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QIP COMPLEXITY

QIP (complexity)

Complexity class

computational complexity theory, the class QIP (which stands for Quantum Interactive Proof) is the quantum computing analogue of the classical complexity class

QIP (complexity)

QIP_(complexity)

Topics referred to by the same term

innovation, research, and problem solving QIP (complexity), a complexity class in computational complexity theory Quad in-line package, an electronic

QIP

IP (complexity)

Complexity class from interactive proofs

878–880, 1992. Complexity Zoo: IP, MIP Archived 2013-06-03 at the Wayback Machine, IPP Archived 2013-06-03 at the Wayback Machine, QIP Archived 2014-03-14

IP (complexity)

IP_(complexity)

Complexity class

Set of problems in computational complexity theory

{IP}}[k]} . Other complexity classes defined using interactive proof systems include MIP (multiprover interactive polynomial time) and QIP (quantum interactive

Complexity class

Complexity_class

PSPACE

Class of computational complexity

not in the language. PSPACE can be characterized as the quantum complexity class QIP. PSPACE is also equal to PCTC, problems solvable by classical computers

PSPACE

Quantum Merlin Arthur

is QIP(1). QIP(2) is known to be in PSPACE. QIP is QIP(k) where k is allowed to be polynomial in the number of qubits. It is known that QIP(3) = QIP. It

QMA

Computational complexity class of problems

subgroup problem Polynomial hierarchy (PH) Quantum complexity theory QMA, the quantum equivalent to NP. QIP, the quantum equivalent to IP. Michael Nielsen

BQP

Quantum computing

Computer hardware technology that uses quantum mechanics

comparable to known medicinal compounds. However, the immense size and complexity of the structural space of all possible drug-like molecules pose significant

Quantum computing

Quantum_computing

Quantum complexity theory

Computational complexity of quantum algorithms

Quantum complexity theory is the subfield of computational complexity theory that deals with complexity classes defined using quantum computers, a computational

Quantum complexity theory

Quantum_complexity_theory

Interactive proof system

Abstract machine that models computation

system, and the corresponding complexity class is called QIP. A series of results culminated in a 2010 breakthrough that QIP = PSPACE. Not only can interactive

Interactive proof system

Interactive_proof_system

Quantum supremacy

Computational benchmark

relation to BQP. There are several other quantum complexity classes, such as QMA (quantum Merlin Arthur) and QIP (quantum interactive polynomial time). The

Quantum supremacy

Quantum_supremacy

List of complexity classes

of complexity classes in computational complexity theory. For other computational and complexity subjects, see list of computability and complexity topics

List of complexity classes

List_of_complexity_classes

Grover's algorithm

Quantum search algorithm

1996. The analogous problem in classical computation would have a query complexity O ( N ) {\displaystyle O(N)} (i.e., the function would have to be evaluated

Grover's algorithm

Grover's_algorithm

Simon's problem

Problem in computer science

In computational complexity theory and quantum computing, Simon's problem is a computational problem that is proven to be solved exponentially faster on

Simon's problem

Simon's_problem

John Watrous (computer scientist)

Theoretical computer scientist

Lance Fortnow (2009-07-29). "QIP = PSPACE". Computational Complexity. Retrieved 2009-12-30. Dave Bacon (2009-07-28). "OMG QIP=PSPACE!". The Quantum Pontiff

John Watrous (computer scientist)

John_Watrous_(computer_scientist)

Quantum information science

Interdisciplinary theory behind quantum computing

Processing and Communication QIIC – Quantum Information, Imperial College London. QIP – Quantum Information Group, University of Leeds. The quantum information

Quantum information science

Quantum_information_science

Exact quantum polynomial time

Computer science

In computational complexity theory, exact quantum polynomial time (EQP or sometimes QP) is the class of decision problems that can be solved by a quantum

Exact quantum polynomial time

Exact_quantum_polynomial_time

Shor's algorithm

Quantum algorithm for integer factorization

Hoeven, thus demonstrating that the integer factorization problem is in complexity class BQP. Shor's algorithm is asymptotically faster than the most scalable

Shor's algorithm

Shor's_algorithm

Quantum network

Networks connecting quantum processors

optimization Quantum phase estimation Shor's Simon's VQE Quantum complexity theory BQP DQC1 EQP QIP QMA PostBQP Quantum processor benchmarks Quantum supremacy

Quantum network

Quantum_network

Quantum refereed game

it follows that QRG ⊆ EXP. Min-max theorem Semidefinite programming QIP (complexity) Gutoski, G; Watrous, J (2007). "Toward a general theory of quantum

Quantum refereed game

Quantum_refereed_game

Bernstein–Vazirani algorithm

Quantum algorithm

Bernstein–Vazirani algorithm was designed to prove an oracle separation between complexity classes BQP and BPP. Given an oracle that implements a function f : {

Bernstein–Vazirani algorithm

Bernstein–Vazirani_algorithm

Linear optical quantum computing

Paradigm of quantum computer

there are many other implementations for quantum information processing (QIP) and quantum computation, optical quantum systems are prominent candidates

Linear optical quantum computing

Linear_optical_quantum_computing

Boson sampling

Restricted model of non-universal quantum computation

is in the general case an extremely hard task: it falls in the #P-hard complexity class. Moreover, its approximation to within multiplicative error is a

Boson sampling

Boson_sampling

Noisy intermediate-scale quantum computing

Experimental technology level

overwhelms the signal. This constraint severely limits the depth and complexity of algorithms that can be successfully implemented on current hardware

Noisy intermediate-scale quantum computing

Noisy_intermediate-scale_quantum_computing

Entanglement swapping

Quantum mechanics idea

optimization Quantum phase estimation Shor's Simon's VQE Quantum complexity theory BQP DQC1 EQP QIP QMA PostBQP Quantum processor benchmarks Quantum supremacy

Entanglement swapping

Entanglement_swapping

Quantum machine learning

Interdisciplinary research area

use qubits and quantum operations to try to improve the space and time complexity of classical machine learning algorithms. Hybrid QML methods involve both

Quantum machine learning

Quantum_machine_learning

Quantum Turing machine

Model of quantum computation

equal to the classical complexity class PP. Quantum simulator § Solving physics problems Andrew Yao (1993). Quantum circuit complexity. 34th Annual Symposium

Quantum Turing machine

Quantum_Turing_machine

Magic (quantum information)

Property of computational resources needed

optimization Quantum phase estimation Shor's Simon's VQE Quantum complexity theory BQP DQC1 EQP QIP QMA PostBQP Quantum processor benchmarks Quantum supremacy

Magic (quantum information)

Magic_(quantum_information)

Hidden subgroup problem

Very general problem in computer science

Mark Ettinger; Peter Hoyer; Emanuel Knill (2004). "The quantum query complexity of the hidden subgroup problem is polynomial". Information Processing

Hidden subgroup problem

Hidden_subgroup_problem

Quantum algorithm

Algorithm to be run on quantum computers

problem had similar complexity for inputs other than Fock-state photons and identified a transition in computational complexity from classically simulable

Quantum algorithm

Quantum_algorithm

Bell's theorem

Theorem in physics

strategies". Proceedings. 19th IEEE Annual Conference on Computational Complexity, 2004. IEEE. pp. 236–249. arXiv:quant-ph/0404076. Bibcode:2004quant.ph

Bell's theorem

Bell's_theorem

Shor code

Code used in quantum error correction

optimization Quantum phase estimation Shor's Simon's VQE Quantum complexity theory BQP DQC1 EQP QIP QMA PostBQP Quantum processor benchmarks Quantum supremacy

Shor code

Shor_code

Magic state distillation

Quantum computing algorithm

optimization Quantum phase estimation Shor's Simon's VQE Quantum complexity theory BQP DQC1 EQP QIP QMA PostBQP Quantum processor benchmarks Quantum supremacy

Magic state distillation

Magic_state_distillation

Quantum key distribution

Secure communication method

optimization Quantum phase estimation Shor's Simon's VQE Quantum complexity theory BQP DQC1 EQP QIP QMA PostBQP Quantum processor benchmarks Quantum supremacy

Quantum key distribution

Quantum_key_distribution

Clifford gate

Definition of quantum circuits

optimization Quantum phase estimation Shor's Simon's VQE Quantum complexity theory BQP DQC1 EQP QIP QMA PostBQP Quantum processor benchmarks Quantum supremacy

Clifford gate

Clifford_gate

Quantum Fourier transform

Change of basis applied in quantum computing

Waltrous, John (8 November 2002). "Sharp Quantum versus Classical Query Complexity Separations". Algorithmica. 34 (4): 449–461. doi:10.1007/s00453-002-0978-1

Quantum Fourier transform

Quantum_Fourier_transform

PostBQP

Complexity class

In computational complexity theory, PostBQP is a complexity class consisting of all of the computational problems solvable in polynomial time on a quantum

