprehensive, the interface is familiar enough, and I own everything.

The main downside is maintenance overhead. You’re now responsible for updates, backups, and keeping the server healthy. For most setups this is low-friction, but it’s not zero friction.

Proton Mail is based in Switzerland, not EU territory, but Swiss privacy law is closely aligned with GDPR and arguably stronger in some respects. Proton builds its business model around privacy rather than advertising, and end-to-end encryption is baked in at the protocol level rather than bolted on. The email client is solid, the calendar works well, and for anyone moving away from US-based services, it sits comfortably in the same spirit as the rest of this stack.

One adjustment is getting used to Proton’s ﬁlter system, which is a bit more limited than Gmail’s. Gmail lets you write ﬁlters against virtually anything, including the full body of the message. Proton doesn’t support ﬁltering on email content at all. So if you’ve built a workﬂow around catching speciﬁc phrases or keywords in message bodies, you’ll have to rethink it. For most people this won’t be a dealbreaker, but it’s worth knowing before you migrate.

There’s also a practical limitation worth ﬂagging: Proton caps custom domains at three, even on the Duo plan. If you run several domains, like separate addresses for different projects or businesses, you’ll hit that ceiling quickly and need to rethink how you route and send mail. I ended up consolidating, which was probably overdue anyway, but it wasn’t a choice I made entirely freely.

Proton isn’t free and charges a substantial fee compared to other options. You’ll get access to a whole suite of Proton apps though.

Password Management

Once I was in the Proton ecosystem, moving password management there as well made sense. Proton Pass is end-to-end encrypted, open source, and beneﬁts from the same Swiss jurisdiction as the rest of Proton’s stack.

1Password is a genuinely great product and this was a lateral move more than an upgrade. The interface is simple, the browser extension works reliably, and having passwords, email, and calendar under one encrypted roof has a certain satisfying coherence to it.

Compute

DigitalOcean has earned its reputation by doing one thing exceptionally well: getting out of your way. The UI is clean, the mental model is simple, and spinning up infrastructure never feels like a chore. It’s the platform that proved developer experience could be a competitive moat.

Scaleway was a pleasant surprise. I expected a capable-but-rough European alternative, but what I found was a platform that’s genuinely well thought out. Servers spun up quickly inside a private network of my own conﬁguration, the control panel is clean, and the options available matched everything I actually needed. Scaleway displays projected CO₂ emissions alongside server location choices, a nice touch.

Object Storage

Scaleway’s object storage is S3-compatible, which makes migration mechanical rather than painful, update your endpoint and credentials and existing code works unchanged.

I used a tool called rclone to sync my old AWS S3 storage buckets to the new Scaleway S3 buckets. This took a little more than a week of constant syncing, as these buckets were quite large.

Offsite Backups

OVH is the largest European cloud provider and brings the reliability and pricing you’d expect at that scale. Their object storage works well as a backup destination and ends up cheaper than Backblaze B2 once you conﬁgure lifecycle rules to move older backups to the cold storage class.

Getting there, however, requires some patience. The OVHcloud control panel is a labyrinth: the lifecycle rule conﬁguration is buried somewhere in the documentation, and it involves some work in the terminal. Once it’s set up, it works reliably and the cost difference is meaningful.

Transactional Emails

Lettermint is a European transactional email service that does the job without the bloat. Deliverability is solid, the API is clean, and it has straightforward pricing.

Compared to SendGrid, the analytics are leaner and the ecosystem integrations are fewer. SendGrid has years of tooling, documentation, and community answers behind it. Lettermint is newer and smaller. For most transactional sending use cases (password resets, notiﬁcations, receipts) that doesn’t matter much. But if you’re doing complex multi-stream email infrastructure, you’ll want to audit the feature set carefully ﬁrst.

Error Tracking

Bugsink is a self-hosted error tracking tool that accepts Sentry’s SDK, which means the migration path is almost frictionless, change one line of conﬁguration and you’re done.

To be honest: Bugsink is bare-bones. There’s no performance monitoring, no session replays, no advanced alerting. It’s not a Sentry replacement for teams that use Sentry properly. For me, it’s a simple remote error log, when something breaks in production I get a stack trace and that’s enough. Sentry’s cloud product is genuinely excellent if you need the full feature set, and for larger engineering teams the breadth almost certainly justiﬁes the cost. But if your use case is “tell me when something broke and show me the stack trace”, self-hosted Bugsink does exactly that with no data leaving your infrastructure.

AI API integration

For my AI API integrations, I switched from OpenAI to Mistral. It worked out perfectly as I was mostly using simpler models anyway.

Mistral is headquartered in Paris and has published compelling open-weight models alongside its API offering. The API is clean, the models are fast and capable, and there’s something coherent about a European AI provider that leans into openness rather than away from it. For my inference workloads, the switch was lateral in quality and meaningfully better in terms of where the money goes.

CDN

Exception № 1

Not everything moved. Cloudﬂare is a US company, I still use it, and I’m at peace with that.

Here’s the reasoning: Cloudﬂare sits in front of my public-facing websites. Its job is to cache, protect against DDoS attacks, and make content load fast for visitors around the world. The data ﬂowing through it is already public by definition. I’m not routing private communications or sensitive application data through Cloudﬂare; I’m using it to serve pages that anyone on the internet can read. The sovereignty calculus is different when the thing you’re protecting is already public.

I did try Bunny CDN, which is European-based and has a great reputation. For straightforward CDN use it’s excellent. But Cloudﬂare’s feature set (security rules, Workers platform, breadth of conﬁguration options) wasn’t matched closely enough to justify the switch for my speciﬁc needs. Sometimes the pragmatic answer wins.

Payments

Exception № 2

Stripe is one of the few services I haven’t moved yet, even though payment infrastructure is exactly the kind of thing I care about having in a jurisdiction I trust. Mollie is a Dutch payment processor with full EU incorporation, strong GDPR compliance by design, and a product that has matured considerably in recent years. The API has converged toward parity for most common payment ﬂows, and for a European business the regional payment method coverage (iDEAL, Bancontact, SEPA) is arguably better.

The migration is on the list. It’s just not a trivial one. Payment integrations touch billing logic, webhooks, tax invoicing and customer-facing ﬂows in ways that require careful testing and a good moment to cut over. It’s also more expensive than Stripe for my usecase.

