Zandre

LLM Knowledge Bases Something I'm finding very useful recently: using LLMs to build personal knowledge bases for various topics of research interest. In this way, a large fraction of my recent token throughput is going less into manipulating code, and more into manipulating knowledge (stored as markdown and images). The latest LLMs are quite good at it. So: Data ingest: I index source documents (articles, papers, repos, datasets, images, etc.) into a raw/ directory, then I use an LLM to incrementally "compile" a wiki, which is just a collection of .md files in a directory structure. The wiki includes summaries of all the data in raw/, backlinks, and then it categorizes data into concepts, writes articles for them, and links them all. To convert web articles into .md files I like to use the Obsidian Web Clipper extension, and then I also use a hotkey to download all the related images to local so that my LLM can easily reference them. IDE: I use Obsidian as the IDE "frontend" where I can view the raw data, the the compiled wiki, and the derived visualizations. Important to note that the LLM writes and maintains all of the data of the wiki, I rarely touch it directly. I've played with a few Obsidian plugins to render and view data in other ways (e.g. Marp for slides). Q&A: Where things get interesting is that once your wiki is big enough (e.g. mine on some recent research is ~100 articles and ~400K words), you can ask your LLM agent all kinds of complex questions against the wiki, and it will go off, research the answers, etc. I thought I had to reach for fancy RAG, but the LLM has been pretty good about auto-maintaining index files and brief summaries of all the documents and it reads all the important related data fairly easily at this ~small scale. Output: Instead of getting answers in text/terminal, I like to have it render markdown files for me, or slide shows (Marp format), or matplotlib images, all of which I then view again in Obsidian. You can imagine many other visual output formats depending on the query. Often, I end up "filing" the outputs back into the wiki to enhance it for further queries. So my own explorations and queries always "add up" in the knowledge base. Linting: I've run some LLM "health checks" over the wiki to e.g. find inconsistent data, impute missing data (with web searchers), find interesting connections for new article candidates, etc., to incrementally clean up the wiki and enhance its overall data integrity. The LLMs are quite good at suggesting further questions to ask and look into. Extra tools: I find myself developing additional tools to process the data, e.g. I vibe coded a small and naive search engine over the wiki, which I both use directly (in a web ui), but more often I want to hand it off to an LLM via CLI as a tool for larger queries. Further explorations: As the repo grows, the natural desire is to also think about synthetic data generation + finetuning to have your LLM "know" the data in its weights instead of just context windows. TLDR: raw data from a given number of sources is collected, then compiled by an LLM into a .md wiki, then operated on by various CLIs by the LLM to do Q&A and to incrementally enhance the wiki, and all of it viewable in Obsidian. You rarely ever write or edit the wiki manually, it's the domain of the LLM. I think there is room here for an incredible new product instead of a hacky collection of scripts.

Imagine you're John Carmack you're 22 years old and you just wrote a 3D engine in assembly that runs at 35fps on a 486 Doom drops. Quake drops. Half the planet is playing your code. you're the reason GPUs exist. you're the reason your friend Jensen has a yacht today. then in 2009, you sell id Software. people call it betrayal. you call it "they made an offer I couldn't refuse." VR obsession. Oculus. Meta buys it for $2B. you're CTO. but Meta thinks you're a liability. your demos are "too intense." your emails are "too long." your focus on frame timing is "slowing us down." 2022. they push you out. not fired officially. just "restructured." the media writes "end of an era." some crypto bro calls you "washed up." silicon valley moves on. but you don't. you don't write a book. you don't start a podcast. you don't collect speaking fees. you go completely quiet. you take the money. you buy a warehouse in Texas. you hire 10 engineers. and you start coding. not games. not VR. AGI. two years. radio silence. no tweets. no conference talks. while everyone's debating ChatGPT, you're debugging CUDA kernels at 3AM, testing world models. then in 2025, Keen Technologies pivots hard. you're not "exploring" anymore. you're building it. here's what people get wrong: everyone calls it a comeback. a redemption arc. "revenge on Meta." it's none of that. you're a 54-year-old engineer who still codes 12 hours a day because you genuinely can't stop. most CTOs would have bought an island. most legends would have written memoirs. you just kept typing. the most dangerous person in any codebase is the one who goes quiet and never stops shipping commits. karma doesn't need to be real. but obsession is. welcome back, Carmack.

