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Google's New Willow Quantum Chip Indicates That Multiple Universes Exist


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Google made waves this week with the unveiling of Willow, its latest quantum computing chip. While the chip's remarkable speed and reliability were impressive in their own right, it was an unexpected claim about the nature of reality that truly captured attention. Hartmut Neven, founder of Google Quantum AI, suggested that the chip's groundbreaking performance might be evidence supporting the existence of parallel universes.  

 

In a blog post, Neven detailed Willow's astonishing capability, stating that it performed a computation in under five minutes that would take one of today's most advanced supercomputers an almost inconceivable 10 septillion years to complete. “If you want to write it out, it’s 10,000,000,000,000,000,000,000,000 years,” he wrote. This timespan, far exceeding the age of the universe, led Neven to speculate that the computation may have tapped into resources from parallel universes. He went on to say, “It lends credence to the notion that quantum computation occurs in many parallel universes, in line with the idea that we live in a multiverse, a prediction first made by David Deutsch.”  

 

The bold assertion sparked a lively debate across the tech and scientific communities. While some skeptics dismissed the claim as hyperbole, others argued that Neven's conclusions were plausible. The concept of a multiverse, while often relegated to the realm of science fiction, has long been a serious area of study for pioneers of quantum physics.  

 

Skeptics, however, have pointed out that Google's performance benchmarks are based on its own metrics, which leaves room for scrutiny. They argue that the astounding computational achievements of Willow, while undoubtedly impressive, don't necessarily prove the existence of alternate realities. These concerns highlight the difficulty of connecting the practical achievements of quantum computing to profound philosophical implications about the nature of existence.  

 

Quantum computing itself is fundamentally different from classical computing. Traditional computers rely on bits that exist in binary states—either 0 or 1. In contrast, quantum computers use qubits, which can exist in superpositions, being both 0 and 1 simultaneously. Additionally, qubits can leverage quantum entanglement, a phenomenon where particles become intrinsically linked regardless of distance. These unique properties allow quantum computers to solve complex problems that are currently beyond the capabilities of classical machines.  

 

Willow’s extraordinary performance has reignited interest in quantum mechanics and its implications for our understanding of reality. While it remains to be seen whether Neven's claims about the multiverse will withstand scientific scrutiny, the chip's achievements mark a significant step forward in quantum computing. As researchers continue to push the boundaries of technology and physics, debates over the existence of parallel universes may move closer to the mainstream.  

 

For now, the mystery of Willow’s mind-bending capabilities is as intriguing as the questions it raises about the very nature of existence.

 

Based on a report by TechCrunch 2024-12-12

 

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Such incredible progress Google has made !

Gone is all the complex machinery of early quantum computers and now magically condensed  into a wafer !

If it were not for the promotional hype who wold have thunk to believe !

🤑

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