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Japan develops a method to recover up to 90% of lithium from used EV batteries

https://tech.supercarblondie.com/japan-recovers-up-to-90-of-lithium-from-used-ev-batteries/
508•donohoe•8h ago•127 comments

Alternative(s) to run CUDA on non-Nvidia hardware

https://www.hpcwire.com/2026/07/09/spectral-compute-aims-to-set-cuda-free-will-it-succeed/
43•alok-g•2h ago•20 comments

Australian energy retailers must provide three hours of free daytime electricity

https://lenergy.com.au/free-daytime-electricity-is-coming-heres-how-it-actually-works/
114•i2oc•6h ago•167 comments

The git history command

https://lalitm.com/post/git-history/
315•turbocon•9h ago•180 comments

Indian scientists produce most detailed 3D atlas of the human brainstem

https://www.bbc.com/news/articles/cg53l737v1qo
59•BaudouinVH•3h ago•4 comments

YouTrackDB is a general-use object-oriented graph database

https://github.com/JetBrains/youtrackdb
126•gjvc•7h ago•39 comments

Building and shipping Mac and iOS apps without opening Xcode

https://scottwillsey.com/building-and-shipping-mac-and-ios-apps-without-ever-opening-xcode/
482•speckx•16h ago•205 comments

Fundamentals of Wireless Communication (2005)

https://web.stanford.edu/~dntse/wireless_book.html
137•teleforce•8h ago•5 comments

How to build a circular LCD clock

https://blinry.org/lcd-clock/
85•birdculture•2d ago•32 comments

Notable Knot Index (2016)

https://knots.neocities.org/knotindex
5•surprisetalk•4d ago•0 comments

Just Let Me Write Digits

https://gendx.dev/blog/2026/07/13/input-digits.html
37•brandon_bot•4h ago•5 comments

Zero Knowledge Tolstoyan Art

https://max-amb.github.io/blog/zero_knowledge_tolstoyan_art/
24•max-amb•2d ago•7 comments

The Economics of Recursive Self-Improvement [pdf]

https://elasticity.institute/rsi-paper.pdf
100•apsec112•9h ago•37 comments

An Englishwoman who sketched India before photography took hold

https://www.bbc.com/news/articles/cm2drrv6q54o
160•1659447091•11h ago•49 comments

Satellite Tracker – Live Map of Starlink and 30k Satellites

https://satellitemap.space/
95•rolph•8h ago•46 comments

Is x86 ready to ACE it?

https://chipsandcheese.com/p/is-x86-ready-to-ace-it
82•mfiguiere•9h ago•14 comments

MorphoHDL: A minimalistic language for growing circuits

https://paradigms-of-intelligence.github.io/morpho/
74•jacktang•9h ago•8 comments

World-First 'Super Alloy' Could Transform the Way Metals Are Made

https://www.sciencealert.com/world-first-super-alloy-could-transform-the-way-metals-are-made
70•tejohnso•4d ago•40 comments

Understanding the Go Runtime: Profiling

https://internals-for-interns.com/posts/go-runtime-profiling/
7•valyala•6d ago•5 comments

The infinite scroll may become endangered if controversial Calif. law passes

https://www.sfgate.com/politics/article/meta-social-media-teenagers-22337724.php
175•Stratoscope•15h ago•301 comments

Writing a bindless GPU abstraction layer

https://www.kevin-gibson.com/blog/writing-a-bindless-gpu-abstraction-layer/
54•surprisetalk•4d ago•7 comments

Two Case Studies of NaN

https://sebsite.pw/w/20260709-nan.html
8•theanonymousone•2h ago•5 comments

Our Amish Language

https://www.thedial.world/articles/news/amish-pennsylvania-dutch
55•NaOH•8h ago•34 comments

Jektex 0.2.0 – A Jekyll plugin for LaTeX rendering is now ~10x faster

https://github.com/yagarea/jektex
20•yagarea•2d ago•1 comments

Nokia’s years of mobile-phone supremacy ended in an afternoon

https://spectrum.ieee.org/nokia-phones-history
127•jruohonen•20h ago•93 comments

Two Case Studies of NaN

https://sebsite.pw/w/20260709-nan.html
20•ryantsuji•4d ago•5 comments

Linux 0.11 rewritten in idiomatic Rust, boots in QEMU

https://github.com/Poseidon-fan/linux-0.11-rs
107•arto•14h ago•96 comments

What are Forward Deployed Engineers, and why are they so in demand? (2025)

https://newsletter.pragmaticengineer.com/p/forward-deployed-engineers
65•saisrirampur•11h ago•70 comments

Linux on the Sega 32X. Who needs hardware synchronization primitives anyway?

https://cakehonolulu.github.io/linux-on-32x/
135•cakehonolulu•16h ago•28 comments

SalesPatriot (YC W25) Is Hiring Full Stack Engineers (SF)

https://jobs.ashbyhq.com/SalesPatriot/df223727-5781-433e-bc75-2aa5bf8dc8d7
1•maciejSz•13h ago
Open in hackernews

Linear Programming for Fun and Profit

https://modal.com/blog/resource-solver
62•hmac1282•1y ago

Comments

ayhanfuat•1y ago
> X = [x1, ..., Xn]: instances of each type to launch

Is this a continuous variable? Seems discrete to me. I am surprised it is solved by simplex.