AI Code assistance

Exception № 3

This one felt overdue. OpenAI works ﬁne, but the company’s trajectory doesn’t align with my own views anymore. After a period of deliberate drift, I felt the need to switch. Ideally I wanted to use Mistral Vibe here, but it just didn’t make the cut as it couldn’t compete with Claude.

Claude Code is now my day-to-day AI assistant for coding. The reasoning quality is strong, the context handling is genuinely impressive, and Anthropic’s approach to safety and transparency feels more structurally grounded.

Anthropic is a US company, so this doesn’t satisfy the jurisdictional criterion I applied elsewhere. But it satisﬁes something else, the sense that the organization building the thing has given serious thought to what it’s building and why.

It’s also worth noting that local models are becoming increasingly viable. Qwen, Alibaba’s open-weight model family, is a strong example: capable enough for many real workloads, running entirely on your own hardware, with no data leaving your machine. The gap between frontier API models and what you can run locally is narrowing faster than most people realize.

Not everything is ideal. Most data centers still sit outside Europe, and “open” means different things to different organizations. But the direction is right. A world where capable AI runs on your own hardware, with published weights and transparent training, is a much better world for digital autonomy than one where all inference routes through a handful of closed API providers. We’re not there yet, but the trajectory is encouraging.

Git Version Control

Exception № 4

GitLab also remains for now. GitLab is headquartered in the US but offers self-hosted options, and the company has long had a strong commitment to transparency and open source. A self-hosted instance is on the roadmap, but moving source control is a more significant undertaking than most of these migrations.

GitHub stays in the picture for one speciﬁc purpose: public-facing NPM packages and issue tracking for open source software. When you publish a package or maintain public tooling, GitHub is where developers expect to ﬁnd it. The network effects are real, it’s where the forks, stars, and issue reports come from. For the public-facing surface of open source work, there’s no meaningful sovereignty concern and a lot of practical upside.

Was it worth it?

The practical friction was real but manageable. Most migrations were an afternoon of work: update a credential here, point a DNS record there, export and import some data. A few took longer. None were catastrophic. All in all it took longer than expected, but most time was spent in researching and planning when to do what. Two months in, everything is running without incident. No ﬁres, no regrets.

Digital sovereignty isn’t about paranoia. It’s about being conscious about your infrastructure, where you decide who holds your data, who can reach it, and what happens when politics shift. The tools are there. The ecosystem is mostly mature. The only thing that was stopping me was inertia. It’s entirely possible to run a reliable, capable, professional digital stack mostly from European infrastructure. This migration was proof of that.

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Linux gaming is getting faster because Windows APIs are becoming Linux kernel features

www.xda-developers.com

931 shares · 36 trendiness

Published May 10, 2026, 12:30 PM EDT

His love of PCs and their components was born out of trying to squeeze every ounce of performance out of the family computer. Tinkering with his own build at age 10 turned into building PCs for friends and family, fostering a passion that would ultimately take shape as a career path.

Besides being the ﬁrst call for tech support for those close to him, Ty is a computer science student, with his focus being cloud computing and networking. He also competed in semi-pro Counter-Strike for 8 years, making him intimately familiar with everything to do with peripherals.

In March 2026, Linux crossed ﬁve percent of Steam’s user base for the ﬁrst time, an all-time high for an operating system that spent two decades as a novelty when it came to any kind of gaming. Microsoft’s end-of-support deadline for Windows 10 last October pushed many users to look at alternatives, and the Steam Deck has quietly turned millions of people into Linux gamers without them really thinking about it, leading to more widespread adoption on desktop machines.

Most of that progress used to happen inside a piece of software called Wine, the translation layer that convinces Windows games they’re running on Windows. Valve’s tuned version of Wine, called Proton, is what makes Steam Play and the Steam Deck work. For years, every meaningful improvement to Linux gaming came from changes to Wine and Proton themselves. That’s still true, but increasingly the most important changes are happening one layer deeper, inside the Linux kernel. The latest example of that is something called NTSYNC, a kernel-level driver that has offered great performance gains over previous versions of Wine, and is loaded by default on every Steam Deck that’s up-to-date.

What NTSYNC actually is

An additional piece of the performance puzzle

NTSYNC is a small piece of driver added directly to the Linux kernel that gives it a native implementation of a set of Windows-speciﬁc tools that games depend on to coordinate themselves.

Modern games juggle dozens of things at once. While you’re playing, your CPU manages the rendering pipeline, loading assets, running physics, processing audio, handling AI NPC routines, and tracking inputs, all in parallel across multiple cores. All those jobs constantly have to coordinate so they don’t trip over each other.

Quiz

8 Questions · Test Your Knowledge

The history of LinuxTrivia challenge

From a Finnish student’s side project to powering the world — how well do you know the story of Linux?

OriginsKernelDistrosPioneersMilestones

Begin

01 / 8

Origins

In what year did Linus Torvalds ﬁrst announce the Linux kernel to the world?

A1989B1991C1993D1995

Correct! Linus Torvalds posted his now-famous message to the comp.os.minix newsgroup on August 25, 1991, describing Linux as ‘just a hobby’ project. Few could have predicted it would one day run the majority of the world’s servers and smartphones.

Not quite — Torvalds made his announcement in 1991. He was a 21-year-old computer science student at the University of Helsinki at the time, and his modest post described the project as something that ‘won’t be big and professional’ like GNU.

Continue

02 / 8

Pioneers

Which university was Linus Torvalds attending when he created the ﬁrst version of the Linux kernel?

AStockholm UniversityBAalto UniversityCUniversity of HelsinkiDMIT

Correct! Torvalds was studying at the University of Helsinki in Finland when he began working on Linux as a personal project, initially inspired by MINIX, a small Unix-like system used for educational purposes.

Not quite — Torvalds was a student at the University of Helsinki in Finland. He started Linux partly out of frustration with the limitations of MINIX, which his professor Andrew Tanenbaum had designed deliberately to be simple for teaching.

Continue

03 / 8

Kernel

What operating system primarily inspired Linus Torvalds to create the Linux kernel?

