Apple's iPhones to Support Starlink Direct-to-Cell Coverage in US 

Customers walk past an Apple logo inside of an Apple store at Grand Central Station in New York, US, August 1, 2018. (Reuters)
Customers walk past an Apple logo inside of an Apple store at Grand Central Station in New York, US, August 1, 2018. (Reuters)
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Apple's iPhones to Support Starlink Direct-to-Cell Coverage in US 

Customers walk past an Apple logo inside of an Apple store at Grand Central Station in New York, US, August 1, 2018. (Reuters)
Customers walk past an Apple logo inside of an Apple store at Grand Central Station in New York, US, August 1, 2018. (Reuters)

Apple's iPhone devices are now eligible to test SpaceX-owned Starlink's direct-to-cell capability that provides coverage from space, according to T-Mobile, a partner in the program.

T-Mobile and Elon Musk's SpaceX are currently testing the Starlink cell network on a trial basis after receiving approval from the Federal Communications Commission in November last year.

The trial offers 'text via satellite', while voice and data features will be added in the future, according to the T-Mobile website.

T-Mobile initially only listed a few Android smartphones as eligible devices to test the network, but has now added iPhone devices with the latest iOS 18.3 software update.

Bloomberg News first reported on Tuesday that Apple, SpaceX and T-Mobile had been secretively working to add support for the network in its latest iPhone software.

Apple and SpaceX did not immediately respond to Reuters' requests for comment outside regular business hours.

In October last year, the FCC had allowed SpaceX and T-Mobile to enable Starlink satellites with direct-to-cell capability to provide coverage for cellphones in areas of North Carolina hit hard by Hurricane Helene.



Microsoft Creates Chip It Says Shows Quantum Computers Are ‘Years, Not Decades’ Away

Microsoft's Majorana 1 quantum computing chip is pictured in this undated handout photo obtained by Reuters on February 19, 2025. (Courtesy of Microsoft/Handout via Reuters)
Microsoft's Majorana 1 quantum computing chip is pictured in this undated handout photo obtained by Reuters on February 19, 2025. (Courtesy of Microsoft/Handout via Reuters)
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Microsoft Creates Chip It Says Shows Quantum Computers Are ‘Years, Not Decades’ Away

Microsoft's Majorana 1 quantum computing chip is pictured in this undated handout photo obtained by Reuters on February 19, 2025. (Courtesy of Microsoft/Handout via Reuters)
Microsoft's Majorana 1 quantum computing chip is pictured in this undated handout photo obtained by Reuters on February 19, 2025. (Courtesy of Microsoft/Handout via Reuters)

Microsoft on Wednesday unveiled a new chip that it said showed quantum computing is "years, not decades" away, joining Google and IBM in predicting that a fundamental change in computing technology is much closer than recently believed.

Quantum computing holds the promise of carrying out calculations that would take today's systems millions of years and could unlock discoveries in medicine, chemistry and many other fields where near-infinite seas of possible combinations of molecules confound classical computers.

Quantum computers also hold the danger of upending today's cybersecurity systems, where most encryption relies on the assumption that it would take too long to brute force gain access.

The biggest challenge of quantum computers is that a fundamental building block called a qubit, which is similar to a bit in classical computing, is incredibly fast but also extremely difficult to control and prone to errors.

Microsoft said the Majorana 1 chip it has developed is less prone to those errors than rivals and provided as evidence a scientific paper set to be published in academic journal Nature.

When useful quantum computers will arrive has become a topic of debate in the upper echelons of the tech industry. Nvidia CEO Jensen Huang said last month that the technology was two decades away from overtaking his company's chips, the workhorses of artificial intelligence, reflecting broad skepticism.

Those remarks prompted Google, which last year showed off its own new quantum chip, to say that commercial quantum computing applications are only five years away. IBM has said large-scale quantum computers will be online by 2033.

Microsoft's Majorana 1 has been in the works for nearly two decades and relies on a subatomic particle called the Majorana fermion whose existence was first theorized in the 1930s. That particle has properties that make it less prone to the errors that plague quantum computers, but it has been hard for physicists to find and control.

Microsoft said it created the Majorana 1 chip with indium arsenide and aluminum. The device uses a superconducting nanowire to observe the particles and can be controlled with standard computing equipment.

The chip Microsoft revealed Wednesday has far fewer qubits than rival chips from Google and IBM, but Microsoft believes that far fewer of its Majorana-based qubits will be needed to make useful computers because the error rates are lower.

Microsoft did not give a timeline for when the chip would be scaled up to create quantum computers that can outstrip today's machines, but the company said in a blog post that point was "years, not decades" away.

Jason Zander, the Microsoft executive vice president who oversees the company's long-term strategic bets, described Majorana 1 as a "high risk, high reward" strategy.

The chip was fabricated at Microsoft labs in Washington state and Denmark.

"The hardest part has been solving the physics. There is no textbook for this, and we had to invent it," Zander said in an interview with Reuters. "We literally have invented the ability to go create this thing, atom by atom, layer by layer."

Philip Kim, a professor of physics at Harvard University who was not involved in Microsoft's research, said that Majorana fermions have been a hot topic among physicists for decades and called Microsoft's work an "exciting development" that put the company at the forefront of quantum research.

He also said that Microsoft's use of a hybrid between traditional semiconductors and exotic superconductors appeared to be a good route toward chips that can be scaled up into more powerful chips.

"Although there's no demonstration (of this scaling up) yet, what they are doing is really successful," Kim said.