Dec 27, 2019 · To this end, we present a general approach for further improving the number of gate operations and depth of the mapped circuit. The proposed ...
In this regard, we propose a generic approach for mapping quantum circuits to IBM QX architectures satisfying physical constraints. Initially, for a given ...
The proposed approach encompasses the selection of physical qubits, determining initial and local permutations efficiently to obtain the final circuit ...
In order to execute a quantum circuit on the IBM QX architecture, CNOT gates must satisfy the so-called coupling constraints of the architecture. Previous works ...
We do not only provide a method that maps quantum circuits to IBM's QX architectures with a minimal number of SWAP and H operations, but also show by ...
In this work, we consider how to efficiently map a quantum circuit to the IBM QX architectures provided by the project. IBM Q [1]. IBM provides a Python SDK [3] ...
Improving the mapping of reversible circuits to quantum circuits using multiple target lines. In Asia and. South Pacific Design Automation Conf., pages 85–92 ...
By this, we do not only provide a method that maps quantum circuits to IBM's QX architectures with a minimal number of SWAP and H operations, but also show by ...
These approaches can be broadly categorized into optimizing the total quantum gate count, the number of added quantum gates, SWAP gate count, and CNOT gate ...
A tool to map quantum circuits to the IBM QX architecture using the minimal number of SWAP and H operations (developed in C++). Developers: Robert Wille, Lukas ...
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