NVIDIA is in danger, Google Quantum Chip is born, and the chip pattern may change.Willow chip can realize that the error rate decreases exponentially with the increase of the number of quantum bits, which solves the key challenge of quantum error correction that has been studied in the field of quantum computing for nearly 30 years. Google has tested quantum bit grids of different sizes, which can halve the error rate every time. This is called "below the threshold", which has been a difficult problem that has not been overcome since Peter Shor proposed quantum error correction in 1995.
Willow chip can realize that the error rate decreases exponentially with the increase of the number of quantum bits, which solves the key challenge of quantum error correction that has been studied in the field of quantum computing for nearly 30 years. Google has tested quantum bit grids of different sizes, which can halve the error rate every time. This is called "below the threshold", which has been a difficult problem that has not been overcome since Peter Shor proposed quantum error correction in 1995.Willow chip can realize that the error rate decreases exponentially with the increase of the number of quantum bits, which solves the key challenge of quantum error correction that has been studied in the field of quantum computing for nearly 30 years. Google has tested quantum bit grids of different sizes, which can halve the error rate every time. This is called "below the threshold", which has been a difficult problem that has not been overcome since Peter Shor proposed quantum error correction in 1995.NVIDIA is in danger, Google Quantum Chip is born, and the chip pattern may change.
NVIDIA is in danger, Google Quantum Chip is born, and the chip pattern may change.Willow chip can realize that the error rate decreases exponentially with the increase of the number of quantum bits, which solves the key challenge of quantum error correction that has been studied in the field of quantum computing for nearly 30 years. Google has tested quantum bit grids of different sizes, which can halve the error rate every time. This is called "below the threshold", which has been a difficult problem that has not been overcome since Peter Shor proposed quantum error correction in 1995.
Strategy guide 12-14
Strategy guide 12-14
Strategy guide