The MQT Handbook: A Summary of Design Automation Tools and Software for Quantum Computing
CoRR(2024)
Abstract
Quantum computers are becoming a reality and numerous quantum computing
applications with a near-term perspective (e.g., for finance, chemistry,
machine learning, and optimization) and with a long-term perspective (e.g., for
cryptography or unstructured search) are currently being investigated. However,
designing and realizing potential applications for these devices in a scalable
fashion requires automated, efficient, and user-friendly software tools that
cater to the needs of end users, engineers, and physicists at every level of
the entire quantum software stack. Many of the problems to be tackled in that
regard are similar to design problems from the classical realm for which
sophisticated design automation tools have been developed in the previous
decades.
The Munich Quantum Toolkit (MQT) is a collection of software tools for
quantum computing developed by the Chair for Design Automation at the Technical
University of Munich which explicitly utilizes this design automation
expertise. Our overarching objective is to provide solutions for design tasks
across the entire quantum software stack. This entails high-level support for
end users in realizing their applications, efficient methods for the classical
simulation, compilation, and verification of quantum circuits, tools for
quantum error correction, support for physical design, and more. These methods
are supported by corresponding data structures (such as decision diagrams) and
core methods (such as SAT encodings/solvers). All of the developed tools are
available as open-source implementations and are hosted on
https://github.com/cda-tum.
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