- cross-posted to:
- aicompanions@lemmy.world
- cross-posted to:
- aicompanions@lemmy.world
Folks in the field of AI like to make predictions for AGI. I have thoughts, and Iāve always wanted to write them down. Letās do that.
Since this isnāt something Iāve touched on in the past, Iāll start by doing my best to define what I mean by āgeneral intelligenceā: a generally intelligent entity is one that achieves a special synthesis of three things:
A way of interacting with and observing a complex environment. Typically this means embodiment: the ability to perceive and interact with the natural world. A robust world model covering the environment. This is the mechanism which allows an entity to perform quick inference with a reasonable accuracy. World models in humans are generally referred to as āintuitionā, āfast thinkingā or āsystem 1 thinkingā. A mechanism for performing deep introspection on arbitrary topics. This is thought of in many different ways ā it is āreasoningā, āslow thinkingā or āsystem 2 thinkingā. If you have these three things, you can build a generally intelligent agent. Hereās how:
First, you seed your agent with one or more objectives. Have the agent use system 2 thinking in conjunction with its world model to start ideating ways to optimize for its objectives. It picks the best idea and builds a plan. It uses this plan to take an action on the world. It observes the result of this action and compares that result with the expectation it had based on its world model. It might update its world model here with the new knowledge gained. It uses system 2 thinking to make alterations to the plan (or idea). Rinse and repeat.
My definition for general intelligence is an agent that can coherently execute the above cycle repeatedly over long periods of time, thereby being able to attempt to optimize any objective.
The capacity to actually achieve arbitrary objectives is not a requirement. Some objectives are simply too hard. Adaptability and coherence are the key: can the agent use what it knows to synthesize a plan, and is it able to continuously act towards a single objective over long time periods.
So with that out of the way ā where do I think we are on the path to building a general intelligence?
World Models Weāre already building world models with autoregressive transformers, particularly of the āomnimodelā variety. How robust they are is up for debate. Thereās good news, though: in my experience, scale improves robustness and humanity is currently pouring capital into scaling autoregressive models. So we can expect robustness to improve.
With that said, I suspect the world models we have right now are sufficient to build a generally intelligent agent.
Side note: I also suspect that robustness can be further improved via the interaction of system 2 thinking and observing the real world. This is a paradigm we havenāt really seen in AI yet, but happens all the time in living things. Itās a very important mechanism for improving robustness.
When LLM skeptics like Yann say we havenāt yet achieved the intelligence of a cat ā this is the point that they are missing. Yes, LLMs still lack some basic knowledge that every cat has, but they could learn that knowledge ā given the ability to self-improve in this way. And such self-improvement is doable with transformers and the right ingredients.
Reasoning There is not a well known way to achieve system 2 thinking, but I am quite confident that it is possible within the transformer paradigm with the technology and compute we have available to us right now. I estimate that we are 2-3 years away from building a mechanism for system 2 thinking which is sufficiently good for the cycle I described above.
Embodiment Embodiment is something weāre still figuring out with AI but which is something I am once again quite optimistic about near-term advancements. There is a convergence currently happening between the field of robotics and LLMs that is hard to ignore.
Robots are becoming extremely capable ā able to respond to very abstract commands like āmove forwardā, āget upā, ākick ballā, āreach for objectā, etc. For example, see what Figure is up to or the recently released Unitree H1.
On the opposite end of the spectrum, large Omnimodels give us a way to map arbitrary sensory inputs into commands which can be sent to these sophisticated robotics systems.
Iāve been spending a lot of time lately walking around outside talking to GPT-4o while letting it observe the world through my smartphone camera. I like asking it questions to test its knowledge of the physical world. Itās far from perfect, but it is surprisingly capable. Weāre close to being able to deploy systems which can commit coherent strings of actions on the environment and observe (and understand) the results. I suspect weāre going to see some really impressive progress in the next 1-2 years here.
This is the field of AI I am personally most excited in, and I plan to spend most of my time working on this over the coming years.
TL;DR In summary ā weāve basically solved building world models, have 2-3 years on system 2 thinking, and 1-2 years on embodiment. The latter two can be done concurrently. Once all of the ingredients have been built, we need to integrate them together and build the cycling algorithm I described above. Iād give that another 1-2 years.
So my current estimate is 3-5 years for AGI. Iām leaning towards 3 for something that looks an awful lot like a generally intelligent, embodied agent (which I would personally call an AGI). Then a few more years to refine it to the point that we can convince the Gary Marcusā of the world.
Really excited to see how this ages. š
I am probably giving most of them too much credit, but I think some of them took the Bitter Lesson and learned the wrong things from it. LLMs performed better than originally expected just off context, and (apparently) scaled better with bigger model and more training than expected, so now they think they just need to crank up the size and tweak things slightly (i.e. āprompt engineeringā and RLHF) and donāt appreciate the limits built into the entire approach.
The annoying thing about another winter is that it would probably result in funding being cut for other research. And laymen donāt appreciate all the academic funding that goes into research for decades before an approach becomes interesting and viable enough to scale up and commercialize (and then overhyped and oversold before some more modest practical usages become common, and relabeled as something other than AI).
Edit: or more cynically, the leaders and hype-men know that algorithmic advances arenāt an automatic dump money in, get out disruptive product process, so they donāt bother putting as much monetary investment or hype into algorithmic advances. Like compare the attention paid towards Yann LeCunn talking about algorithmic developments vs. Sam Altman promising grad student level LLMs (as measured by a spurious benchmark) in two years.