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Daily links from Cory Doctorow

pluralistic.net

844 shares · 40 trendiness

Today’s links

Spying on kids to save kids from spying is very, very stupid: First they came for the VPNs.

Hey look at this: Delights to delectate.

Object permanence: RIP Darwin’s tortoise; ISPs conspire to create copyright jail; Waxy v fair use; Broken Windows is BS; Google is a machine-learning company; “Writing the Other”; Canadian wealth-tax.

Upcoming appearances: Toronto, NYC, Philadelphia, Chicago, London, Edinburgh, Sydney, Melbourne, Brighton, London, South Bend.

Recent appearances: Where I’ve been.

Latest books: You keep readin’ em, I’ll keep writin’ ’em.

Upcoming books: Like I said, I’ll keep writin’ ’em.

Colophon: All the rest.

Spying on kids to save kids from spying is very, very stupid (permalink)

The literature on harms to kids from online platforms is complex and nuanced, rife with people citing small, ambiguous studies as iron-clad evidence that kids are being destroyed by the internet:

https://www.youtube.com/watch?v=Ype6c6DdHQY

It’s a weird coalition of anti-Big Tech campaigners (who are rightly angry at the platforms’ callous disregard for user welfare) and Heritage Foundation-backed culture warriors (who think that if their kids aren’t exposed to LGBTQ content they won’t come out as queer). While there’s plenty these groups disagree about, they share one consensus: there should be a “minimum age” for certain kinds of internet use.

The problem is, there’s no such thing as “age veriﬁcation” for the internet. What we call “age veriﬁcation” is actually mass surveillance, so invasive and pervasive that it makes the ad-tech industry’s commercial surveillance look like some kind of cypherpunk darknet pirate utopia:

https://pluralistic.net/2025/08/14/bellovin/#wont-someone-think-of-the-cryptographers

“Age veriﬁcation” means that everyone who does anything online will have to submit to ﬁne-grained tracking and recording of all their online activities. This nightmare is the surveillance advertising industry’s fondest dream, a world where it’s literally illegal to avoid their tracking, all in the name of saving kids…from them!

So it’s not just a weird alliance of anti-Big Tech crusaders and the conspiratorial right that’s pushing for age veriﬁcation — they are unwitting allies of the very tech industry they think they’re ﬁghting. Those tech industry insiders are fully aware that an “age veriﬁcation” mandate is really a way for the government to teach every child how to use a VPN. They’re also fully aware that the next move is to ban VPNs:

https://www.express.co.uk/news/uk/2217934/vpn-ban-table-july-labour

Tech bosses are the ones sitting on our shoulders saying, “Go ahead, swallow that ﬂy — it’ll be ﬁne. And if you do have to swallow a spider afterward, well, that’ll surely be the end of it”:

https://pluralistic.net/2026/05/19/shes-dead-of-course/#consensus-hallucination

Behind them is a long line of caliper-wielding grifters who claim they can use your phone’s camera to distinguish a child who is 17 years, 364 days old from an adult who’s just turned 18:

https://www.gov.uk/government/publications/facial-age-estimation

It’s beyond farce. After all, whatever harms you believe the internet is inﬂicting on kids — and there’s absolutely some kids who are being harmed by their internet use — those harms all start with surveillance. Your kids can’t be targeted by algorithms without the surveillance data that’s being used to target them. They can’t be funneled into pro-anorexia content or extreme misogyny forums without that funnel being primed by commercial spying.

Why do tech companies spy on your kids? The same reason your dog licks its balls: because they can, and no one stops them:

https://pluralistic.net/2026/03/10/ice-tech/#foreseeable-outcomes

America hasn’t updated its consumer privacy laws since 1988 (when Congress banned the disclosure of your VHS rentals). The EU has the GDPR, but it also has Ireland, the country where all GDPR cases against Big Tech go to die, because any tax haven inevitably becomes a crime haven:

https://pluralistic.net/2025/10/31/losing-the-crypto-wars/#surveillance-monopolism

Other countries have privacy laws to varying degrees, but are grossly outmatched by US tech giants, who have fused with the Trump regime, to the extent that Trump will impose penalties on your country if you attempt to regulate his tech companies — he’ll even have your top ofﬁcials cut off from the internet in retaliation:

https://pluralistic.net/2026/04/04/digital-subjugation/#greenlands-next

Any attempt to save kids from online harms should start with saving kids from online surveillance, but that’s the opposite of what we’re doing today. After decades of failing to pass and enforce privacy controls for the internet, those same governments are breaking all land-speed records to pass “age veriﬁcation” laws that make privacy illegal:

https://bsky.app/proﬁle/rebeccawilliams.info/post/3moviqzdit22z

The fact that these bills have the ﬁrm backing of the tech industry’s most controlling, most spying companies tells you everything you need to know about them:

https://web.archive.org/web/20260315022337/https://tboteproject.com/

Kids are being harmed by online spying, and so are the rest of us. Whether you think that the algorithm made Grampy go Qanon or you’re suspicious that online surveillance data was used to deny you a loan, a job, or a lease, you should want privacy:

https://pluralistic.net/2023/12/06/privacy-ﬁrst/#but-not-just-privacy

Online surveillance is being used to raise the prices you pay and lower the wages you’re offered:

https://pluralistic.net/2026/04/06/empiricism-washing/#veena-dubal

And the same data that’s being used to “verify age” today will be used by ICE tomorrow to ﬁgure out who to round up for a concentration camp:

https://www.wired.com/story/ice-asks-companies-about-ad-tech-and-big-data-tools/

You can’t protect kids from online surveillance by spying on them. You just can’t. Anyone who tells you otherwise is trying to get you to swallow a ﬂy so they can sell you a spider, a bird, a cat, and an ICE chud in a gaiter, Oakleys and plate carrier (beneath which lurks a stick-and-poke Totenkopf tattoo).

Hey look at this (permalink)

AI doomerism is misplaced. Here’s what it will take to pop the bubble https://www.salon.com/2026/06/22/ai-doomerism-is-misplaced-heres-what-it-will-take-to-pop-the-bubble/

Visa and Mastercard: The Original Gangsters of Electronic Collusion https://www.thesling.org/visa-and-mastercard-the-original-gangsters-of-electronic-collusion/

Has it happened yet? https://hasithappenedyet.org/

Platform-Controlled Search and Distortions in Attention Allocation https://tinbergen.nl/discussion-paper/6496/26 – 035-vii-platform-controlled-search-and-distortions-in-attention-allocation

Object permanence (permalink)

#20yrsago Darwin’s tortoise dead at 176 https://web.archive.org/web/20060704143750/http://news.yahoo.com/s/afp/20060623/od_afp/australiaanimal_060623102146;_ylt=Ave_b4Ps2r9TGXqs5nZIVIoFO7gF;_ylu=X3oDMTA5bGVna3NhBHNlYwNzc3JlbA–zoo

#15yrsago Major US ISPs set to limit repeat infringers with throttling, limiting access to 200 websites, and copyright reeducation school https://web.archive.org/web/20111105225114/http://news.cnet.com/8301 – 31001_3 – 20073522-261/exclusive-top-isps-poised-to-adopt-graduated-response-to-piracy/

#15yrsago Why fair use doesn’t work unless you’ve got a huge war-chest for paying lawyers https://waxy.org/2011/06/kind_of_screwed/

#15yrsago Model net neutrality rule for municipalities https://web.archive.org/web/20110626114610/http://envisionseattle.org/2011/06/model-net-neutrality-ordinance-for-seattle.html

#15yrsago Campus hookups: college sex isn’t new, but hookups are different https://thesocietypages.org/socimages/2011/06/21/the-promise-and-perils-of-hook-up-culture/

#15yrsago A Brief History of the Corporation: understanding what an attention economy is and where it comes from https://ribbonfarm.com/2011/06/08/a-brief-history-of-the-corporation-1600-to-2100/

