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April 26, 2025
Last September I posted a series of long ranty comments on Lobste.rs about the latest instance of the immortal conspiracy theory (here it goes again) about apps spying on you through your microphone to serve you targeted ads.
On the basis that it's always a great idea to backfill content on your blog, I just extracted my best comments from that thread and turned them into this full post here, back-dated to September 2nd which is when I wrote the comments.
My rant was in response to the story In Leak, Facebook Partner Brags About Listening to Your Phone’s Microphone to Serve Ads for Stuff You Mention. Here's how it starts:
Which is more likely?
- All of the conspiracy theories are real! The industry managed to keep the evidence from us for decades, but finally a marketing agency of a local newspaper chain has blown the lid off the whole thing, in a bunch of blog posts and PDFs and on a podcast.
- Everyone believed that their phone was listening to them even when it wasn’t. The marketing agency of a local newspaper chain were the first group to be caught taking advantage of that widespread paranoia and use it to try and dupe people into spending money with them, despite the tech not actually working like that.
My money continues to be on number 2.
You can read the rest here.
April 25, 2025
I wrote to the address in the GPLv2 license notice and received the GPLv3 license. Fun story from Mendhak who noticed that the GPLv2 license used to include this in the footer:
You should have received a copy of the GNU General Public License along with this program; if not, write to the Free Software Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301, USA.
So they wrote to the address (after hunting down the necessary pieces for a self-addressed envelope from the USA back to the UK) and five weeks later received a copy.
(The copy was the GPLv3, but since they didn't actually specify GPLv2 in their request I don't think that's particularly notable.)
The comments on Hacker News included this delightful note from Davis Remmel:
This is funny because I was the operations assistant (office secretary) at the time we received this letter, and I remember it because of the distinct postage.
Someone asked "How many per day were you sending out?". The answer:
On average, zero per day, maybe 5 to 10 per year.
The FSF moved out of 51 Franklin Street in 2024, after 19 years in that location. They work remotely now - their new mailing address, 31 Milk Street, # 960789, Boston, MA 02196, is a USPS PO Box.
Fun fact: there's no rule that says you can't create a new blog today and backfill (and backdate) it with your writing from other platforms or sources, even going back many years.
I'd love to see more people do this!
(Inspired by this tweet by John F. Wu introducing his new blog. I did this myself when I relaunched this blog back in 2017.)
April 24, 2025
Introducing Datasette for Newsrooms. We're introducing a new product suite today called Datasette for Newsrooms - a bundled collection of Datasette Cloud features built specifically for investigative journalists and data teams. We're describing it as an all-in-one data store, search engine, and collaboration platform designed to make working with data in a newsroom easier, faster, and more transparent.
If your newsroom could benefit from a managed version of Datasette we would love to hear from you. We're offering it to nonprofit newsrooms for free for the first year (they can pay us in feedback), and we have a two month trial for everyone else.
Get in touch at hello@datasette.cloud if you'd like to try it out.
One crucial detail: we will help you get started - we'll load data into your instance for you (you get some free data engineering!) and walk you through how to use it, and we will eagerly consume any feedback you have for us and prioritize shipping anything that helps you use the tool. Our unofficial goal: we want someone to win a Pulitzer for investigative reporting where our tool played a tiny part in their reporting process.
Here's an animated GIF demo (taken from our new Newsrooms landing page) of my favorite recent feature: the ability to extract structured data into a table starting with an unstructured PDF, using the latest version of the datasette-extract plugin.
OpenAI: Introducing our latest image generation model in the API. The astonishing native image generation capability of GPT-4o - a feature which continues to not have an obvious name - is now available via OpenAI's API.
It's quite expensive. OpenAI's estimates are:
Image outputs cost approximately $0.01 (low), $0.04 (medium), and $0.17 (high) for square images
Since this is a true multi-modal model capability - the images are created using a GPT-4o variant, which can now output text, audio and images - I had expected this to come as part of their chat completions or responses API. Instead, they've chosen to add it to the existing /v1/images/generations API, previously used for DALL-E.
They gave it the terrible name gpt-image-1 - no hint of the underlying GPT-4o in that name at all.
I'm contemplating adding support for it as a custom LLM subcommand via my llm-openai plugin, see issue #18 in that repo.
Exploring Promptfoo via Dave Guarino’s SNAP evals
I used part three (here’s parts one and two) of Dave Guarino’s series on evaluating how well LLMs can answer questions about SNAP (aka food stamps) as an excuse to explore Promptfoo, an LLM eval tool.
