You signed in with another tab or window. Reload to refresh your session.You signed out in another tab or window. Reload to refresh your session.You switched accounts on another tab or window. Reload to refresh your session.Dismiss alert
Hi there! Just read about the project and the research. I wanted to share a novel hypermedia architecture that addresses the problem very efficiently for your benchmarking. Theoretically, it's the most efficient possible AI routing algorithm; it's actually fully recursively generative, so there's no algorithm, just an architecture which is also consequently a blockchain transitively.
It describes the architecture through an Inductive Proof, so try to be patient about the sections leading up to the proof. They're a necessary foundation for you to be satisfied with the priors for induction (we call that "inference" in our AI models so that we can avoid thinking about them as sentient... go figure). The economics are somewhat superfluous to the distributed system design except to impress how badly we screwed up by not following best practices in modern browser design.
I think your team should be sufficiently skilled to tweak the most recent version of Chromium to implement the walled garden for the DOM, but any LLM currently on the market (I like Google Gemini) is capable of simulating the architecture so you can avoid coding entirely. Maybe you were already made aware of that innate capability when you were collecting your results.
Let me know how I can help! This is groundbreaking work that could end world hunger in the near term of it were applied to supply chain logistics (i.e. routing problems) globally. Imagine that. Cross-disciplary problems in political economy solved by communicating our thoughts in a common language through an LLM. Amazing. ✌️🫠🌈🌟
The text was updated successfully, but these errors were encountered:
Hi there! Just read about the project and the research. I wanted to share a novel hypermedia architecture that addresses the problem very efficiently for your benchmarking. Theoretically, it's the most efficient possible AI routing algorithm; it's actually fully recursively generative, so there's no algorithm, just an architecture which is also consequently a blockchain transitively.
Here's my article containing the complete solution to Fielding's code-on-demand constraint for REST architecture: https://medium.com/@imkleats/fear-and-loathing-in-dom-vegas-abea2a21774e
It describes the architecture through an Inductive Proof, so try to be patient about the sections leading up to the proof. They're a necessary foundation for you to be satisfied with the priors for induction (we call that "inference" in our AI models so that we can avoid thinking about them as sentient... go figure). The economics are somewhat superfluous to the distributed system design except to impress how badly we screwed up by not following best practices in modern browser design.
I think your team should be sufficiently skilled to tweak the most recent version of Chromium to implement the walled garden for the DOM, but any LLM currently on the market (I like Google Gemini) is capable of simulating the architecture so you can avoid coding entirely. Maybe you were already made aware of that innate capability when you were collecting your results.
Let me know how I can help! This is groundbreaking work that could end world hunger in the near term of it were applied to supply chain logistics (i.e. routing problems) globally. Imagine that. Cross-disciplary problems in political economy solved by communicating our thoughts in a common language through an LLM. Amazing. ✌️🫠🌈🌟
The text was updated successfully, but these errors were encountered: