In the official blog, Willow is also compared to previous-generation Quantum chips from Google. For example, Willow is claimed to retain qubit excitation (T1) levels 5x longer than previous chips.

Google's new 105-qubit 'Willow' quantum processor has surpassed a key error-correction threshold first proposed in 1995 — with errors now reducing exponentially as you scale up quantum machines.

Right now is also an excellent time to consider buying IonQ stock, as it's down 30% from its peak late last year, and it's ...

Google says Willow has again widened the gap between quantum and traditional machines, as the task took 5 minutes on the chip, while the firm estimates that it would take 10 septillion years, ...

Google's latest breakthrough in quantum computing, the Willow chip, is reigniting discussions among the scientific community about the possibility of parallel universes.

Shares of Google parent Alphabet soared as much as 6% on Tuesday after the company teased a major breakthrough with its new quantum computing chip “Willow.” ...

Google's quantum computing division unveiled a new chip, dubbed Willow, that the tech giant says makes it infinitely faster and better than existing supercomputers. The chip addresses two major ...

"I am losing both my home and my work place" Ms Leerasiri said. "I feel unsafe being here, but I don't know what to do and I ...

Google debuted Willow, its latest quantum chip, on Monday, and if you’ve spent any time online since, you’ve undoubtedly run into some breathless reporting about it.Willow “crushes classical ...

Google just showed off Willow to the world, its mind-blowing quantum chip that absolutely destroyed an intensive benchmark. What would normally take today’s fastest supercomputers about 10 ...

A quantum computer processor with 105 qubits that Google unveiled at the end of 2024. Willow made headlines with the claim that it could perform a calculation in five minutes that would take a ...

Google's new 105-qubit 'Willow' quantum processor has surpassed a key error-correction threshold first proposed in 1995 — with errors now reducing exponentially as you scale up quantum machines.