2025-04-21 20:57:58
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.
Those 2023-era versions were promising but very disappointing. They had a strong tendency to hallucinate details that weren't present in the search results, to the point that you couldn't trust anything they told you.
In this first half of 2025 I think these systems have finally crossed the line into being genuinely useful.
First came the Deep Research implementations - Google Gemini and then OpenAI and then Perplexity launched products with that name and they were all impressive: they could take a query, then churn away for several minutes assembling a lengthy report with dozens (sometimes hundreds) of citations. Gemini's version had a huge upgrade a few weeks ago when they switched it to using Gemini 2.5 Pro, and I've had some outstanding results from it since then.
Waiting a few minutes for a 10+ page report isn't my ideal workflow for this kind of tool. I'm impatient, I want answers faster than that!
Last week, OpenAI released search-enabled o3 and o4-mini through ChatGPT. On the surface these look like the same idea as we've seen already: LLMs that have the option to call a search tool as part of replying to a prompt.
But there's one very significant difference: these models can run searches as part of the chain-of-thought reasoning process they use before producing their final answer.
This turns out to be a huge deal. I've been throwing all kinds of questions at ChatGPT (in o3 or o4-mini mode) and getting back genuinely useful answers grounded in search results. I haven't spotted a hallucination yet, and unlike prior systems I rarely find myself shouting "no, don't search for that!" at the screen when I see what they're doing.
Here are four recent example transcripts:
Talking to o3 feels like talking to a Deep Research tool in real-time, without having to wait for several minutes for it to produce an overly-verbose report.
My hunch is that doing this well requires a very strong reasoning model. Evaluating search results is hard, due to the need to wade through huge amounts of spam and deceptive information. The disappointing results from previous implementations usually came down to the Web being full of junk.
Maybe o3, o4-mini and Gemini 2.5 Pro are the first models to cross the gullibility-resistance threshold to the point that they can do this effectively?
The user-facing Google Gemini app can search too, but it doesn't show me what it's searching for. As a result, I just don't trust it. This is a big missed opportunity since Google presumably have by far the best search index, so they really should be able to build a great version of this. And Google's AI assisted search on their regular search interface hallucinates wildly to the point that it's actively damaging their brand. I just checked and Google is still showing slop for Encanto 2!
Claude also finally added web search a month ago but it doesn't feel nearly as good. It's using the Brave search index which I don't think is as comprehensive as Bing or Gemini, and searches don't happen as part of that powerful reasoning flow.
The truly magic moment for me came a few days ago.
My Gemini image segmentation tool was using the @google/generative-ai library which has been loudly deprecated in favor of the still in preview Google Gen AI SDK @google/genai library.
I did not feel like doing the work to upgrade. On a whim, I pasted my full HTML code (with inline JavaScript) into ChatGPT o4-mini-high and prompted:
This code needs to be upgraded to the new recommended JavaScript library from Google. Figure out what that is and then look up enough documentation to port this code to it.
(I couldn't even be bothered to look up the name of the new library myself!)
... it did exactly that. It churned away thinking for 21 seconds, ran a bunch of searches, figured out the new library (which existed way outside of its training cut-off date), found the upgrade instructions and produced a new version of my code that worked perfectly.
I ran this prompt on my phone out of idle curiosity while I was doing something else. I was extremely impressed and surprised when it did exactly what I needed.
I'm writing about this today because it's been one of my "can LLMs do this reliably yet?" questions for over two years now. I think they've just crossed the line into being useful as research assistants, without feeling the need to check everything they say with a fine-tooth comb.
I still don't trust them not to make mistakes, but I think I might trust them enough that I'll skip my own fact-checking for lower-stakes tasks.
This also means that a bunch of the potential dark futures we've been predicting for the last couple of years are a whole lot more likely to become true. Why visit websites if you can get your answers directly from the chatbot instead?
The lawsuits over this started flying back when the LLMs were still mostly rubbish. The stakes are a lot higher now that they're actually good at it!
I can feel my usage of Google search taking a nosedive already. I expect a bumpy ride as a new economic model for the Web lurches into view.
Tags: gemini, anthropic, openai, llm-tool-use, o3, search, ai, llms, google, generative-ai, perplexity, chatgpt, ai-ethics, llm-reasoning, ai-assisted-search, deep-research
2025-04-21 00:35:15
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
Tags: gemini, ethan-mollick, generative-ai, o3, ai, llms
2025-04-21 00:10:34
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.