Of all professions, electrical engineers are the ones that impress me the most. It’s not that they know more math. It’s how naturally they use it. A lot of ideas that sit in the pure-math neighborhood end up powering things like cryptography, coding theory, and information theory. I’d always known that in theory. What shocked me was seeing the same ideas running real systems: probability steering decisions in digital comms, optimisation shaping hardware, and information theory acting like a hard constraint on what’s even possible. Working with them on research was humbling. It made me feel like I knew nothing, in the best way. It also made me rethink what being good at math means. In my optimisation course, Space Mapping was one of the concepts that really stuck with me: you keep a computationally cheap coarse model f_c(x) that runs fast but lies, a brutally expensive fine model f_f(x) that tells the truth, and you iteratively adjust a mapping T so that f_c(T(x)) shadows f_f(x) where it matters. You do almost all the optimisation on the cheap side and call the fine model only sparingly. It’s a very engineer move: admit the model is wrong, then make it useful anyway. John Bandler, a Canadian engineer and professor, formalised this in the early 1990s and showed you could make full-wave electromagnetic optimisation practical rather than masochistic. He founded Optimization Systems Associates in 1983 to commercialise the idea, and in 1997 Hewlett-Packard bought the company and folded its tools into what became HP EEsof, then Agilent, now Keysight’s RF design stack. #SpaceMapping #ComputationalElectromagnetics #RFDesign #NonLinearOptimization #AntennaDesign

> be wife > FAANG software engineer > 15 minutes into maternity leave > already making organic beeswax candles > no toxins, no scents, just light > wants to quit tech to start a candle business > "you'll let me run it at a loss right" i love her so much

Elon Musk on how to actually start a company

This "Think in Math. Write in Code." article is so, so good. jmeiners.com/think-in-math/

Got interested in physics in middle school in China. Tried physics Olympia in high school. Wasn’t able to make it out of my city in China while classmate got international gold medal representing China with a full ride into Harvard. Got Depressed and thought I won’t make it in China. Took English classes and aced TOFEL. Attended UIUC to study engineering so I’d a job one day, same year when @drfeifei became an assistant prof there. Got an algo trading internship by luck because I wrote a paper on wireless communication. Met MIT interns who told me they didn’t have to pay tuition. Inspired. Got into MIT and studied probability and info theory. Became prof at Stanford. Married. Amazing kids. Pretty happy. So yeah, Thank you, physics!

Are you ready for one more computing breakthrough? - the 5th in the last 24 hours. Breakthrough artificial neuron mimics the human brain, tiny memristor design could revolutionize AI efficiency. Scientists have created a spiking artificial neuron powered by a diffusive memristor, a nanoscale component that behaves like a real biological neuron. This revolutionary 1M1T1R (one transistor and one resistor) design packs all core neural functions - learning, firing, adapting, forgetting into a footprint the size of a single transistor. Operating at picojoule energy levels, it’s MILLIONS of times more efficient than current AI chips. 👀 This breakthrough could enable neuromorphic chips with billions of brain like neurons, capable of real time learning, ultra low power use. Huge leap toward brain scale AI.

1h later...new massive computing breakthrough New brain inspired chip learns on its own, no massive AI training needed A team led by Dr. Joseph S. Friedman at The University of Texas at Dallas has developed a neuromorphic computing prototype, a brain inspired computer that learns and makes predictions using far fewer computations and much less energy than traditional AI systems. Unlike conventional computers that separate memory and processing, neuromorphic hardware integrates both, mimicking how neurons and synapses in the brain adapt and learn. The team used magnetic tunnel junctions (MTJs), nanoscale magnetic devices that strengthen connections between artificial neurons based on activity, following Hebb’s law ("neurons that fire together, wire together"). This breakthrough, published in Communications Engineering, is a big step toward energy efficient, self learning computers that can bring powerful AI capabilities to mobile devices without massive training costs.

Hello Thermo World.

dear algorithm, show this post to people who are obsessed with: Robotics Control Systems Embedded Intelligence Autonomous Machines Battery Storage & Energy Systems Advanced Manufacturing Cyber-Physical Systems Mechatronics Motion Control & Actuators AI x Hardware Integration Edge Robotics Industrial Automation you’re my kind of people; the ones who build the future by fusing code, circuits, and chaos.