AMS-DOSBMINIXCBSD UnixDSolaris

Correct! MINIX, created by professor Andrew Tanenbaum, was the direct inspiration for Linux. Torvalds used MINIX on his new Intel 386 PC but found it too restricted for his needs, which pushed him to write his own kernel.

Not quite — the answer is MINIX. Torvalds was using MINIX when he started Linux, and even held a famous online debate with its creator Andrew Tanenbaum about kernel design philosophy, specifically monolithic versus microkernel architectures.

Continue

04 / 8

Milestones

What was the version number of the ﬁrst publicly released Linux kernel in 1991?

A0.01B0.1C1.0D0.99

Correct! Linux version 0.01 was the ﬁrst kernel Torvalds released publicly in September 1991. It was a rough, early build that could only run on Intel 386 hardware and had very limited functionality, but it marked the true beginning of the Linux project.

Not quite — the ﬁrst public release was version 0.01 in September 1991. The kernel didn’t reach version 1.0 until March 1994, by which point it had grown significantly in capability and had attracted contributions from developers around the world.

Continue

05 / 8

Distros

Which Linux distribution, ﬁrst released in 1993, is one of the oldest still actively maintained today?

AUbuntuBFedoraCSlackwareDDebian

Correct! Slackware, created by Patrick Volkerding, was ﬁrst released in July 1993, making it one of the oldest surviving Linux distributions. It is known for its simplicity and Unix-like philosophy, and it continues to be maintained to this day.

Not quite — the answer is Slackware, released in 1993 by Patrick Volkerding. While Debian was also founded in 1993, Slackware narrowly edges it out as the older release. Ubuntu didn’t arrive until 2004, and Fedora launched in 2003.

Continue

06 / 8

Origins

The GNU Project, which provided many tools that paired with the Linux kernel, was founded by which developer?

AEric RaymondBRichard StallmanCBruce PerensDIan Murdock

Correct! Richard Stallman founded the GNU Project in 1983 with the goal of creating a completely free Unix-like operating system. When the Linux kernel appeared in 1991, it ﬁlled the missing piece GNU needed, and the combination became what many call GNU/Linux.

Not quite — it was Richard Stallman who founded the GNU Project in 1983. Stallman is also known for creating the GPL (GNU General Public License) and founding the Free Software Foundation, two pillars that shaped the legal and philosophical foundation of free software.

Continue

07 / 8

Milestones

Which company released a landmark commercial Linux distribution in 1994, helping bring Linux into the enterprise world?

ACanonicalBSUSECRed HatDMandriva

Correct! Red Hat released its ﬁrst Linux distribution in 1994 and became one of the most inﬂuential commercial Linux companies in history. It pioneered the enterprise Linux market and was eventually acquired by IBM in 2019 for approximately $34 billion.

Not quite — Red Hat is the answer. Founded by Marc Ewing and Bob Young, Red Hat helped prove that companies could build sustainable businesses around open-source software. SUSE Linux also launched in 1994, making it a close rival, but Red Hat became the more globally dominant enterprise force.

Continue

08 / 8

Distros

Ubuntu Linux, one of the most popular desktop distributions, is based on which other Linux distribution?

AArch LinuxBFedoraCDebianDGentoo

Correct! Ubuntu is based on Debian and was ﬁrst released in October 2004 by Mark Shuttleworth’s company Canonical. It was designed to make Linux more accessible to everyday users, and its six-month release cycle and long-term support versions made it a favorite for both desktops and servers.

Not quite — Ubuntu is built on top of Debian. Debian itself was founded in 1993 by Ian Murdock and is known for its strict commitment to free software and stability. Ubuntu inherits Debian’s package management system (APT and .deb packages) but adds its own user-friendly layer on top.

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Windows handles this coordination by using a speciﬁc set of mechanisms, and before NTSYNC, Wine had to mimic these mechanisms using things like esync and fsync, which both worked, but didn’t always match Windows exactly. NTSYNC builds these mechanisms straight into the Linux kernel for the ﬁrst time, and it means Wine doesn’t have to emulate anything anymore. The developer-facing API calls don’t actually change, Linux just knows how to answer them natively.

NTSYNC is part of a growing pattern

Not the ﬁrst time Linux has inherited features because of Windows

NTSYNC isn’t the ﬁrst time Linux has gained a new feature specifically because Windows games needed it. A few years back, Linux added a way for software to wait on several events at once, which is something Windows had built in for decades, but Linux didn’t. Wine had been working around the gap with awkward tricks until the kernel ﬁnally got native support.

This work is driven by Valve, by CodeWeavers (the company that employs many of the core Wine developers, including NTSYNC’s author Elizabeth Figura), and by a steady stream of contributors who want Linux to be a real gaming platform without depending on out-of-ecosystem patches forever.

These aren’t magical performance gains

fsync was already pretty good

The headline performance gains look great, but they need some context. The eye-catching 40 to 200 percent FPS gains cited in NTSYNC’s original benchmarks were measured against unmodiﬁed upstream Wine, which almost nobody uses to play games on Linux anymore. Most Linux gamers, including every Steam Deck owner, use Proton, which already has fsync. Compared to fsync, NTSYNC’s performance gains are far more modest. The games that beneﬁt most from the change to NTSYNC are games that were really struggling before. Anything that was running at decent framerates beforehand is still going to run ﬁne.

These 7 Linux myths you still believe simply aren’t true

Linux is a completely different beast than it was a decade ago.

Valve adopted it anyway

It’s a great sign

Pierre-Loup Griffais, an engineer at Valve, has gone on the record to say that fsync was already fast enough, and despite that, Valve still shipped NTSYNC in stable SteamOS in March anyway, which speaks to the fact that fsync is still a workaround at its core, and can be the cause of issues outside of poor raw FPS.

These old workarounds got subtle edge cases wrong in ways that produced occasional hitches, deadlocks, or weird behavior in speciﬁc games, which are bugs that don’t show up on benchmark charts but can absolutely ruin individual experiences. NTSYNC ﬁxes those at the source by matching Windows behavior exactly, and that means as soon as your favorite distro moves to the new kernel version, whether it be Bazzite, CachyOS, Fedora, or a ﬂavor of Ubuntu, they all get this much-needed ﬁx.

4 reasons Valve’s full SteamOS release will change PC gaming again

Valve’s full SteamOS release will change PC gaming again, and here are some of the most important ways.