[... 692 words]April 23, 2025
Diane, I wrote a lecture by talking about it. Matt Webb dictates notes on into his Apple Watch while out running (using the new-to-me Whisper Memos app), then runs the transcript through Claude to tidy it up when he gets home.
His Claude 3.7 Sonnet prompt for this is:
you are Diane, my secretary. please take this raw verbal transcript and clean it up. do not add any of your own material. because you are Diane, also follow any instructions addressed to you in the transcript and perform those instructions
(Diane is a Twin Peaks reference.)
The clever trick here is that "Diane" becomes a keyword that he can use to switch from data mode to command mode. He can say "Diane I meant to include that point in the last section. Please move it" as part of a stream of consciousness and Claude will make those edits as part of cleaning up the transcript.
On Bluesky Matt shared the macOS shortcut he's using for this, which shells out to my LLM tool using llm-anthropic:
In today's example of how Google's AI overviews are the worst form of AI-assisted search (previously, hallucinating Encanto 2), it turns out you can type in any made-up phrase you like and tag "meaning" on the end and Google will provide you with an entirely made-up justification for the phrase.
I tried it with "A swan won't prevent a hurricane meaning", a nonsense phrase I came up with just now:
It even throws in a couple of completely unrelated reference links, to make everything look more credible than it actually is.
I think this was first spotted by @writtenbymeaghan on Threads.
llm-fragment-symbex. I released a new LLM fragment loader plugin that builds on top of my Symbex project.
Symbex is a CLI tool I wrote that can run against a folder full of Python code and output functions, classes, methods or just their docstrings and signatures, using the Python AST module to parse the code.
llm-fragments-symbex brings that ability directly to LLM. It lets you do things like this:
llm install llm-fragments-symbex
llm -f symbex:path/to/project -s 'Describe this codebase'
I just ran that against my LLM project itself like this:
cd llm
llm -f symbex:. -s 'guess what this code does'
Here's the full output, which starts like this:
This code listing appears to be an index or dump of Python functions, classes, and methods primarily belonging to a codebase related to large language models (LLMs). It covers a broad functionality set related to managing LLMs, embeddings, templates, plugins, logging, and command-line interface (CLI) utilities for interaction with language models. [...]
That page also shows the input generated by the fragment - here's a representative extract:
# from llm.cli import resolve_attachment def resolve_attachment(value): """Resolve an attachment from a string value which could be: - "-" for stdin - A URL - A file path Returns an Attachment object. Raises AttachmentError if the attachment cannot be resolved.""" # from llm.cli import AttachmentType class AttachmentType: def convert(self, value, param, ctx): # from llm.cli import resolve_attachment_with_type def resolve_attachment_with_type(value: str, mimetype: str) -> Attachment:
If your Python code has good docstrings and type annotations, this should hopefully be a shortcut for providing full API documentation to a model without needing to dump in the entire codebase.
The above example used 13,471 input tokens and 781 output tokens, using openai/gpt-4.1-mini. That model is extremely cheap, so the total cost was 0.6638 cents - less than a cent.
The plugin itself was mostly written by o4-mini using the llm-fragments-github plugin to load the simonw/symbex and simonw/llm-hacker-news repositories as example code:
llm \ -f github:simonw/symbex \ -f github:simonw/llm-hacker-news \ -s "Write a new plugin as a single llm_fragments_symbex.py file which provides a custom loader which can be used like this: llm -f symbex:path/to/folder - it then loads in all of the python function signatures with their docstrings from that folder using the same trick that symbex uses, effectively the same as running symbex . '*' '*.*' --docs --imports -n" \ -m openai/o4-mini -o reasoning_effort high"
Here's the response. 27,819 input, 2,918 output = 4.344 cents.
In working on this project I identified and fixed a minor cosmetic defect in Symbex itself. Technically this is a breaking change (it changes the output) so I shipped that as Symbex 2.0.
Despite being rusty with coding (I don't code every day these days): since starting to use Windsurf / Cursor with the recent increasingly capable models: I am SO back to being as fast in coding as when I was coding every day "in the zone" [...]
When you are driving with a firm grip on the steering wheel - because you know exactly where you are going, and when to steer hard or gently - it is just SUCH a big boost.
I have a bunch of side projects and APIs that I operate - but usually don't like to touch it because it's (my) legacy code.
Not any more.
I'm making large changes, quickly. These tools really feel like a massive multiplier for experienced devs - those of us who have it in our head exactly what we want to do and now the LLM tooling can move nearly as fast as my thoughts!
An underestimated challenge in making productive use of LLMs is that it can feel like cheating.
One trick I've found that helps is to make sure that I am putting in way more text than the LLM is spitting out .
