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MAXPOOL

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Gap between commercial and open-source LLMs for Olympiad-level math is shrinking

aimoprize.com
3 points·by MAXPOOL·10 miesięcy temu·0 comments

Physics-based Deep Learning Book (v0.3, the GenAI edition)

physicsbaseddeeplearning.org
5 points·by MAXPOOL·w zeszłym roku·0 comments

Debates on the nature of artificial general intelligence

science.org
3 points·by MAXPOOL·2 lata temu·0 comments

Study on Energy Consumption in DL Models Across Runtime Infrastructures

hgpu.org
1 points·by MAXPOOL·2 lata temu·0 comments

Effect of exercise for depression: systematic review, meta analyisis

bmj.com
3 points·by MAXPOOL·2 lata temu·1 comments

Counterfactual Tasks to Evaluate the Generality of Analogical Reasoning in LLMs

arxiv.org
2 points·by MAXPOOL·2 lata temu·0 comments

Introduction to State Space Models (SSM)

huggingface.co
4 points·by MAXPOOL·2 lata temu·1 comments

Making Real-World Reinforcement Learning Practical [video]

youtube.com
59 points·by MAXPOOL·3 lata temu·2 comments

Mobile Aloha Learning Bimanual Mobile Manipulation with Low-Cost Who Teleoperat

mobile-aloha.github.io
14 points·by MAXPOOL·3 lata temu·4 comments

comments

MAXPOOL
·w zeszłym miesiącu·discuss
Things you are not supposed to talk about:

- There is no "moat" (lasting, easy-to-defend technological edge) in AI model businesses. There are just short-term advantages.

- An AI business is a capital-intensive business, just like old factories. Data centers are expensive, models are energy-hungry, and the hardware inside must be replaced every 3–4 years.

- Smaller, specialized models eat margins from below. Transcription, voice, or image detection do not need large models.

There is no reason to expect high margins like you can in traditional software business. Benefits of AI go mostly to consumers.

edit: There is potential for economies of scale. Few megacorps can strive for cost advantage when they achieve scale (Microsoft, Google, Amazon and Meta)
MAXPOOL
·2 lata temu·discuss
If you take a birds eye view, fundamental breakthroughs don't happen that often. "Attention Is All You Need" paper also came out in 2017. It has now been 7 years without breakthrough at the same level as transformers. Breakthrough ideas can take decades before they are ready. There are many false starts and dead ends.

Money and popularity are orthogonal to pathfinding that leads to breakthroughs.
MAXPOOL
·2 lata temu·discuss
There are many others that are better.

1/ The Annotated Transformer Attention is All You Need http://nlp.seas.harvard.edu/annotated-transformer/

2/ Transformers from Scratch https://e2eml.school/transformers.html

3/ Andrej Karpathy has really good series of intros: https://karpathy.ai/zero-to-hero.html Let's build GPT: from scratch, in code, spelled out. https://www.youtube.com/watch?v=kCc8FmEb1nY GPT with Andrej Karpathy: Part 1 https://medium.com/@kdwa2404/gpt-with-andrej-karpathy-part-1...

4/ 3Blue1Brown: But what is a GPT? Visual intro to transformers | Chapter 5, Deep Learning https://www.youtube.com/watch?v=wjZofJX0v4M Attention in transformers, visually explained | Chapter 6, Deep Learning https://www.youtube.com/watch?v=eMlx5fFNoYc Full 3Blue1Brown Neural Networks playlist https://www.youtube.com/playlist?list=PLZHQObOWTQDNU6R1_6700...
MAXPOOL
·2 lata temu·discuss
Without looking the answer, what is your intuition about the size of the VC-dimension of ReLU networks as a function of a number of weights and layers?

Nearly-tight VC-dimension and pseudodimension bounds for piecewise linear neural networks https://arxiv.org/abs/1703.02930
MAXPOOL
·2 lata temu·discuss
That's is based on old assumption of neuron function.

Firstly, Kurzweil underestimates the number connections by order of magnitude.

Secondly, dentritic computation changes things. Individual dentrites and the dendritic tree as a whole can do multiple individual computations. logical operations low-pass filtering, coincidence detection, ... One neuronal activation is potentially thousands of operations per neuron.

Single human neuron can be equivalent of thousands of ANN's.
MAXPOOL
·2 lata temu·discuss
> deep learning architectures have been crafted to create inductive biases matching invariances and spatial dependencies of the data. Finding corresponding invariances is hard in tabular data, made of heterogeneous features, small sample sizes, extreme values

Transformers with positional encoding have embeddings are invariant to the input order. CNN's have translation invariance and can have little rotational invariance.

