Not always true! Your statement is only true when the running clock's speed is the same as time. Thus, regular time and the clock's time will never meet.
If the clock is running faster than regular time, it will at point catch up to regular time and thus be correct for a split second. If the clock is slower than regular time, regular time will catch up to the clock and the clock will be right for a split second.
If the clock is running backwards at very high speed, it would be right infinitely many times but the proportion of the time that it is right would approach some finite constant.
If we are being pedantic, running clocks never run exactly the same as time. So they'll be right (very) much more seldom than the stopped clock, which is right twice a day.
> they added another trillion tokens and shrank the model from 18 GB to 9 GB through quantization, reducing its bit width from Mamba2’s 16-bit floating-point precision to 8-bits.
This sounds like what they call "Bamba-9B" is actually an 18B model quantised to 8 bits.
I thought generally we were naming models "nB" by their number of params and treating quantisation as a separate concern. Are there any other models that instead treat the name as an indicative memory requirement?
Is this an attempt to hide that it fares poorly vs other ~18B parameter models?
> chose to make just about everything associated with Bamba open-source — the training recipes, the data, the data loader IBM designed for largescale distributed training, and a quantization framework aimed at shaving storage and inferencing costs.
This type of architecture is definitely the future. Unlimited attn is a dead end. As a human you don't need to scan an entire book just to guess what the next word will be and LLMs shouldn't need that either.
Humans can re-attend to material whenever necessary (i.e you can just re-read a book, re-watch a documentary etc when you feel you have missed crucial context) so it's not the end of the world. These SSMs or modern RNNs can't and if crucial context has been discarded by the end of the query then well too bad. Transformers are of course always re-attending so not an issue for them either. Until that issue is resolved, i don't think attention will be going anywhere.
Not be contrarian, but if the next word prediction happens to be someone's name or a place or something discussed multiple places in the book then often, yes, a knowledge of the full plot of the book is "required" just to predict the next word, as you get to the middle or end of a book.
For example you could never fill in the last chapter of any good book without having knowledge of every previous chapter. Not highly detailed knowledge, but still knowledge.
Isn't this exactly the point of this model? No need to memorize everything (which makes transfomers expensive), just keep the relevant info. SSM are essentially recurrent models.
You can't always know what will be "relevant info" in the future. Even humans can't do this but whenever that's an issue, we just go back and re-read, re-watch etc.
None of these modern recurrent architecture have a way to do this.
What an LLM does is stuff it all into short term memory. Humans dump the first pages into long term memory and "make sense" of it. Humans have a massive context window because of this (and sheer brain size and efficiency).
We don’t put things into long term memory after we read it. We usually put it after night of sleep. I personally think that context (and kv cache correspondingly) in the models are akin to our short term memory, while training process (and actual weights) are to our long term memory. And we can’t be sure our short term memory doesn’t work in a way of matching the current context towards currently stored short term memory. From this perspective transformers are enough and just fine.
So if you now hide my original comment and try to recall what I said, do you know it word for word (and are thinking if every word, e.g. did I use one or 2 spaces somewhere as that would change tokens) or do you have a rough concept of what I said?
OTOH if you had to remember a phone number to write it down, how does that differ?
I think in a way it makes transformers superior to humans, their short term memory is much more powerful =)
Supporting extra long contexts also make transformers super human. Because, again, human's short term memory is exactly this - short term. And much shorter than millions of tokens we expect from models nowadays.
As for SSMs - I think they compress model memory state way too much. Mixed global/local attention layers do just as well. And sparse/block attention seems like a way forward much more (https://arxiv.org/abs/2502.11089).
> And much shorter than millions of tokens we expect from models nowadays.
Yet all current model still suck above 32k. (Yes some can do needle in a haystack fine, but they still fail at anything even slightly more complex over a long context).
32k is still much higher than humans' though, so I agree with you that it gives them some kind of super human abilities over moderately long context, but they are still disappointingly bad over longer context.
Another recent transformer/SSM hybrid is "M1", with a more than 3x claimed inference speed-up compared to equivalent transformers: https://arxiv.org/pdf/2504.10449
IBM is claiming at least a 2x inference speed-up with Bamba. Both groups say that future SSM optimizations to vLLM would lead to further inference speed improvement.
I imported these to America to feed my infant. Data shows the prevalence of peanut allergies lines up with when AAP guidelines started recommending that babies do NOT eat peanut. Israel never went along with this and thus has the lowest rates of allergies in the world.
Latest research does strongly suggest that introducing small amounts of common allergens (peanuts, shellfish,milk products...) as early as possible does significantly reduce risk for allergies later. Many early childhood organisations already recommend this. Official health recommendations are often slow to catch up (often for good reasons, but introducing peanuts etc. early is already officially recommended in quite a few countries (Australia, NZ, Sweden for example AFAIK). Not all health professionals are always up to date either though.
Spot on. From the linked blog post "The refrain of La Bamba, the Mexican folk song that Ritchie Valens made famous, goes: Para bailar La Bamba/Se necesita una poca de Gracia. "
Love those GPQA scores hovering around 5% when chance (on 4-way multi-choice) would have got them 25%!
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