#15yrsago Eliza: what makes you think I’m a psychotherapeutic chatbot? https://www.ﬁlfre.net/2011/06/eliza-part-1/

#10yrsago Broken Windows policing is nonsense https://www.nyc.gov/assets/oignypd/downloads/pdf/Quality-of-Life-Report-2010 – 2015.pdf

#10yrsago How it feels to be under DDoS attack https://www.oreilly.com/radar/ddos-emotions/

#10yrsago 2016: the ﬁrst presidential election in 50 years without Voting Rights Act protections https://www.rollingstone.com/politics/politics-news/welcome-to-the-ﬁrst-presidential-election-since-voting-rights-act-gutted-179737/3/

#10yrsago Google is restructuring to put machine learning at the core of all it does https://web.archive.org/web/20180530051703/https://www.wired.com/2016/06/how-google-is-remaking-itself-as-a-machine-learning-ﬁrst-company/

#10yrsago Misconﬁgured database exposes sensitive data for 154 million US voters https://dailydot.com/politics/154-million-voter-ﬁles-exposed-l2

#10yrsago To understand the Trump campaign, study real-estate developer hustle https://web.archive.org/web/20161028030522/https://storify.com/KC_EDM/trump-is-running-his-campaign-like-a-real-estate-d

#10yrsago Writing the Other: intensely practical advice for representing other cultures in ﬁction https://memex.craphound.com/2016/06/23/writing-the-other-intensely-practical-advice-for-representing-other-cultures-in-ﬁction/

#1yrago The case for a Canadian wealth tax https://pluralistic.net/2025/06/23/billionaires-eh/#galen-weston-is-a-rat

Upcoming appearances (permalink)

Toronto: The Sovereignty Debate (IAB Canada’s State of the Nation), Jun 23 https://iabcanada.com/state-of-the-nation-2026

Toronto: The Reverse Centaur’s Guide to Life After AI (Osler Records/Type Books), Jun 23 https://www.eventbrite.com/e/cory-doctorow-book-launch-and-talk-tickets-1991501299998

NYC: The Reverse Centaur’s Guide to Life After AI with Jonathan Coulton (The Strand), Jun 24 https://www.strandbooks.com/cory-doctorow-the-reverse-centaur-s-guide-to-life-after-ai.html

Philadelphia: The Reverse Centaur’s Guide to Life After AI with David Williams (Fitler Club/Philadelphia Citizen), Jun 25 https://www.eventbrite.com/e/cory-doctorow-book-event-tickets-1990110326559

Chicago: The Reverse Centaur’s Guide to Life After AI with Rick Perlstein (Exile in Bookville), Jun 26 https://exileinbookville.com/events/50628

London: Idler Festival, Jul 11 https://www.idler.co.uk/festival/

Edinburgh International Book Festival with Jimmy Wales, Aug 17 https://www.edbookfest.co.uk/events/the-front-list-cory-doctorow-and-jimmy-wales

Sydney: The Festival of Dangerous Ideas, Aug 23 – 24 https://festivalofdangerousideas.com/cory-doctorow/

Melbourne: Enshittiﬁcation at the Wheeler Centre, Aug 25 https://www.wheelercentre.com/events-tickets/season-2026/cory-doctorow-enshittiﬁcation

Brighton: The Reverse Centaur’s Guide to Life After AI with Carole Cadwalladr (Brighton Dome), Sep 8 https://brightondome.org/whats-on/LSC-cory-doctorow-the-reverse-centaurs-guide-to-life-after-ai/

London: The Reverse Centaur’s Guide to Life After AI with Riley Quinn (Foyle’s Picadilly), Sep 9 https://www.foyles.co.uk/events/enshittiﬁcation-cory-doctorow-riley-quinn

South Bend: An Evening With Cory Doctorow (Notre Dame), Oct 6 https://franco.nd.edu/events/2026/10/06/an-evening-with-cory-doctorow/

Recent appearances (permalink)

How to Mess with Big Tech Oligarchs (Fighting Fascism) https://podcasts.apple.com/us/podcast/how-to-mess-with-big-tech-oligarchs-w-cory-doctorow/id1888647397?i=1000773711479

Reverse Centaur with Angie Coiro (Kepler’s Books) https://www.youtube.com/live/cWN6XBa73xA

How to Think About AI Before It’s Too Late (Galaxy Brain) https://www.youtube.com/watch?v=SPQNPJ0CEPo

The future of world governance, with Kim Stanley Robinson (UN Independent Expert on International Order) https://www.youtube.com/live/wJvBvYdaAMY

How to Think About Artiﬁcial Intelligence (KUER) https://radiowest.kuer.org/show/radiowest/2026 – 06-16/cory-doctorow-on-how-to-think-about-artiﬁcial-intelligence

Latest books (permalink)

“Canny Valley”: A limited edition collection of the collages I create for Pluralistic, self-published, September 2025 https://pluralistic.net/2025/09/04/illustrious/#chairman-bruce

Read more Read the original on pluralistic.net →

Read the original on pluralistic.net →

GitHub - future-file-format/F3: [SIGMOD 2026] F3: The Open-Source Data File Format for the Future

github.com

632 shares · 29 trendiness

F3 is a data ﬁle format that is designed with efﬁciency, interoperability, and extensibility in mind. It provides a data organization that rectiﬁes the layout shortcomings of the last-generation formats like Parquet, while at the same time maintaining good interoperability and extensibility (a.k.a future-proof) via embedded Wasm decoders.

⚠️ This project is a research prototype verifying the ideas in the paper. You should not use it in production.

Build instructions

We only tested on an Intel machine with Debian 12.

git submodule update –init –recursive ./scripts/setup_debian.sh # build the PoC package of F3 cargo build -p fff-poc # run unit test for F3 cargo test -p fff-poc

Important directories

format: FlatBuffer definition of the ﬁle format.

fff-poc: The main code of the F3 format. It references other subdirs like fff-core, fff-encoding, fff-format, and fff-ude-wasm.

fff-bench: Benchmarks and experiments appeared in the paper. Speciﬁcally, fff-bench/examples should contain most experiments, both micro and e2e.

fff-ude*: ude stand for User-Deﬁned-Encoding and code in those directories relates to the Wasm decoding implementation.

scripts and exp_scripts: scripts related to run the experiments.

Reproduction steps for the experiment results in the paper

Please refer to doc/paper_reproduction.md for the detailed steps.

License

This project is licensed under the MIT License. See LICENSE for details.

Citation

If you ﬁnd this project useful, please consider citing:

@article{zeng2025f3, author = {Zeng, Xinyu and Meng, Ruijun and Prammer, Martin and McKinney, Wes and Patel, Jignesh M. and Pavlo, Andrew and Zhang, Huanchen}, title = {F3: The Open-Source Data File Format for the Future}, year = {2025}, issue_date = {September 2025}, publisher = {Association for Computing Machinery}, address = {New York, NY, USA}, volume = {3}, number = {4}, url = {https://doi.org/10.1145/3749163}, doi = {10.1145/3749163}, abstract = {Columnar storage formats are the foundation for modern data analytics systems. The proliferation of open-source ﬁle formats (i.e., Parquet, ORC) allows seamless data sharing across disparate platforms. However, these formats were created over a decade ago for hardware and workload environments that are much different from today. Although these formats have incorporated some updates to their speciﬁcation to adapt to these changes, not all deployments support those modiﬁcations, and too often systems cannot overcome the formats’ deﬁciencies and limitations without a rewrite.In this paper, we present the Future-proof File Format (F3) project. It is a next-generation open-source ﬁle format with interoperability, extensibility, and efﬁciency as its core design principles. F3 obviates the need to create a new format every time a shift occurs in data processing and computing by providing a data organization structure and a general-purpose API to allow developers to add new encoding schemes easily. Each self-describing F3 ﬁle includes both the data and meta-data, as well as WebAssembly (Wasm) binaries to decode the data. Embedding the decoders in each ﬁle requires minimal storage (kilobytes) and ensures compatibility on any platform in case native decoders are unavailable. To evaluate F3, we compared it against legacy and state-of-the-art open-source ﬁle formats. Our evaluations demonstrate the efﬁcacy of F3′s storage layout and the beneﬁts of Wasm-driven decoding.}, journal = {Proc. ACM Manag. Data}, month = sep, articleno = {245}, numpages = {27}, keywords = {columnar storage, compression, extensibility, ﬁle format} }

Read more Read the original on github.com →

Read the original on github.com →

FUTO Swipe

swipe.futo.tech

561 shares · 34 trendiness

Fast, accurate swipe typing system. Use it today in FUTO Keyboard, our fully ofﬂine Android keyboard app. Or download the models and build with it.

