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Logic circuitry that requires low temperatures to achieve superconductivity
superconducting computing is applied to quantum computing, with an important application known as superconducting quantum computing. Superconducting digital
Superconducting_computing
Quantum computing implementation
Superconducting quantum computing is a branch of quantum computing and solid-state physics that implements superconducting electronic circuits as qubits
Superconducting quantum computing
Superconducting_quantum_computing
Possible future digital logic technologies
superfluids Photonics and optical computing Superconducting computing Rapid single-flux quantum (RSFQ) Superconducting computing includes several beyond-CMOS
Beyond_CMOS
Computer hardware technology that uses quantum mechanics
Superconducting quantum computers, like those constructed by Google and IBM, need helium-3, a nuclear research byproduct, and special superconducting
Quantum_computing
Computing by new or unusual methods
Unconventional computing (also known as alternative computing or nonstandard computation) is computing by any of a wide range of new or unusual methods
Unconventional_computing
Electrical conductivity with exactly zero resistance
of the magnetic field in the interior of the superconductor during its transitions into the superconducting state. The occurrence of the Meissner effect
Superconductivity
Quantum computing chip
The Willow processor is a 105-qubit superconducting quantum computing processor developed by Google Quantum AI and manufactured in Santa Barbara, California
Willow_processor
American government agency
government agencies. Notable IARPA investments include quantum computing, superconducting computing, machine learning, and forecasting tournaments. IARPA characterizes
Intelligence Advanced Research Projects Activity
Intelligence_Advanced_Research_Projects_Activity
American quantum computing company
Rigetti Computing, Inc. is an American developer of superconducting quantum integrated circuits used for quantum computers. Rigetti, which is based in
Rigetti_Computing
Forecasting rules for quantum computing
law addresses one of quantum computing's most fundamental challenges. Quantum volume Superconducting quantum computing The introduction summarizes key
Quantum computing scaling laws
Quantum_computing_scaling_laws
Computer systems capable of one exaFLOPS
Exascale computing refers to computing systems capable of calculating at least 1018 IEEE 754 double precision (64-bit) operations (multiplications and/or
Exascale_computing
Type of recurrent neural network with random and non-trainable internal structure
realization of reservoir computing on gate-based quantum computers was proposed and demonstrated on cloud-based IBM superconducting near-term quantum computers
Reservoir_computing
Electronic device
The superconducting tunnel junction (STJ) – also known as a superconductor–insulator–superconductor tunnel junction (SIS) – is an electronic device consisting
Superconducting tunnel junction
Superconducting_tunnel_junction
Quantum computing company based in Espoo, Finland
quantum computers based on superconducting technology. Their goal is to become the leading European company in quantum computing hardware. IQM Quantum Computers
IQM_Quantum_Computers
Superconducting circuit element
to create superconducting qubits. In 1962, British physicist Brian Josephson predicted the Josephson effect: that pairs of superconducting electrons known
Josephson_junction
Superconducting qubit implementation
In quantum computing, and more specifically in superconducting quantum computing, a transmon is a type of superconducting charge qubit designed to have
Transmon
American physicist (born 1958)
Josephson junction. This work would later become the basis for superconducting quantum computing. Martinis joined the CEA Paris-Saclay in France for a first
John_M._Martinis
Superconducting qubit implementation
three-dimensional superconducting cavity. Understanding the limits of T2 is an active area of research in the field of superconducting quantum computing. Charge
Charge_qubit
Quantum computing chip by Microsoft
with conventional quantum computing hardware. It is the first device produced by Microsoft intended for use in quantum computing. It is an indium arsenide-aluminium
Majorana_1
India's first full stack quantum computer
technology in the processor is based on superconducting qubits, specifically Transmon qubits, which is a type of superconducting circuit used for quantum computation
QpiAI-Indus
Electrical component for processing data
into high-performance computing (HPC) systems alongside CPUs and GPUs. The most common types of quantum processors are superconducting processors, photonic
Processor_(computing)
French–American physicist (born 1953)
Google Quantum AI. He is known for the development of various superconducting quantum computing architectures, including the quantronium, the transmon, and
Michel_Devoret
