Supabase OrioleDB Patent: now freely available to the Postgres community
supabase.com
I replaced Animal Crossing's dialogue with a live LLM by hacking GameCube memory
joshfonseca.com
Kerberoasting
blog.cryptographyengineering.com
Some thoughts on personal Git hosting
shkspr.mobi
Made for People, Not Cars: Reclaiming European Cities
greeneuropeanjournal.eu
The subjective experience of coding in different programming languages
interconnected.org
Guy is running a Google rival from his laundry room
fastcompany.com
E-paper display reaches the realm of LCD screens
spectrum.ieee.org
Rendering flame fractals with a compute shader
wrighter.xyz
NASA finds Titan's lakes may be creating vesicles with primitive cell walls
sciencedaily.com
Infracost (YC W21) Is Hiring First Product Manager to Shift FinOps Left
ycombinator.com
Claude now has access to a server-side container environment
anthropic.com
Show HN: CrabCamera – Cross-platform camera plugin for Tauri desktop apps
crates.io
US High school students' scores fall in reading and math
apnews.com
All clickwheel iPod games have now been preserved for posterity
arstechnica.com
R-Zero: Self-Evolving Reasoning LLM from Zero Data
arxiv.org
PKM apps need to get better at resurfacing information
ankursethi.com
Leaked Ice document shows worker detained in Hyundai raid had valid visa
theguardian.com
YouTube is a mysterious monopoly
anderegg.ca
The article explains why you'd want this floating point monster at the bottom.
Here's the technical reason:
"The AI boom has left a bit of a blind spot for applications where high precision and result accuracy are paramount. In simulations for example, floating point error can compound over multiple iterations. Higher precision data types like FP64 can help reduce that error, and PEZY’s SC4S targets those applications."
And here's a summary of sovereignty reasons:
"At a higher level, efforts like PEZY-SC4s and Fujitsu’s A64FX show a curious pattern where Japan maintains domestic hardware architecture development capabilities. It’s contrasts with many other countries that still build their own supercomputers, but rely on chips designed in the US by companies like AMD, Intel, and Nvidia. From the perspective of those countries, it’s undoubtedly cheaper and less risky to rely on the US’s technological base to create the chips they need. But Japan’s approach has merits too. They can design chips tightly targeted to their needs, like energy efficient FP64 compute. It also leads to more unique designs"
Related discussion which was really interesting:
Why is Japan still investing in custom floating point accelerators? (nextplatform.com) https://news.ycombinator.com/item?id=45141907
232 points by rbanffy 2 days ago | 88 comments