This is a serverside demo to keep this webpage small. In production, it runs on-device, with much lower latency.

For a long time, good mobile swipe typing was locked behind privacy-invasive keyboard apps or unlicensed private libraries.

FUTO Swipe is our family of open models and algorithms that aims to solve this problem. We developed this primarily for FUTO Keyboard, but we also welcome the broader community to make use of the FUTO Swipe models. As this has been a long-term investment for us, we ask that an attribution is made visible to end-users. Read license

Dataset

In August 2024, we launched a dataset collection effort on the swipe.futo.org domain to collect QWERTY English swipes. Users would voluntarily visit the webpage on their mobile phone and be given instructions and information about the dataset. After consenting, they would be given sentences, primarily from Wikipedia, and would be asked to swipe them word-by-word.

In the end, this produced over 1 million swipes. We ﬁltered out a small set of low-quality swipes. In March 2025, we released a dataset of 1 million swipes under the MIT license, and it is available today on HuggingFace.

We made heavy use of this data to train our models and to evaluate different swipe typing systems.

Models

Our architecture includes three model types.

The Encoder model is a universal layout-agnostic and language-agnostic, and is used for making swipe typing predictions in the general case. However, it does not offer cutting-edge accuracy.

The ContextLM model is a very small language model that is trained for a single language. It’s used to improve the quality of predictions by eliminating nonsensical words given the preceding words in the sentence. It only requires text data for training.

Finally, the decoder is a language-speciﬁc and layout-speciﬁc model that learns layout’s peculiarities and achieves leading accuracy. As it requires swipe typing data for a speciﬁc layout and language for training, we only have a QWERTY English decoder for now.

With all 3 models and with a beam width of 300, we achieve a top-4 fail rate of only ~4% on our test set. Ignoring out-of-vocabulary cases, the error rate is below 1%.

Note: These numbers heavily depend on the benchmark, so real-world use may vary, but we believe we match big tech’s keyboards.

Footprint

The encoder model is just 635,140 parameters, and the decoder is 304,155 extra. The biggest one is the ContextLM at 1.5 million, but 1.1 million of that is just embeddings. This brings us to 1,364,271 active parameters, or 2,494,767 total parameters.

This means the footprint of the models are very small, and the model can run on low-end devices in milliseconds. In addition, the environmental costs involved in training the models were also very low, because we never needed more than 1 workstation GPU!

C++ Library

The models themselves are only half of the story when going from a swipe to word predictions. The model predictions are not very useful on their own and it’s necessary to perform a dictionary-constrained beam search to score a set of words and ﬁnd the most likely candidates.

For this, we release swipe-library, a library written in C++ that handles the entire inference, decoding, and beam search part so you can easily go from swipe paths to word predictions.

Make something cool!

…or on a laptop trackpad

Want to build with FUTO Swipe?

The FUTO Swipe models are available under the FUTO Model License, and the inference library is under GPL. We are working on a paper that will detail more on the training and architecture.

Read more Read the original on swipe.futo.tech →

Read the original on swipe.futo.tech →

The Map — Jerry's Map

www.jerrysmap.com

481 shares · 26 trendiness

Landing

The Map

Exhibitions

Videos

Sales

About/Contact

What is it?

In the summer of 1963 Jerry began drawing a map of an imaginary city. The work started as a doodle done in the spare time he had while working at a tedious job. He continued to add to that map through the years until, in 1983, he set it aside to put his free time to other use.

It was stored in the attic of his home in Cold Spring, New York. It gathered dust. Jerry’s son, Henry, found it one day while rummaging around. He brought it down and asked what it was. Seeing it then triggered Jerry to dust it off and continue the project.

Years later, the Map is now a two-dimensional “virtual world” art project which is now comprised of over 4000 individual eight by ten inch panels. When assembled, these panels form an approximate circle. The panel locations are deﬁned by N, S, E, and W coordinates that originate at the center of the circle. The locations in the matrix do not change, but the panels themselves are continually revised based on instructions drawn from the artist’s custom deck of cards.

Its execution, in acrylic, marker, colored pencil, ink, collage, and inkjet print on heavy paper, is dictated by the interplay between an elaborate set of rules and randomly generated instructions.

Jerry maintained a blog about the project for many years. He no longer updates it, but the old posts are still available on Blogger. And also be sure to check out r/jerrymapping, an interesting subreddit devoted to map making in the style of Jerry’s Map.

Time lapse showing 20 years of changes to an 8 by 16 panel portion of the map. Sharp eyes will note that there are not actually 20 changes in this animation. This is because for some of those years, no cards were drawn that called for changes on these particular panels.

The Creative Process

The Card Deck

The entire process is driven by instructions on a card drawn from a special deck created by the artist. Each cycle begins only when the artist’s tasks from the previous card are complete. This could take anywhere from a few minutes to a few days.

The cards were ﬁrst introduced as a simple random number generator. When Jerry was ﬁrst creating the map it was simple enough to work sheet to sheet, but as the map grew to hundreds of individual panels it became very tedious to make his way through the set.

“I wanted to move through the stack faster, and the easiest random number system I could come up with was a deck of cards. I’d draw a card and move down that many panels in the stack.”

As Jerry began working on ways of systematizing the process of working on the map he began to incorporate instructions on the cards. The contemporary deck of cards has been adapted from playing cards and the total number varies as cards have been added, revised, and removed. Currently there are approximately 100 cards.

“Sometimes I have feelings about the deck of cards. There’s a message in those cards. There’s no big man with a beard who has ordered the cards, but I’m very interested in seeing what comes out of it. There’s a reality in there waiting to get out. It’s the map’s future predictor and as it is always changing its alive…My hand puts the paint on the paper, I’ll step back and look at the sheets as though I wasn’t the perpetrator but merely the observer.”

Interpreting the Cards

The instructions on each card have these three elements:

Card instructions for the Artist are in these ﬁve general categories:

Next higher dimension (void, red, black, ziggurat)Spatter paint four contiguous panels (current panel plus the 3 closest to the center of that panel)Create a new seed panelMix a new paint colorScreen print the 9 contiguous panels (current panel plus 8 surrounding panels)

Next higher dimension (void, red, black, ziggurat)

Spatter paint four contiguous panels (current panel plus the 3 closest to the center of that panel)

Create a new seed panel

Mix a new paint color

Screen print the 9 contiguous panels (current panel plus 8 surrounding panels)

Update and copy the master (map element) on the top of the stack of mastersCopy the current panel on label paper so portions can be used in collage

Update and copy the master (map element) on the top of the stack of masters

Copy the current panel on label paper so portions can be used in collage

Use a patchwork of re-used printed paperboard (e.g cereal boxes)Use a photo from the artist’s ﬁlesUse a lumen print (objects scanned and printed)

Use a patchwork of re-used printed paperboard (e.g cereal boxes)

Use a photo from the artist’s ﬁles

Use a lumen print (objects scanned and printed)

Add or subtract from the number on a speciﬁed number cards (e.g. “add 3 to the number on the last 2 cards”)Eliminate a card from or add a card to the deck (eliminated cards are “retired” forever, but the instructions are kept on a list for possible re-use on a future card)Copy and retire the last 9 cards (physical cards are retired but the copies stay in the deck)Shufﬂe the deck

Add or subtract from the number on a speciﬁed number cards (e.g. “add 3 to the number on the last 2 cards”)

Eliminate a card from or add a card to the deck (eliminated cards are “retired” forever, but the instructions are kept on a list for possible re-use on a future card)

Copy and retire the last 9 cards (physical cards are retired but the copies stay in the deck)

Shufﬂe the deck

Do a blog entryDo a journal entry (also print and make collage material of the entry)Do a Reddit postCalculate the sales value of the entire set of panels (based latest eBay sale)

Do a blog entry

Do a journal entry (also print and make collage material of the entry)

Do a Reddit post

Calculate the sales value of the entire set of panels (based latest eBay sale)

Card instructions for the Artist’s Helper are related to:

The card indicates the number of panels to be scanned and added to the digital library.