This goes for code: I'll pipe in a previous project for it to modify, or ask it to combine two, or paste in my research notes.
It also goes for writing. I hardly ever publish material that was written by an LLM, but I feel least icky about content where I had an extensive voice conversation with the model and then asked it to turn that into notes.
I have a hunch that overcoming the feeling of guilt associated with using LLMs is one of the most important skills required to make effective use of them!
My gold standard for LLM usage remains this: would I be proud to stake my own credibility on the quality of the end result?
Related, this excellent advice from Laurie Voss:
Is what you're doing taking a large amount of text and asking the LLM to convert it into a smaller amount of text? Then it's probably going to be great at it. If you're asking it to convert into a roughly equal amount of text it will be so-so. If you're asking it to create more text than you gave it, forget about it.
April 22, 2025
I was against using AI for programming for a LONG time. It never felt effective.
But with the latest models + tools, it finally feels like a real performance boost
If you’re still holding out, do yourself a favor: spend a few focused hours actually using it
ClickHouse gets lazier (and faster): Introducing lazy materialization (via) Tom Schreiber describe's the latest optimization in ClickHouse, and in the process explores a whole bunch of interesting characteristics of columnar datastores generally.
As I understand it, the new "lazy materialization" feature means that if you run a query like this:
select id, big_col1, big_col2
from big_table order by rand() limit 5
Those big_col1 and big_col2 columns won't be read from disk for every record, just for the five that are returned. This can dramatically improve the performance of queries against huge tables - for one example query ClickHouse report a drop from "219 seconds to just 139 milliseconds—with 40× less data read and 300× lower memory usage."
I'm linking to this mainly because the article itself is such a detailed discussion of columnar data patterns in general. It caused me to update my intuition for how queries against large tables can work on modern hardware. This query for example:
SELECT helpful_votes
FROM amazon.amazon_reviews
ORDER BY helpful_votes DESC
LIMIT 3;
Can run in 70ms against a 150 million row, 70GB table - because in a columnar database you only need to read that helpful_votes integer column which adds up to just 600MB of data, and sorting 150 million integers on a decent machine takes no time at all.
Abusing DuckDB-WASM by making SQL draw 3D graphics (Sort Of) (via) Brilliant hack by Patrick Trainer who got an ASCII-art Doom clone running in the browser using convoluted SQL queries running against the WebAssembly build of DuckDB. Here’s the live demo, and the code on GitHub.
The SQL is so much fun. Here’s a snippet that implements ray tracing as part of a SQL view:
CREATE OR REPLACE VIEW render_3d_frame AS WITH RECURSIVE -- ... rays AS ( SELECT c.col, (p.dir - s.fov/2.0 + s.fov * (c.col*1.0 / (s.view_w - 1))) AS angle FROM cols c, s, p ), raytrace(col, step_count, fx, fy, angle) AS ( SELECT r.col, 1, p.x + COS(r.angle)*s.step, p.y + SIN(r.angle)*s.step, r.angle FROM rays r, p, s UNION ALL SELECT rt.col, rt.step_count + 1, rt.fx + COS(rt.angle)*s.step, rt.fy + SIN(rt.angle)*s.step, rt.angle FROM raytrace rt, s WHERE rt.step_count < s.max_steps AND NOT EXISTS ( SELECT 1 FROM map m WHERE m.x = CAST(rt.fx AS INT) AND m.y = CAST(rt.fy AS INT) AND m.tile = '#' ) ), -- ...
A5 (via) A5 is a new "global, equal-area, millimeter-accurate geospatial index" by Felix Palmer:
It is the pentagonal equivalent of other DGGSs, like S2 or H3, but with higher accuracy and lower distortion.
Effectively it's a way of dividing the entire world into pentagons where each one covers the same physical area (to within a 2% threshold) - like Uber's H3 but a bit weirder and more fun. An A5 reference implementation written in TypeScript is available on GitHub.
This interactive demo helps show how it works:
Why pentagons? Here's what the A5 docs say:
A5 is unique in that it uses a pentagonal tiling of a dodecahedron. [...] The benefit of choosing a dodecahedron is that it is the platonic solid with the lowest vertex curvature, and by this measure it is the most spherical of all the platonic solids. This is key for minimizing cell distortion as the process of projecting a platonic solid onto a sphere involves warping the cell geometry to force the vertex curvature to approach zero. Thus, the lower the original vertex curvature, the less distortion will be introduced by the projection.
I had to look up platonic solids on Wikipedia. There are only five: Tetrahedron, Cube, Octahedron, Dodecahedron and Icosahedron and they can be made using squares, triangles or (in the case of the Dodecahedron) pentagons, making the pentagon the most circle-like option.
