• We invented multi bit models so we could get more accuracy since neural networks are based off human brains which are 1 bit models themselves. A 2 bit neuron is 4 times as capable as a 1 bit neuron but only double the size and power requirements. This whole thing sounds like bs to me. But then again maybe complexity is more efficient than per unit capability since thats the tradeoff.

    • Echo Dot@feddit.uk
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      7 months ago

      Human brains aren’t binary. They send signals in lot of various strength. So “on” has a lot of possible values. The part of the brain that controls emotions considers low but non zero level of activation to be happy and high level of activation to be angry.

      It’s not simple at all.

    • Wappen@lemmy.world
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      7 months ago

      Human brains aren’t 1 bit models. Far from it actually, I am not an expert though but I know that neurons in the brain encode different signal strengths in their firing frequency.

          • Neuronal firing is often understood as a fundamentally binary process, because a neuron either fires an action potential or it does not. This is often referred to as the “all-or-none” principle. Once the membrane potential of a neuron reaches a certain threshold, an action potential will fire. If this threshold is not reached, it won’t fire. There’s no such thing as a “partial” action potential; it’s a binary, all-or-none process.

            Frequency Modulation: Even though an individual neuron’s action potential can be considered binary, neurons encode the intensity of the stimulation in the frequency of action potentials. A stronger stimulus causes the neuron to fire action potentials more rapidly. Again binary in nature not analog.

            • floofloof@lemmy.caOP
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              7 months ago

              Neuronal firing is often understood as a fundamentally binary process, because a neuron either fires an action potential or it does not. This is often referred to as the “all-or-none” principle.

              Isn’t this true of standard multi-bit neural networks too? This seems to be what a nonlinear activation function achieves: translating the input values into an all-or-nothing activation.

              The characteristic of a 1-bit model is not that its activations are recorded in a single but but that its weights are. There are no gradations of connection weights: they are just on or off. As far as I know, that’s different from both standard neural nets and from how the brain works.

            • ItsMeForRealNow@lemmy.world
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              7 months ago

              So what you are saying is they are discrete in time and pulse modulated. Which can encode for so much more information than how NNs work on a processor.

        • conciselyverbose
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          7 months ago

          We really don’t know jack shit, but we know more than enough to know fire rate is hugely important.

    • kromem@lemmy.world
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      7 months ago

      The network architecture seems to create a virtualized hyperdimensional network on top of the actual network nodes, so the node precision really doesn’t matter much as long as quantization occurs in pretraining.

      If it’s post-training, it’s degrading the precision of the already encoded network, which is sometimes acceptable but always lossy. But being done at the pretrained layer it actually seems to be a net improvement over higher precision weights even if you throw efficiency concerns out the window.

      You can see this in the perplexity graphs in the BitNet-1.58 paper.

    • Miaou@jlai.lu
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      7 months ago

      Multi bits models exist because thats how computers work, but there’s been a lot of work to use e.g. fixed point over floating for things like FPGAs, or with shorter integer types, and often results are more than good enough.

  • Naz
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    7 months ago

    Try using a 1-bit LLM to test the article’s claim.

    The perplexity loss is staggering. It’s like 75% accuracy lost or more. It turns a 30 billion parameter model into a 7 billion parameter model.

    Highly recommended that you try to replicate their results.

    • davidgro@lemmy.world
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      7 months ago

      But since it takes 10% of the space (vram, etc.) sounds like they could just start with a larger model and still come out ahead

    • kromem@lemmy.world
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      7 months ago

      There’s actually a perplexity improvement parameter-to-paramater for BitNet-1.58 which increases as it scales up.

      So yes, post-training quantization perplexity issues are apparent, but if you train quantization in from the start it is better than FP.

      Which makes sense through the lens of the superposition hypothesis where the weights are actually representing a hyperdimensional virtual vector space. If the weights have too much precision competing features might compromise on fuzzier representations instead of restructuring the virtual network to better matching nodes.

      Constrained weight precision is probably going to be the future of pretraining within a generation or two looking at the data so far.

    • Zos_Kia@lemmynsfw.com
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      7 months ago

      There is some research being done with fine tuning 1-bit quants, and they seem pretty responsive to it. Of course you’ll never get a full generalist model out of it, but there’s some hope for tiny specialized models that can run on CPU for a fraction of the energy bill.

      The big models are great marketing because their verbal output is believable, but they’re grossly overkill for most tasks.

  • potatopotato
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    7 months ago

    Making ai more efficient will just mean more ai

  • tal@lemmy.today
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    7 months ago

    So, first, that’s just a reduction. But set that aside, and let’s talk big picture here.

    My GPU can use something like 400 watts.

    A human is about 100 watts constant power consumption.

    So even setting aside all other costs of a human and only paying attention to direct energy costs, if an LLM running on my GPU can do something in under a quarter the time I can, then it’s more energy-efficient.

    I won’t say that that’s true for all things, but there are definitely things that Stable Diffusion or the like can do today in a whole lot less than a quarter the time it would take me.

    • milicent_bystandr@lemm.ee
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      7 months ago

      That said, the LLM isn’t running an array of bonus functions like breathing and wondering why you said that stupid thing to your Aunt’s cousin 15 years ago and keeping tabs on your ambient noise for possible phone calls from that nice boy who promised to call you back.

    • Traister101@lemmy.today
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      7 months ago

      Chat GPT can output an article in a much shorter time than it’d take me to write one but people would probably like mine more

    • wischi@programming.dev
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      7 months ago

      The problem is that using those tools no matter how energy efficient will add to the total amount of energy humans use, because even if an AI generates an image faster than a human could, the human still needs 100W constantly.

      This doesn’t mean, that we shouldn’t make it more efficient but let’s be honest, more energy efficient AI just means that we would use even more AI everywhere.

      • RmDebArc_5
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        7 months ago

        Solution: remove human

        That’s what a lot of news sites are doing, getting rid of large parts of the employees and having the remaining do the same work with LLM. If you burn the no longer needed employees as an alternative heating solution your energy usage drops effectively to zero

        • wischi@programming.dev
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          7 months ago

          True, but It’s still not what I meant unless they kill those humans. The employees that did that work before still need the 100W. It might be that they can now do something else (or just be unemployed) but the net energy usage is not going down.

      • derpgon@programming.dev
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        7 months ago

        But speaking of efficiency, a human can do more useful tasks while AI is crunching numbers. But that is very subjective.

        • wischi@programming.dev
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          7 months ago

          It depends what you mean by useful. Most humans are (at least at the moment) more versatile than even the most advanced AI we have. But you have to keep in mind that there are jobs with pretty mundane tasks where you don’t really need the intelligence and versatility of a human.

          • derpgon@programming.dev
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            7 months ago

            Thats what I meant, keep the tasks separated, and let both what they do better than the other half.