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• Quantum Secret Sharing
  ...be in possession of more than one party at the same time, there exist QSS protocols that mimic classical secret sharing (see [[Quantum Secret Sharing#Further D ...[[:Category: Building Blocks|Building Blocks]], [[:Category: Multi Party Protocols|Multi Party]], [[:Category: Quantum Enhanced Classical Functionality|Quantu
  3 KB (446 words) - 18:15, 13 September 2019
• Quantum Strong Coin Flipping
  '''Tags:''' [[:Category:Two Party Protocols|Two Party Protocols]], [[:Category:Quantum Enhanced Classical Functionality|Quantum Enhanced Cl [[Category:Two Party Protocols]] [[Category:Quantum Enhanced Classical Functionality]][[Category:Specific
  7 KB (1,282 words) - 21:10, 7 June 2020
• Quantum Key Distribution
  '''Tags:''' [[:Category: Two Party Protocols|Two Party]], [[:Category: Quantum Enhanced Classical Functionality|Quantum [[Category: Two Party Protocols]] [[Category: Quantum Enhanced Classical Functionality]] [[Category:Specifi
  4 KB (586 words) - 18:56, 21 December 2020
• Quantum Bit Commitment
  '''Tags:''' [[:Category:Two Party Protocols|Two Party Protocols]], [[:Category:Quantum Enhanced Classical Functionality|Quantum Enhanced Cl [[Category:Two Party Protocols]] [[Category:Quantum Enhanced Classical Functionality]][[Category:Specific
  4 KB (600 words) - 16:23, 12 November 2019
• Secure Client- Server Delegated Computation
  ...ifferent stages may differ according to the type of communication used see Protocols list.</br></br> '''Tags:''' [[:Category:Two Party Protocols|Two Party]],[[Category:Two Party Protocols]] [[:Category:Universal Task|Universal Tasks]], [[Category:Universal Task]]
  8 KB (1,043 words) - 18:57, 21 December 2020
• Quantum Digital Signature
  ...tal signatures rely on authentication (taken as an assumption for some QDS protocols) i.e. the message has come from the claimed party; integrity i.e. the messa '''Tags:''' [[:Category: Multi Party Protocols|Multi Party (three)]], [[:Category: Quantum Enhanced Classical Functionali
  6 KB (863 words) - 18:54, 21 December 2020
• Copy Protection
  '''Tags:''' Quantum Functionality, Two Party Protocols, Universal Task, Computational Security == Protocols ==
  4 KB (576 words) - 18:38, 13 September 2021
• Wiesner Quantum Money
  '''Tags:''' [[:Category: Multi Party Protocols|Multi Party Protocols]], non-local games, [[:Category: Quantum Enhanced Classical Functionality|Q [[Category: Multi Party Protocols]]
  4 KB (674 words) - 16:33, 16 October 2019
• Authentication of Quantum Messages
  ...' [[:Category:Two Party Protocols|Two Party Protocol]][[Category:Two Party Protocols]], [[Quantum Digital Signature]], [[:Category:Quantum Functionality|Quantum ==Protocols==
  8 KB (1,148 words) - 19:49, 16 January 2022
• Quantum Conference Key Agreement
  ...sible to compose bipartite QKD protocols to accomplish this task. However, protocols based on multipartite quantum correlations may be more efficient and practi <!-- Tags Any related page or list of protocols is connected by this section-->
  5 KB (829 words) - 21:08, 19 January 2022
• Polynomial Code based Quantum Authentication
  ...' [[:Category:Two Party Protocols|Two Party Protocol]][[Category:Two Party Protocols]], [[:Category:Quantum Functionality|Quantum Functionality]][[Category:Quan
  5 KB (788 words) - 19:49, 16 January 2022
• Fidelity Estimation
  ...evice prepares the desired quantum state. The [[figure of merit]] in these protocols is the fidelity of the prepared quantum state ==Protocols==
  1 KB (164 words) - 16:23, 20 September 2019
• Quantum Token
  '''Tags:''' [[:Category: Multi Party Protocols|Multi Party Protocols]], non local games, [[:Category: Quantum Enhanced Classical Functionality|Q [[Category: Multi Party Protocols]]
  5 KB (773 words) - 07:58, 12 November 2021
• Trap Code for Quantum Authentication
  ...' [[:Category:Two Party Protocols|Two Party Protocol]][[Category:Two Party Protocols]], [[:Category:Quantum Functionality|Quantum Functionality]][[Category:Quan
  6 KB (906 words) - 19:50, 16 January 2022
• Coin Flipping
  ==Protocols== ...ultiparty computation, online gaming and more general randomized consensus protocols involving leader election.