Working Through the Fear of Being Seen (via) Heartfelt piece by Ashley Willis about the challenge of overcoming self-doubt in publishing online:
Part of that is knowing who might read it. A lot of the folks who follow me are smart, opinionated, and not always generous. Some are friends. Some are people I’ve looked up to. And some are just really loud on the internet. I saw someone the other day drag a certain writing style. That kind of judgment makes me want to shrink back and say, never mind.
Try to avoid being somebody who discourages others from sharing their thoughts.
April 21, 2025
OpenAI o3 and o4-mini System Card. I'm surprised to see a combined System Card for o3 and o4-mini in the same document - I'd expect to see these covered separately.
The opening paragraph calls out the most interesting new ability of these models (see also my notes here). Tool usage isn't new, but using tools in the chain of thought appears to result in some very significant improvements:
The models use tools in their chains of thought to augment their capabilities; for example, cropping or transforming images, searching the web, or using Python to analyze data during their thought process.
Section 3.3 on hallucinations has been gaining a lot of attention. Emphasis mine:
We tested OpenAI o3 and o4-mini against PersonQA, an evaluation that aims to elicit hallucinations. PersonQA is a dataset of questions and publicly available facts that measures the model's accuracy on attempted answers.
We consider two metrics: accuracy (did the model answer the question correctly) and hallucination rate (checking how often the model hallucinated).
The o4-mini model underperforms o1 and o3 on our PersonQA evaluation. This is expected, as smaller models have less world knowledge and tend to hallucinate more. However, we also observed some performance differences comparing o1 and o3. Specifically, o3 tends to make more claims overall, leading to more accurate claims as well as more inaccurate/hallucinated claims. More research is needed to understand the cause of this result.
Table 4: PersonQA evaluation Metric o3 o4-mini o1 accuracy (higher is better) 0.59 0.36 0.47 hallucination rate (lower is better) 0.33 0.48 0.16
The benchmark score on OpenAI's internal PersonQA benchmark (as far as I can tell no further details of that evaluation have been shared) going from 0.16 for o1 to 0.33 for o3 is interesting, but I don't know if it it's interesting enough to produce dozens of headlines along the lines of "OpenAI's o3 and o4-mini hallucinate way higher than previous models".
The paper also talks at some length about "sandbagging". I’d previously encountered sandbagging defined as meaning “where models are more likely to endorse common misconceptions when their user appears to be less educated”. The o3/o4-mini system card uses a different definition: “the model concealing its full capabilities in order to better achieve some goal” - and links to the recent Anthropic paper Automated Researchers Can Subtly Sandbag.
As far as I can tell this definition relates to the American English use of “sandbagging” to mean “to hide the truth about oneself so as to gain an advantage over another” - as practiced by poker or pool sharks.
(Wouldn't it be nice if we could have just one piece of AI terminology that didn't attract multiple competing definitions?)
o3 and o4-mini both showed some limited capability to sandbag - to attempt to hide their true capabilities in safety testing scenarios that weren't fully described. This relates to the idea of "scheming", which I wrote about with respect to the GPT-4o model card last year.
Decentralizing Schemes. Tim Bray discusses the challenges faced by decentralized Mastodon in that shared URLs to posts don't take into account people accessing Mastodon via their own instances, which breaks replies/likes/shares etc unless you further copy and paste URLs around yourself.
Tim proposes that the answer is URIs: a registered fedi://mastodon.cloud/@timbray/109508984818551909 scheme could allow Fediverse-aware software to step in and handle those URIs, similar to how mailto: works.
Bluesky have registered at: already, and there's also a web+ap: prefix registered with the intent of covering ActivityPub, the protocol used by Mastodon.
AI assisted search-based research actually works now
For the past two and a half years the feature I’ve most wanted from LLMs is the ability to take on search-based research tasks on my behalf. We saw the first glimpses of this back in early 2023, with Perplexity (first launched December 2022, first prompt leak in January 2023) and then the GPT-4 powered Microsoft Bing (which launched/cratered spectacularly in February 2023). Since then a whole bunch of people have taken a swing at this problem, most notably Google Gemini and ChatGPT Search.
[... 1,618 words]April 20, 2025
In some tasks, AI is unreliable. In others, it is superhuman. You could, of course, say the same thing about calculators, but it is also clear that AI is different. It is already demonstrating general capabilities and performing a wide range of intellectual tasks, including those that it is not specifically trained on. Does that mean that o3 and Gemini 2.5 are AGI? Given the definitional problems, I really don’t know, but I do think they can be credibly seen as a form of “Jagged AGI” - superhuman in enough areas to result in real changes to how we work and live, but also unreliable enough that human expertise is often needed to figure out where AI works and where it doesn’t.