PostBQP

Quantum sort

Sorting algorithms for quantum computers

than classical ones, and should be disregarded when it comes to time complexity. However, in space-bounded sorts, quantum algorithms outperform their

Quantum sort

Quantum_sort

Alexei Kitaev

Russian-American physicist (born 1963)

to quantum algorithms, quantum complexity classes, and fault-tolerant quantum computation. He introduced the complexity class QMA (Quantum Merlin–Arthur)

Alexei Kitaev

Alexei_Kitaev

Hidden linear function problem

Search problem in quantum mechanics

Bernstein–Vazirani's problem was designed to prove an oracle separation between complexity classes BQP and BPP, 2D HLF was designed to prove an explicit separation

Hidden linear function problem

Hidden_linear_function_problem

BB84

Quantum key distribution protocol

optimization Quantum phase estimation Shor's Simon's VQE Quantum complexity theory BQP DQC1 EQP QIP QMA PostBQP Quantum processor benchmarks Quantum supremacy

BB84

Time crystal

Structure that repeats in time; a novel type or phase of non-equilibrium matter

optimization Quantum phase estimation Shor's Simon's VQE Quantum complexity theory BQP DQC1 EQP QIP QMA PostBQP Quantum processor benchmarks Quantum supremacy

Time crystal

Time_crystal

IBM Quantum Platform

Cloud quantum computing platform

optimization Quantum phase estimation Shor's Simon's VQE Quantum complexity theory BQP DQC1 EQP QIP QMA PostBQP Quantum processor benchmarks Quantum supremacy

IBM Quantum Platform

IBM_Quantum_Platform

Quantum optimization algorithms

Optimization algorithms using quantum computing

various fields such as mechanics, economics and engineering, and as the complexity and amount of data involved rise, more efficient ways of solving optimization

Quantum optimization algorithms

Quantum_optimization_algorithms

No-communication theorem

Principle in quantum information theory

optimization Quantum phase estimation Shor's Simon's VQE Quantum complexity theory BQP DQC1 EQP QIP QMA PostBQP Quantum processor benchmarks Quantum supremacy

No-communication theorem

No-communication_theorem

Trapped-ion quantum computer

Proposed quantum computer implementation

linear strand of only a few ions. Coulomb interactions of increasing complexity will create a more intricate ion configuration if many ions are initialized

Trapped-ion quantum computer

Trapped-ion_quantum_computer

Classical shadow

Quantum computing protocol

optimization Quantum phase estimation Shor's Simon's VQE Quantum complexity theory BQP DQC1 EQP QIP QMA PostBQP Quantum processor benchmarks Quantum supremacy

Classical shadow

Classical_shadow

Qutrit

Unit of quantum information

optimization Quantum phase estimation Shor's Simon's VQE Quantum complexity theory BQP DQC1 EQP QIP QMA PostBQP Quantum processor benchmarks Quantum supremacy

Qutrit

Threshold theorem

Quantum error correction schemes can suppress the logical error rate arbitrarily low

optimization Quantum phase estimation Shor's Simon's VQE Quantum complexity theory BQP DQC1 EQP QIP QMA PostBQP Quantum processor benchmarks Quantum supremacy

Threshold theorem

Threshold_theorem

Glossary of quantum computing

of fault tolerant circuits on a quantum computer. BQP In computational complexity theory, bounded-error quantum polynomial time (BQP) is the class of decision

Glossary of quantum computing

Glossary_of_quantum_computing

Post-quantum cryptography

Cryptography secured against quantum computers

regulatory guidance, interoperability constraints, and the operational complexity of replacing embedded cryptographic components. One commonly cited risk

Post-quantum cryptography

Post-quantum_cryptography

Quantum programming

Computer programming for quantum computers

optimization Quantum phase estimation Shor's Simon's VQE Quantum complexity theory BQP DQC1 EQP QIP QMA PostBQP Quantum processor benchmarks Quantum supremacy

Quantum programming

Quantum_programming

Quantum phase estimation algorithm

Quantum algorithm for eigenvalue estimation

optimization Quantum phase estimation Shor's Simon's VQE Quantum complexity theory BQP DQC1 EQP QIP QMA PostBQP Quantum processor benchmarks Quantum supremacy

