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There’s a key aspect of quantum computing you may not have thought about before. Called ‘quantum non-demolition measurements’, they refer to observing certain quantum states without destroying them in the process.

If we want to put together a functioning quantum computer, not having it break down every second while calculations are made would obviously be helpful. Now, scientists have described a new technique for recording quantum non-demolition measurements that shows a lot of promise.

In this case, the research involved mechanical quantum systems – objects that are relatively large in quantum computing terms, but exceedingly tiny for us. They use mechanical motion (such as vibration) to handle the necessary quantum magic, and they can be combined with other quantum systems too.

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Slow processing… but good for display devices, interacting with other systems, bio-sensors/health monitoring, etc.

In this video I explain Organic Flexible CPUs and Organic Transistors. What is the-state-of-the-art of Organic Electronics? If this technology can replace Silicon Chips or not?
#CPU #OrganicCPU #FlexibleCPU

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Continue reading “Organic Transistors Explained. Printing CPUs at Home. What is Smart Skin” | >

If there was a wormhole in the center of our galaxy, how could we tell? Two physicists propose that carefully watching the motions of a star orbiting the Milky Way’s supermassive black hole might help scientists start to check. The researchers published the idea in a recent paper in the journal Physical Review D.

A wormhole is a hypothetical concept that connects two separate areas of space-time. Wormholes often appear in science fiction narratives like the 2014 film Interstellar as a convenient way to get from point A to point B in the vast universe. Physicists have many theories that describe how wormholes might behave, if they exist, but haven’t yet found any.

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Dell Technologies announces the expansion of its edge solutions to help retailers quickly generate more value and deliver enhanced customer experiences from data generated in retail locations.

From grocery merchandising and curbside pickup to frictionless checkout and loss prevention, retailers have embraced edge technologies to keep pace with industry demands and create better customer experiences. A recent study conducted by 451 Research, part of S&P Global Market Intelligence, and commissioned by Dell found this growth will continue with 77% of retailers expecting to increase edge deployments significantly in the next two years1. However, without a holistic approach, new technologies across wide geographies and locations can lead to complex and siloed solutions that drive up a retailer’s IT management cost.

“Retailers are increasingly relying on IT technologies and data at the edge to offer more personalized and intelligent customer experiences that drive better business outcomes, dramatically accelerating the need for retailers to bring together siloed technologies,” said Gil Shneorson, senior vice president of edge solutions, Dell Technologies. “We’re helping retailers easily consolidate these technologies so they can analyze data where it’s created, make faster decisions and deliver positive experiences for in-store shoppers and employees.”

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Seattle-based architecture firm SRG Partnership has reimagined the Hayward Field stadium in Eugene, Oregon, with glulam beams supporting an ETFE canopy.

Hayward Field, home to the track and field facility for the University of Oregon, was recently renovated in order to include a new grandstand and canopy.

The redesigned stadium has 12,650 seats with 84,085 square feet (25,630 square metres) of concourses and ramps, along with 40,000 square feet (12,190 square metres) of underground training facilities.

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