  3 KB (468 words) - 17:04, 12 February 2024
• Clifford Code for Quantum Authentication
  ...' [[:Category:Two Party Protocols|Two Party Protocol]][[Category:Two Party Protocols]], [[:Category:Quantum Functionality|Quantum Functionality]][[Category:Quan
  5 KB (796 words) - 19:49, 16 January 2022
• (Symmetric) Private Information Retrieval
  ...attempts at achieving SPIR have considered both two-party and multi-party protocols where the user communicates with several servers, each holding a copy of th ...hniques to enhance the classical (S)PIR functionality (i.e., design better protocols than their classical counterparts in terms of different metrics like e.g.,
  15 KB (2,140 words) - 16:01, 27 July 2021
• Anonymous Transmission
  '''Tags:''' [[:Category: Multi Party Protocols|Multi Party]], [[:Category: Quantum Enhanced Classical Functionality|Quant [[Category: Multi Party Protocols]] [[Category: Quantum Enhanced Classical Functionality]] [[Category:Specifi
  5 KB (672 words) - 18:52, 21 December 2020
• Weak String Erasure
  Weak String Erasure (WSE) is a two-party functionality, say between Alice and Bob, that allows Alice to send a rando [[:Category: Two Party Protocols|Two Party Protocols]] [[Category: Two Party Protocols]], weak string erasure, [[Category: Building Blocks]][[:Category: Building
  7 KB (1,138 words) - 16:29, 12 November 2019
• Quantum Teleportation
  ...asic protocol in many other quantum communication and quantum cryptography protocols. [https://github.com/quantumprotocolzoo/protocols/tree/master/QuantumStateTeleportation <u>click here for Python code</u>]
  10 KB (1,594 words) - 08:02, 12 November 2021
• Process Tomography
  ==Protocols== * All of the protocols under this technique broadly have two methods of state estimation from meas
  2 KB (300 words) - 16:40, 20 September 2019
• Entanglement Routing
  There are entanglement routing protocols that are specifically designed for certain network topology e.g: linear, ri The main goal of entanglement routing is to develop efficient routing protocols to enable long distance entanglement.
  7 KB (982 words) - 20:02, 6 January 2022
• Quantum Oblivious Transfer
  '''Tags:''' [[:Category:Two Party Protocols|Two Party Protocols]], [[:Category:Quantum Enhanced Classical Functionality|Quantum Enhanced Cl [[Category:Two Party Protocols]] [[Category:Quantum Enhanced Classical Functionality]][[Category:Specific
  9 KB (1,525 words) - 16:34, 16 October 2019
• Main Page
  ...quantum networks. It provides a compact and canonical way to explore such protocols. Moreover, it allows for easy communication among computer scientists, engi **[https://github.com/quantumprotocolzoo/protocols Codes Repository]</div>
  4 KB (660 words) - 21:41, 15 January 2024
• Measurement-Only Verifiable Universal Blind Quantum Computation
  '''Tags''' [[Category: Two Party Protocols]] [[:Category: Two Party Protocols|Two Party]], [[Category: Universal Task]][[:Category: Universal Task|Univer
  7 KB (1,021 words) - 16:36, 16 October 2019
• Copy Protection of Compute and Compare Programs
  '''Tags:''' [[:Category:Two Party Protocols|Two Party Protocols]], [[:Category:Quantum Functionality|Quantum Functionality]], [[:Category:U *Both protocols have provable non-trivial security in the quantum random oracle model. Info
  7 KB (1,033 words) - 19:56, 11 January 2022
• Measurement-Only Universal Blind Quantum Computation
  '''Tags:''' [[Category: Two Party Protocols]] [[:Category: Two Party Protocols|Two Party]], [[Category: Universal Task]][[:Category: Universal Task|Univer ...tum output from the Server. Like all the other delegated quantum computing protocols, this protocol is also divided into two stages, Preparation and Computation
  9 KB (1,388 words) - 13:06, 25 October 2019
• Quantum Cloning
  ...ounds they produce approximately similar copies, or they are probabilistic protocols which means that probabilistically they produce the exact copies. ==Protocols==
  4 KB (523 words) - 22:04, 17 April 2019
• Distributed Routing in a Quantum Internet
  ...'' model where entanglement production start when a request is made. Their protocols work on any network topology but are analyzed in the ring, grid and recursi '''Tags:''' [[:Category: Multi Party Protocols|Multi Party]], [[:Category: Specific Task|Specific Task]].