Quantum phase estimation algorithm

Quantum_phase_estimation_algorithm

Variational quantum eigensolver

Quantum algorithm

optimization Quantum phase estimation Shor's Simon's VQE Quantum complexity theory BQP DQC1 EQP QIP QMA PostBQP Quantum processor benchmarks Quantum supremacy

Variational quantum eigensolver

Variational_quantum_eigensolver

Qubit

Basic unit of quantum information

optimization Quantum phase estimation Shor's Simon's VQE Quantum complexity theory BQP DQC1 EQP QIP QMA PostBQP Quantum processor benchmarks Quantum supremacy

Qubit

Topological quantum computer

Type of quantum computer

optimization Quantum phase estimation Shor's Simon's VQE Quantum complexity theory BQP DQC1 EQP QIP QMA PostBQP Quantum processor benchmarks Quantum supremacy

Topological quantum computer

Topological_quantum_computer

Counterfactual quantum computation

Method of inferring the results of a computation without running a quantum computer

optimization Quantum phase estimation Shor's Simon's VQE Quantum complexity theory BQP DQC1 EQP QIP QMA PostBQP Quantum processor benchmarks Quantum supremacy

Counterfactual quantum computation

Counterfactual_quantum_computation

Five-qubit error correcting code

Type of error correction in quantum computing

optimization Quantum phase estimation Shor's Simon's VQE Quantum complexity theory BQP DQC1 EQP QIP QMA PostBQP Quantum processor benchmarks Quantum supremacy

Five-qubit error correcting code

Five-qubit_error_correcting_code

One clean qubit

Model of computation

, where I {\displaystyle I} is the identity matrix. In computational complexity theory, DQC1; also known as the deterministic quantum computation with

One clean qubit

One_clean_qubit

Illinois Quantum and Microelectronics Park

Planned quantum technology campus in Chicago

optimization Quantum phase estimation Shor's Simon's VQE Quantum complexity theory BQP DQC1 EQP QIP QMA PostBQP Quantum processor benchmarks Quantum supremacy

Illinois Quantum and Microelectronics Park

Illinois_Quantum_and_Microelectronics_Park

Neutral atom quantum computer

Type of quantum computer built out of Rydberg atoms

optimization Quantum phase estimation Shor's Simon's VQE Quantum complexity theory BQP DQC1 EQP QIP QMA PostBQP Quantum processor benchmarks Quantum supremacy

Neutral atom quantum computer

Neutral_atom_quantum_computer

Decoy state

Protocol in quantum cryptography

optimization Quantum phase estimation Shor's Simon's VQE Quantum complexity theory BQP DQC1 EQP QIP QMA PostBQP Quantum processor benchmarks Quantum supremacy

Decoy state

Decoy_state

Bacon–Shor code

Quantum error correcting code

optimization Quantum phase estimation Shor's Simon's VQE Quantum complexity theory BQP DQC1 EQP QIP QMA PostBQP Quantum processor benchmarks Quantum supremacy

Bacon–Shor code

Bacon–Shor_code

HHL algorithm

Quantum algorithm for solving systems of linear equations

optimization Quantum phase estimation Shor's Simon's VQE Quantum complexity theory BQP DQC1 EQP QIP QMA PostBQP Quantum processor benchmarks Quantum supremacy

HHL algorithm

HHL_algorithm

Quantum channel

Foundational object in quantum communication theory

optimization Quantum phase estimation Shor's Simon's VQE Quantum complexity theory BQP DQC1 EQP QIP QMA PostBQP Quantum processor benchmarks Quantum supremacy

Quantum channel

Quantum_channel

Quantum computing scaling laws

Forecasting rules for quantum computing

optimization Quantum phase estimation Shor's Simon's VQE Quantum complexity theory BQP DQC1 EQP QIP QMA PostBQP Quantum processor benchmarks Quantum supremacy

Quantum computing scaling laws

Quantum_computing_scaling_laws

Swap test

Technique for comparing quantum states

optimization Quantum phase estimation Shor's Simon's VQE Quantum complexity theory BQP DQC1 EQP QIP QMA PostBQP Quantum processor benchmarks Quantum supremacy

Swap test

Swap_test

Nuclear magnetic resonance quantum computer

Proposed spin-based quantum computer implementation

ideal picture of liquid state NMR (LSNMR) quantum information processing (QIP) is based on a molecule in which some of its atom's nuclei behave as spin-⁠1/2⁠