— Ethan Mollick, On Jagged AGI
Now that Llama has very real competition in open weight models (Gemma 3, latest Mistrals, DeepSeek, Qwen) I think their janky license is becoming much more of a liability for them. It's just limiting enough that it could be the deciding factor for using something else.
llm-fragments-github 0.2.
I upgraded my llm-fragments-github plugin to add a new fragment type called issue. It lets you pull the entire content of a GitHub issue thread into your prompt as a concatenated Markdown file.
(If you haven't seen fragments before I introduced them in Long context support in LLM 0.24 using fragments and template plugins.)
I used it just now to have Gemini 2.5 Pro provide feedback and attempt an implementation of a complex issue against my LLM project:
llm install llm-fragments-github
llm -f github:simonw/llm \
-f issue:simonw/llm/938 \
-m gemini-2.5-pro-exp-03-25 \
--system 'muse on this issue, then propose a whole bunch of code to help implement it'
Here I'm loading the FULL content of the simonw/llm repo using that -f github:simonw/llm fragment (documented here), then loading all of the comments from issue 938 where I discuss quite a complex potential refactoring. I ask Gemini 2.5 Pro to "muse on this issue" and come up with some code.
This worked shockingly well. Here's the full response, which highlighted a few things I hadn't considered yet (such as the need to migrate old database records to the new tree hierarchy) and then spat out a whole bunch of code which looks like a solid start to the actual implementation work I need to do.
I ran this against Google's free Gemini 2.5 Preview, but if I'd used the paid model it would have cost me 202,680 input tokens and 10,460 output tokens for a total of 66.36 cents.
As a fun extra, the new issue: feature itself was written almost entirely by OpenAI o3, again using fragments. I ran this:
llm -m openai/o3 \ -f https://raw.githubusercontent.com/simonw/llm-hacker-news/refs/heads/main/llm_hacker_news.py \ -f https://raw.githubusercontent.com/simonw/tools/refs/heads/main/github-issue-to-markdown.html \ -s 'Write a new fragments plugin in Python that registers issue:org/repo/123 which fetches that issue number from the specified github repo and uses the same markdown logic as the HTML page to turn that into a fragment'
Here I'm using the ability to pass a URL to -f and giving it the full source of my llm_hacker_news.py plugin (which shows how a fragment can load data from an API) plus the HTML source of my github-issue-to-markdown tool (which I wrote a few months ago with Claude). I effectively asked o3 to take that HTML/JavaScript tool and port it to Python to work with my fragments plugin mechanism.
o3 provided almost the exact implementation I needed, and even included support for a GITHUB_TOKEN environment variable without me thinking to ask for it. Total cost: 19.928 cents.
On a final note of curiosity I tried running this prompt against Gemma 3 27B QAT running on my Mac via MLX and llm-mlx:
llm install llm-mlx llm mlx download-model mlx-community/gemma-3-27b-it-qat-4bit llm -m mlx-community/gemma-3-27b-it-qat-4bit \ -f https://raw.githubusercontent.com/simonw/llm-hacker-news/refs/heads/main/llm_hacker_news.py \ -f https://raw.githubusercontent.com/simonw/tools/refs/heads/main/github-issue-to-markdown.html \ -s 'Write a new fragments plugin in Python that registers issue:org/repo/123 which fetches that issue number from the specified github repo and uses the same markdown logic as the HTML page to turn that into a fragment'
That worked pretty well too. It turns out a 16GB local model file is powerful enough to write me an LLM plugin now!
April 19, 2025
Maybe Meta’s Llama claims to be open source because of the EU AI act
I encountered a theory a while ago that one of the reasons Meta insist on using the term “open source” for their Llama models despite the Llama license not actually conforming to the terms of the Open Source Definition is that the EU’s AI act includes special rules for open source models without requiring OSI compliance.
[... 852 words]Claude Code: Best practices for agentic coding (via) Extensive new documentation from Anthropic on how to get the best results out of their Claude Code CLI coding agent tool, which includes this fascinating tip:
We recommend using the word "think" to trigger extended thinking mode, which gives Claude additional computation time to evaluate alternatives more thoroughly. These specific phrases are mapped directly to increasing levels of thinking budget in the system: "think" < "think hard" < "think harder" < "ultrathink." Each level allocates progressively more thinking budget for Claude to use.
Apparently ultrathink is a magic word!
