Revolutionary Breakthrough: Google’s Quantum Chip Willow Achieves Quantum Error Correction
Google has recently unveiled its groundbreaking Willow quantum computing chip, marking a historic breakthrough in the realm of quantum error correction. The 105-qubit Willow chip has the capability to reduce errors exponentially as it scales up, effectively solving a three-decade-old challenge in quantum computing known as achieving “below threshold” quantum error correction.
The Willow chip performed a benchmark computation in under five minutes, a task that would take one of today’s fastest supercomputers an astounding 10 septillion years to complete. This achievement is a testament to Google’s progress in building commercially viable quantum computers that hold the potential to revolutionize fields like medicine, cryptography, and artificial intelligence.
“This historic accomplishment is known in the field as below threshold – being able to drive errors down while scaling up the number of qubits,” said Hartmut Neven, founder and lead of Google Quantum AI. The breakthrough was published in Nature and signifies a significant step toward fault-tolerant quantum computing systems.
- Key Highlights:
- Google unveils the 105-qubit Willow quantum computing chip
- Willow chip can reduce errors exponentially as it scales up
- The chip performed a benchmark computation in under five minutes
- This breakthrough signifies a significant step toward fault-tolerant quantum computing systems
Source: https://blog.google/technology/research/google-willow-quantum-chip/