The card asks the helper to sort retired panels and archive them.

The helper makes copies of the number of current panels indicated on the card, and the original panels are retired and archived.

The card asks the helper to update the inventory of the archives.

A TYPICAL DAY’S WORK

Jerry draws a card and works through the tasks it deﬁnes. This video gives some insight into what a typical day’s work looks like.

The Principles

These are the instructions and rules which guide the Artist in the creation of the map:

Each card has a large black or red number in an upper corner. A “task” is deﬁned as the completion of the number of work units as speciﬁed by the number on the card that is drawn. A work unit is the number of one inch squares to be covered. The number drawn and the effort required can be highly variable, so a day’s work could consist of one card’s work units, or just a portion of one. Work on an incomplete work unit continues at the next work session.

When a card is drawn you must follow the speciﬁc instructions on the card, but those instructions may be changed for the next time that card is drawn.

Work direction is determined by color of the drawn card - black is clockwise, red is counter-clockwise.

Every page has a “center” point from which the work emanates. The “center” of the new page is the same as the parent’s.

New panels are generated by drawing a “new panel” card, or a new panel is required to complete a section of art.

When a new page is added, the new page will use the “color of the day”.

The location of the new page is determined by placing a compass point in the “center” of the parent page and determining the closest edge of the map (this keeps the map roughly circular and growing generally equally in all directions).

Master map shows the locations of the panels as deﬁned by coordinates.

Colors are more abstract and do not necessarily represent the physical world. Colors may be applied with either paint or markers, or by using collage. The 42 colors are continually remixed to ensure a spectrum of paints.

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

Read the original on www.jerrysmap.com →

GitHub - baidu/Unlimited-OCR: Unlimited OCR Works: Welcome the Era of One-shot Long-horizon Parsing.

github.com

471 shares · 17 trendiness

Welcome the Era of One-shot Long-horizon Parsing.

Release

[2026/06/23] 📄 Our paper is now available on arXiv.

[2026/06/23] 🤝 Thanks to the ModelScope community for their support. Our model is now available at ModelScope.

[2026/06/22] 🚀 We present Unlimited-OCR, aiming to push Deepseek-OCR one step further.

Inference

Transformers

Inference using Huggingface transformers on NVIDIA GPUs. Requirements tested on python 3.12.3 + CUDA12.9：

torch==2.10.0 torchvision==0.25.0 transformers==4.57.1 Pillow==12.1.1 matplotlib==3.10.8 einops==0.8.2 addict==2.4.0 easydict==1.13 pymupdf==1.27.2.2 psutil==7.2.2

import os import torch from transformers import AutoModel, AutoTokenizer

model_name = ‘baidu/Unlimited-OCR’

tokenizer = AutoTokenizer.from_pretrained(model_name, trust_remote_code=True) model = AutoModel.from_pretrained( model_name, trust_remote_code=True, use_safetensors=True, torch_dtype=torch.bﬂoat16, ) model = model.eval().cuda()

# ── Single image supports two conﬁgs: gundam or base ── # gundam: base_size=1024, image_size=640, crop_mode=True # base: base_size=1024, image_size=1024, crop_mode=False model.infer( tokenizer, prompt=‘<image>document parsing.’, image_ﬁle=‘your_image.jpg’, output_path=‘your/output/dir’, base_size=1024, image_size=640, crop_mode=True, max_length=32768, no_repeat_ngram_size=35, ngram_window=128, save_results=True, )

# ── Multi page / PDF only uses base (image_size=1024) ── model.infer_multi( tokenizer, prompt=‘<image>Multi page parsing.’, image_ﬁles=[‘page1.png’, ‘page2.png’, ‘page3.png’], output_path=‘your/output/dir’, image_size=1024, max_length=32768, no_repeat_ngram_size=35, ngram_window=1024, save_results=True, )

# ── PDF (convert pages to images, then multi-page parsing) ── import tempﬁle, ﬁtz # PyMuPDF

def pdf_to_images(pdf_path, dpi=300): doc = ﬁtz.open(pdf_path) tmp_dir = tempﬁle.mkdtemp(preﬁx=‘pdf_ocr_’) mat = ﬁtz.Matrix(dpi / 72, dpi / 72) paths = [] for i, page in enumerate(doc): out = os.path.join(tmp_dir, f’page_{i+1:04d}.png’) page.get_pixmap(matrix=mat).save(out) paths.append(out) doc.close() return paths

model.infer_multi( tokenizer, prompt=‘<image>Multi page parsing.’, image_ﬁles=pdf_to_images(‘your_doc.pdf’, dpi=300), output_path=‘your/output/dir’, image_size=1024, max_length=32768, no_repeat_ngram_size=35, ngram_window=1024, save_results=True, )

SGLang

Set up the environment (uv-managed virtualenv). Install the local SGLang wheel ﬁrst, then pin kernels==0.9.0 and install PyMuPDF for PDF-to-image conversion:

uv venv –python 3.12 source .venv/bin/activate

uv pip install wheel/sglang-0.0.0.dev11416+g92e8bb79e-py3-none-any.whl uv pip install kernels==0.11.7 uv pip install pymupdf==1.27.2.2

Start the SGLang server:

python -m sglang.launch_server \ –model baidu/Unlimited-OCR \ –served-model-name Unlimited-OCR \ –attention-backend fa3 \ –page-size 1 \ –mem-fraction-static 0.8 \ –context-length 32768 \ –enable-custom-logit-processor \ –disable-overlap-schedule \ –skip-server-warmup \ –host 0.0.0.0 \ –port 10000

Send streaming requests to the OpenAI-compatible API:

import base64 import json import os import tempﬁle

import ﬁtz import requests from sglang.srt.sampling.custom_logit_processor import DeepseekOCRNoRepeatNGramLogitProcessor

server_url = “http://127.0.0.1:10000”

session = requests.Session() session.trust_env = False

def pdf_to_images(pdf_path, dpi=300): doc = ﬁtz.open(pdf_path) tmp_dir = tempﬁle.mkdtemp(preﬁx=“pdf_ocr_”) mat = ﬁtz.Matrix(dpi / 72, dpi / 72) image_paths = [] for i, page in enumerate(doc): image_path = os.path.join(tmp_dir, f”page_{i + 1:04d}.png”) page.get_pixmap(matrix=mat).save(image_path) image_paths.append(image_path) doc.close() return image_paths

def encode_image(image_path): ext = os.path.splitext(image_path)[1].lower() mime = “image/jpeg” if ext in (”.jpg”, ”.jpeg”) else f”image/{ext.lstrip(‘.’)}” with open(image_path, “rb”) as f: data = base64.b64encode(f.read()).decode(“utf-8″) return {“type”: “image_url”, “image_url”: {“url”: f”data:{mime};base64,{data}“}}

def build_content(prompt, image_paths): return [{“type”: “text”, “text”: prompt}] + [encode_image(path) for path in image_paths]

def generate(prompt, image_paths, image_mode, ngram_window): payload = { “model”: “Unlimited-OCR”, “messages”: [{“role”: “user”, “content”: build_content(prompt, image_paths)}], “temperature”: 0, “skip_special_tokens”: False, “images_conﬁg”: {“image_mode”: image_mode}, “custom_logit_processor”: DeepseekOCRNoRepeatNGramLogitProcessor.to_str(), “custom_params”: { “ngram_size”: 35, “window_size”: ngram_window, }, “stream”: True, } response = session.post( f”{server_url}/v1/chat/completions”, headers={“Content-Type”: “application/json”}, data=json.dumps(payload), timeout=1200, stream=True, ) response.raise_for_status()

chunks = [] for line in response.iter_lines(chunk_size=1, decode_unicode=True): if not line or not line.startswith(“data: “): continue data = line[len(“data: “):] if data == “[DONE]”: break event = json.loads(data) delta = event[“choices”][0].get(“delta”, {}).get(“content”, “”) if delta: print(delta, end=“”, ﬂush=True) chunks.append(delta) print() return “”.join(chunks)