Nuclear magnetic resonance quantum computer

Nuclear_magnetic_resonance_quantum_computer

Quantum natural language processing

Quantum computing applied to natural language processing

optimization Quantum phase estimation Shor's Simon's VQE Quantum complexity theory BQP DQC1 EQP QIP QMA PostBQP Quantum processor benchmarks Quantum supremacy

Quantum natural language processing

Quantum_natural_language_processing

Adiabatic quantum computation

Type of quantum information processing

equivalent to conventional quantum computing in the circuit model. The time complexity for an adiabatic algorithm is the time taken to complete the adiabatic

Adiabatic quantum computation

Adiabatic_quantum_computation

Gottesman–Kitaev–Preskill code

Quantum error correcting code

optimization Quantum phase estimation Shor's Simon's VQE Quantum complexity theory BQP DQC1 EQP QIP QMA PostBQP Quantum processor benchmarks Quantum supremacy

Gottesman–Kitaev–Preskill code

Gottesman–Kitaev–Preskill_code

Quantum steering

Property of states in quantum mechanics

optimization Quantum phase estimation Shor's Simon's VQE Quantum complexity theory BQP DQC1 EQP QIP QMA PostBQP Quantum processor benchmarks Quantum supremacy

Quantum steering

Quantum_steering

BHT algorithm

Quantum algorithm

box model. The algorithm can be generalized to r-to-1 function with a complexity of O ( ( n r ) 1 / 3 ) {\displaystyle O\left(\left({\frac {n}{r}}\right)^{1/3}\right)}

BHT algorithm

BHT_algorithm

Quantum neural network

Quantum Mechanics in Neural Networks

optimization Quantum phase estimation Shor's Simon's VQE Quantum complexity theory BQP DQC1 EQP QIP QMA PostBQP Quantum processor benchmarks Quantum supremacy

Quantum neural network

Quantum_neural_network

Deutsch–Jozsa algorithm

Deterministic quantum algorithm

optimization Quantum phase estimation Shor's Simon's VQE Quantum complexity theory BQP DQC1 EQP QIP QMA PostBQP Quantum processor benchmarks Quantum supremacy

Deutsch–Jozsa algorithm

Deutsch–Jozsa_algorithm

KLM protocol

Linear optical quantum computing implementation

&\cos \theta \\\end{bmatrix}}} . For most cases of beam splitters used in QIP, the incident angle θ = 45 ∘ {\displaystyle \theta =45^{\circ }} . Similarly

KLM protocol

KLM_protocol

CSS code

Class of quantum error correcting codes

optimization Quantum phase estimation Shor's Simon's VQE Quantum complexity theory BQP DQC1 EQP QIP QMA PostBQP Quantum processor benchmarks Quantum supremacy

CSS code

CSS_code

Qiskit

Open-source software development kit

maintained by the company qBraid, this tool abstracts away much of the complexity in managing quantum computing workloads across different providers, complementing

Qiskit

Physical and logical qubits

Types of quantum information

optimization Quantum phase estimation Shor's Simon's VQE Quantum complexity theory BQP DQC1 EQP QIP QMA PostBQP Quantum processor benchmarks Quantum supremacy

Physical and logical qubits

Physical_and_logical_qubits

Quantum simulator

Simulators of quantum mechanical systems

problems faster than classical computers, meaning they may be in different complexity classes, which is why quantum Turing machines are useful for simulating

Quantum simulator

Quantum_simulator

Quantum teleportation

Physical phenomenon

optimization Quantum phase estimation Shor's Simon's VQE Quantum complexity theory BQP DQC1 EQP QIP QMA PostBQP Quantum processor benchmarks Quantum supremacy

Quantum teleportation

Quantum_teleportation

Quantum state discrimination

Quantum-informatics technique

optimization Quantum phase estimation Shor's Simon's VQE Quantum complexity theory BQP DQC1 EQP QIP QMA PostBQP Quantum processor benchmarks Quantum supremacy

Quantum state discrimination

Quantum_state_discrimination

Dicke state

Quantum state

optimization Quantum phase estimation Shor's Simon's VQE Quantum complexity theory BQP DQC1 EQP QIP QMA PostBQP Quantum processor benchmarks Quantum supremacy

Dicke state

Dicke_state

B92 protocol

Quantum key distribution protocol - B92

implementation compared to BB84 due to fewer quantum states. Lower hardware complexity as only two quantum states are required. Can be adapted for use in various

B92 protocol

B92_protocol

Quantum error correction

Process in quantum computing

optimization Quantum phase estimation Shor's Simon's VQE Quantum complexity theory BQP DQC1 EQP QIP QMA PostBQP Quantum processor benchmarks Quantum supremacy