Gaming on Linux continues to improve by the month

Linux has grown so much in the gaming department. Where there once was nothing but clever Wine patches and community workarounds now lies support from gaming behemoths like Valve, driving changes to the Linux kernel itself. NTSYNC won’t be the last time a piece of Windows gets rebuilt inside Linux because gamers needed it, and with more than ﬁve percent of Steam’s user base now running Linux, the incentive to keep doing it has never been stronger.

Read more Read the original on www.xda-developers.com →

Read the original on www.xda-developers.com →

Googlebook: Designed for Gemini Intelligence

googlebook.google

889 shares · 36 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

Be in the know.

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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 →

Mozilla to UK regulators: VPNs are essential privacy and security tools and should not be undermined – Open Policy & Advocacy

blog.mozilla.org

704 shares · 28 trendiness

In the context of concerns around young people’s interactions with digital technologies, the UK’s Department for Science, Innovation and Technology is consulting on additional measures to prepare young people for growing up in a digital world. Before the backdrop of users circumventing age assurance systems mandated under the UK’s Online Safety Act, the consultation considers age-gating virtual private networks (VPNs).

Mozilla’s mission is grounded in the belief that the internet must remain open and accessible to all, and that privacy and security online are fundamental human rights. We recognize that the protection of young people online is one of the most pressing and challenging questions of our time, and we are committed to supporting policy proposals that address the root causes of online harms. We are concerned, however, that blunt interventions like mandatory age assurance and restricting access to tools like VPNs are not effective in improving the protection afforded to young people online, while undermining the fundamental rights of all users.

VPNs serve as critical privacy and security tools for users across all ages. By hiding users’ IP addresses, VPNs help protect users’ location, reduce tracking and avoid IP-based proﬁling. People use VPNs for lots of different reasons: to connect to their school’s or employer’s network remotely, to avoid censorship or to simply protect their privacy and security online. While being able to access VPNs is especially important for vulnerable groups like activists, dissidents or journalists, VPNs improve everyone’s baseline protection online.

Young people are particularly vulnerable to online tracking, targeted advertising, and the risks that ﬂow from personal data being collected and processed for commercial purposes without adequate consent or transparency. In a world in which young people are interacting with digital technologies as part of their realities from young ages onward, restricting young people’s access to privacy-protecting technologies is in tension with the goal of equipping them to navigate the internet safely and competently. In order to be able to develop agency and responsible habits in engaging with digital technologies, it is crucial for young people to be introduced to best practices and key safety and privacy tools as they engage with the online world.

Rather than age-gating technologies like VPNs, we believe that regulators should address the root causes of online harm by holding platforms to account, encouraging the responsible use of parental controls and investing in digital skills and a whole of society approach to digital wellbeing.

Read our full submission to the Department for Science, Innovation and Technology.

Read more Read the original on blog.mozilla.org →

Read the original on blog.mozilla.org →

The Quiet Renovation at Bitwarden - ByteHaven - Where I ramble about bytes

blog.ppb1701.com

658 shares · 27 trendiness

Back in March, I wrote about Bitwarden doubling their Premium price — and specifically how they did it. Buried in a feature announcement. Priced in fake monthly increments for a product that has never once offered monthly billing. Communicated to existing customers ﬁfteen days before their renewal, not before.

Bitwarden responded on Mastodon. They conﬁrmed everything in my post while apparently thinking they were defending themselves. I noted at the time that the response was its own data point.

Well. There’s more data now.

The Changing of the Guard

In February, as Fast Company reported, longtime CEO Michael Crandell quietly transitioned to an advisory role. No announcement from the company. You’d only know it happened if you went looking on LinkedIn. Crandell had been with Bitwarden since 2019 — back when they were still the scrappy underdog that everyone ﬂocked to when LastPass started pulling the rug.

His replacement is Michael Sullivan, former CEO of Acquia and Insightsoftware. Sullivan’s LinkedIn page leads with his experience in “all facets of mergers and acquisitions, including direct experience with leading PE ﬁrms.”

In plain English: M&A is the business of buying and selling companies. Private equity ﬁrms buy businesses, cut costs, grow revenue, and sell them at a proﬁt. They’re not there to run a software company long-term — they’re managing an investment toward an exit. The people hired to run those companies are hired specifically because they know how that process works.

That’s the new CEO of your password manager. That’s what he leads with.

CFO Stephen Morrison also departed in April, replaced by former InVision CEO Michael Shenkman. Kyle Spearrin — who started building Bitwarden as a hobby project in 2015 because he was worried about what would happen to LastPass under new ownership — remains as CTO.

The irony is almost too much to type.

The Website Is Remodeling Too

The phrase “Always free” disappeared from the personal password manager page in mid-April. It used to sit prominently under the plan selector. The free plan still exists — for now — but the commitment language is gone.

And then there’s the values rewrite.

Bitwarden used to deﬁne its culture with the acronym GRIT: Gratitude, Responsibility, Inclusion, and Transparency. After May 4th, that changed. GRIT now stands for Gratitude, Responsibility, Innovation, and Trust.

Inclusion and Transparency are out. Innovation and Trust are in.

Did They Announce Any of This?

I looked hard.

Their blog has nothing about the new CEO. No press release about the values change. No dedicated post about “Always free” being retired as a promise. The press room is silent on all of it.

There is one thing. A 2022 blog post by Crandell — “Deﬁning and sustaining value for Bitwarden users” — was quietly edited. The GRIT list in the body now shows the new values: Innovation and Trust. But the explanatory paragraph at the bottom of the same post still says the old ones: Inclusion and Transparency. Crandell’s name is still on it. The post now contradicts itself, and nobody wrote a new one.

That’s their announcement. A half-scrubbed edit of a four-year-old post they didn’t even ﬁnish updating. Same playbook as the price hike — bury it in existing content, don’t draw attention, hope nobody reads closely enough to notice.

Somebody always does.

And since we’re here — in a 2024 interview, Crandell told Fast Company the free tier was “a ﬁrm commitment from the company. Fully featured, free forever.”

He’s in an advisory role now. “Always free” isn’t on the page.