# Single image supports two conﬁgs: gundam or base. Example below uses gundam. generate(“document parsing.”, [“your_image.jpg”], image_mode=“gundam”, ngram_window=128)

# Multi image (base only) generate(“Multi page parsing.”, [“page1.png”, “page2.png”], image_mode=“base”, ngram_window=1024)

# PDF (base only) generate(“Multi page parsing.”, pdf_to_images(“your_doc.pdf”, dpi=300), image_mode=“base”, ngram_window=1024)

For batch inference, infer.py starts the SGLang server automatically and sends concurrent requests for an image directory or PDF:

# Image directory python infer.py \ –image_dir ./examples/images \ –output_dir ./outputs \ –concurrency 8 \ –image_mode gundam

# PDF pages python infer.py \ –pdf ./examples/document.pdf \ –output_dir ./outputs \ –concurrency 8 \ –image_mode gundam

Useful options:

–model_dir baidu/Unlimited-OCR # Local path or Hugging Face model ID –gpu 0 # CUDA_VISIBLE_DEVICES value –server_log ./log/sglang_server.log

Visualization

Acknowledgement

We would like to thank Deepseek-OCR, Deepseek-OCR-2, PaddleOCR for their valuable models and ideas.

Citation

@misc{yin2026unlimitedocrworks, title={Unlimited OCR Works}, author={Youyang Yin and Huanhuan Liu and YY and Qunyi Xie and Chaorun Liu and Shiqi Yang and Shaohua Wang and Zhanlong Liu and Hao Zou and Jinyue Chen and Shu Wei and Jingjing Wu and Mingxin Huang and Zhen Wu and Guibin Wang and Tengyu Du and Lei Jia}, year={2026}, eprint={2606.23050}, archivePreﬁx={arXiv}, primaryClass={cs.CV}, url={https://arxiv.org/abs/2606.23050}, }

Read more Read the original on github.com →

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Mistral OCR 4 : SOTA OCR for Document Intelligence

mistral.ai

470 shares · 18 trendiness

Today, we’re releasing Mistral OCR 4, featuring bounding boxes, block classiﬁcation, and inline conﬁdence scores alongside extracted text. The model supports 170 languages across 10 language groups, runs in a single container for fully self-hosted deployments, and serves as an ingestion component for enterprise search, RAG, and domain-speciﬁc retrieval pipelines. OCR 4 is a small, focused model, and this post covers what’s new, how it performs on public and internal benchmarks, the known limitations of those benchmarks, and guidance on when to use the model API versus Document AI.

Highlights

Breakthrough performance. Independent annotators prefer OCR 4 over every leading OCR and document-AI system tested, with win rates averaging 72%, alongside the top overall score on OlmOCRBench (85.20). See Benchmarks below for methodology and known scoring limitations.

Segmentation, not just text. Alongside the extracted text, OCR 4 returns bounding boxes, typed-block classiﬁcation (titles, tables, equations, signatures, and more), and inline conﬁdence scores. Bounding boxes, our most-requested capability, localize text for in-context highlighting and reliable data pipelines. At the same time, block types and conﬁdence scores drive source-grounded citations, redactions, and human-in-the-loop veriﬁcation.

Integrated with Mistral Search Toolkit (public preview). OCR 4 is an ingestion component of Search Toolkit, Mistral’s open-source, composable search framework, announced at the AI Now Summit. Its structured output supplies citation-ready inputs to the toolkit’s ingestion, retrieval, and evaluation workﬂow for RAG and enterprise search.

Multilingual coverage. Support for 170 languages across 10 language groups, with measurable gains on specialized and low-resource languages where several competing systems degrade.

Run on your own infrastructure. OCR 4 is compact enough to deploy on a single container, keeping document data in your environment for residency, sovereignty, and compliance, while supporting cost-efﬁcient, high-throughput batch processing. Self-managed deployment is available to enterprise customers.

Overview

Mistral OCR 4 extracts and structures content from a wide range of documents. Where previous generations focused on converting a page into clean text and tables, OCR 4 returns a structured representation of the document. Each block is localized with a bounding box, classiﬁed by type, and inline conﬁdence scores are generated per-page and per-word. Downstream systems, therefore, have access not only to what the document says but also to where each element sits, what role it plays, and how conﬁdent the model is in each region.

This structure supports several downstream workloads:

Semantic chunking for RAG: clean, classiﬁed blocks become better retrieval units.

Structural primitives for agents: agents move from reading documents to acting on them (form ﬁlling, invoice processing, compliance checks).

Structured content for connectors: consistent, typed output for ingestion and indexing pipelines.

OCR 4 accepts common enterprise formats, including PDF, DOC, PPT, and OpenDocument, and supports 170 languages across 10 language groups, including specialized and low-resource languages that many systems handle poorly. As a compact model deployable in a single container, it is suited to both cost-sensitive and high-volume deployments. It can run fully self-hosted, allowing organizations with data-sovereignty requirements to keep document data within their own infrastructure.

Developers integrate the model via API, and teams can use Document AI in Mistral Studio for an application-level, no-code path to the same engine. Mistral OCR 4 through the API is priced at $4 per 1,000 pages, with a 50% Batch-API discount, reducing the cost to $2 per 1,000 pages. Document AI is priced at $5 per 1,000 pages.

Benchmarks

“We benchmarked Mistral OCR 4 against the leading agentic document parsers across a chart and ﬁgure dense ﬁnancial QA dataset and reached equivalent accuracy at roughly 8x lower cost and 17x lower latency. For production use cases at scale, that delta compounds fast.” - Aidan Donohue, AI Engineer, Rogo

To evaluate OCR 4, we compared it against leading AI-native OCR models, frontier general-purpose models, enterprise document services, and our own Mistral OCR 3.

Human Preference Evaluations

Automated benchmarks carry the scoring artifacts described above, so we complemented them with a head-to-head human evaluation on documents chosen to reﬂect real usage. We assembled 600+ documents across 12+ languages, sourced from third-party vendors to represent real industry use cases, and asked independent annotators to blindly rank each competitor’s output against OCR 4′s, document by document.

Annotators preferred OCR 4 in the majority of documents across all systems tested. Because these are human judgments on realistic documents rather than string comparisons against ﬁxed references, they sidestep much of the annotation and formatting noise that affects automated scores.

Overall Performance

“Mistral OCR is roughly 4x faster per page than our incumbent provider, an impressive result for the high-volume docketing workﬂows where speed is critical to managing our customers’ IP timelines.” - Ivan Mihailov, AI engineer, Anaqua

In addition to placing ﬁrst in our human preferences, OCR 4 achieves the top overall score amongst the models we tested on the public OlmOCRBench (85.20) and leads our internal Crawl Multilingual evaluation (.98), ahead of both AI-native and enterprise solutions.