It's harder to find similar invariances to tabular data. Maybe applying methods from GNN's would help?
MAXPOOL
·2 lata temu·discuss
Effect of exercise for depression: systematic review and network meta-analysis of randomised controlled trials.

Conclusions Exercise is an effective treatment for depression, with walking or jogging, yoga, and strength training more effective than other exercises, particularly when intense. Yoga and strength training were well tolerated compared with other treatments. Exercise appeared equally effective for people with and without comorbidities and with different baseline levels of depression. To mitigate expectancy effects, future studies could aim to blind participants and staff. These forms of exercise could be considered alongside psychotherapy and antidepressants as core treatments for depression.
MAXPOOL
·2 lata temu·discuss
Mamba is a new model architecture based on SSM's.

Mamba: Linear-Time Sequence Modeling with Selective State Spaces https://arxiv.org/abs/2312.00752

https://github.com/state-spaces/mamba

Vision Mamba: Efficient Visual Representation Learning with Bidirectional State Space Model https://paperswithcode.com/paper/vision-mamba-efficient-visu...
MAXPOOL
·3 lata temu·discuss
Jan 3, 2024 Lecture by Sergey Levine about progress on real-world deep RL. Covers these papers:

A Walk in the Park: Learning to Walk in 20 Minutes With Model-Free Reinforcement Learning

Grow Your Limits: Continuous Improvement with Real-World RL for Robotic Locomotion

Reset-Free Reinforcement Learning via Multi-Task Learning: Learning Dexterous Manipulation Behaviors without Human Intervention

REBOOT: Reuse Data for Bootstrapping Efficient Real-World Dexterous Manipulation

FastRLAP: A System for Learning High-Speed Driving via Deep RL and Autonomous Practicing: https://sites.google.com/view/fastrlap

Q-Transformer: Scalable Offline Reinforcement Learning via Autoregressive Q-Functions: https://qtransformer.github.io/

Deep RL at Scale: Sorting Waste in Office Buildings with a Fleet of Mobile Manipulators: https://rl-at-scale.github.io/
MAXPOOL
·3 lata temu·discuss
His first publication was "Potrzebie System of Weights and Measures" for Mad Magazine in June 1967 when he was 19-years old.

https://silezukuk.tumblr.com/image/616657913
MAXPOOL
·3 lata temu·discuss
Two best:

CHESS IS A FUN SPORT, WHEN PLAYED WITH SHOT GUNS

COWS FLY LIKE CLOUDS BUT THEY ARE NEVER COMPLETELY SUCCESSFUL.

These are from MegaHal that entered 1998 Loebner Prize Contest. MegaHal was able to produce mind-blowing insightful sayings but most were just bs.

It seems that creativity is easy for computers. Just push randomness through some generative algorithm. Curating and selecting the best output makes all the difference. The ability to select, critique, and understand what is generated and what the meaning is is much harder.
MAXPOOL
·3 lata temu·discuss
Speculating from the name only.

Q* might be name derived from Q-learning and A* search algorithm.

In that case it would be informed best best-first search using reinforcement learning.
MAXPOOL
·3 lata temu·discuss
Being a universal function approximator means that a multi-layer NN can approximate any bounded continuous function to an arbitrary degree of accuracy. But it says nothing about learnability and the structure required may be unrealistically large.

The learning algorithm used: Backpropagation with Stochastic Gradient Descent is not the universal learner. It's not guaranteed to find the global minimum.
MAXPOOL
·7 lat temu·discuss
"just"?

Neuroscience is full of problems of the hardest kind.
MAXPOOL
·7 lat temu·discuss
I think you have a point.

AGI is a scientific problem of the hardest kind, not an engineering problem where you just use existing knowledge to build better and better things.

Marving Minsky once said that in mathematics just five axioms is enough to provide the amount of complexity that overwhelms the best minds for centuries. AGI could be messy practical problem that depends on 10 or 25 fundamental 'axioms' that work together to produce general intelligence. "I bet the human brain is a kludge." - Marvin Minsky

The idea that if many people think this problem very hard, the problem is solved in our lifetime is prevalent. It's not true in math and physics, so why would AI be any different? Progress is made but you can't know if there is breakthrough tomorrow or if it happens 100 years from now. Just adding more computational capability is not going to solve AI.

Currently it's the engineering applications and the use of the science what is exploding and getting funded. In fact, I think some of the best brains are lured from the fundamental research into applied science with high pay and resources. What the current state of the art can do now has not been utilized fully in the economy and this brings in the investments and momentum.