Quantum error correction

Quantum_error_correction

DiVincenzo's criteria

Criteria for a usable quantum computer

optimization Quantum phase estimation Shor's Simon's VQE Quantum complexity theory BQP DQC1 EQP QIP QMA PostBQP Quantum processor benchmarks Quantum supremacy

DiVincenzo's criteria

DiVincenzo's_criteria

Quantum state purification

Concept in quantum information theory

optimization Quantum phase estimation Shor's Simon's VQE Quantum complexity theory BQP DQC1 EQP QIP QMA PostBQP Quantum processor benchmarks Quantum supremacy

Quantum state purification

Quantum_state_purification

Hidden matching problem

Computation complexity problem

In quantum information, the hidden matching problem is a computational complexity problem that can be solved using quantum protocols: Let n {\displaystyle

Hidden matching problem

Hidden_matching_problem

Algorithmic cooling

Algorithm in quantum information theory

optimization Quantum phase estimation Shor's Simon's VQE Quantum complexity theory BQP DQC1 EQP QIP QMA PostBQP Quantum processor benchmarks Quantum supremacy

Algorithmic cooling

Algorithmic_cooling

Quantum walk search

Quantum algorithm

algorithm, where the check is performed after every step on the graph has a complexity of S + 1 ϵ δ ( U + C ) {\displaystyle S+{\frac {1}{\epsilon \delta }}{\biggl

Quantum walk search

Quantum_walk_search

Holevo's theorem

Upper bound on the knowable information of a quantum state

optimization Quantum phase estimation Shor's Simon's VQE Quantum complexity theory BQP DQC1 EQP QIP QMA PostBQP Quantum processor benchmarks Quantum supremacy

Holevo's theorem

Holevo's_theorem

Pusey–Barrett–Rudolph theorem

Theorem pertaining to the ontology of quantum mechanics

optimization Quantum phase estimation Shor's Simon's VQE Quantum complexity theory BQP DQC1 EQP QIP QMA PostBQP Quantum processor benchmarks Quantum supremacy

Pusey–Barrett–Rudolph theorem

Pusey–Barrett–Rudolph_theorem

Quantum energy teleportation

Aspect of quantum information science

optimization Quantum phase estimation Shor's Simon's VQE Quantum complexity theory BQP DQC1 EQP QIP QMA PostBQP Quantum processor benchmarks Quantum supremacy

Quantum energy teleportation

Quantum_energy_teleportation

Mølmer–Sørensen gate

Trapped-ion quantum gate

optimization Quantum phase estimation Shor's Simon's VQE Quantum complexity theory BQP DQC1 EQP QIP QMA PostBQP Quantum processor benchmarks Quantum supremacy

Mølmer–Sørensen gate

Mølmer–Sørensen_gate

Schrödinger equation

Description of a quantum-mechanical system

optimization Quantum phase estimation Shor's Simon's VQE Quantum complexity theory BQP DQC1 EQP QIP QMA PostBQP Quantum processor benchmarks Quantum supremacy

Schrödinger equation

Schrödinger_equation

Amplitude damping channel

Quantum channel

optimization Quantum phase estimation Shor's Simon's VQE Quantum complexity theory BQP DQC1 EQP QIP QMA PostBQP Quantum processor benchmarks Quantum supremacy

Amplitude damping channel

Amplitude_damping_channel

Steane code

Code for quantum correction

optimization Quantum phase estimation Shor's Simon's VQE Quantum complexity theory BQP DQC1 EQP QIP QMA PostBQP Quantum processor benchmarks Quantum supremacy

Steane code

Steane_code

Surface code

Topological quantum error correcting code

optimization Quantum phase estimation Shor's Simon's VQE Quantum complexity theory BQP DQC1 EQP QIP QMA PostBQP Quantum processor benchmarks Quantum supremacy

Surface code

Surface_code

Cuneiform

Writing system of the ancient Near East

were polyvalent, having both a syllabic and logographic meaning. The complexity of the system bears a resemblance to Old Japanese, written in a Chinese-derived

Cuneiform

Quantum capacity

Highest rate quantum information can be sent through a noisy quantum channel

optimization Quantum phase estimation Shor's Simon's VQE Quantum complexity theory BQP DQC1 EQP QIP QMA PostBQP Quantum processor benchmarks Quantum supremacy

Quantum capacity

Quantum_capacity

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