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Dec 11, 2021

Meet Xenobots 3.0 — World’s First Living Robots, Made of Frog Cells, That Can Reproduce

Posted by in categories: biological, entertainment, robotics/AI

I wonder how many iterations of “kinematic reproduction” would result in sentience.


Artificial Intelligence has made a landmark achievement by creating robots that can reproduce. US scientists who created the first living robots claim they can now reproduce on their own. Scientists now claim the discovery is a new form of biological reproduction that was not known to science yet. Experts say the parent robot and its babies, called Xenobots, are entirely biological.

Continue reading “Meet Xenobots 3.0 — World’s First Living Robots, Made of Frog Cells, That Can Reproduce” »

Dec 11, 2021

New IBM and Samsung transistors could be key to sub-1nm chips

Posted by in categories: computing, mobile phones

IBM and Samsung claim they’ve made a breakthrough in semiconductor design. On day one of the IEDM conference in San Francisco, the two companies unveiled a new design for stacking transistors vertically on a chip. With current processors and SoCs, transistors lie flat on the surface of the silicon, and then electric current flows from side-to-side. By contrast, Vertical Transport Field Effect Transistors (VTFET) sit perpendicular to one another and current flows vertically.

According to IBM and Samsung, this design has two advantages. First, it will allow them to bypass many performance limitations to extend Moore’s Law beyond the 1-nanometer threshold. More importantly, the design leads to less wasted energy thanks to greater current flow. They estimate VTFET will lead to processors that are twice as fast and use 85 percent less power than chips designed with FinFET transistors. IBM and Samsung claim the process may one day allow for phones that go a full week on a single charge. They say it could also make certain energy-intensive tasks, including cryptomining, more power-efficient and therefore less impactful on the environment.

IBM and Samsung haven’t said when they plan to commercialize the design. They’re not the only companies attempting to push beyond the 1-nanometer barrier., Intel said it aims to finalize the design for angstrom-scale chips by 2024. The company plans to accomplish the feat using its new “Intel 20A” node and RibbonFET transistors.

Dec 11, 2021

Report: 95% of tech leaders say that AI will drive future innovation

Posted by in categories: business, finance, health, internet, robotics/AI

According to a newly released survey from nonprofit technical organization IEEE, about one in five respondents say AI and machine learning (21%), cloud computing (20%), and 5G (17%) will be the most important technologies next year. The study examines the most important technologies in 2022, the industries expected to be most impacted by technology in the year ahead, and anticipated technology trends through the next decade.

What industries are expected to be most impacted by technology in the year ahead? Technology leaders surveyed cited manufacturing (25%), financial services (19%), health care (16%), and energy (13%) as industries poised for major disruption.

Regarding the key technology trends to expect through the next decade, an overwhelming majority (95%) agree — including 66% who strongly agree — that AI will drive the majority of innovation across nearly every industry sector in the next one to five years. Furthermore, 81% agree that, in the next five years, one-quarter of what they do will be enhanced by robots, and 77% agree that, in the same timeframe, robots will be deployed across their organization to enhance nearly every business function, from sales and human resources to marketing and IT. A majority of respondents agree (78%) that in the next 10 years, half or more of what they do will be enhanced by robots.

Dec 11, 2021

BrainBox AI brings machine learning to building controls

Posted by in categories: climatology, robotics/AI, sustainability

What’s needed instead is something more like the engineering that goes into a race car, where the initial design is as perfect as the engineers know how to make it upfront, but every few laps during a race, they fine-tune it further for the specific conditions on the track that day, Venne said. His inspiration for a solution that is less labor-intensive than car racing also comes from the world of automobiles — specifically self-driving cars.

In addition to knowing the basic rules of the road, a self-driving car needs to be able to adapt to the unexpected, such as swerving to avoid hitting the squirrel crossing the road ahead, Venne said. “It occurred to me that if we’re doing this with cars, we should be able to do the same with the technology that drives the mechanical side of the building.”

BrainBox AI focuses primarily on controlling the heating, ventilation, and air conditioning (HVAC) systems within a building, which accounts for the majority of the energy consumption in most buildings, Venne said. A next-level goal is to get multiple neighboring buildings in a city working in tandem to produce better results, like helping utilities balance the consumption of electricity during periods of peak demand. A pilot project based on that concept won a Tech for Our Planet challenge at the recently concluded COP26 United Nations conference on controlling climate change.

Dec 11, 2021

Shape Shifting Liquid Metal Could Revolutionize Robotics

Posted by in categories: materials, robotics/AI

https://youtube.com/watch?v=tcjmJavrOvI

From self-healing robots to reconfigurable electronic circuits, the applications of liquid metal are only limited by the imaginations of the scientists working with them. Let’s take a look at some of the latest revolutions, discoveries, and innovations in this material.

2D morphing metal

Continue reading “Shape Shifting Liquid Metal Could Revolutionize Robotics” »

Dec 11, 2021

New salt-grain sized micro camera takes images on par with a full size camera’s

Posted by in category: electronics

Researchers have created a salt-grain sized micro camera capable of taking images almost on par with a regular camera.

Dec 11, 2021

Finding That Connection: Watch Two Neurons in a Petri Dish Sense Each Other and Connect

Posted by in category: neuroscience

In this video, Dr. Lila Landowski shares footage of two neurons connecting in a dish. Here’s what Lila had to say about the footage:

You’re watching two neurons that I saw under the microscope sensing one another and connecting.

Continue reading “Finding That Connection: Watch Two Neurons in a Petri Dish Sense Each Other and Connect” »

Dec 11, 2021

IBM’s Revolutionary Artificial Intelligence Simulates the Real World

Posted by in categories: futurism, robotics/AI

IBM has announced a new type of Simulation Software which is meant to train Artificial Intelligence Robots interact with the real environment in a rapid and cost effective manner. This type of AI Model Training is potentially going to be the future of training going forward.

TIMESTAMPS:
00:00 A playground for Robots.
02:10 How these Virtual Worlds are made.
05:25 How Simulations improve Artificial Intelligence.
09:06 Last Words.

#ai #simulation #elonmusk

Dec 11, 2021

All-in-One POGO Automatic Glucose Meter Finally Available

Posted by in category: biotech/medical

The all-in-one POGO Automatic glucose meter from Intuity Medical is finally available to people with diabetes in the United States.

Dec 11, 2021

A new super-cooled microwave source boosts the scale-up of quantum computers

Posted by in categories: computing, quantum physics

Researchers in Finland have developed a circuit that produces the high-quality microwave signals required to control quantum computers while operating at temperatures near absolute zero. This is a key step towards moving the control system closer to the quantum processor, which may make it possible to greatly increase the number of qubits in the processor.

One of the factors limiting the size of quantum computers is the mechanism used to control the qubits in quantum processors. This is normally accomplished using a series of pulses, and because quantum processors operate at temperatures near absolute zero, the control pulses are normally brought into the cooled environment via broadband cables from room temperature.

As the number of qubits grows, so does the number of cables needed. This limits the potential size of a quantum , because the refrigerators cooling the qubits would have to become larger to accommodate more and more cables while also working harder to cool them down—ultimately a losing proposition.