Applying a transverse field, the system can be used to benchmark quantum annealing strategies which aim at reaching the ground state of the spin glass starting from the paramagnetic phase.

Jump to: The main takeaway for enterprises is that spin-glass computing on a quantum annealing device may eventually be able to efficiently solve optimization problems, achieving a goal with as ...

A spin glass is easiest to think about as a grid ... without ever occupying intervening high-energy states. So, quantum annealing is expected to have better overall performance than thermal ...

Here, an important role is played by spin glass models, that is ... of number partitioning by applying a strategy known as "quantum annealing." This is done by initially applying a strong magnetic ...

“For those seeking evidence of quantum annealing’s unrivaled performance ... lowest energy state of a spin glass, and so promises to continue to fuel the further development of quantum ...

The quantum annealing method isn’t one that can be used to solve ... minimum-energy state is crucial in a particularly complex and disordered magnetic system known as a spin glass since quantum ...

For example, in quantum annealing, one can tune the time-dependent ... the considered process does not encounter the so-called spin glass transition, which corresponds to extremely slow ...

Quantum annealing has long been theorized to offer ... research methods and focused on a family of two-dimensional spin-glass problems with high-precision interactions. "Spin-glass problems ...

D-Wave (NYSE: QBTS), a leader in quantum computing systems, software and services, and the only provider building both annealing and ... 5,000-qubit programmable spin glass," was published in ...