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Nov 28, 2022

New research unearths obscure and contradictory heat transfer behaviors

Posted by in categories: materials, physics

UCLA researchers and their colleagues have discovered a new physics principle governing how heat transfers through materials, and the finding contradicts the conventional wisdom that heat always moves faster as pressure increases.

Up until now, the common belief has held true in recorded observations and involving different materials such as gases, liquids and solids.

The researchers detailed their discovery in a study published last week by Nature. They have found that boron arsenide, which has already been viewed as a highly promising material for heat management and advanced electronics, also has a unique property. After reaching an extremely high pressure that is hundreds of times greater than the pressure found at the bottom of the ocean, boron arsenide’s thermal conductivity actually begins to decrease.

Nov 28, 2022

New programming tool turns sketches, handwriting into code

Posted by in category: robotics/AI

Cornell University researchers have created an interface that allows users to handwrite and sketch within computer code—a challenge to conventional coding, which typically relies on typing.

The pen-based , called Notate, lets users of computational, digital notebooks open drawing canvases and handwrite diagrams within lines of traditional, digitized .

Continue reading “New programming tool turns sketches, handwriting into code” »

Nov 28, 2022

New magnetometer designed to be integrated into microelectronic chips

Posted by in categories: computing, engineering, mobile phones, transportation, wearables

Researchers at the UPC’s Department of Electronic Engineering have developed a new type of magnetometer that can be integrated into microelectronic chips and that is fully compatible with the current integrated circuits. Of great interest for the miniaturization of electronic systems and sensors, the study has been recently published in Microsystems & Nanoengineering.

Microelectromechanical systems (MEMS) are electromechanical systems miniaturized to the maximum, so much so that they can be integrated into a chip. They are found in most of our day-to-day devices, such as computers, car braking systems and mobile phones. Integrating them into has clear advantages in terms of size, cost, speed and energy efficiency. But developing them is expensive, and their performance is often compromised by incompatibilities with other electronic systems within a device.

MEMS can be used, among many others, to develop magnetometers—a device that measures to provide direction during navigation, much like a compass—for integration into smartphones and wearables or for use in the automotive industry. Therefore, one of the most promising lines of work are Lorentz force MEMS magnetometers.

Nov 28, 2022

Creating quantum-entangled networks of atomic clocks and accelerometers

Posted by in categories: particle physics, quantum physics

Researchers affiliated with the Q-NEXT quantum research center show how to create quantum-entangled networks of atomic clocks and accelerometers—and they demonstrate the setup’s superior, high-precision performance.

For the first time, scientists have entangled atoms for use as networked , specifically, atomic clocks and accelerometers.

The research team’s experimental setup yielded ultraprecise measurements of time and acceleration. Compared to a similar setup that does not draw on , their time measurements were 3.5 times more precise, and acceleration measurements exhibited 1.2 times greater precision.

Nov 28, 2022

Researchers At Stanford Have Developed A New Artificial Intelligence (AI) Benchmark To Understand Large Language Models (LLMs)

Posted by in category: robotics/AI

Benchmarks orient AI. They encapsulate ideals and priorities that describe how the AI community should progress. When properly developed and analyzed, they allow the larger community to understand better and influence the direction of AI technology. The AI technology that has evolved the most in recent years is foundation models, highlighted by the advent of language models. A language model is essentially a box that accepts text and generates text. Despite their simplicity, these models may be customized (e.g., prompted or fine-tuned) to a wide range of downstream scenarios when trained on vast amounts of comprehensive data. However, there still needs to be more knowledge on the enormous surface of model capabilities, limits, and threats. They must benchmark language models holistically due to their fast growth, growing importance, and limited comprehension. But what does it mean to evaluate language models from a global perspective?

Language models are general-purpose text interfaces that may be used in various circumstances. And for each scenario, they may have a long list of requirements: models should be accurate, resilient, fair, and efficient, for example. In truth, the relative relevance of various desires is frequently determined by one’s perspective and ideals and the circumstance itself (e.g., inference efficiency might be of greater importance in mobile applications). They think that holistic assessment includes three components:

Nov 28, 2022

The weird and wonderful art created when AI and humans unite

Posted by in category: robotics/AI

Will AI kill art? Not likely, says the artist Alexander Reben, who has been working with AI for years.

Nov 28, 2022

AI invents millions of materials that don’t yet exist

Posted by in categories: information science, robotics/AI

UC San Diego nanoengineering professor Shyue Ping Ong described M3GNet as “an AlphaFold for materials”, referring to the breakthrough AI algorithm built by Google’s DeepMind that can predict protein structures.

“Similar to proteins, we need to know the structure of a material to predict its properties,” said Professor Ong.

“We truly believe that the M3GNet architecture is a transformative tool that can greatly expand our ability to explore new material chemistries and structures.”

Nov 28, 2022

Cell-based therapies for neurological disorders — the bioreactor hypothesis

Posted by in category: biotech/medical

In this Review, Savitz and Cox consider the evidence for a model of cell-based therapy referred to as the bioreactor hypothesis, in which exogenous cells migrate to peripheral organs and reprogramme host immune cells to generate an anti-inflammatory, regenerative environment.

Nov 28, 2022

CEO of AI Startup Says Many AI Startups Will Fail Because They’re Making a Serious Mistake

Posted by in category: robotics/AI

This CEO says generative AI is all flash, no substance — and ultimately, will fail to generate major new revenue streams for VCs’ billions.

Nov 28, 2022

Elon Musk slams Tesla founder Martin Eberhard in response to a tweet about the company’s origin: He ‘could have risked his money, but was unwilling to do so’

Posted by in categories: economics, Elon Musk

Elon Musk’s role in Tesla’s early history has been a point of contention. Eberhard has sued Musk, alleging libel because Musk says he’s a founder.