  8 KB (1,174 words) - 20:03, 6 January 2022
• Secure Multiparty Delegated Classical Computation
  '''Tags:''' [[:Category:Multi Party Protocols|Multi Party Protocols]], [[:Category:Quantum Enhanced Classical Functionality|Quantum Enhanced Cl [[Category:Multi Party Protocols]] [[Category:Quantum Enhanced Classical Functionality]][[Category:Universal
  5 KB (847 words) - 11:51, 16 July 2019
• Prepare-and-Send Universal Blind Quantum Computation
  '''Tags:''' [[Category: Two Party Protocols]] [[:Category: Two Party Protocols|Two Party]], [[Category: Universal Task]][[:Category: Universal Task|Univer ...e construction of brickwork state with classical input/output computation. Protocols 1b and 1c are extensions to accommodate quantum inputs and quantum outputs,
  9 KB (1,317 words) - 16:39, 16 October 2019
• Quantum Identity Authentication
  ...entially better with such computational problems, thus rendering classical protocols insecure.
  1 KB (191 words) - 15:42, 16 October 2019
• Randomised Benchmarking
  ...), the benchmark can be related to the average gate fidelity, rendering RB protocols flexible certification tools. To this end, a group structure of the gate se ==Protocols==
  3 KB (340 words) - 10:04, 31 May 2020
• State Dependent N-M Cloning
  ...that, in general, this machine acts much better than the [[Quantum Cloning#Protocols|universal cloning]] protocol for two special set of states. '''Tags:''' [[Quantum Cloning#Protocols|Non-Universal Cloning]], [[Phase Variant Cloning]], [[Category: Building Bl
  6 KB (984 words) - 13:01, 12 July 2019
• Blind Delegation of Quantum Digital Signature
  '''Tags:''' [[:Category:Multi Party Protocols|Multi Party (three)]], [[:Category:Quantum Enhanced Classical Functionality [[Category:Multi Party Protocols]] [[Category:Quantum Enhanced Classical Functionality]][[Category:Specific
  7 KB (1,138 words) - 16:27, 16 October 2019
• Routing Entanglement in the Quantum Internet
  ...ut their analysis is only concerned with the 2D grid network. They develop protocols for multipath routing of a single entanglement flow with global or local s '''Tags:''' [[:Category: Multi Party Protocols|Multi Party]], [[:Category: Specific Task|Specific Task]].
  13 KB (2,120 words) - 20:03, 6 January 2022
• Quantum Private Queries Protocol Based on Quantum Random Access Memory
  ...nality]], [[:Category:Specific Task|Specific Task]], [[:Category:Two Party Protocols|Two Party Protocol]], [[Two Round Protocol]], [[Information-Theoretic Secur
  9 KB (1,444 words) - 17:49, 26 July 2021
• Measurement Device Independent Quantum Digital Signature (MDI-QDS)
  '''Tags:''' [[:Category: Multi Party Protocols|Multi Party (three)]], [[:Category: Quantum Enhanced Classical Functionalit ...hich is the most general class of attacks [[Quantum Key Distribution|QKD]] protocols are vulnerable to, due to experimental realisation.
  12 KB (1,884 words) - 16:25, 16 October 2019
• State Tomography
  ==Protocols== * All of the protocols under this technique broadly have two methods of state estimation from meas
  2 KB (319 words) - 14:32, 2 October 2019
• Pseudo-Secret Random Qubit Generator (PSQRG)
  ...-Send Verifiable Universal Blind Quantum Computation|VUBQC]] and for other protocols like Quantum Money, Quantum Digital Signatures etc.. which need user to sha ...ey-distribution, quantum money, quantum coin-flipping, quantum signatures, two-party quantum computation, multiparty quantum computation etc.
  14 KB (2,246 words) - 16:44, 16 October 2019
• Gottesman and Chuang Quantum Digital Signature
  '''Tags:''' [[:Category:Multi Party Protocols|Multi Party (three)]], [[:Category:Quantum Enhanced Classical Functionality [[Category:Multi Party Protocols]][[Category:Quantum Enhanced Classical Functionality]][[Category:Specific T
  11 KB (1,788 words) - 11:53, 10 May 2024
• BB84 Quantum Key Distribution
  ...Quantum Key Distribution|Device Independent QKD]], [[Category:Multi Party Protocols]] [[Category:Quantum Enhanced Classical Functionality]][[Category:Specific
  12 KB (1,927 words) - 13:53, 15 June 2022
• GHZ-based Quantum Anonymous Transmission
  ...ory: Multi Party Protocols|Multi Party Protocols]] [[Category: Multi Party Protocols]], [[:Category:Specific Task|Specific Task]][[Category:Specific Task]], GH ...both GHZ-based and W-based protocols and compares the performance of both protocols.
