Google Says It Has Cracked a Quantum Computing Challenge with New Chip

 A person shows Google Quantum AI's "Willow" chip, in this undated handout photo obtained by Reuters on December 6, 2024. Google/Handout via Reuters
A person shows Google Quantum AI's "Willow" chip, in this undated handout photo obtained by Reuters on December 6, 2024. Google/Handout via Reuters
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Google Says It Has Cracked a Quantum Computing Challenge with New Chip

 A person shows Google Quantum AI's "Willow" chip, in this undated handout photo obtained by Reuters on December 6, 2024. Google/Handout via Reuters
A person shows Google Quantum AI's "Willow" chip, in this undated handout photo obtained by Reuters on December 6, 2024. Google/Handout via Reuters

Google on Monday said that it has overcome a key challenge in quantum computing with a new generation of chip, solving a computing problem in five minutes that would take a classical computer more time than the history of the universe.

Like other tech giants such as Microsoft and International Business Machines, Alphabet's Google is chasing quantum computing because it promises computing speeds far faster than today's fastest systems. While the math problem solved by the company's Santa Barbara, California quantum lab does not have commercial applications, Google hopes quantum computers will one day solve problems in medicine, battery chemistry and artificial intelligence that are out of reach for today's computers.

The results released Monday came from a new chip called Willow that has 105 "qubits," which are the building blocks of quantum computers. Qubits are fast but error-prone, because they can be jostled by something as small as a subatomic particle from events in outer space.

As more qubits are packed onto a chip, those errors can add up to make the chip no better than a conventional computer chip. So, since the 1990s, scientists have been working on quantum error-correction.

In a paper published in the journal Nature on Monday, Google said that it has found a way to string together the Willow chip's qubits so that error rates go down as the number of qubits goes up. The company also says it can correct errors in real time, a key step toward making its quantum machines practical.

"We are past the break even point," Hartmut Neven, who leads the Google Quantum AI unit, said in an interview.

In 2019, IBM challenged Google's claim that Google's quantum chip solved a problem that would take a classical computer 10,000 years, saying the problem could be solved in two-and-a-half days using different technical assumptions about a classical system.

In a blog post Monday, Google said it took some of those concerns into account in its newest estimates. Even under the most idealistic conditions, Google said a classical computer would still take a billion years to get the same results as its newest chip.

Some of Google's rivals are producing chips with a larger number of qubits than Google, but Google is focused on making the most reliable qubits it can, Anthony Megrant, chief architect for Google Quantum AI, said in an interview.

Google fabricated its previous chips in a shared facility at the University of California, Santa Barbara, but built its own dedicated fabrication facility to produce its Willow chips. Megrant said that the new facility will speed up how fast Google can make future chips, which are chilled in huge refrigerators called cryostats to run experiments.

"If we have a good idea, we want somebody on the team to be able to ... get that into the clean room and into one of these cryostats as fast as possible, so we can get lots of cycles of learning," Megrant said.



Blogs to Bluesky: Social Media Shifts Responses after 2004 Tsunami

Teuku Hafid Hududillah, 28, an Indonesia's Meteorology, Climatology and Geophysics Agency (BMKG) officer, shows the seismograph system that recorded the 9.1 magnitude quake on the 2004 Indian Ocean earthquake and tsunami, at the monitoring station in Aceh Besar, Aceh, Indonesia, December 23, 2024. (Reuters)
Teuku Hafid Hududillah, 28, an Indonesia's Meteorology, Climatology and Geophysics Agency (BMKG) officer, shows the seismograph system that recorded the 9.1 magnitude quake on the 2004 Indian Ocean earthquake and tsunami, at the monitoring station in Aceh Besar, Aceh, Indonesia, December 23, 2024. (Reuters)
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Blogs to Bluesky: Social Media Shifts Responses after 2004 Tsunami

Teuku Hafid Hududillah, 28, an Indonesia's Meteorology, Climatology and Geophysics Agency (BMKG) officer, shows the seismograph system that recorded the 9.1 magnitude quake on the 2004 Indian Ocean earthquake and tsunami, at the monitoring station in Aceh Besar, Aceh, Indonesia, December 23, 2024. (Reuters)
Teuku Hafid Hududillah, 28, an Indonesia's Meteorology, Climatology and Geophysics Agency (BMKG) officer, shows the seismograph system that recorded the 9.1 magnitude quake on the 2004 Indian Ocean earthquake and tsunami, at the monitoring station in Aceh Besar, Aceh, Indonesia, December 23, 2024. (Reuters)

The world's deadliest tsunami hit nations around the Indian Ocean two decades ago before social media platforms flourished, but they have since transformed how we understand and respond to disasters -- from finding the missing to swift crowdfunding.

