Statements (48)
| Predicate | Object |
|---|---|
| gptkbp:instanceOf |
gptkb:physicist
|
| gptkbp:hasArtStyle |
gptkb:topological_quantum_computer
adiabatic quantum computer quantum_gate_model |
| gptkbp:hasCrossover |
classical computer
|
| https://www.w3.org/2000/01/rdf-schema#label |
quantum computer
|
| gptkbp:isAssociatedWith |
gptkb:quantum_supremacy
gptkb:quantum_teleportation quantum annealing quantum_key_distribution |
| gptkbp:isCharacterizedBy |
quantum_coherence
quantum_interference |
| gptkbp:isExpectedTo |
revolutionize computing
enhance artificial intelligence impact various industries improve cryptography |
| gptkbp:isExploredIn |
quantum_information_theory
quantum_complexity_theory quantum_software_development quantum_hardware_development quantum_algorithms_research |
| gptkbp:isPartOf |
supercomputers
classical computing quantum_computing_field |
| gptkbp:isUsedFor |
machine learning
material science optimization problems pharmaceutical research |
| gptkbp:isUsedIn |
gptkb:quantum_cryptography
quantum_algorithms quantum_simulation |
| gptkbp:isVisitedBy |
gptkb:D-Wave_Systems
gptkb:IBM gptkb:Microsoft gptkb:Google scalability issues Rigetti Computing decoherence qubit connectivity |
| gptkbp:mayHave |
certain problems faster
|
| gptkbp:notableArtists |
academic institutions
various startups government research labs |
| gptkbp:requires |
low temperatures
error correction |
| gptkbp:uses |
gptkb:quantum_bits_(qubits)
quantum_entanglement quantum_superposition |