I was curious if this was a feature of the Claude model itself or Claude Code in particular. Claude Code isn't open source but you can view the obfuscated JavaScript for it, and make it a tiny bit less obfuscated by running it through Prettier. With Claude's help I used this recipe:
mkdir -p /tmp/claude-code-examine
cd /tmp/claude-code-examine
npm init -y
npm install @anthropic-ai/claude-code
cd node_modules/@anthropic-ai/claude-code
npx prettier --write cli.js
Then used ripgrep to search for "ultrathink":
rg ultrathink -C 30
And found this chunk of code:
let B = W.message.content.toLowerCase(); if ( B.includes("think harder") || B.includes("think intensely") || B.includes("think longer") || B.includes("think really hard") || B.includes("think super hard") || B.includes("think very hard") || B.includes("ultrathink") ) return ( l1("tengu_thinking", { tokenCount: 31999, messageId: Z, provider: G }), 31999 ); if ( B.includes("think about it") || B.includes("think a lot") || B.includes("think deeply") || B.includes("think hard") || B.includes("think more") || B.includes("megathink") ) return ( l1("tengu_thinking", { tokenCount: 1e4, messageId: Z, provider: G }), 1e4 ); if (B.includes("think")) return ( l1("tengu_thinking", { tokenCount: 4000, messageId: Z, provider: G }), 4000 );
So yeah, it looks like "ultrathink" is a Claude Code feature - presumably that 31999 is a number that affects the token thinking budget, especially since "megathink" maps to 1e4 tokens (10,000) and just plain "think" maps to 4,000.
Gemma 3 QAT Models. Interesting release from Google, as a follow-up to Gemma 3 from last month:
To make Gemma 3 even more accessible, we are announcing new versions optimized with Quantization-Aware Training (QAT) that dramatically reduces memory requirements while maintaining high quality. This enables you to run powerful models like Gemma 3 27B locally on consumer-grade GPUs like the NVIDIA RTX 3090.
I wasn't previously aware of Quantization-Aware Training but it turns out to be quite an established pattern now, supported in both Tensorflow and PyTorch.
Google report model size drops from BF16 to int4 for the following models:
- Gemma 3 27B: 54GB to 14.1GB
- Gemma 3 12B: 24GB to 6.6GB
- Gemma 3 4B: 8GB to 2.6GB
- Gemma 3 1B: 2GB to 0.5GB
They partnered with Ollama, LM Studio, MLX (here's their collection) and llama.cpp for this release - I'd love to see more AI labs following their example.
The Ollama model version picker currently hides them behind "View all" option, so here are the direct links:
- gemma3:1b-it-qat - 1GB
- gemma3:4b-it-qat - 4GB
- gemma3:12b-it-qat - 8.9GB
- gemma3:27b-it-qat - 18GB
I fetched that largest model with:
ollama pull gemma3:27b-it-qat
And now I'm trying it out with llm-ollama:
llm -m gemma3:27b-it-qat "impress me with some physics"
I got a pretty great response!
Update: Having spent a while putting it through its paces via Open WebUI and Tailscale to access my laptop from my phone I think this may be my new favorite general-purpose local model. Ollama appears to use 22GB of RAM while the model is running, which leaves plenty on my 64GB machine for other applications.
I've also tried it via llm-mlx like this (downloading 16GB):
llm install llm-mlx
llm mlx download-model mlx-community/gemma-3-27b-it-qat-4bit
llm chat -m mlx-community/gemma-3-27b-it-qat-4bit
It feels a little faster with MLX and uses 15GB of memory according to Activity Monitor.
April 18, 2025
It frustrates me when support sites for online services fail to link to the things they are talking about. Cloudflare's Find zone and account IDs page for example provides a four step process for finding my account ID that starts at the root of their dashboard, including a screenshot of where I should click.
In Cloudflare's case it's harder to link to the correct dashboard page because the URL differs for different users, but that shouldn't be a show-stopper for getting this to work. Set up dash.cloudflare.com/redirects/find-account-id and link to that!
... I just noticed they do have a mechanism like that which they use elsewhere. On the R2 authentication page they link to:
https://dash.cloudflare.com/?to=/:account/r2/api-tokens
The "find account ID" flow presumably can't do the same thing because there is no single page displaying that information - it's shown in a sidebar on the page for each of your Cloudflare domains.
To me, a successful eval meets the following criteria. Say, we currently have system A, and we might tweak it to get a system B:
- If A works significantly better than B according to a skilled human judge, the eval should give A a significantly higher score than B.
- If A and B have similar performance, their eval scores should be similar.
Whenever a pair of systems A and B contradicts these criteria, that is a sign the eval is in “error” and we should tweak it to make it rank A and B correctly.