I’ve Already Moved On

My Vaultwarden instance has been running since January. The Bitwarden cloud account is closed — I shut it down around the time that last post went live. I’m not watching this because I’m worried about my own passwords. I’m watching it because this is what I document.

The pattern is always the same: build trust, establish dependency, then quietly renegotiate the terms. And it never comes in a single dramatic announcement. It comes in layers. A feature post with a price change inside it. A LinkedIn update nobody made a press release about. A values page that says something slightly different than it did last week.

If you’re still on Bitwarden cloud and this is giving you pause — it should. I wrote about the GitHub version of this story in March — trusted open source platform, promises of independence, years of quiet erosion, then Phase 3. The parallel is close enough to make you nervous. And if you want to actually own your vault rather than wait and see: here’s how I did it.

My read on where this is going: Sullivan’s entire career is taking companies to an exit. Maximize revenue, clean up the balance sheet, make the numbers attractive, ﬁnd a buyer — a big tech company, a rival like 1Password, someone who wants the user base or the enterprise contracts. That’s what you hire this proﬁle of CEO to do. And if that happens, the hard forks won’t be a question. The price hike got grumbling. Watching your password manager get swallowed by a company you switched away fromwould kick them off properly.

A Note for Vaultwarden Users

Whether self-hosting stays viable long-term is the real question worth sitting with.

Right now it works because Bitwarden’s clients are open source and the server API is public. Vaultwarden implements that API, and the ofﬁcial apps can’t tell the difference. That depends on Bitwarden continuing to publish open source clients and not restricting which servers they’ll talk to — neither of which is guaranteed under new management.

The brake on the worst case: self-hosting is a listed Enterprise feature that generates real revenue. Killing it upsets paying business customers. That matters.

The catch: what Bitwarden sells to enterprises is their own ofﬁcial server stack, not Vaultwarden. Vaultwarden exists in a space they’ve tolerated but never endorsed. If the calculus shifts, the tolerance ends without any announcement. Just let the API drift until compatibility breaks on its own.

I don’t think that’s imminent. But I also thought the free tier commitment was ironclad, and “Always free” isn’t on the page anymore.

The real safety net is that Bitwarden’s clients are Apache 2.0 licensed. A fork would need a rebrand to stay clear of the trademark — different name, tweaked UI, same engine — but that’s a speed bump, not a wall. The web vault works through any browser regardless of what happens to the apps, so worst case you’d lose autoﬁll temporarily while a fork caught up. Inconvenient, not catastrophic. Vaultwarden itself is already proof the model works.

Watch the clients. If they go closed, the community will notice fast, and the fork will follow.

Read more Read the original on blog.ppb1701.com →

Read the original on blog.ppb1701.com →

GitHub - zakirullin/files.md: 🌱 Your life in plain .md files

github.com

655 shares · 26 trendiness

Private, quiet space for thinking. A simple app for your .md ﬁles.

You can store your whole life:

📌 Notes

📝 Documents, Projects

💚 Journal, Habits

✅ Checklists, Tasks

All in plain .md ﬁles, local-ﬁrst. LLM-friendly. Private - no data is sent to server.

You should own your ﬁles, and the software that opens them. You grow your knowledge with your brain. You grow software around it with an LLM. Both can last through the ages.

Try it out: app.ﬁles.md (Beta). Main site: ﬁles.md.

I have been building this project for 5 years. Consider sponsoring it on GitHub 💚.

Dump your thoughts · How to think deeply · Second Brain?

Another note taking app?

Maybe. But this time:

Only necessary features, restrictions foster creativity

No need to install anything, all you need is a browser

Works ofﬂine

Local-ﬁrst, ﬁles don’t leave your device

Free and open source

Extremely simple code. One person or an LLM can ﬁt the whole project in head

The codebase is ready for your LLM to extend to your needs

Portable, no build systems, just open web/index.html

Optional out of the box synchronization

The server is just one binary (or use iCloud/Dropbox/Google Drive for sync)

Telegram chatbot for on-the-go access to your ﬁles

How to use

Open app.ﬁles.md in Chrome browser

Click “Install ﬁles.md” on the right side of the address bar:

Open a local folder to persist changes

Occasionally hit force-refresh (Cmd+Shift+R) to get new updates.

How to sync

Dump your thoughts

You can use chat to quickly dump your thoughts.

Open the chat and send a message:

Choose where to save (can do later):

With this ﬂow you can quickly save notes, tasks, journal records and checklists.

Save things in the chatbot

Open the chat, write something and press Enter:

That’s it.

Telegram Bot

Other messengers will follow.

How to think deeply

Connect ideas. Let them compound. Think through.

I used app.ﬁles.md to grow my knowledge about brain and software development

I added new notes to either brain or dev folders. One idea per note

I made connections between the relevant notes in the web app (type [)

Everything is connected, just as in our brain

I spent time travelling through the notes and thinking it through

At one point, some brain and dev notes appeared very related

This connection between two different domains produced an insight

I wrote an article based on that insight: Cognitive Load in Software Development

All this activity helped me to:

Think deeply (which is very important in the AI-age)

Think systematically and see the bigger picture

Write insightful texts

To achieve all that, you’ll have to use your brain, not advanced templates or AI workﬂows.

Start with no structure at all, 0 folders

One idea per note

Every note should be understood without context

Apply new knowledge immediately, don’t save it for future self

Link related notes

Revisit your notes and think through

My friends and I have been using this simple setup for ﬁve years, and it works well.

Second Brain?

I’ll quote I Deleted My Second Brain:

Obsidian is a brilliant piece of software. I love it, dearly. But like anything, without restraint, it can also be a trap. Markdown ﬁles in nested folders. Plugins that track your productivity. Graph views that suggest omniscience. There’s an illusion of mastery in watching your notes web into constellations. But constellations are projections. They tell stories. They do not guarantee understanding. When I ﬁrst started using PKM tools, I believed I was solving a problem of forgetting. Later, I believed I was solving a problem of integration. Eventually, I realized I had created a new problem: deferral. The more my system grew, the more I deferred the work of thought to some future self who would sort, tag, distill, and extract the gold. That self never arrived.

When I ﬁrst started using PKM tools, I believed I was solving a problem of forgetting. Later, I believed I was solving a problem of integration.

Eventually, I realized I had created a new problem: deferral. The more my system grew, the more I deferred the work of thought to some future self who would sort, tag, distill, and extract the gold.