  10 KB (1,423 words) - 16:16, 16 October 2019
• Prepare and Measure Quantum Digital Signature
  ...uantum states instantly without having to store them. For simplicity, most protocols take into account the case of one sender and two recipients (Seller, buyer, '''Tags:''' [[:Category:Multi Party Protocols|Multi Party (three)]], [[:Category:Quantum Enhanced Classical Functionality
  15 KB (2,252 words) - 16:24, 16 October 2019
• Certified infinite randomness expansion
  Each passage through one cluster corresponds to the application of two sub-protocols: one to expand the length of the input string, and the other to generate a
  14 KB (2,328 words) - 18:46, 4 November 2019
• Probabilistic Cloning
  '''Tags:''' [[Quantum Cloning#Protocols|Non-Universal Cloning]], [[Phase Variant Cloning]], [[State Dependent N-M C ...ally consist of performing a unitary transformation, probabilistic cloning protocols are continued by a measurement. Two cases for probabilistic cloning are dis
  11 KB (1,780 words) - 13:02, 12 July 2019
• Multi-Database Classical Symmetric Private Information Retrieval with Quantum Key Distribution
  ...assumption of perfectly secured channels of classical multi-database SPIR protocols. ...ey Distribution|quantum key distribution]]. If any of the key distribution protocols abort, then the whole SPIR protocol aborts.
  13 KB (2,187 words) - 12:31, 26 July 2021
• Device-Independent Quantum Key Distribution
  ...tion]], [[BB84 Quantum Key Distribution|BB84 QKD]], [[Category:Multi Party Protocols]] [[Category:Quantum Enhanced Classical Functionality]][[Category:Specific
  10 KB (1,605 words) - 16:36, 4 November 2019
• Arbitrated Quantum Digital Signature
  ...]], [[:Category:Multi Party Protocols|Multi Party]] [[Category:Multi Party Protocols]][[Category:Specific Task]] Like other QDS protocols, it is divided into two phases: Distribution and Messaging. This scheme is
  15 KB (2,456 words) - 16:26, 16 October 2019
• Quantum Private Queries Protocol Based on Quantum Oblivious Key Distribution
  ...nality]], [[:Category:Specific Task|Specific Task]], [[:Category:Two Party Protocols|Two Party Protocol]], [[Information-Theoretic Security]], [[(Symmetric) Pri
  9 KB (1,473 words) - 15:53, 26 July 2021
• Prepare-and-Send Verifiable Universal Blind Quantum Computation
  '''Tags:''' [[Category: Two Party Protocols]] [[:Category: Two Party Protocols|Two Party]], [[Category: Universal Task]][[:Category: Universal Task|Univer
  12 KB (1,913 words) - 08:07, 12 November 2021
• Phase Co-variant Cloning
  ...ane of the [[Bloch sphere]]). There are different phase-covariant cloning protocols for qubits. It can be done with or without an extra [[ancilla]] state and a '''Tags:''' [[Quantum Cloning#Protocols|Non-Universal Cloning]], [[State Dependent N-M Cloning]], [[Category: Build
  8 KB (1,297 words) - 13:01, 12 July 2019
• Fast Quantum Byzantine Agreement
  ...ory: Multi Party Protocols|Multi Party Protocols]] [[Category: Multi Party Protocols]], [[:Category:Specific Task|Specific Task]][[Category:Specific Task]], co
  13 KB (2,013 words) - 16:19, 16 October 2019
• Prepare-and-Send Quantum Fully Homomorphic Encryption
  '''Tags:''' [[:Category:Two Party Protocols|Two Party]],[[:Category:Universal Task|Universal Task]], [[:Category:Quantu [[Category:Two-Party Protocols]][[Category: Universal Task]][[Category:Quantum Functionality]]
  23 KB (3,912 words) - 16:37, 16 October 2019
• Classical Fully Homomorphic Encryption for Quantum Circuits
  ...cal offline]] and no [[Secure Client- Server Delegated Quantum Computation#Protocols|quantum communication]]. It uses only classical [[Glossary#Quantum Capable '''Tags:''' [[:Category:Two Party Protocols|Two Party]], [[:Category:Quantum Functionality|Quantum Functionality]], [[:
  26 KB (4,426 words) - 16:35, 16 October 2019
• Practical Quantum Electronic Voting
  '''Tags:''' [[:Category: Multi Party Protocols|Multi Party Protocols]], [[:Category: Quantum Enhanced Classical Functionality| Quantum Enhanced * Protocols 5-7 are classical anonymous protocols taken from [https://arxiv.org/abs/0706.2010 Broadbent and Tapp(2007)] and u
  14 KB (2,260 words) - 02:10, 1 February 2022
• Prepare-and-Send Verifiable Quantum Fully Homomorphic Encryption
  '''Tags:''' [[:Category: Two-Party Protocols|Two Party]],[[:Category:Universal Task|Universal Task]], [[Secure Delegated
  19 KB (2,928 words) - 16:38, 16 October 2019
• Compressed Sensing Tomography
  ...utsch. Quantum tomography protocols with positivity are compressed sensing protocols. njp Quant. Inf., 1:15018, 2015.
  11 KB (1,739 words) - 14:38, 2 October 2019