Image segmentation using Gemini 2.5
Max Woolf pointed out this new feature of the Gemini 2.5 series (here’s my coverage of 2.5 Pro and 2.5 Flash) in a comment on Hacker News:
[... 1,428 words]MCP Run Python (via) Pydantic AI's MCP server for running LLM-generated Python code in a sandbox. They ended up using a trick I explored two years ago: using a Deno process to run Pyodide in a WebAssembly sandbox.
Here's a bit of a wild trick: since Deno loads code on-demand from JSR, and uv run can install Python dependencies on demand via the --with option... here's a one-liner you can paste into a macOS shell (provided you have Deno and uv installed already) which will run the example from their README - calculating the number of days between two dates in the most complex way imaginable:
ANTHROPIC_API_KEY="sk-ant-..." \ uv run --with pydantic-ai python -c ' import asyncio from pydantic_ai import Agent from pydantic_ai.mcp import MCPServerStdio server = MCPServerStdio( "deno", args=[ "run", "-N", "-R=node_modules", "-W=node_modules", "--node-modules-dir=auto", "jsr:@pydantic/mcp-run-python", "stdio", ], ) agent = Agent("claude-3-5-haiku-latest", mcp_servers=[server]) async def main(): async with agent.run_mcp_servers(): result = await agent.run("How many days between 2000-01-01 and 2025-03-18?") print(result.output) asyncio.run(main())'
I ran that just now and got:
The number of days between January 1st, 2000 and March 18th, 2025 is 9,208 days.
I thoroughly enjoy how tools like uv and Deno enable throwing together shell one-liner demos like this one.
Here's an extended version of this example which adds pretty-printed logging of the messages exchanged with the LLM to illustrate exactly what happened. The most important piece is this tool call where Claude 3.5 Haiku asks for Python code to be executed my the MCP server:
ToolCallPart( tool_name='run_python_code', args={ 'python_code': ( 'from datetime import date\n' '\n' 'date1 = date(2000, 1, 1)\n' 'date2 = date(2025, 3, 18)\n' '\n' 'days_between = (date2 - date1).days\n' 'print(f"Number of days between {date1} and {date2}: {days_between}")' ), }, tool_call_id='toolu_01TXXnQ5mC4ry42DrM1jPaza', part_kind='tool-call', )
I also managed to run it against Mistral Small 3.1 (15GB) running locally using Ollama (I had to add "Use your python tool" to the prompt to get it to work):
ollama pull mistral-small3.1:24b uv run --with devtools --with pydantic-ai python -c ' import asyncio from devtools import pprint from pydantic_ai import Agent, capture_run_messages from pydantic_ai.models.openai import OpenAIModel from pydantic_ai.providers.openai import OpenAIProvider from pydantic_ai.mcp import MCPServerStdio server = MCPServerStdio( "deno", args=[ "run", "-N", "-R=node_modules", "-W=node_modules", "--node-modules-dir=auto", "jsr:@pydantic/mcp-run-python", "stdio", ], ) agent = Agent( OpenAIModel( model_name="mistral-small3.1:latest", provider=OpenAIProvider(base_url="http://localhost:11434/v1"), ), mcp_servers=[server], ) async def main(): with capture_run_messages() as messages: async with agent.run_mcp_servers(): result = await agent.run("How many days between 2000-01-01 and 2025-03-18? Use your python tool.") pprint(messages) print(result.output) asyncio.run(main())'
Here's the full output including the debug logs.
April 17, 2025
Start building with Gemini 2.5 Flash
(via)
Google Gemini's latest model is Gemini 2.5 Flash, available in (paid) preview as gemini-2.5-flash-preview-04-17.
Building upon the popular foundation of 2.0 Flash, this new version delivers a major upgrade in reasoning capabilities, while still prioritizing speed and cost. Gemini 2.5 Flash is our first fully hybrid reasoning model, giving developers the ability to turn thinking on or off. The model also allows developers to set thinking budgets to find the right tradeoff between quality, cost, and latency.
Gemini AI Studio product lead Logan Kilpatrick says:
This is an early version of 2.5 Flash, but it already shows huge gains over 2.0 Flash.
You can fully turn off thinking if needed and use this model as a drop in replacement for 2.0 Flash.
I added support to the new model in llm-gemini 0.18. Here's how to try it out:
llm install -U llm-gemini
llm -m gemini-2.5-flash-preview-04-17 'Generate an SVG of a pelican riding a bicycle'
Here's that first pelican, using the default setting where Gemini Flash 2.5 makes its own decision in terms of how much "thinking" effort to apply:
Here's the transcript. This one used 11 input tokens and 4266 output tokens of which 2702 were "thinking" tokens.