That self never arrived.

The Second Brain is thrilling. Advanced guru templates, plugins and AI workﬂows… One wants to scrape the wisdom of the whole internet. There’s some beauty in this neat system. Every new note brings dopamine. Second Brain gets better and better.

However, the ﬁrst brain never actually gets smarter. And that’s an issue - in the AI age, your ﬁrst brain is as valuable as ever.

Use your brain to think through the notes. The tool is not important, your thinking is.

Before adding a new note, try to answer these questions:

How this new knowledge can sharpen my judgment or expand my taxonomy?

How can I see the world differently, given this new knowledge?

Notes can prevent experience

Reading and taking notes can easily fool us into believing that we understand a text

We think we understand, but in reality we just know

At some point our “knowing” is so good, that we start feeling that we actually do it (or at least tried)

The worst thing is that we don’t let new experiences emerge because we already have knowledge. It’s a knowledge barrier. Life gives us opportunities to live through new experiences, but we refuse, because “we already know”.

Self-help through reading and taking notes? 🧘‍

Harm caused at the emotional level must be healed at the emotional level.

Not through intellectual work and taking notes. Reading without action is entertainment. A form of procrastination. No amount of self-help books can heal emotional wounds. What can help is psychotherapy, rescripting and chair work. Meditation. Healing happens by feeling.

When to take notes

If your goal is to:

Develop a deeper, more structured understanding of something

Do research

Write an article or a book

Then taking notes is perfectly ﬁne.

Files structure

You don’t have to think about the structure, it is predeﬁned. Although, you’re free to use whatever structure you want.

Chat: Chat.md

Notes: brain/Note.md, <category>/*.md

Checklists: Read.md, Watch.md, Shop.md, MyChecklist_.md

Journal: journal/2024.08 August.md

Tasks: Later.md

Habits: habits/Ate consciously.md, habits/*.md

Images: media/* (png, jpg, webp, gif)

Archive: archive/*.md

Read more Read the original on github.com →

Read the original on github.com →

RTX 5090 + M4 MacBook Air: Can it Game?

scottjg.com

653 shares · 22 trendiness

What if you could strap a full desktop GPU to your MacBook Air? Turns out, you can.

Just a quick FTC required note: When you buy through my links, I may earn a commission.

Never tell me the odds

As much as I hate to admit it, step one in most of my projects now is to ask AI about it. Maybe it’ll tell me something I don’t know.

Fortunately, borderline-impractical is kind of my thing.

What’s a Thunderbolt eGPU?

Ok, so the plan is to plug a big PC gaming GPU, an NVIDIA RTX 5090, into my M4 MacBook Air. To do that, we plug it into a Thunderbolt dock which adapts PCIe to Thunderbolt, and we plug that into a USB-C port.

Thunderbolt tunnels PCIe over a USB-C cable, so from the computer’s perspective a Thunderbolt device really is a PCIe device, not a USB one. You get 4 PCIe lanes at up to 40Gbps on Thunderbolt 4, with a small performance penalty for the tunneling. USB4 includes the same PCIe tunneling as an optional feature, so some non-Thunderbolt USB4 ports can do this too. You can use this to plug a GPU into a laptop with a compatible port.

Thunderbolt from the laptop plugs into the GPU dock. The GPU plugs into the monitor via DisplayPort. Shortly after this was taken, I broke this dock.

From the computer’s perspective, the device looks more or less like a slightly slower PCIe device, so you can usually use the same drivers you’d normally use for those devices. eGPUs work pretty much out of the box on Linux and Windows. It’s even possible to use one on a Raspberry Pi (albeit with Oculink, not Thunderbolt).

The ﬁrst hurdle is that macOS does not ship with drivers for NVIDIA or AMD GPUs on Apple Silicon.

What about tinygrad?

tinygrad recently released their own macOS eGPU drivers. It’s a whole new AI stack with its own open source driver pipeline for NVIDIA and AMD hardware.

Sadly, if your main objective is to run AI inference or play games, tinygrad probably isn’t the solution you’re looking for. This video by YouTuber Alex Ziskind shows that using an eGPU via tinygrad for inference is about 10 times slower than running native Metal inference directly on an M4 Pro without an eGPU. You can only use the tinygrad eGPU driver with the tinygrad stack, not for anything else. It also has very limited support for different AI models.

Getting NVIDIA PTX code running on the GPU is one thing. Writing a full general-purpose display driver that works with arbitrary software is a significantly harder problem. So for now, what can you actually do with an eGPU and a Mac?

The existing Linux driver

Linux can run on Apple Silicon Macs now. Regrettably, at this time, the Linux kernel does not support Thunderbolt on Apple Silicon (only internal devices and USB3). But…

You can run Linux in a 64-bit ARM VM on a macOS host. macOS supports Thunderbolt devices. Linux supports NVIDIA GPUs. Let’s put the pieces together and pass through the GPU into the Linux VM.

At a high level, we’re just going to put the GPU in the Linux VM. The VM is the same architecture as the Mac host (arm64), so performance should be comparable. Of course, the devil is in the details.

There is no driver for NVIDIA cards on ARM64 Windows. That’s why we use Linux.

For a quick video demo of the result, take a look:

In the rest of the post, I’ll go through the long and winding road of getting this to actually work. If you just want to see screenshots and benchmarks, you can probably skip to the benchmark section.

Engineering PCI Passthrough on macOS

PCI device basics

Let’s look at two things we need working for the VM to talk to the PCI device:

PCI BAR (Base Address Registers) - Each PCI device communicates through chunks of memory that the computer can read and write to. There’s basically a reserved region of memory on your computer for each device. Those memory regions have to be mirrored into the VM for PCI passthrough to work.

DMA (Direct Memory Access) - This is how the device can read and write information directly in/out of your computer’s memory. Instead of having the CPU burn cycles copying data from the device, the device can copy the memory automatically. For a GPU, it might be used to copy textures directly from the computer’s memory into its own video memory.