"Quantum chip rides on superconducting bus". New Scientist. Retrieved December 30, 2007. "Superconducting Quantum Computing Cable Created". ScienceDaily
Timeline of quantum computing and communication
Timeline_of_quantum_computing_and_communication
Device performing a Boolean function
Propositional calculus Race hazard Reversible computing Superconducting computing Truth table Unconventional computing Jaeger (1997). Microelectronic Circuit
Logic_gate
Type of single-photon detector
cooled well below its superconducting critical temperature and biased with a DC current that is close to but less than the superconducting critical current
Superconducting nanowire single-photon detector
Superconducting_nanowire_single-photon_detector
Quantum computing company
D-Wave processor was a programmable, superconducting integrated circuit with up to 128 pair-wise coupled superconducting flux qubits. The 128-qubit processor
D-Wave_Systems
Type of quantum computer
October 2023). "Observation of non-Abelian exchange statistics on a superconducting processor". Bulletin of the American Physical Society. arXiv:2210.10255
Topological_quantum_computer
PMID 35589685. S2CID 236965948. Atom Computing Previews an 1180 Qubit Neutral Atom Processor, Quantum Computing Report Padavic-Callaghan, Karmela (December
List_of_quantum_processors
Basic unit of quantum information
In quantum computing, a qubit (/ˈkjuːbɪt/) or quantum bit is a basic unit of quantum information, the quantum version of the classic binary bit. A qubit
Qubit
Activity involving calculations or computing machinery
Computing is any goal-oriented activity that requires, benefits from, or creates computing machinery. It includes the study and experimentation of algorithmic
Computing
Particle accelerator at CERN, Switzerland
connection led to a magnet quench (the sudden loss of a superconducting magnet's superconducting ability owing to warming or electric field effects). Six
Large_Hadron_Collider
Cloud quantum computing platform
around what might be possible with quantum computing. IBM's quantum processors are made up of superconducting transmon qubits, located in dilution refrigerators
IBM_Quantum_Platform
engaged in the development of quantum computing, quantum communication and quantum sensing. Quantum computing and communication are two sub-fields of
List of companies involved in quantum computing, communication or sensing
List_of_companies_involved_in_quantum_computing,_communication_or_sensing
British physicist (born 1942)
focuses on superconductivity and superconducting electronics, particularly in the development and application of superconducting quantum interference devices
John_Clarke_(physicist)
American physicist
in which superconducting qubits were coupled via a cavity bus for the first time and two-qubit algorithms were executed on a superconducting quantum processor
Jerry_M._Chow
Process in quantum computing
(QEC) comprises a set of techniques used in quantum memory and quantum computing to protect quantum information from errors arising from decoherence and
Quantum_error_correction
Superconductor that depends on atomic structure
superconductor. A notable application of topological superconductors is in the realm of topological quantum computing, where Majorana zero modes can be used to implement
Topological_superconductor
German physicist
superconducting qubits. He has contributed primarily to the field of quantum information science, particularly in superconducting quantum computing and
Andreas_Wallraff
Concept in computer science
computing Superconducting quantum computing – Quantum computing implementation Uncomputation – Quantum computing technique Unconventional computing –
Reversible_computing
Indian proposed quantum computer
development in the field of quantum computing in the world is also intricately linked to India. The legacy of quantum computing in India can be traced back from
India's_quantum_computer
Japanese physicist
the area of quantum information science, particularly in superconducting quantum computing and hybrid quantum systems. While a child, Nakamura's family
Yasunobu_Nakamura
Digital logic implementation technology based on superconducting Josephson junctions
related technology is the Rapid Single Flux Quantum digital logic. Superconducting computing – Logic circuitry that requires low temperatures to achieve superconductivity
Quantum_flux_parametron
Quantum computer prototype
2019, by Google's Sycamore; however, Google's computer was based on superconducting materials, and not photons. Describing the difference between Jiuzhang
Jiuzhang_(quantum_computer)
American computer project
needed for future computing technologies. IARPA's programs in superconducting computing are aligned with the initiative. The five deployment agencies
National Strategic Computing Initiative
National_Strategic_Computing_Initiative
American quantum scientist
Initiative. His research focuses on superconducting electronic circuits to process and store information for quantum computing and to simulate and study many-body
