Statements (58)
| Predicate | Object |
|---|---|
| gptkbp:instanceOf |
gptkb:physicist
|
| gptkbp:basedOn |
quantum annealing
|
| gptkbp:canBe |
gptkb:quantum_programming_languages
|
| gptkbp:developedBy |
gptkb:D-Wave_Systems
|
| gptkbp:employs |
gptkb:quantum_bits_(qubits)
|
| gptkbp:hasEvents |
quantum_speedup
|
| gptkbp:hasRelatedPatent |
cryptography
machine learning financial modeling material science |
| https://www.w3.org/2000/01/rdf-schema#label |
quantum annealers
|
| gptkbp:integration |
classical systems
|
| gptkbp:isAccessibleBy |
gptkb:quantum_computers
|
| gptkbp:isCounteredBy |
logistics
routing problems scheduling problems |
| gptkbp:isEvaluatedBy |
performance benchmarks
quantum annealing time |
| gptkbp:isPartOf |
quantum annealing systems
quantum_technology |
| gptkbp:isSubjectTo |
quantum_noise
|
| gptkbp:isUsedFor |
artificial intelligence
image processing telecommunications data analysis urban planning financial forecasting portfolio optimization resource allocation risk assessment robotics smart grid technology supply chain management virtual reality energy management system design transportation planning biomedical research network optimization weather prediction autonomous vehicles climate modeling game theory social network analysis energy distribution pharmaceutical research error correction techniques find ground states minimize energy functions sampling problems |
| gptkbp:isUsedIn |
research institutions
industry applications |
| gptkbp:isVisitedBy |
quantum_decoherence
|
| gptkbp:mayHave |
NP-hard_problems
|
| gptkbp:relatedTo |
classical annealers
|
| gptkbp:requires |
low temperatures
|
| gptkbp:usedFor |
solving optimization problems
|
| gptkbp:utilizes |
quantum_mechanics
|