Here, we report a universal quantum algorithm for integer factorization by combining the classical lattice reduction with a quantum approximate optimization algorithm (QAOA).
Quantum Physics
al. tries to improve the widely debated Schnorr's lattice-based integer factorization algorithm using a quantum optimizer (QAOA), and further claim that one can break RSA 2048 using only 372 qubits.
Quantum Physics
This work aims to provide a basis to establish this connection by investigating the broad spectrum of capabilities intrinsic to the NAQC platform and its implications on the compilation process.
Quantum Physics Emerging Technologies
Quantum processors with sizes in the 10-100 qubit range are now increasingly common.
Quantum Physics
In the quest for fault-tolerant quantum computation using superconducting processors, accurate performance assessment and continuous design optimization stands at the forefront.
Quantum Physics
Enabling applications for solid state quantum technology will require systematically reducing noise, particularly dissipation, in these systems.
Quantum Physics Applied Physics
Artificial neural networks are the heart of machine learning algorithms and artificial intelligence protocols.
Quantum Physics
With the current rate of progress in quantum computing technologies, 50-qubit systems will soon become a reality.
Quantum Physics
In the 5G era, massive devices need to be securely connected to the edge of communication networks, while emerging quantum computers can easily crack the traditional public-key ciphers.
Hardware Architecture
The discovery of topological order has revolutionized the understanding of quantum matter in modern physics and provided the theoretical foundation for many quantum error correcting codes.
Quantum Physics Strongly Correlated Electrons
