Monthly Archives: November 2023

Hundreds of OpenAI employees threaten to resign and join Microsoft

Source: The Verge - All Posts

Article note: Definitely a real, mature industry and not some investors flailing in a hype cycle. Microsoft is making out on the whole situation though.
Photo of Satya Nadella standing in front of a sign that reads Microsoft loves OpenAI
Microsoft CEO Satya Nadella onstage at Ignite 2023 in November. | Image: Microsoft

Most of the staff at OpenAI have threatened to resign from the company and join Microsoft, which has hired ousted OpenAI CEO Sam Altman and former OpenAI co-founder Greg Brockman to lead a new “advanced AI research team.” In a letter to OpenAI’s board that was reported on this morning by Wired and journalist Kara Swisher, more than 500 current OpenAI staffers say that “Microsoft has assured us that there are positions for all OpenAI employees at this new subsidiary should we choose to join.”

The letter says the OpenAI employees will leave if the board does not reinstate Altman and Brockman and then resign. But seeing as the board has already made its choice, deciding to remain in place and naming a new CEO, while Altman and Brockman head...

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YouTube artificially slows down video load times when using Firefox

Source: Hacker News

Article note: Fuckers. It even seems like it might be adblocking evasion/detection related. It's a huge invitation for regulatory scrutiny that they'll no doubt weasel out of if it even starts.
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Defence against scientific fraud: a proposal for a new MSc course

Source: Hacker News

Article note: This would be excellent for society, because from where I'm sitting academia is rife with fraud and "fraud-adjacent" behavior. ... and with the amount of fraud adjacent behavior more or less required to compete with fraud-enabled expectations of academic career arcs, it doesn't matter how much you train people, they're still incentivized to behave in fraud-adjacent ways.
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Supersize Your Intel 4004 By Over 10 Times

Source: Hack a Day

Article note: That's beautiful.
The masks with which the Intel 4004 was fabricated
A PCB covered in discrete transistors with light shining through it
This is quite a bit bigger than the original 12mm² die.

The Intel 4004 was among the first microprocessors and one of the first to use the MOS silicon-gate technology. In the decades long race to build bigger CPUs, it’s been mostly forgotten. Forgotten that is, until [Klaus Scheffler] supersized it over ten-fold!

The project took about 2 years to complete and re-creates it faithfully – all 2,300 transistors included – enough to run software written for the Intel 4004. But the idea for this project isn’t unique and dates all the way back to 2000, so what gives? Turning a bunch of masks for silicon fabrication into a schematic is actually harder than it seems! [Tim McNerney] originally came up with the idea to make a giant 4004 for its “35th anniversary”. [Tim] managed to convince Intel to give him schematics and other drawings and would in return make an exhibit for Intel’s museum. With the schematic straight from [Frederico Faggin], software analysis tools from [Lajos Kintli] and [Klaus Scheffler] to actually build the thing, they did what [Frederico] did in one year without CAD, but in two with modern tools.

The full story by [Tim] is a lot longer and it’s definitely worth a read.

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Half-Life 25th Anniversary Update

Source: Hacker News

Article note: Cool!
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Reptar

Source: Hacker News

Article note: Welp, that's a pretty clear sign that the vast accretion of inconsistent bullshit in modern x86 family parts has made the ISA practically impossible to implement properly. Doesn't sound like anyone has found anything other than a crash once the microcode enters the glitch state, but is sure is an interesting window into the implementation.
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A kernel developer made my styluses work again on newer kernels

Source: Hacker News

Article note: Huh. Linux has sprung a HID-BPF interface that lets you do BPF filters on HID devices, which is being used to handle device quirks instead of hardcoding everything in C. That's ...an extra layer of plumbing that can fuck with your devices... but also a much more inspect-able, adaptable, and portable one.
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The Apple Network Server’s all-too-secret weapon (featuring PPC Toolbox)

Source: Hacker News

Article note: Another one of these stories where folks at Apple were doing awesome work that prestaged things they did successfully later (usually in the form of "port the good user facing Mac features to Unix"), but it was nearly all eaten by managerial ineptitude. Not one I previously knew the details of; someone who worked on it is in the HN thread.
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Neopixels? Try Liquid Nitrogen to Color Shift Your LEDs Instead

Source: Hack a Day

Article note: I know the theory, it matches the intuition... it's still _wild_ to see happen.

If you’re like us, you’ve never spent a second thinking about what happens when you dunk an ordinary LED into liquid nitrogen. That’s too bad because as it turns out, the results are pretty interesting and actually give us a little bit of a look at the quantum world.

The LED fun that [Sebastian] over at Baltic Lab demonstrates in the video below starts with a bright yellow LED and a beaker full of liquid nitrogen. Lowering the powered LED into the nitrogen changes the color of the light from yellow to green, an effect that reverses as the LED is withdrawn and starts to warm up again. There’s no apparent damage to the LED either, although we suppose that repeated thermal cycles might be detrimental at some point. The color change is quite rapid, and seems to also result in a general increase in the LED’s intensity, although that could be an optical illusion; our eyes are most sensitive in the greenish wavelengths, after all.

So why does this happen? [Sebastian] goes into some detail about that, and this is where quantum physics comes into it. The color of an LED is a property of the bandgap of the semiconductor material. Bandgap is just the difference in energy between electrons in the valence band (the energy levels electrons end up at when excited) and the conduction band (the energy levels they start at.) There’s no bandgap in conductive materials — the two bands overlap — while insulators have a huge bandgap and semiconductors have a narrow gap. Bandgap is also dependent on temperature; it increases with decreasing temperature, with different amounts for different semiconductors, but not observably so over normal temperature ranges. But liquid nitrogen is cold enough for the shift to be dramatically visible.

We’d love to see the color shift associated with other cryogens, or see what happens with a blue LED. Want to try this but don’t have any liquid nitrogen? Make some yourself!

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Neopixels? Try Liquid Nitrogen to Color Shift Your LEDs Instead

Source: Hack a Day

Article note: I know the theory, it matches the intuition... it's still _wild_ to see happen.

If you’re like us, you’ve never spent a second thinking about what happens when you dunk an ordinary LED into liquid nitrogen. That’s too bad because as it turns out, the results are pretty interesting and actually give us a little bit of a look at the quantum world.

The LED fun that [Sebastian] over at Baltic Lab demonstrates in the video below starts with a bright yellow LED and a beaker full of liquid nitrogen. Lowering the powered LED into the nitrogen changes the color of the light from yellow to green, an effect that reverses as the LED is withdrawn and starts to warm up again. There’s no apparent damage to the LED either, although we suppose that repeated thermal cycles might be detrimental at some point. The color change is quite rapid, and seems to also result in a general increase in the LED’s intensity, although that could be an optical illusion; our eyes are most sensitive in the greenish wavelengths, after all.

So why does this happen? [Sebastian] goes into some detail about that, and this is where quantum physics comes into it. The color of an LED is a property of the bandgap of the semiconductor material. Bandgap is just the difference in energy between electrons in the valence band (the energy levels electrons end up at when excited) and the conduction band (the energy levels they start at.) There’s no bandgap in conductive materials — the two bands overlap — while insulators have a huge bandgap and semiconductors have a narrow gap. Bandgap is also dependent on temperature; it increases with decreasing temperature, with different amounts for different semiconductors, but not observably so over normal temperature ranges. But liquid nitrogen is cold enough for the shift to be dramatically visible.

We’d love to see the color shift associated with other cryogens, or see what happens with a blue LED. Want to try this but don’t have any liquid nitrogen? Make some yourself!

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