D-Wave Advantage

GPTKB entity

Statements (52)
Predicate Object
gptkbp:instance_of gptkb:physicist
gptkbp:application gptkb:software_framework
financial modeling
material science
optimization problems
gptkbp:architectural_style quantum annealing
gptkbp:average_temperature 20 m K
gptkbp:awards Innovation Award 2022
Best Quantum Computing Product 2021
Tech Pioneer Award 2020
gptkbp:collaborations government contracts
industry partnerships
academic partnerships
gptkbp:competes_with gptkb:IBM_Quantum
gptkb:Google_Quantum_AI
gptkb:Rigetti_Computing
gptkbp:connects fully connected
gptkbp:developed_by gptkb:D-Wave_Systems
gptkbp:equipment scalable architecture
low-latency control
high-fidelity gates
gptkbp:error_handling limited
gptkbp:future_plans expand applications
enhance software tools
increase qubit count
https://www.w3.org/2000/01/rdf-schema#label D-Wave Advantage
gptkbp:invention quantum error correction methods
quantum annealing techniques
quantum control systems
gptkbp:language gptkb:Library
gptkbp:market leader in quantum annealing
gptkbp:notable_users gptkb:football_club
gptkb:Job_Search_Engine
gptkb:Lockheed_Martin
gptkb:Los_Alamos_National_Laboratory
gptkb:NASA
gptkbp:number_of_volumes 128
gptkbp:page_count 5000
gptkbp:performance quantum speedup
gptkbp:platform gptkb:Ocean_SDK
gptkbp:provides_access_to available via D-Wave Leap
gptkbp:released_in gptkb:2020
gptkbp:research_focus quantum simulation
quantum machine learning
quantum optimization
gptkbp:supports hybrid quantum-classical algorithms
gptkbp:user_base government agencies
corporate clients
research institutions
gptkbp:uses superconducting qubits
gptkbp:bfsParent gptkb:D-Wave_Systems
gptkbp:bfsLayer 3