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Category: computing

“There was cheering in the control center” when word came that NASA had brought a key computer back, says James Jeletic, the Hubble project’s deputy project manager.

The Hubble Space Telescope is returning to operation more than a month after its original payload computer shut down. NASA said it has successfully switched over to its backup computer — and while the process of bringing the system back online is slow, the agency has started to bring science instruments out of “safe mode.”

“There was cheering in the control center” on Thursday night when word came that NASA had managed to restore the payload computer, James Jeletic, Hubble’s deputy project manager, told NPR.

“There’s a big sense of relief,” Jeletic said.

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Most of the tests that doctors use to diagnose cancer — such as mammography, colonoscopy, and CT scans — are based on imaging. More recently, researchers have also developed molecular diagnostics that can detect specific cancer-associated molecules that circulate in bodily fluids like blood or urine.

MIT engineers have now created a new diagnostic nanoparticle that combines both of these features: It can reveal the presence of cancerous proteins through a urine test, and it functions as an imaging agent, pinpointing the tumor location. In principle, this diagnostic could be used to detect cancer anywhere in the body, including tumors that have metastasized from their original locations.

“This is a really broad sensor intended to respond to both primary tumors and their metastases. It can trigger a urinary signal and also allow us to visualize where the tumors are,” says Sangeeta Bhatia, the John and Dorothy Wilson Professor of Health Sciences and Technology and Electrical Engineering and Computer Science at MIT and a member of MIT’s Koch Institute for Integrative Cancer Research and Institute for Medical Engineering and Science.

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Scientists on the hunt for an unconventional kind of superconductor have produced the most compelling evidence to date that they’ve found one. In a pair of papers, researchers at the University of Maryland’s (UMD) Quantum Materials Center (QMC) and colleagues have shown that uranium ditelluride (or UTe2 for short) displays many of the hallmarks of a topological superconductor—a material that may unlock new ways to build quantum computers and other futuristic devices.

“Nature can be wicked,” says Johnpierre Paglione, a professor of physics at UMD, the director of QMC and senior author on one of the papers. “There could be other reasons we’re seeing all this wacky stuff, but honestly, in my career, I’ve never seen anything like it.”

All superconductors carry electrical currents without any resistance. It’s kind of their thing. The wiring behind your walls can’t rival this feat, which is one of many reasons that large coils of superconducting wires and not normal copper wires have been used in MRI machines and other scientific equipment for decades.

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As pervasive as they are in everyday uses, like encryption and security, randomly generated digital numbers are seldom truly random.

So far, only bulky, relatively slow quantum random generators (QRNGs) can achieve levels of randomness on par with the basic laws of quantum physics, but researchers are looking to make these devices faster and more portable.

In Applied Physics Letters, scientists from China present the fastest real-time QRNG to date to make the devices quicker and more portable. The device combines a state-of-the-art photonic integrated with optimized real-time postprocessing for extracting randomness from quantum entropy source of vacuum states.

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Electronic circuits that compute and store information contain millions of tiny switches that control the flow of electric current. A deeper understanding of how these tiny switches work could help researchers push the frontiers of modern computing.

Now scientists have made the first snapshots of atoms moving inside one of those switches as it turns on and off. Among other things, they discovered a short-lived state within the switch that might someday be exploited for faster and more energy-efficient computing devices.

The research team from the Department of Energy’s SLAC National Accelerator Laboratory, Stanford University, Hewlett Packard Labs, Penn State University and Purdue University described their work in a paper published in Science today.

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The world’s largest contract chip maker said it expects the chip shortage that has hampered car makers to start easing in the next few months after it ramped up its production of auto chips.

Taiwan Semiconductor Manufacturing Co., the world’s largest contract chip maker, said it expects the chip shortage that has hampered car makers to start easing in the next few months after it ramped up its production of auto chips.

The company is on track to increase output of microcontrollers used in cars by about 60% this year compared with last, Chief Executive C.C. Wei said in an earnings call on Thursday. However, he said, the broader semiconductor shortage could persist until 2022.

A dearth of semiconductors, used in products including home appliances and smartphones, has stymied manufacturing activity, notably in the auto industry. That shortfall should be greatly reduced for TSMC customers in the current quarter, Mr. Wei said.

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Elon Musk confirmed that Tesla currently has a Powerwall backlog of 80000 orders, which is worth over $500 million, but it can’t ramp up production to meet that due to the global chip shortage.

Tesla has been production constrained with the Powerwall for a long time.

The demand has been strong in several markets, like the US and Australia, but production hasn’t been to catch up despite significant ramp-ups.

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In a medical first, researchers harnessed the brainwaves of a paralyzed man unable to speak and turned what he intended to say into sentences on a computer screen.

Study marks important step toward restoring more natural communication for people who can’t talk.

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