Andrew_Houck
Remote quantum processors for computation
Cloud-based quantum computing refers to the remote access of quantum computing resources—such as quantum emulators, simulators, or processors—via the internet
Cloud-based_quantum_computing
Superconducting qubit architecture
In quantum computing, the fluxonium is a type of superconducting qubit architecture used for gate-based quantum computation that is insensitive to offset
Fluxonium
qubit implementations. Superconducting quantum computing (qubit implemented by the state of nonlinear resonant superconducting circuits containing Josephson
List of proposed quantum registers
List_of_proposed_quantum_registers
Experimental technology level
of the quantum computing implementation levels. In October 2023, the 1,000 qubit mark was passed for the first time by Atom Computing's 1,180 qubit quantum
Noisy intermediate-scale quantum computing
Noisy_intermediate-scale_quantum_computing
Finnish cryogenics company
temperatures. Cryocoolers are for instance a requirement for today's superconducting qubits to function. In response to increasing global demand, the company
Bluefors
Universal reversible logic gate, applied in quantum computing
three superconducting qubits with pair-wise coupling. Controlled NOT gate Fredkin gate Reversible computing Bijection Uncomputation Quantum computing Quantum
Toffoli_gate
Classification of quantum processors
computing. Since this paper, FTQC has become a ubiquitous term for error-corrected regimes beyond NISQ. The proposed development of quantum computing
Fault tolerant quantum computing
Fault_tolerant_quantum_computing
Open-source software development kit
quantum circuits and execute them on real quantum processors (such as superconducting qubit systems) or on various other compatible quantum devices. Over
Qiskit
Proposed quantum computer implementation
quantum computing began to accelerate worldwide.[citation needed] In 2021, researchers from the University of Innsbruck presented a quantum computing demonstrator
Trapped-ion_quantum_computer
Applications of liquid helium
If large magnetic fields are required then superconducting magnets are used. In order for superconductors to be efficient, they must be kept below their
Helium_cryogenics
Proposed sixth-generation mobile telecommunications technology
three-dimensional waveguide structures made of superconducting niobium for communication in the 100 GHz range. The superconducting design reduced signal loss from absorption
6G
Computational benchmark
"Quantum Supremacy Using a Programmable Superconducting Processor". "Quantum Supremacy Using a Programmable Superconducting Processor". Google AI Blog. Retrieved
Quantum_supremacy
Type of quantum information processing
the problem. Adiabatic quantum computing has been shown to be polynomially equivalent to conventional quantum computing in the circuit model. The time
Adiabatic_quantum_computation
Methods that imitate, replicate or use natural processes
artificial immune systems, fractal geometry, artificial life, DNA computing, and quantum computing, among others. However, the field is more related to biological
Natural_computing
Cryptography secured against quantum computers
quantum computing". phys.org. Heger, Monica (2009-01-01). "Cryptographers Take On Quantum Computers". IEEE Spectrum. "Q&A With Post-Quantum Computing Cryptography
Post-quantum_cryptography
Solid-state electronics based on electron spin
computational operations, which is challenging for conventional computing architectures. Traditional computing follows the von Neumann architecture, where memory and
Spintronics
Superconducting qubit implementation
In quantum computing, more specifically in superconducting quantum computing, flux qubits (also known as persistent current qubits) are micrometer sized
Flux_qubit
Paradigm of quantum computer
Linear optical quantum computing or linear optics quantum computation (LOQC), also photonic quantum computing (PQC), is a paradigm of quantum computation
Linear optical quantum computing
Linear_optical_quantum_computing
Volunteer computing projects are a type of distributed computing where volunteers donate computing time to specific causes. The donated computing power comes
List of volunteer computing projects
List_of_volunteer_computing_projects
Computer that uses ternary logic
bits. Ternary computing deals with three discrete states, but the ternary digits themselves can be defined differently: Ternary computing is commonly implemented
Ternary_computer
Type of superconducting quantum bit
quantum computing, and more specifically in superconducting quantum computing, the phase qubit is a superconducting device based on the superconductor
Phase_qubit
Simulators of quantum mechanical systems
transitions in lattices of superconducting resonators coupled to qubits. Hamiltonian simulation Quantum Turing machine Quantum computing Johnson, Tomi H.; Clark
Quantum_simulator
Type of digital electronic device