Mapping PCI BARs

When QEMU starts a VM, it sets up the guest’s memory layout. For normal RAM, this boils down to a call to hvf_set_phys_mem() in QEMU, which uses the Hypervisor.framework method:

hv_vm_map(mem, guest_physical_address, size, HV_MEMORY_READ | HV_MEMORY_WRITE | HV_MEMORY_EXEC);

Next, we connect to the host PCIDriverKit driver and ask to map the memory from the PCI device into our process. (I’m leaving the driver-side code out for now, but it’s very similar boilerplate.)

// map BAR0 into the current process and set `addr` to the location // where it was mapped mach_vm_address_t addr = 0; mach_vm_size_t size = 0; IOConnectMapMemory64(driverConnection, 0, mach_task_self(), &addr, &size, kIOMapAnywhere);

Ok, so then we have addr, which now points to the BAR0 memory that we can access directly in our process. At this point you can just read and write stuff to it, like any other piece of memory.

volatile uint32_t *bar0 = (volatile uint32_t *)addr; printf(“BAR0[0] = %x\n”, bar0[0]); // this would output: BAR0[0] = 0x1b2000a1 // which is a device-speciﬁc constant that describes my RTX 5090 // // BAR0[0] is the BOOT_0 register. The ﬁelds break down as: // arch = 0x1b → GB200 GPU family // impl = 0x2 → GB202 die (RTX 5090) // major_rev = 0xa → stepping A // minor_rev = 0x1 → revision 1 (together: stepping A1)

Now we just make sure QEMU calls hvf_set_phys_mem() for our device memory, and we can map that into the guest. When guest code touches that mapping, it talks directly to the GPU with minimal host overhead. This is the best case for performance. At least, in theory.

In practice, as soon as the VM touched the PCI BAR memory, the host kernel crashed.

If you’ve never experienced this before, it’s disorienting. Your entire computer will hang, and because the trackpad feedback is controlled by software, suddenly the trackpad will no longer click. The dogs and cats in your neighborhood start howling. Pictures fall off the walls of your house. Eventually your computer will reboot, and you will be presented with this dialog.

Ok, so we can’t map device memory directly, but we have other tricks up our sleeve. We can trap every access to the memory, exit the guest back into QEMU, and have QEMU forward each read or write to the device. That keeps behavior correct, but it’s brutally slow. In many workloads the pain is elsewhere. Most of the performance-sensitive work is DMA, but some paths still care how fast you can push commands through the BAR.

I started preparing a bug report for Apple and wrote a small reproduction (well, AI-assisted) to demonstrate the issue:

In ~100 lines of C, you can spin up a VM, map the device BAR into the guest, and run code that touches it. I’m still not sure whether that was more frustrating or encouraging, but that version ran without crashing, while QEMU was still panicking the host. I was stumped for a while. Was it the guest page tables? Was the BAR colliding with guest RAM in some subtle way? Why were the dogs and cats still howling?

Eventually, in my desperation, I asked an AI coding assistant to compare my sample and QEMU. It immediately ﬂagged that my mapping used HV_MEMORY_READ | HV_MEMORY_WRITE while QEMU used HV_MEMORY_READ | HV_MEMORY_WRITE | HV_MEMORY_EXEC. Alas, bested again by AI. Not even silly blog projects are safe anymore (mostly kidding).

The workaround in QEMU was a small change:

It works, but it’s not perfect. ARM has several ﬂavors of device memory (the Device-nGnRnE/nGnRE/nGRE/GRE family), with different rules for whether writes can be gathered, reordered, or acknowledged early. It’s roughly analogous to x86 write-combining on the most permissive end.

On real hardware, the prefetchable BARs on my GPU are supposed to allow gathering, which makes them several times faster for bulk writes than BAR0. But hv_vm_map() has no ﬂags to conﬁgure this, so every device mapping ends up as the strictest nGnRnE. There’s nothing we can do about it, and it’s still ~30x faster than trapping every access, but it makes writing the BAR ~10x slower than it would be normally.

DMA

This was by far the sketchiest part of the project. To start, let’s go over how this works on a PC running Linux with VM PCI-passthrough, and then we’ll compare to our challenge on macOS.

When there’s just a computer talking to a device (no VM involved), they can talk together directly. The PC will tell the device “hey I got that DMA buffer ready at this memory address” and the device can access that memory directly (AKA DMA). Easy.

When a VM is involved, it’s more complicated. Guest physical addresses don’t correspond to host physical addresses. The VM’s RAM is just some chunk of host memory allocated wherever it was available. So if the guest tells the device “DMA into 0x00000000,” the device will happily scribble over whatever actually lives there on the host. The simplest ﬁx is two things:

Pin all guest memory so it can’t be paged out while the device might touch it.

Put a hardware unit called the IOMMU between the device and host memory. The hypervisor programs it with the guest → host translations, and every DMA request from the device gets remapped on the ﬂy.

DMA Request:Read/Write0x00000000

IOMMU

Translation Table

0x00000000 – 0x80000000

0x20000000 – 0xA0000000

Translated to:0x20000000

Host Physical Memory

0x20000000 – 0xA0000000

This is a blunt solution. The guest doesn’t have to do anything special, but the host has to keep all guest RAM pinned. There are more advanced approaches (like a virtual IOMMU), but they’re outside the scope of this post.

DMA on Apple Silicon

On Apple Silicon, there’s a hardware unit called DART that’s more or less equivalent to an IOMMU. It’s not speciﬁc to VMs; it also acts as a security boundary, preventing devices from accessing arbitrary host memory. Ideally we’d just use DART the same way Linux uses the IOMMU in the simple case above.

Unfortunately, DART (at least via PCIDriverKit for Thunderbolt devices) has some hard constraints:

~1.5GB mapping limit. A VM with 1.5GB of RAM can technically boot, but CUDA runs out of memory and any modern game needs 8 – 16GB.

~64k mapping cap. With many small DMA buffers the mapping table ﬁlls up.

No address or alignment control. PCIDriverKit assigns mapped addresses for you. You can’t pick them, or specify alignment constraints. This rules out a virtual IOMMU, which requires the guest to choose its own DMA addresses.