On OmniDocBench, OCR 4 achieves a score of 93.07. We report this ﬁgure with a caveat: both OlmOCRBench and OmniDocBench have known limitations in how they score certain outputs, and a single aggregate number can both understate and overstate real-world performance.

When we audited the mismatches behind our scores, most were not model errors but artifacts of how the benchmarks compare output. The recurring categories:

Ground-truth errors. Some reference annotations are themselves incorrect: missing or extra text, transcriptions of redacted regions, or typos (for example, a cited author’s name misspelled in the reference but read correctly by the model from the page). The output matches the source document, yet it is still marked wrong.

Equivalent math notation. Different LaTeX that renders identically is counted as a mismatch, The rendered equation is correct; the string comparison is not.

Equation segmentation. Whether an expression is emitted as a single equation or split into several inline fragments affects the match, even when the rendered content is identical, because the matcher cannot align the pieces.

Multi-column reading order. Words split across a column boundary (for example, “certiﬁ-cates”) and column-ordering assumptions cause correct extractions to be scored as reading-order failures.

Block-type attribution. The benchmark does not expect headers/footers in the output. To resolve this we strip headers footers from our output before scoring. But the test then checks for a string that also happens to be the title of the page which should actually be present and ﬂags it incorrectly.

These artifacts concentrate in mathematical, scientiﬁc, and multi-column documents, and they more often penalize correct output than reward incorrect output. We therefore treat the aggregate score as directional rather than deﬁnitive.

These benchmarks are directional. All competitor scores reﬂect internal reproductions. We recommend evaluating on your own documents.

Performance Details

Crawl Multilingual breakdown. On our internal multilingual evaluation, OCR 4 leads across all eight language groups — English, Western Europe, Eastern Europe, Middle Eastern, Chinese, East Asian, Southeast Asian, and specialized languages (Hindi, Japanese, Georgian, Bengali, Armenian, Hebrew, Greek, Gujarati, Tamil, Malayalam, Kannada, Telugu). The gap is widest for specialized and low-resource languages, where many competing systems degrade sharply, while OCR 4 maintains high accuracy.

Recommended use cases

OCR 4 supports both high-volume pipelines and interactive document workﬂows, including:

Document parsing and extraction: complex, multilingual documents.

Retrieval-Augmented Generation (RAG): structured, classiﬁed, citation-ready content for semantic chunking and source-grounded answers. With Search Toolkit, OCR 4 output can be fed directly into retrieval pipelines.

Agentic workﬂows: providing agents with the structural primitives to complete tasks such as form ﬁlling, invoice processing, and compliance checks, especially in legal, ﬁnancial services, and healthcare.

Structured data pipelines using conﬁdence scores to enable efﬁcient use of human veriﬁers: form/invoice extraction, redactions, and compliance-driven processes.

Enterprise search and knowledge bases: OCR as a data-source component for custom ingestion and entity extraction.

Early users are applying OCR 4 to turn invoices into structured ﬁelds, digitize company archives, extract clean text from technical and scientiﬁc reports, and power enterprise search.

A note on out-of-scope use. OCR 4 is a document-understanding model, not a decision-maker. It is not intended for medical diagnosis, legal advice or judgment, high-stakes ﬁnancial decisions, safety-critical systems, real-time/latency-sensitive processing, or non-document inputs (raw audio, video, etc.).

OCR 4 API: Understanding Your Options

Mistral’s OCR 4 is available through a single API endpoint. Every request runs the same underlying OCR model and always returns extracted content, bounding boxes, block types, conﬁdence scores, and markdown-structured text. What varies is how much you layer on top.

Use OCR 4 in pure extraction mode when you want to:

Embed fast, accurate document extraction directly into your application, agent, or data pipeline.

Work directly with the raw response, bounding boxes, block types, and conﬁdence scores to drive custom downstream logic.

Run high-volume or batch ingestion with full control over throughput and cost via the Batch API.

Self-host for strict data-privacy, sovereignty, or compliance requirements.

Activate Document AI capabilities (same endpoint, additional parameters) when you want to:

Return structured JSON in a schema you deﬁne — pass a JSON schema alongside your document, and the OCR output is fed to mistral-small-2603 to generate content shaped to your spec.

Annotate detected images with structured JSON by passing an image annotation schema, triggering an additional vision-language model call per image.

Use a custom prompt alongside a JSON schema to guide how the extracted content of the full document is interpreted or summarized.

Enable business users, solutions teams, or pilots to produce structured results without writing downstream parsing logic.

The practical decision rule: if you need raw extracted content, use OCR 4 as-is. If you need the output reshaped into a structured format, annotated with domain-speciﬁc ﬁelds, or processed with a custom instruction, add the Document AI parameters to the same call. You always get the OCR result regardless; Document AI simply adds structured layers on top of it.

Now available

“The availability of Mistral Document AI with OCR 4 in Microsoft Foundry marks an important milestone in our partnership. Together, we’re enabling customers to bring advanced, structured document understanding directly into their AI workﬂows, combining Mistral’s innovation with Microsoft’s enterprise platform to deliver scalable, trusted solutions for real-world business needs.”-Kimmi Grewal, VP, AI Ecosystem Partnerships, Microsoft

Both Mistral OCRv4 and Document AI (powered by OCRv4) are available via API through Mistral Studio, Amazon SageMaker, Microsoft Foundry, and coming soon Snowﬂake Parse Document. For organizations with stringent data-privacy requirements, OCR 4 also offers a self-hosting option so sensitive information stays within your own infrastructure. To explore self-deployment, let us know.

Get started

We offer a few ways to get started and learn more quickly.

Try OCR 4. The new Getting Started with OCR 4 Cookbook walks through a ﬁrst extraction, working with bounding boxes, and block classiﬁcation.

OCR 4 webinar. We’ll cover what’s new in OCR 4 with demos and Q&A on July 7th at 6:00 PM CET. Register for the OCR4 in Production webinar.

Contact Sales for more information.

OCR 4

Premier

The world’s best document extraction and understanding model.

OCR

Multimodal

Text-to-text

Read more Read the original on mistral.ai →

Read the original on mistral.ai →

In memory of the man who put red and green squiggles under words

devblogs.microsoft.com

412 shares · 31 trendiness

I recently learned of the passing of someone whose work nearly everybody knows, but nobody knows his name.

Tony Krueger is remembered in Wikipedia as the person who ported the game Chip’s Challenge to Windows for the Windows Entertainment Pack.¹ But that’s probably not the code he wrote that touched the most people.

Tony worked on Word 1.0, 1.1, 2.0, then on Word for OS/2 and Word for Mac, then returned to Word 6.0 and several versions beyond that. He probably holds the record for “most versions of Word shipped.”

In early versions of Word, the Spell Check feature was something that you explicitly invoked, and then you had to sit and wait while the program looked for all your potentially-misspelled words, and then showed them to you one at a time for a decision on what to do for each one. Word did introduce an Auto Spell Check feature to run spell check when the user was idle, so that when you hit the Spell Check button, the results were ready to go. However, the Auto Spell Check was still a blocking operation. As a result, a lot of users turned it off because it always seemed to decide “Now would be a good time to spell-check the document” just as you wanted to do something, forcing you to wait for the spell check pass to complete before you could, say, save and exit.

Tony made the spell checker much more unobtrusive so that it didn’t interfere with your foreground work. And when it found a problem, instead of waiting for you to trigger a spell check, it immediately drew red squiggles under potentially-misspelled words (and later green squiggles under potential grammatical errors).

Tony was an early fan of the magic/comedy team Penn and Teller. A friend and colleague attended a show and hung out afterward to ask the duo to sign a photo for his friend Tony. “He was on the team that did the red and green squiggles in Word.”

Upon hearing this, Penn Jillette announced in his stentorian voice which ﬁlled the entire theater: “The red and green squiggles!? I love the red and green squiggles!” Teller silently concurred.