not quantum computing, technology. RSFQ is very different from the CMOS transistor technology used in conventional computers: Superconducting devices require
Rapid_single_flux_quantum
156-qubit quantum processor by IBM
occurs on average. Noisy intermediate-scale quantum computing Superconducting quantum computing Transmon "IBM Debuts Next-Generation Quantum Processor
IBM_Heron
Property of computational resources needed
QC Trapped-ion QC Spin-based Kane QC Spin qubit QC NV center NMR QC Superconducting Charge qubit Flux qubit Phase qubit Transmon Quantum programming OpenQASM–Qiskit–IBM
Magic_(quantum_information)
Quantum physical phenomenon
Single-electron transistors are often made from superconducting materials and called "superconducting single-electron transistors". Elementary charge
Josephson_effect
2019 quantum processor by Google
Sycamore is a transmon superconducting quantum processor created by Google's Artificial Intelligence division. It has 53 qubits. In 2019, Google claimed
Sycamore_(processor)
Secure communication method
2017, physicists led by Thomas Jennewein at the Institute for Quantum Computing and the University of Waterloo in Waterloo, Canada achieved the first
Quantum_key_distribution
Algorithm to be run on quantum computers
In quantum computing, a quantum algorithm is an algorithm that runs on a realistic model of quantum computation, the most commonly used model being the
Quantum_algorithm
American physicist
American physicist, most noted for his work on quantum computing as one of the inventors of superconducting qubits. Schoelkopf's main research areas are quantum
Robert_J._Schoelkopf
Proposed spin-based quantum computer implementation
spins for quantum computing was first discussed by Seth Lloyd and by David DiVincenzo. Manipulation of nuclear spins for quantum computing using liquid state
Nuclear magnetic resonance quantum computer
Nuclear_magnetic_resonance_quantum_computer
Restricted model of non-universal quantum computation
linear optical quantum computing. Moreover, while not universal, the boson sampling scheme is strongly believed to implement computing tasks that are hard
Boson_sampling
Australian physicist
Gambetta turned his research to the then-nascent field of superconducting quantum computing. He gained a post-doctorate post at Yale working for Steven
Jay_Gambetta
Initiative to rethink the concept of computing
Task Force on Rebooting Computing (TFRC), housed within IEEE Computer Society, is the new home for the IEEE Rebooting Computing Initiative. Founded in
IEEE_Rebooting_Computing
Canadian physicist and entrepreneur
Quantum Computing and continued with Achim Kempf as his PhD supervisor. He presented papers as a Guest Speaker at NASA's 2018 Adiabatic Quantum Computing conference
Guillaume_Verdon
Quantum algorithm
In quantum computing, the variational quantum eigensolver (VQE) is a quantum algorithm for quantum chemistry, quantum simulations and optimization problems
Variational quantum eigensolver
Variational_quantum_eigensolver
This glossary of quantum computing is a list of definitions of terms and concepts used in quantum computing, its sub-disciplines, and related fields. Bacon–Shor
Glossary_of_quantum_computing
Criteria for a usable quantum computer
constructing quantum devices. Some of these proposals involve using superconducting qubits, trapped ions, liquid and solid state nuclear magnetic resonance
DiVincenzo's_criteria
Form of quantum computing
Terhal, B. M.; DiVincenzo, D. P. (2019). "Hamiltonian quantum computing with superconducting qubits". IOP Publishing. 4 (3): 035002. arXiv:1310.5100. doi:10
Hamiltonian quantum computation
Hamiltonian_quantum_computation
materials with a Curie temperature below the superconducting transition temperature. When cooling, first superconducting order appears in the electron system
Reentrant_superconductivity
Quantum algorithm for eigenvalue estimation
In quantum computing, the quantum phase estimation algorithm is a quantum algorithm to estimate the phase corresponding to an eigenvalue of a given unitary
Quantum phase estimation algorithm
Quantum_phase_estimation_algorithm
Networks connecting quantum processors
quantum computing, is better at solving certain problems, such as modeling quantum systems. Networked quantum computing or distributed quantum computing works
Quantum_network
Quantum algorithm for integer factorization
A possible nontrivial divisor of N {\displaystyle N} can be found by computing gcd ( a , N ) {\displaystyle \gcd(a,N)} , which can be done classically
Shor's_algorithm
was to reduce scattering by lowering temperature, resulting in superconducting computing. The ballistic deflection transistor comprise the recent (in 2006)
Ballistic deflection transistor
Ballistic_deflection_transistor
Interdisciplinary research area
Zhihui (2016). "A NASA perspective on quantum computing: Opportunities and challenges". Parallel Computing. 64: 81–98. arXiv:1704.04836. doi:10.1016/j.parco
Quantum_machine_learning
Types of quantum information