Frummy•1y ago
It's the answer, a vector of integers
ayhanfuat•1y ago
Simplex cannot give a vector of integers though, unless the constraint matrix is unimodular. Maybe the integrality constraint was relaxed.
cweld510•1y ago
You're right -- we do relax the integrality constraint, gaining performance at the expense of some precision, and we're generally able to paper over the difference at scheduling time. We've investigated integer linear programming for some use cases, but for solves to run quickly, we have to constrain the inputs significantly.
ayhanfuat•1y ago
Thanks for the clarification. I guess it wouldn’t matter much if the numbers are large. Initially I thought they were mostly ones and zeros.
stncls•1y ago
If this is business critical for you, you may want to switch to a faster solver. Glop is very nice, but it would be reasonable to expect a commercial solver (Gurobi, XPress, COpt) to be 60x faster [1]. By the same measure, the best open source solvers (CLP, HiGHS) are 2-3x faster than Glop.

Actually, the commercial solvers are so fast that I would not be surprised if they solved the IP problem as fast as Glop solves the LP. (Yes, the theory says it is impossible, but in practice it happens.) The cost of a commercial solver is 10k to 50k per license.

[1] ... this 60x number has very high variance depending on the type of problem, but it is not taken out of nowhere, it comes from the Mittelmann LP benchmarks https://plato.asu.edu/ftp/lpopt.html There are also benchmarks for other types of problems, including IP, see the whole list here: https://plato.asu.edu/bench.html

petters•1y ago
If you are able to paper over the fractional numbers and get a usable solution, an integer solver should also be able to find a feasible solution easily. Perhaps not optimal, but better than just solving the LP and rounding
hustwindmaple1•1y ago
You are basically doing a heurstic. Your solutions are not guaranteed to be optimal. Integer programming is the way to do.
cweld510•1y ago
Great to see this post here -- really enjoyed writing it! I think it's really cool how an algorithm from an operational research context can play a critical role in a high-availability large-scale cloud service.
sumtechguy•1y ago
LP is a shockingly good way to optimize a system. If you can put inputs/outputs into the correct form. Had an econ prof that loved these things for doing supply/demand maxima and minimum finding. He didnt outright say it but I think it was his current line of study when I was taking classes from him the 90s. I thought that, as he managed to bring it up in every class he taught.
Onavo•1y ago
Well, kantorovich did win the Nobel for inventing that.
underanalyzer•1y ago
Neat article. I do wish it mentioned that there are polynomial time algorithms to solve linear programming problems. According to the Google ortools docs it has the option to use those as well (but not with the GLOP solver). Might be good for when simplex is struggling (https://developers.google.com/optimization/lp/lp_advanced)
stncls•1y ago
You're right, but it's very subtle and complicated.

In theory, the simplex method is not known to be polynomial-time, and it is likely that indeed it is not. Some variants of the simplex method have been proven to take exponential time in some worst cases (Klee-Minty cubes). What solvers implement could be said to be one such variant ("steepest-edge pricing"), but because solvers have tons of heuristics and engineering, and also because they work in floating-point arithmetic... it's difficult to tell for sure.

In practice, the main alternative is interior-point (aka. barrier) methods which, contrary to the simplex method, are polynomial-time in theory. They are usually (but not always) faster, and their advantage tends to increase for larger instances. The problem is that they are converging numerical algorithms, and with floating-point arithmetic they never quite 100% converge. By contrast, the simplex method is a combinatorial algorithm, and the numerical errors it faces should not accumulate. As a result, good solvers perform "crossover" after interior-point methods, to get a numerically clean optimal solution. Crossover is a combinatorial algorithm, like the simplex method. Unlike the simplex method though, crossover is polynomial-time in theory (strongly so, even). However, here, theory and practice diverge a bit, and crossover implementations are essentially simplified simplex methods. As a result, in my opinion, calling iterior-point + crossover polynomial-time would be a stretch.

Still, for large problems, we can expect iterior-point + crossover to be faster than the simplex method, by a factor 2x to 10x.

There is also first-order methods, which are getting much attention lately. However, in my experience, you should only use that if you are willing to tolerate huge constraint violations in the solution, and wildly suboptimal solutions. Their main use case is when other solvers need too much RAM to solve your instance.

Onavo•1y ago
The most interesting question is how you scrape the prices. The cloudprovider really need to provide an API.
underanalyzer•1y ago
Very interesting! Thanks for the reply. I wonder if they tried these other solvers and decided they were either too slow b/c their problems were too small or the answers were too inaccurate