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Blog – Page 920

I think there has always been underpinning of this but somehow it seems almost everywhere now even in the media.

It should go without saying that these kinds of beliefs are fantasy, not rooted in any rational fact or evidence. Hence, someone observing from afar the rise in conspiratorial beliefs and pseudoscience might characterize a vast swath of the American public as delusional. From the COVID-truther movement to people believing the 2020 presidential election was rigged, it appears that the body politic is — to put it mildly — no longer on the same page.

Given the perturbed psychological state of so many Americans, it is worth asking if something is happening — psychologically speaking — that is causing many Americans to live in very different realities.

Psychologists say yes; and, moreover, that what is happening was actually predicted long ago by Swiss psychiatrist Carl Jung. Indeed, Jung once wrote that the demise of society wouldn’t be a physical threat, but instead mass delusion — a collective psychosis of sorts.

Continue reading “Is America experiencing mass psychosis?” | >

KAN or MLP: a fairer comparison.

R Yu, W Yu, X Wang [National University of Singapore] (2024) Paper: http://huggingface.co/papers/2407.16674 Github: http://github.com/yu-rp/KANbeFair.

- Under the same number of parameters or FLOPs, KAN outperforms MLP only in symbolic formula representing, but…

A More Fair and Comprehensive Comparison between KAN and MLP — yu-rp/KANbeFair.

Continue reading “Yu-rp/KANbeFair: A More Fair and Comprehensive Comparison between KAN and MLP” | >

Machine learning (ML) is one of the most important subareas of AI used in building great AI systems.

In ML, deep learning is a narrow area focused solely on neural networks. Through the field of deep learning, systems like ChatGPT and many other AI models can be created. In other words, ChatGPT is just a giant system based on neural networks.

However, there is a big problem with deep learning: computational efficiency. Creating big and effective AI systems with neural networks often requires a lot of energy, which is expensive.

Read more | >

Neural networks biological and artificial.

Neural Networks have found applications across various domains due to their ability to learn from data and improve over time without human intervention. They can solve challenging problems that are hard or impossible to solve using traditional methods. Here are some of the examples of how neural networks and artificial neurons are used in real-world scenarios:

Voice assistants: Voice assistants like Siri and Alexa use neural networks to understand spoken language commands and questions. They use trained models based on artificial neurons processing vast datasets of speech and text data. They can also generate natural-sounding responses and perform various tasks, such as playing music, setting reminders, searching the web, etc.

Self-driving cars: Self-driving cars use neural networks to perceive the environment and make decisions. They use trained models based on artificial neurons processing vast datasets of images, videos, and sensor data. They can also learn from their own experiences and improve their driving skills over time.

Continue reading “Neural Networks: From Biological to Artificial” | >

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A lot of big banks are banking on quantum computing because they think it’ll give them an edge in trading. Though I have on previous occasions noted my doubt that we’ll see any useful quantum computers within the next ten years, two new papers detailing new methods of scaling quantum computers have shifted my perspective. Let’s have a look.

Paper 1: https://www.nature.com/articles/s4158
Paper 2: https://arxiv.org/abs/2404.

🤓 Check out my new quiz app ➜ http://quizwithit.com/

Continue reading “Big News for Quantum Computing: First Scalable Platforms” | >

New research may have found a link between supermassive black holes and dark matter particles which might solve an issue which has irked astrophysicists for decades: the “final parsec problem.”

Last year, an international team of researchers discovered a background “hum” of gravitational waves. They hypothesised that this background signal is emanating from millions of merging pairs of supermassive black hole.

Supermassive black holes are hundreds of thousands to billions of times larger than our Sun.

Read more | >