Tony received that autographed photo for his birthday, and it wasn’t clear which he was more happy about, the autographed photo or the fact that Penn and Teller loved his feature.

Many years later, “Weird Al” Yankovic recorded a parody video titled Word Crimes, in which the Word red squiggles make a brief appearance. That same friend got “Weird Al” to autograph the screen shot.

Today, there are red (and even green and blue) squiggles in nearly every word processor, and often outside word processors. Tony did it ﬁrst. The next time a red squiggle catches one of your mistakes, say thanks to Tony. I think he’d appreciate it.

¹ Probably not as widely documented is that he accomplished this without the source code: He reverse-engineered the MS-DOS version and then reimplemented it for Windows.

Author

Raymond has been involved in the evolution of Windows for more than 30 years. In 2003, he began a Web site known as The Old New Thing which has grown in popularity far beyond his wildest imagination, a development which still gives him the heebie-jeebies. The Web site spawned a book, coincidentally also titled The Old New Thing (Addison Wesley 2007). He occasionally appears on the Windows Dev Docs Twitter account to tell stories which convey no useful information.

Read more Read the original on devblogs.microsoft.com →

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TikZ Editor

tikz.dev

399 shares · 16 trendiness

Read the original on tikz.dev →

The Coming Loop

lucumr.pocoo.org

393 shares · 15 trendiness

written on June 23, 2026

I don’t prompt Claude anymore. I have loops running that prompt Claude and ﬁguring out what to do. My job is to write loops. — Boris Cherny

I don’t prompt Claude anymore. I have loops running that prompt Claude and ﬁguring out what to do. My job is to write loops.

— Boris Cherny

Over the last months I have watched more and more people build something on top of coding agents that feels meaningfully different from just using a coding agent. Some of this happens on top of Pi which is cool to see for sure! The pattern is the same everywhere though: work is put into a queue of sorts, a machine picks it up, attempts it, stops, and then some harness decides whether that was actually the end.

If not, the harness continues the same session, injects another message, starts a fresh session with modiﬁed context, or sends the task to another machine. The task stays alive beyond the point where the model by itself would normally have said: “I am done.”

I think about that type of loop more than I want to admit.

There is already an agent loop inside every coding agent. The model calls a tool, incorporates the result, calls another tool, reads a ﬁle, edits a ﬁle, runs tests, and eventually produces some answer. That loop is one we have been quite familiar with for a long time. The other loop is the harness level loop: the loop outside the agent loop. That loop is also not new. We have been doing versions of this since early Claude Code days, but that loop is becoming ever more present in agentic engineering and in recent weeks it has started to dominate the Twitter discourse.

I Am Not Good At This Yet

My current status is that I have not had much success with this way of working for code I deeply care about which turns out to be quite a lot of code.

Part of that is taste and part of it is control. I attempt to set a high bar for what I want code to look like, and I want to understand the code I ship. Under pressure, or in a discussion with another human, I want to be able to explain what the system does without ﬁrst having to ask a clanker to explain it to me. Now there is obviously a question if this desire to understand the code is one that I will still have a few years from now. For now I have not moved past the point of comprehension being important to me.

Given this desire, there is something I lack with my experience of code written without me paying attention, particularly from loops. Present-day models tend to produce code that is too defensive, too complex, too local in its reasoning. They avoid strong invariants. They add fallbacks instead of making bad states impossible. They duplicate code, invent bad abstractions, and paper over unclear design with more machinery. Worse though: I so far see very little progress of this improving. If anything, on that front it feels to me that we might even be making steps in the wrong direction. At least for my taste, present-day hands-off harnesses like Claude Code with ultracode produce worse code than what we were producing last autumn. That’s because Claude Code, with Fable for instance will be working uninterrupted on a problem for thirty minutes or more, when previously the process would have been much more human in the loop.

Furthermore it’s well understood that models tend to observe some local failure and add a local defense. Karpathy mentioned how they are “mortally terriﬁed of exceptions”. In systems with important invariants, especially persisted data formats or core infrastructure, the right ﬁx is not “handle every malformed case.” The right ﬁx is to make the malformed case unrepresentable or impossible to write in the ﬁrst place. Yet even with a lot of manual steering, that type of code does not come out of LLMs naturally, and even if the code comes out naturally like that, they will still attempt to handle now impossible errors.

When you take that behavior and you put it behind loops, you tend to amplify it. If each iteration adds another small defense, the system slowly becomes less understandable while appearing more robust. The more hands-off you are, the more that happens. It also teaches really bad practices when tools like this are given to juniors without clear guidance. Because if you ask them, why they are doing all that, they will convincingly argue their case.

Where Loops Work

At the same time, it would be dishonest to pretend the loop pattern does not work because it already works astonishingly well in some domains.

Porting code one of them. There are already impressive examples of large automatic porting efforts, including the reported work around moving parts of Bun from Zig to Rust. I have used it with success myself to port MiniJinja to Go. Performance explorations are another case where this works beautifully. A machine can try experiments, benchmark them, discard failures, and keep searching. Security scanning ﬁts naturally too and so does almost any type of research: asking a system to explore a complex problem space and report back without necessarily committing lasting code. One thing that many of these have in common is that they either do not generate new code, but transform code that already exists, or they produce code that intentionally does not have a long shelf life. They either produce proof of concepts or ideas, surface ﬁndings or are more akin to mechnical transformation.

I believe that loops that produce artifacts without necessity of longevity or that create some form of clearly veriﬁable mechnical translation matters more than the general ability of a harness to mechanically measure a goal. Many successful applications of loops use another LLM as a judge or as an orchestrator. The mechnical translation case can be veriﬁed with a binary test case, but it can also be judged by an LLM instead!

Claude Code, for instance, is increasingly good at creating entire experimental workﬂows that it will then execute. Sure, the code it produces is slop, but that’s more the fault of the model than the harness not being a good judge on if a step in the workﬂow resulted in a net improvement or completion.

The harness just needs some signal that lets it continue. It does not have to be objective or binary, it just has to be useful enough to drive another iteration.

I absolutely love loops already that take the boring parts out of my day to experiment and measure and to give me ideas.

Software As Organism

On the other hand using that same looping methodology to write lasting code does not yet sit well with me. The metaphor I like to reach for is one of moving from software as a deterministic machine to software as an organism.

I became a software engineer in an enviornment that encouraged me to understand the machine. There was always a layer you could peel off to deepen your understanding. Machines that did not exhibit deterministic observable behavior were maybe accepted, but generally seen as not exactly optimal. Software architecture-wise, I saw it as desireable to push further towards more determinism rather than less. Likewise the ability to understand the code has been an undeniable goal. In practice not always possible we still took pride in writing code so that it became possible even for new engineers to navigate complex code bases through clever architecture. On well designed systems there were always engineers that knew where the invariantes lived, which parts were load-bearing and which changes were safe. Ideally all of that was also well documented. Where that understanding was lacking, it was generally regarded as something to improve upon.

Obviously that ideal has always been strained. Many software systems, especially very successful ones had periods where engineers on the team were able to keep them clean. Large software systems are not infrequently too big, too dynamic and too dependent on external services to ﬁt into anyone’s head. Even without LLMs we already diagnose distributed systems somewhat like doctors in that we observe symptoms, form hypotheses, “order more tests”, try some remedies, and observe again.

Yet with LLMs we’re pushing much further in that direction and much quicker. We use them to write the code and we also use them for diagnosis and remedy. There are plenty of engineers that already live in a world in which the ﬁrst step after the occurrence of a production issue is followed by having a clanker read logs, propose root causes and proactively put up a patch. The resulting patch is then often picked up by another machine that reviews, sometimes even landing it on main without any human supervision.

Obviously that is powerful and I cannot deny that it sounds appealing. But giving in to that idea, particularly with less and less human oversight means accepting that we may no longer understand the whole system in the same way. We treat it, we monitor it, we stabilize it, but we do not necessarily comprehend it.