When a 9.1-magnitude quake caused a tsunami that smashed into coastal areas on December 26, 2004, killing more than 220,000 people, broadcasters, newspapers and wire agencies were the main media bringing news of the calamity to the world.

Yet in some places, the sheer scale took days to emerge.

Survivor Mark Oberle was holidaying in Thailand's Phuket when the giant waves hit Patong beach, and penned a blog post to fend off questions from family, friends and strangers in the days after the disaster.

"The first hints of the extent were from European visitors who got text messages from friends back home," said Oberle, adding people initially thought the quake was local and small, when its epicenter was actually near western Indonesia, hundreds of miles away.

"I wrote the blog because there were so many friends and family who wanted to know more. Plus, I was getting many queries from strangers. People were desperate for good news tales," said the US-based physician, who helped the injured.

The blog included images of cars ploughed into hotels, water-filled roads and locals fleeing on scooters because rumors produced "a stampede from the beach to higher ground".

Bloggers were named "People of the Year" by ABC News in 2004 because of the intimacy of first-hand accounts like those published in the days following the tsunami.

But today billions can follow major events in real-time on social media, enabling citizen journalism and assistance from afar, despite the real risk of rumor and misinformation.

During Spain's worst floods for decades in October, people voluntarily managed social media accounts to assist relatives trying to locate their missing loved ones.

After Türkiye's devastating earthquake last year, a 20-year-old student was rescued thanks to a post of his location while buried under the rubble.

- 'Fast picture' -

Two decades ago, the online social media landscape was vastly different.

Facebook was launched early in 2004 but was not yet widely used when the tsunami hit.

One of YouTube's founders reportedly said an inspiration for the platform's founding in early 2005 was an inability to find footage of the tsunami in its aftermath.

Some tsunami images were posted on photo site Flickr. But X, Instagram and Bluesky now allow for instant sharing.

Experts are clear that more information saves lives -- hours lapsed between the tremor's epicenter near Indonesia and the giant waves that crashed into Sri Lanka, India and Thailand's coastal areas.

Daniel Aldrich, a professor at Northeastern University, conducted interviews in India's Tamil Nadu where many said they had no idea what a tsunami was and had no warnings in 2004.

"In India alone nearly 6,000 people were taken by surprise and drowned in that event," he said.

Mobile apps and online accounts now quickly publicize information about hospitals, evacuation routes or shelters.

"Social media would have provided an immediate way to help locate other survivors and get information," said Jeffrey Blevins, head of journalism at the University of Cincinnati.

Oberle also noted that "knowing what help was locally available... would have provided a clearer perspective of what to expect in the days to come".

- Citizen science -

Beyond emergency rescue, social media clips can also be a boon to understanding a disaster's cause.

When giant waves crashed into Indonesia's Aceh province, footage remained largely confined to handheld camcorders capturing the carnage.

Fast forward to 2018, when a quake-tsunami hit Indonesia's Palu city, killing more than 4,000 people, enough videos were taken on smartphones that scientists researching seismic activity were later able to use the clips to reconstruct its path and time between waves.

The piece of citizen science in 2020 used amateur videos to conclude it happened so fast because of underwater landslides close to shore.

But it's not all good news.

Scholars warn that disinformation and rumors have also hindered disaster responses.

When Hurricane Helene struck North Carolina in September, relief efforts were disrupted as tensions between locals and emergency workers rose over unfounded rumors including a higher hidden death toll and diverted aid.

Workers faced reported threats from local armed militias.

"This information was so malicious that FEMA (Federal Emergency Management Agency) had to withdraw its teams from the area," said Aldrich.

"Social media has absolutely altered the field of disaster response for the good and the bad."

Yet perhaps the biggest change -- the free flow of information to the vulnerable -- has been beneficial.

Laura Kong of the Honolulu-based International Tsunami Information Center recently recalls how "2004 was such a tragedy".

"Because... we might have known there was an event, but we didn't have a way to tell anyone."