Wooldridge sees positives in the kind of AI depicted in the early years of Star Trek. In one 1968 episode, The Day of the Dove, Mr Spock quizzes the Enterprise’s computer only to be told in a distinctly non-human voice that it has insufficient data to answer. “That’s not what we get. We get an overconfident AI that says: yes, here’s the answer,” he said. “Maybe we need AIs to talk to us in the voice of the Star Trek computer. You would never believe it was a human being.”
Hmm. That’s probably a pretty straightforward modification for existing LLMs, at least at the token level.
You can obtain token probabilities, so you can give some estimate out-of-band confidence in a response, down to the token level. Don’t really need to change anything for that, just expose some data.
And you could make the AI aware of its own neural net’s confidence level, feed the confidence back into the neural net for subsequent tokens, see if you can get it to take that information into account.
en.wikipedia.org/wiki/Recurrent_neural_network
In artificial neural networks, recurrent neural networks (RNNs) are designed for processing sequential data, such as text, speech, and time series,[1] where the order of elements is important. Unlike feedforward neural networks, which process inputs independently, RNNs utilize recurrent connections, where the output of a neuron at one time step is fed back as input to the network at the next time step. This enables RNNs to capture temporal dependencies and patterns within sequences.
ThirdConsul@lemmy.zip 1 week ago
That means literally nothing. You can get wrong answer with 100% token confidence, and correct one with 0.000001% confidence.
tal@lemmy.today 1 week ago
If everything that I’ve seen in the past has said that 1+1 is 4, then sure — I’m going to say that 1+1 is 4. I will say that 1+1 is 4 and be confident in that.
But if I’ve seen multiple sources of information that state differing things — say, half of the information that I’ve seen says that 1+1 is 4 and the other half says that 1+1 is 2, then I can expose that to the user.
I do think that Aceticon does raise a fair point, that fully capturing uncertainty probably needs a higher level of understanding than an LLM directly generating text from its knowledge store is going to have. For example, having many ways of phrasing a response will also reduce confidence in the response, even if both phrasings are semantically compatible. Being on the edge between saying that, oh…an object is “white” or “eggshell” will also reduce the confidence in token probability, even if the two responses are both semantically more-or-less identical in the context of the given conversation.
ThirdConsul@lemmy.zip 1 week ago
You do realise that prompts to and responses from the LLM are not as simple as what you wrote “1+1=?”. The context window is growing for a reason. And LLMs dont have two dimensional probability of the next token?