Yoo, I wrote a frame level audio and video sync layer in Golang in the core it just gives an API endpoint, which is used to get those timed frames for decoding .. In the stress tests, it maintains p99 drift of just 1.8 ms on 1 Mbps, 30 fps streams while handling packet loss

>be Luana >born in Brazil >spend childhood as a ballerina, 8 hours a day, Bolshoi-level discipline >97 kids fighting for ONE spot at Bolshoi >become a 0.001% ballerina >go to Austria for a Swan Lake Season. >age 18, say "bye" to ballet >want to join where the smartest and talent people are >joins MIT >grind mode: Machine Learning, Statistical Theory, algorithms >CSAIL researcher, building AI before it was cool >worked at Bridgewater, Five Rings, Citadel >Wall Street freaking out >Luana watching: “why not just trade on a binary event?” >2018 >meet Tarek Mansour at MIT >“what if we made a market for EVERYTHING?” >found Kalshi with Tarek >Kalshi means “everything” in Arabic >vision: price the future, from elections to Oscars >next 5 years = regulatory hell >fight against regulators to proof that kalshi is not gambling >2020 >after years of regulations battles >kalshi become 1st regulated prediction market in US >history made >2021 >platform live in July >start small with only economy markets >keeps building >2022 >Forbes 30 Under 30, only Brazilian on the list >keep building >2023 >push for election markets >CFTC: “nah, too spicy” >Luana and Tarek sue their own regulator >2024 >win and able to have election markets >October 2024: election markets LIVE >$1.4B volume in TWO WEEKS >#1 finance app during election night >$42M/day peak, $1.97B total volume >people thought they would die in volume since there's no election next year >keep building >2025 >PM's boom >June: $2B valuation, Series C $185M led by Paradigm >October: $5B valuation, 2.5x in 3 months, $300M Series D from Sequoia & a16z >$50B annualized volume >Sequoia, Paradigm, Andreessen Horowitz throw money >62% global market share, up from 3% last year >$4B monthly volume >sports trading takes over, $1.1B on NFL alone >parlays launched, chaos ensues >Robinhood integrates Kalshi >prediction markets going to mainstream >global expansion >140 countries >let people trade >built infrastructure for truth >be inspiration for woman's, immigrants and young people. Luana lore is really inspiring and amazing. Sometimes people forget how fantastic both founders of Kalshi really are @luanalopeslara and @mansourtarek_ Let the people trade.

THIS IS SO FREAKING COOL LLMS CAN LITERALLY SEE BECAUSE TEXT HAS SPATIAL QUALITIES THAT'S HOW THEY MAKE ASCII ART

I just solved the strangest tech problem I've ever come across. My wifi kept dropping packets, confirmed by ping. It would look something like the first image (packets dropping, then it comes back to life). After a while the connection would just stop working completely and drop all packets. If I turned my wifi off and on again, it would resume working normally. I thought this was a problem with my router, cables or ISP, so I went through the usual troubleshooting processes: checking settings, swapping cables, powercycling, etc. nothing worked. Eventually I started noticing that it would only happen when I sat in my office. I was taking a video meeting and it kept dropping segments of audio, making it hard to understand the other person. I unplugged my laptop from my monitor + keyboard because I wanted to try walking into another room. Immediately, the video started working perfectly. I thought it was because I was a few steps closer to my router - but that didn't really make sense because the router had always worked fine from that location. I started thinking about what I'd changed in my desk setup recently, the only thing I could think of was when I changed from using a USB-C <-> DP cable for my monitor, to using a HDMI <-> HDMI cable. I tried plugging my screen back in. Immediately, the packets started dropping. I unplugged it, the dropping stopped. It turns out my HDMI cable doesn't have enough shielding, so it was jamming my own WiFi signal with radio frequency interference 🤯 I unrolled the HDMI cable that was sitting behind my laptop and draped the main length of the cord down behind my desk, and now my internet works perfectly. Apparently this is a fairly common issue?!

Wait. The South African accent slip is actually a trend on TikTok. See yourselves. 😂

“Focus is a force multiplier”. -Co-Founder of OpenAi, Sam Altman:

Nvidia showcases Blue, a cute little robot powered by the Newton physics engine. This was the „wow“-moment for me. Robots are coming. This time for real. And I am all in for it!

Libgen, Sci-Hub, and Z-library had millions of pirated academic books and papers. So, they were shut down. We shouldn't use them anyway. We should help billion-dollar academic publishers get richer. Anyway, here's how to access these libraries: Don't do this!