The 1.5GB ceiling was the biggest initial blocker. I tried a few workarounds: pre-mapping ranges where I guessed DMAs might land (obviously didn’t work), and using a restricted-dma-pool device tree attribute to force all DMA through a pre-allocated region. The restricted pool approach actually works for simpler devices, but GPU drivers are too weird to ﬁt into that model. (If you’re curious about the speciﬁcs, there’s a qemu-devel thread where I discuss it.)

apple-dma-pci

I ended up designing a new virtual PCI device in QEMU called apple-dma-pci. It gets inserted into the VM alongside the passed-through GPU, and a companion kernel driver in the guest intercepts the NVIDIA driver’s DMA mapping calls. The solution is, frankly, a very upsetting hack, but it works.

Because mappings are created on demand per DMA request and torn down when the buffer is freed, we reduce the amount of mapped memory we need at any given time. Only the working set of live DMA buffers at any given moment has to ﬁt in our 1.5GB limit, as opposed to the entirety of guest memory.

The guest driver is loaded early (via an /etc/modules-load.d/ conﬁg), so it can ﬁnd the GPU at probe time and swap in custom DMA ops before the NVIDIA driver touches it:

static struct dma_map_ops apple_dma_ops = { .map_page = apple_dma_map_page, .unmap_page = apple_dma_unmap_page, .map_sg = apple_dma_map_sg, .unmap_sg = apple_dma_unmap_sg, .alloc = apple_dma_alloc, .free = apple_dma_free, };

static int apple_dma_pci_probe(struct pci_dev *pdev, const struct pci_device_id *id) { struct pci_dev *gpu = pci_get_device(PCI_VENDOR_NVIDIA, PCI_ANY_ID, NULL); if (!gpu) return -ENODEV;

set_dma_ops(&gpu->dev, &apple_dma_ops); pci_dev_put(gpu); return 0; }

Each of the custom ops is a thin wrapper. It marshals its arguments into a small request, writes it into memory for the apple-dma-pci virtual BAR, kicks a doorbell register, and waits for a reply. On the host side, QEMU picks up the request, hands it off to the PCIDriverKit driver, which performs the actual DART mapping, and the resulting DMA address gets written back to guest memory. The NVIDIA driver shouldn’t know the difference.

Linux VM (Guest)

NVIDIA Driver

dma_map_page()

apple_dma_ops handler

virtual PCI BAR write

apple-dma-pci virtual device

VM exit

macOS Host

QEMU

IOConnectCallMethod()

PCIDriverKit driver

IODMACommand

DART hardware

mapped address returned back up the stack

NVIDIA alignment quirk

It didn’t immediately work well, though. While the driver initially loaded and initialized the card, I was greeted with this fun kernel log message as soon as I attempted to run a CUDA workload:

[ 456.194883] NVRM: nvAssertOkFailedNoLog: Assertion failed: The offset passed is not valid [NV_ERR_INVALID_OFFSET] (0x00000037) returned from pRmApi->Alloc(pRmApi, device->session->handle, isSystemMemory ? device->handle : device->subhandle, &physHandle, isSystemMemory ? NV01_MEMORY_SYSTEM : NV01_MEMORY_LOCAL_USER, &memAllocParams, sizeof(memAllocParams)) @ nv_gpu_ops.c:4972 [ 456.371282] NVRM: GPU0 nvAssertFailedNoLog: Assertion failed: 0 == (physAddr & (RM_PAGE_SIZE_HUGE - 1)) @ mem_mgr_gm107.c:1312 [ 456.372020] NVRM: nvAssertOkFailedNoLog: Assertion failed: The offset passed is not valid [NV_ERR_INVALID_OFFSET] (0x00000037) returned from pRmApi->Alloc(pRmApi, device->session->handle, isSystemMemory ? device->handle : device->subhandle, &physHandle, isSystemMemory ? NV01_MEMORY_SYSTEM : NV01_MEMORY_LOCAL_USER, &memAllocParams, sizeof(memAllocParams)) @ nv_gpu_ops.c:4972

If you recall the earlier DMA section, we noted that we can’t control the alignment of DMA-mapped buffers. Bummer. At this point, I dug into the driver to try to see if there was something simple we could patch.

Here’s the relevant segment:

if (type == UVM_RM_MEM_TYPE_SYS) { if (size >= UVM_PAGE_SIZE_2M) alloc_info.pageSize = UVM_PAGE_SIZE_2M; else if (size >= UVM_PAGE_SIZE_64K) alloc_info.pageSize = UVM_PAGE_SIZE_64K;

status = uvm_rm_locked_call(nvUvmInterfaceMemoryAllocSys(gpu->rm_address_space, size, &gpu_va, &alloc_info));

// TODO: Bug 5042223 if (status == NV_ERR_NO_MEMORY && size >= UVM_PAGE_SIZE_64K) { UVM_ERR_PRINT(“nvUvmInterfaceMemoryAllocSys alloc failed with big page size, retry with default page size\n”); alloc_info.pageSize = UVM_PAGE_SIZE_DEFAULT; status = uvm_rm_locked_call(nvUvmInterfaceMemoryAllocSys(gpu->rm_address_space, size, &gpu_va, &alloc_info)); } }

By adding more debug logging in the module, I could see it was a 16MB allocation of type UVM_RM_MEM_TYPE_SYS. So, it uses the largest (2MB) page size. Ironically, there is already a workaround here when the allocation fails. It’ll just try again with a smaller page size. It just doesn’t take into account the different error code for alignment (NV_ERR_INVALID_OFFSET).

Read more Read the original on scottjg.com →

Read the original on scottjg.com →

Rewrite Bun in Rust by Jarred-Sumner · Pull Request #30412 · oven-sh/bun

github.com

645 shares · 25 trendiness

Blog post with details coming soon.

It passes Bun’s pre-existing test suite on all platforms (and ﬁxes several memory leaks and ﬂaky tests), the binary size shrinks by 3 MB - 8 MB, the benchmarks are between neutral and faster - and most importantly, we now have compiler-assisted tools for catching & preventing memory bugs, which have costed the team an enormous amount of development & debugging time over the years.

The codebase is otherwise largely the same. The same architecture, the same data structures. Bun still uses few 3rd party libraries. No async rust.

To try this, run:

bun upgrade –canary

Please do ﬁle issues if you run into any. If this thread gets crazy I will lock it.

Note:

Still some optimization work to do before this lands in non-canary version.

Still some cleanup work to do (which will come in a series of follow-up PRs)

Read more Read the original on github.com →

Read the original on github.com →

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