I have no doubts that for some software, that is okay. Not every line of code deserves human authorship and worse code might have been written in the past.

But do I want all software to be authored this way?

You Cannot Quite Opt Out

What’s very uncomfortable is that opting out of this fully machine-driven future may not be an option.

Security is the clearest example today. Even if you do not use loops to build your software, other people will use loops against your software. Attackers will run machines continuously and even if it’s not attackers, then security researchers will and some of that automated work will throw up dust but also ﬁnd real issues. And both the signal and the noise will come your way at a volume that makes it almost impossible to deal with unless you yourself throw a machine at the problem.

Daniel Stenberg’s post about curl’s summer of bliss is a good example of the pressure maintainers are already under. As far as I know, AI does not play a tremendous role in the core development of curl today. Yet despite all of this, maintainers are overwhelmed by reports, most of which are now AI-generated ones.

If attackers and reporters loop, defenders will eventually need to loop too to keep up. Maybe not to write patches directly, maybe just to triage and reproduce and pressure will increase.

The same is true competitively as some teams will out-build others through raw speed. Some projects will suddenly move faster because a tiny group ﬁgures out how to orchestrate machines effectively. Some startups will do with ﬁve people what used to require ﬁfty. Some people might literally put a machine against your product in a loop and ask it to “make it like the other one.” And if their users are happy, does it really matter?

Not all software will be equally affected. Some domains will punish sloppiness and demand trust and responsibility, but a lot of software lives in a world where raw speed, quick experimentation, and vast coverage matter enormously.

Building New Dependencies

The scariest part to me is that we become dependent on these new machines in new ways. Software has always depended on tools. I remember the time when I had to pay for compilers. These new tools are a ﬂashback to times where creating software came with real costs. But now it’s no longer a one-time payment, it’s a constant dependency. Not just a dependency on a ﬁlled wallet, but also a cognitive dependency.

If a codebase is produced by loops, reviewed by loops, patched by loops, and kept alive by loops, what happens when you no longer have access to the same class of systems? What happens when some trade restrictions take away access to the most powerful models? What if just the cost becomes unbearable? What if you and your team just lose the last remaining ability to understand the code without using the machine?

We may create codebases that are not merely hard to maintain by humans, but that assume machine participation as part of their maintenance model. This is already happening! It’s not happening everywhere, and it might not even be happening in ways that are seen as problematic, but we see more and more of it. People more and more merge code they cannot fully explain. People lose their ability to create issue reports or discuss things in chat, without augmenting or rephrasing their messages with the context provided by a clanker. Too many people increasingly rely on a machine to summarize or contextualize it. More and more do I encounter people who converse with me through the indirection of an LLM.

Again, maybe that is not even going to be wrong, but it’s a massive change to how we did things.

Future Harnesses

I have little doubt that this is where things are going but going there will require us to do something about our tooling everywhere, and not just in the coding agents.

Just orchestrating more loops won’t be enough. Better visualizations of changes or orchestration or agents will not restore our understanding. Either we need to ﬁnd clever ways to jolt the human back into the loop and make the changes of the loops legible long term, or we need to ﬁnd better ways to compose these ever more complex systems.

This is also where my thinking about the role of Pi is changing. Pi has been cautious, and I think that caution is good. I do not want a future where every interaction turns into an uncontrolled swarm of machines making changes I cannot follow. I would not want Pi to become an unmaintainable mess in an effort to win the race towards software that writes itself and I would not want Pi to promote this type of engineering either. At the same time Pi is a harness and harnesses are at the center of people running these new types of experiments.

Task queues for coding tasks, orchestration of agents, subagents, durable sessions will matter more and more. Even those of us who have their reservations and are not blindly embracing loops will have to start doing those experiments. We need to, because we need to understand how to make this future bounded and survivable.

Controlling Loops

As you can read from this post, I’m very uneasy about this future. Not cause of fear, but because of caution given experiences with this technology so far.

Adopting the idea of harness loops means that the harness decides when work is ﬁnished. In the agent loop, the model eventually says “done” and I review. Even before that, I usually steer along the way. I am involved and I enjoy learning along the way. In the harness operated loop I’m not sure what my role even is. Even the “done” signal loses all meanings and just becomes communicated to yet another machine that judges. My role is reduced to that of a messenger.

Today I do not like much of the code that I see from systems built that way and neither do I enjoy interacting with too much of software built with AI assistence. Looping is powerful but it removes responsibility more and more, and it at least today very much encourages us to give in to the machine.

And yet I have no doubts that this looping future is going to be our future despite the fact that I presently resent it. I already see astonishingly small teams building at impossible speed and I see codebases turning more and more into obscure and confusing organisms that can only be diagnosed by more machines. Those codebases are simultaniously useful and messy.

So I guess I’m coming to terms with that the question is not whether we will loop because clearly we will. Maybe the question is that in a future of loops, how do we don’t abdicate judgment, how we can retain rules of good engineering, how we can ensure that responsible human can continue to supervise, how we need to re-think how we architect code to retain sanity along the way.

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Extreme Heat: Improving governance and strengthening action around the world - cancelled - Grantham Research Institute on climate change and the environment

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Credit: mammuth/istock

We regret that this event has been cancelled due to the red extreme heat warning issued by the UK Met Ofﬁce.

This London Climate Action Week event will open with the announcement of the inaugural Adeline Stuart-Watt Award winner and will be followed by a session focused on improving extreme heat governance and action around the world. Hosted in collaboration with the Zurich Climate Resilience Alliance.

The Adeline Stuart-Watt Award celebrates the legacy of Adeline Stuart-Watt, a highly respected and very sadly missed friend and colleague at the LSE’s Grantham Research Institute on Climate Change and the Environment and the Zurich Climate Resilience Alliance. The Award recognises outstanding, policy-relevant research contributions to the ﬁeld of climate adaptation and resilience by postgraduate students.

An overview of the Award process will be provided by Candice Howarth, followed by the Award winner being announced by Professor Lord Nicholas Stern. The winner will then receive their award before presenting an overview of the winning topic. The Adeline Stuart-Watt Award is generously supported by the Z Zurich Foundation.

The second part of the event will focus on Extreme Heat: Improving Governance and strengthening action around the world.

Chaired by Swenja Suminski, this section of the event will explore the critical need to improve extreme heat governance globally. The event will bring together expertise from the Grantham Research Institute and Zurich Climate Resilience Alliance partners Mercy Corps, Practical Action and the IFRC alongside input from leading global partners.

The event will share new analysis of extreme heat governance progress and challenges across countries where the Zurich Climate Resilience Alliance operates along with stories from county programmes.

The event will ﬁnish with a ﬁre side chat session where speakers will reﬂect on key challenges and opportunities for advancing extreme heat governance globally.

Meet our contributors:

Professor Lord Nicholas Stern, Chair of the LSE Grantham Research Institute

Candice Howarth, Research Director at Quadrature Climate Foundation and Visiting Professor in Practice at the LSE Grantham Research Institute

Swenja Surminski, Managing Director Climate and Sustainability at Marsh and Professor in Practice at the LSE Grantham Research Institute

Anna Beswick, Senior Policy Fellow (Adaptation and Resilience) at the LSE Grantham Research Institute

Martina Podesta, Policy Ofﬁcer (Adaptation Policy and Governance) at the LSE Grantham Research Institute

Marc Gordon, Global Lead, Extreme Heat Risk Reduction & Senior Coordinator of the Midterm Review of the Sendai Framework (MTR SF), Centre of Excellence for Climate and Disaster Resilience at the United Nations

Ninni Ikkala Nyman, Lead, Climate Change, International Federation of Red Cross and Red Crescent Societies.

Olivia Shears, Head of CCRA and adaptation progress reporting, UK Climate Change Committee.

Mary McBryde, Chief Program Ofﬁcer, HERA.

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