I asked the model to "describe" that image and it could tell it was meant to be a pelican:
A simple illustration on a white background shows a stylized pelican riding a bicycle. The pelican is predominantly grey with a black eye and a prominent pink beak pouch. It is positioned on a black line-drawn bicycle with two wheels, a frame, handlebars, and pedals.
The way the model is priced is a little complicated. If you have thinking enabled, you get charged $0.15/million tokens for input and $3.50/million for output. With thinking disabled those output tokens drop to $0.60/million. I've added these to my pricing calculator.
For comparison, Gemini 2.0 Flash is $0.10/million input and $0.40/million for output.
So my first prompt - 11 input and 4266 output(with thinking enabled), cost 1.4933 cents.
Let's try 2.5 Flash again with thinking disabled:
llm -m gemini-2.5-flash-preview-04-17 'Generate an SVG of a pelican riding a bicycle' -o thinking_budget 0
11 input, 1705 output. That's 0.1025 cents. Transcript here - it still shows 25 thinking tokens even though I set the thinking budget to 0 - Logan confirms that this will still be billed at the lower rate:
In some rare cases, the model still thinks a little even with thinking budget = 0, we are hoping to fix this before we make this model stable and you won't be billed for thinking. The thinking budget = 0 is what triggers the billing switch.
Here's Gemini 2.5 Flash's self-description of that image:
A minimalist illustration shows a bright yellow bird riding a bicycle. The bird has a simple round body, small wings, a black eye, and an open orange beak. It sits atop a simple black bicycle frame with two large circular black wheels. The bicycle also has black handlebars and black and yellow pedals. The scene is set against a solid light blue background with a thick green stripe along the bottom, suggesting grass or ground.
And finally, let's ramp the thinking budget up to the maximum:
llm -m gemini-2.5-flash-preview-04-17 'Generate an SVG of a pelican riding a bicycle' -o thinking_budget 24576
I think it over-thought this one. Transcript - 5174 output tokens of which 3023 were thinking. A hefty 1.8111 cents!
A simple, cartoon-style drawing shows a bird-like figure riding a bicycle. The figure has a round gray head with a black eye and a large, flat orange beak with a yellow stripe on top. Its body is represented by a curved light gray shape extending from the head to a smaller gray shape representing the torso or rear. It has simple orange stick legs with round feet or connections at the pedals. The figure is bent forward over the handlebars in a cycling position. The bicycle is drawn with thick black outlines and has two large wheels, a frame, and pedals connected to the orange legs. The background is plain white, with a dark gray line at the bottom representing the ground.
One thing I really appreciate about Gemini 2.5 Flash's approach to SVGs is that it shows very good taste in CSS, comments and general SVG class structure. Here's a truncated extract - I run a lot of these SVG tests against different models and this one has a coding style that I particularly enjoy. (Gemini 2.5 Pro does this too).
<svg width="800" height="500" viewBox="0 0 800 500" xmlns="http://www.w3.org/2000/svg"> <style> .bike-frame { fill: none; stroke: #333; stroke-width: 8; stroke-linecap: round; stroke-linejoin: round; } .wheel-rim { fill: none; stroke: #333; stroke-width: 8; } .wheel-hub { fill: #333; } /* ... */ .pelican-body { fill: #d3d3d3; stroke: black; stroke-width: 3; } .pelican-head { fill: #d3d3d3; stroke: black; stroke-width: 3; } /* ... */ </style> <!-- Ground Line --> <line x1="0" y1="480" x2="800" y2="480" stroke="#555" stroke-width="5"/> <!-- Bicycle --> <g id="bicycle"> <!-- Wheels --> <circle class="wheel-rim" cx="250" cy="400" r="70"/> <circle class="wheel-hub" cx="250" cy="400" r="10"/> <circle class="wheel-rim" cx="550" cy="400" r="70"/> <circle class="wheel-hub" cx="550" cy="400" r="10"/> <!-- ... --> </g> <!-- Pelican --> <g id="pelican"> <!-- Body --> <path class="pelican-body" d="M 440 330 C 480 280 520 280 500 350 C 480 380 420 380 440 330 Z"/> <!-- Neck --> <path class="pelican-neck" d="M 460 320 Q 380 200 300 270"/> <!-- Head --> <circle class="pelican-head" cx="300" cy="270" r="35"/> <!-- ... -->
The LM Arena leaderboard now has Gemini 2.5 Flash in joint second place, just behind Gemini 2.5 Pro and tied with ChatGPT-4o-latest, Grok-3 and GPT-4.5 Preview.