Tags: meta, open-source, generative-ai, llama, ai, llms, qwen
2025-04-20 22:01:09
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!
Tags: gemini, llm, ai-assisted-programming, generative-ai, o3, ai, llms, plugins, github, mlx, gemma, long-context
2025-04-20 07:58:18
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.
Since the EU AI act (12 July 2024) is available online I decided to take a look for myself.
Here’s one giant HTML page containing the full text of the act in English. I checked the token count with ttok (which uses the OpenAI tokenizer, but it’s close enough to work as a good estimate for other models):
curl 'https://eur-lex.europa.eu/legal-content/EN/TXT/HTML/?uri=OJ:L_202401689' | ttok241,722 tokens. That should fit nicely into Gemini 2.5 Flash (or GPT-4.1 or Gemini 2.5 Pro).
My Gemini API key was playing up so I ran it via OpenRouter (and llm-openrouter) instead:
llm -f 'https://eur-lex.europa.eu/legal-content/EN/TXT/HTML/?uri=OJ:L_202401689' \
-m openrouter/google/gemini-2.5-flash-preview:thinking \
-s 'Summary of mentions of open source here, including what the document defines open source to mean'Here's the full answer. Relevant extract:
- Recital (89) states that third parties making accessible "tools, services, processes, or AI components other than general-purpose AI models" under a free and open-source licence should not be mandated to comply with upstream provider responsibilities towards those who integrate them. It also encourages developers of such resources to implement documentation practices like model cards and data sheets to promote trustworthy AI.
- Recital (102) acknowledges that software and data, including models, released under a free and open-source licence can contribute to research and innovation and provide growth opportunities.
I tracked down Recital 89 and Recital 102 to check. Sure enough, 89 says:
Third parties making accessible to the public tools, services, processes, or AI components other than general-purpose AI models, should not be mandated to comply with requirements targeting the responsibilities along the AI value chain
And in 102:
General-purpose AI models released under free and open-source licences should be considered to ensure high levels of transparency and openness if their parameters, including the weights, the information on the model architecture, and the information on model usage are made publicly available. The licence should be considered to be free and open-source also when it allows users to run, copy, distribute, study, change and improve software and data, including models under the condition that the original provider of the model is credited, the identical or comparable terms of distribution are respected.
Gemini 2.5 Flash also pointed me to Article 2(12), which reads:
12. This Regulation does not apply to AI systems released under free and open-source licences, unless they are placed on the market or put into service as high-risk AI systems or as an AI system that falls under Article 5 or 50.
I asked a follow-up question:
llm -c 'so it says specific licenses but does it clarify which specific licenses count?'And got back this response:
No, the document does not list specific names of licenses that qualify as "free and open-source".
Instead of listing names (like GPL, MIT, Apache, etc.), the Regulation defines what kind of terms a license must grant for it to be considered "free and open-source" for the purposes of the Regulation.
According to Recital (102), such a license must essentially allow software and data, including models, to be:
- Openly shared.
- Where users can freely access, use, modify and redistribute them or modified versions thereof.
The Recital further clarifies that a license can still be considered free and open-source even if it includes standard conditions like requiring attribution (crediting the original provider) or respecting identical or comparable terms of distribution.
I am very obviously not a lawyer, but based on the above I do find the theory credible that Meta are using "open source" in their marketing around Llama partly because the EU AI act has special exemptions for "open source" models that have nothing to do with the OSI definition of that term.
Total cost to use Gemini 2.5 Flash for this? 5.1 cents for my first question and 4.3 cents for the follow-up. That second question was cheaper even though it built on the first because output tokens are more expensive than input tokens and the second answer was shorter than the first - using the "thinking" model output is charged at $3.50/million tokens, input is just $0.15/million.
Using an LLM as a lawyer is obviously a terrible idea, but using one to crunch through a giant legal document and form a very rough layman's understanding of what it says feels perfectly cromulent to me.
Update: Steve O'Grady points out that Meta/Facebook have been abusing the term "open source" for a lot longer than the EU AI act has been around - they were pulling shenanigans with a custom license for React back in 2017.
Tags: meta, ai-ethics, open-source, generative-ai, llama, ai, llms, openrouter, long-context, gemini, llm
2025-04-20 06:17:38
Claude Code: Best practices for agentic coding
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.
Via @HamelHusain
Tags: anthropic, claude, ai-assisted-programming, llm-reasoning, generative-ai, ai, llms