In quantum computing, a qubit is a unit of information analogous to a bit (binary digit) in classical computing, but it is affected by quantum mechanical
Physical_and_logical_qubits
Means of studying the interaction of light and matter
architecture can be implemented using a superconducting LC resonator, a high purity cavity, or a superconducting coplanar waveguide microwave resonators
Circuit quantum electrodynamics
Circuit_quantum_electrodynamics
Australian quantum computing technology company
Diraq is a quantum computing company developing quantum computers based on silicon spin qubits. The company was founded in 2022 as a spin-out from Australian
Diraq
Topological quantum error correcting code
implemented a distance-7 planar code on their newest generation of superconducting quantum processors, Willow processor, demonstrating a below-threshold
Surface_code
Computer programming for quantum computers
sensor-based platforms. While some quantum computing architectures—such as linear optical quantum computing using the KLM protocol—require specialized
Quantum_programming
Scattering process at the normal-metal-superconductor interface
material at energies less than the superconducting energy gap. The incident electron forms a Cooper pair in the superconductor with the retroreflection of a
Andreev_reflection
Unit of quantum information
Generalizations of Pauli matrices Mutually unbiased bases Quantum computing Radix economy Ternary computing This can be compared with the three rotation operator
Qutrit
Proposed approach to a large-scale quantum computer based on Schrödinger cat states
particularly bit flips, making quantum error correction more efficient in superconducting circuits. The approach is being developed by Alice & Bob and Amazon
Cat_qubit_quantum_computer
South Korean quantum computing researcher
"for pioneering a novel superconducting qubit architecture that catalyzed the commercialization of superconducting quantum computing, and for contributions
Hanhee_Paik
American electronic engineer
Forum on Industrial & Applied Physics, "for leadership in scaling superconducting quantum hardware through wafer-level microfabrication and advanced
Christy_Tyberg
SUPERCONDUCTING COMPUTING
SUPERCONDUCTING COMPUTING
SUPERCONDUCTING COMPUTING
SUPERCONDUCTING COMPUTING
Girl/Female
Indian
Pure, Chaste
Boy/Male
Gujarati, Hindu, Indian, Kannada, Malayalam, Marathi
The Moon
Boy/Male
Muslim
Good mind, Avalanche, 11th month of iranian calendar
Girl/Female
American, British, English, French, Hebrew, Swedish
Full of Grace; Favor; Grace; Variant of Anne Favor; Favored Grace; God has Favored Me
Female
English
Variant spelling of English Keisha, KISHA means "cassia," a bark similar to cinnamon.
Biblical
which rolls or overturns
Boy/Male
Assamese, Indian
Pleasure; Enjoyment; Joyful
Surname or Lastname
English
English : habitational name from places in Oxfordshire and Hertfordshire named Hailey, from Old English hēg ‘hay’ + lēeah ‘wood’, ‘(woodland) clearing’.
Girl/Female
Hindu, Indian
Chief of the Goddesses
Boy/Male
Hindu
Very dedicated, Sharp
SUPERCONDUCTING COMPUTING
SUPERCONDUCTING COMPUTING
SUPERCONDUCTING COMPUTING
SUPERCONDUCTING COMPUTING
SUPERCONDUCTING COMPUTING
n.
One of the ten figures or symbols, 0, 1, 2, 3, 4, 5, 6, 7, 8, 9, by which all numbers are expressed; -- so called because of the use of the fingers in counting and computing.
n.
An arbitrary fixed date, for which the elements used in computing the place of a planet, or other heavenly body, at any other date, are given; as, the epoch of Mars; lunar elements for the epoch March 1st, 1860.
n.
A system of numbers, whose denominations rise in a scale of twelves, as of feet and inches. The system is used chiefly by artificers in computing the superficial and solid contents of their work.
n.
The computing official of an insurance company; one whose profession it is to calculate for insurance companies the risks and premiums for life, fire, and other insurances.
n.
An instrument for measuring the intensity of the photogenic (light-producing) rays, and computing the power of object glasses.
n.
The art of measuring and computing the cubical contents of bodies and figures; -- distinguished from planimetry.
n.
A contrivance for computing the revolutions of a wheel; an odometer.
v. i.
To make an enumeration or computation; to engage in numbering or computing.
n.
The act or process of computing; calculation; reckoning.
n.
A quantity to be applied in computing the mean place or other element of a celestial body; that is, any one of the several quantities to be added to, or taken from, its position as calculated on the hypothesis of a mean uniform motion, in order to find its true position as resulting from its actual and unequal motion.
p. pr. & vb. n.
of Compute
p. p. & a.
Worked out by calculation; as calculated tables for computing interest; ascertained or conjectured as a result of calculation; as, the calculated place of a planet; the calculated velocity of a cannon ball.