MonarQ/en: Difference between revisions

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| Disponibilité : Automne 2024
| Availability: Winter 2025
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| Noeud frontal : ''à venir''
| Login node: ''to be determined''
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The exact technical details will be available at the beginning of 2025, but the specifications should be at least as good as the following:
The exact technical details will be available at the beginning of 2025, but the specifications should be at least as good as the following:
* 24-qubit quantum processor
* 24-qubit quantum processor
* Single-qubit gate, individual: 99.8% fidelity, gate duration: 15ns
* Single-qubit gate: 99.8% fidelity, gate duration: 15ns
* Single-qubit gate, parallel: 99.7% fidelity, gate duration: 15ns
* Single-qubit gate, parallel: 99.7% fidelity, gate duration: 15ns
* Two-qubit gate, individual: 95.6% fidelity, gate duration: 35ns
* Two-qubit gate: 95.6% fidelity, gate duration: 35ns
* Coherence time: 4-10μs depending on the state
* Coherence time: 4-10μs depending on the state


The exact number of qubits that can be connected and manipulated at the same time, as well as the corresponding fidelities, gate durations, and coherence times, will be available once MonarQ is tested by our team. We will also have results on how it works and performs with various algorithms.
The exact number of qubits that can be connected and manipulated at the same time, as well as the corresponding fidelities, gate durations, and coherence times, will be available once MonarQ is tested by our team. We will also have results on how it works and performs with various algorithms.


=== Applications ===
== Applications ==
MonarQ is suited for computations requiring small quantities of high-fidelity qubits, making it an ideal tool to develop and test quantum algorithms. Other possible applications include modelling small quantum systems, testing new methods and techniques for quantum programming and error correction, and more generally, fundamental research in quantum computing.
MonarQ is suited for computations requiring small quantities of high-fidelity qubits, making it an ideal tool to develop and test quantum algorithms. Other possible applications include modelling small quantum systems, testing new methods and techniques for quantum programming and error correction, and more generally, fundamental research in quantum computing.


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There are several specialized software libraries for quantum computing and the development of quantum algorithms. These libraries allow you to build circuits that are executed on simulators that mimic the performance and results obtained on a quantum computer such as MonarQ. They can be used on all Alliance clusters.   
There are several specialized software libraries for quantum computing and the development of quantum algorithms. These libraries allow you to build circuits that are executed on simulators that mimic the performance and results obtained on a quantum computer such as MonarQ. They can be used on all Alliance clusters.   


* [[PennyLane]], bibliothèque de commandes en Python  
* [[PennyLane/en|PennyLane]], Python command library
* [[Snowflurry]], bibliothèque de commandes en Julia
* [[Snowflurry/en|Snowflurry]], Julia command library
* [[Qiskit]], bibliothèque de commandes en Python
* [[Qiskit/en|Qiskit]], Python command library


Les portes logiques quantiques du processeur de MonarQ sont appelées par le biais d'une bibliothèque logicielle [https://github.com/SnowflurrySDK/Snowflurry.jl Snowflurry], écrit en [https://julialang.org/ Julia]. Bien que MonarQ soit nativement compatible avec Snowflurry, il existe un plugiciel [https://github.com/calculquebec/pennylane-snowflurry\ PennyLane-Snowflurry] développé par Calcul Québec permettant d'exécuter des circuits sur MonarQ tout en bénéficiant des fonctionnalités et de l'environnement de développement offerts par [https://docs.alliancecan.ca/wiki/PennyLane PennyLane].
The quantum logic gates of the MonarQ processor are called through a [[Snowflurry/en|Snowflurry]] software library written in [[Julia]]. Although MonarQ is natively compatible with Snowflurry, there is a [https://github.com/calculquebec/pennylane-snowflurry\ PennyLane-Snowflurry] plugin developed by Calcul Québec that allows you to execute circuits on MonarQ while benefiting from the features and development environment offered by [[PennyLane/en|PennyLane]].


== Comment démarrer avec MonarQ ==  
== Getting started with MonarQ ==  


# Vous devez [https://alliancecan.ca/fr/services/calcul-informatique-de-pointe/portail-de-recherche/gestion-de-compte/demander-un-compte avoir un compte avec l'Alliance] afin de demander l'accès à MonarQ (à l'automne 2024).
# You must have an account with the Alliance in order to request access to MonarQ (winter 2025).
# Acceptez les conditions d'utilisation
# Accept the terms of use.
# Configurez la tarification.
# Configure pricing.
# Recevez un jeton et un accès à MonarQ.
# Receive a token and access to MonarQ.
# Soumettez vos tâches avec un jeton d'accès et une adresse de passerelle à MonarQ
# Submit tasks with an access token and gateway address to MonarQ.




<div class="mw-translate-fuzzy">
== Technical support ==
== Soutien technique ==
For questions about our quantum services, contact us at [mailto:support@calculquebec.ca quantique@calculquebec.ca].
Pour des questions sur nos services quantiques, contactez nous à [mailto:support@calculquebec.ca support@calculquebec.ca].
</div>

Latest revision as of 19:40, 24 October 2024

Other languages:


Availability: Winter 2025
Login node: to be determined

MonarQ is a 24-qubit superconducting quantum computer developed in Montreal by Anyon Systems and located at the École de technologie supérieure. Its name refers to the monarch butterfly, a symbol of evolution and migration. The capital Q refers to the quantum nature of the computer and to its origins in Quebec. Acquisition of MonarQ was made possible thanks to the support of the Ministère de l'Économie, de l'Innovation et de l'Énergie du Québec (MEIE) and Canada Economic Development (CED).

Technical specifications

MonarQ qubit mapping

The exact technical details will be available at the beginning of 2025, but the specifications should be at least as good as the following:

  • 24-qubit quantum processor
  • Single-qubit gate: 99.8% fidelity, gate duration: 15ns
  • Single-qubit gate, parallel: 99.7% fidelity, gate duration: 15ns
  • Two-qubit gate: 95.6% fidelity, gate duration: 35ns
  • Coherence time: 4-10μs depending on the state

The exact number of qubits that can be connected and manipulated at the same time, as well as the corresponding fidelities, gate durations, and coherence times, will be available once MonarQ is tested by our team. We will also have results on how it works and performs with various algorithms.

Applications

MonarQ is suited for computations requiring small quantities of high-fidelity qubits, making it an ideal tool to develop and test quantum algorithms. Other possible applications include modelling small quantum systems, testing new methods and techniques for quantum programming and error correction, and more generally, fundamental research in quantum computing.

Quantum computing software

There are several specialized software libraries for quantum computing and the development of quantum algorithms. These libraries allow you to build circuits that are executed on simulators that mimic the performance and results obtained on a quantum computer such as MonarQ. They can be used on all Alliance clusters.

The quantum logic gates of the MonarQ processor are called through a Snowflurry software library written in Julia. Although MonarQ is natively compatible with Snowflurry, there is a PennyLane-Snowflurry plugin developed by Calcul Québec that allows you to execute circuits on MonarQ while benefiting from the features and development environment offered by PennyLane.

Getting started with MonarQ

  1. You must have an account with the Alliance in order to request access to MonarQ (winter 2025).
  2. Accept the terms of use.
  3. Configure pricing.
  4. Receive a token and access to MonarQ.
  5. Submit tasks with an access token and gateway address to MonarQ.


Technical support

For questions about our quantum services, contact us at quantique@calculquebec.ca.