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Main Authors: Silveri, Matti, Mikkonen, Tommi, Halunen, Kimmo, Heinosaari, Teiko, Babu, Aravind Plathanam, Stirbu, Vlad, Kerppo, Oskari, Haghparast, Majid, Muñoz-Moller, Andrés D.
Format: Preprint
Published: 2025
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Online Access:https://arxiv.org/abs/2506.16246
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author Silveri, Matti
Mikkonen, Tommi
Halunen, Kimmo
Heinosaari, Teiko
Babu, Aravind Plathanam
Stirbu, Vlad
Kerppo, Oskari
Haghparast, Majid
Muñoz-Moller, Andrés D.
author_facet Silveri, Matti
Mikkonen, Tommi
Halunen, Kimmo
Heinosaari, Teiko
Babu, Aravind Plathanam
Stirbu, Vlad
Kerppo, Oskari
Haghparast, Majid
Muñoz-Moller, Andrés D.
contents Quantum computing is a disruptive technology with the potential to transform various fields. It has predicted abilities to solve complex computational problems beyond the reach of classical computers. However, developing quantum software faces significant challenges. Quantum hardware is yet limited in size and unstable with errors and noise. A shortage of skilled developers and a lack of standardization delay adoption. Quantum hardware is in the process of maturing and is constantly changing its characteristics rendering algorithm design increasingly complex, requiring innovative solutions. Project "Towards reliable quantum software development: Approaches and use-cases" TORQS has studied the dilemma of reliable software development and potential for quantum computing for Finnish industries from multidisciplinary points of views. Here we condense the main observations and results of the project into an essay roadmap and timeline for investing in quantum software, algorithms, hardware, and business.
format Preprint
id arxiv_https___arxiv_org_abs_2506_16246
institution arXiv
publishDate 2025
record_format arxiv
spellingShingle Towards reliable quantum software, algorithm and use-case development: Multidisciplinary analysis from the perspective of Finnish industries
Silveri, Matti
Mikkonen, Tommi
Halunen, Kimmo
Heinosaari, Teiko
Babu, Aravind Plathanam
Stirbu, Vlad
Kerppo, Oskari
Haghparast, Majid
Muñoz-Moller, Andrés D.
Quantum Physics
Quantum computing is a disruptive technology with the potential to transform various fields. It has predicted abilities to solve complex computational problems beyond the reach of classical computers. However, developing quantum software faces significant challenges. Quantum hardware is yet limited in size and unstable with errors and noise. A shortage of skilled developers and a lack of standardization delay adoption. Quantum hardware is in the process of maturing and is constantly changing its characteristics rendering algorithm design increasingly complex, requiring innovative solutions. Project "Towards reliable quantum software development: Approaches and use-cases" TORQS has studied the dilemma of reliable software development and potential for quantum computing for Finnish industries from multidisciplinary points of views. Here we condense the main observations and results of the project into an essay roadmap and timeline for investing in quantum software, algorithms, hardware, and business.
title Towards reliable quantum software, algorithm and use-case development: Multidisciplinary analysis from the perspective of Finnish industries
topic Quantum Physics
url https://arxiv.org/abs/2506.16246