We study the fundamental design automation problem of equivalence checking in the NISQ (Noisy Intermediate-Scale Quantum) computing realm where quantum noise is present inevitably. The notion of approximate equivalence of (possibly noisy) quantum circuits is defined based on the Jamiolkowski fidelity which measures the average distance between output states of two super-operators when the input is chosen at random. By employing tensor network contraction, we present two algorithms, aiming at different situations where the number of noises varies, for computing the fidelity between an ideal quantum circuit and its noisy implementation. The effectiveness of our algorithms is demonstrated by experimenting on benchmarks of real NISQ circuits. W...
Quantum Computing is an emerging technology that combines the principles of computer science and qua...
30 pages, 1 figureThe impressive progress in quantum hardware of the last years has raised the inter...
Quantum Information Processing (QIP) is an emerging area at the intersection of physics and computer...
Among the post-CMOS technologies currently under investigation, quantum computing (QC) holds a speci...
In this survey paper, we describe a framework for assertion-based verification of quantum circuits b...
While scalable, fully error corrected quantum computing is years or even decades away, there is cons...
In this paper, we introduce the model of quantum Mealy machines and study the equivalence checking a...
Quantum computing promises to offer substantial speed-ups over its classical counterpart for certain...
The distant promise of a full-scale fault-tolerant universal quantum computer offers a speed-up in ...
The ability of a quantum computer to reproduce or replicate the results of a quantum circuit is a ke...
In theory, perfect quantum computers can solve certain problems that are con- sidered intractable wi...
Trading fidelity for scale enables approximate classical simulators such as matrix product states (M...
This paper introduces a study on fuzzy-based approaches aimed at addressing a crucial task in quantu...
Ensuring the correct functioning of quantum error correction (QEC) circuits is crucial to achieve fa...
A universal, scalable quantum computer will require the use of quantum error correction in order to ...
Quantum Computing is an emerging technology that combines the principles of computer science and qua...
30 pages, 1 figureThe impressive progress in quantum hardware of the last years has raised the inter...
Quantum Information Processing (QIP) is an emerging area at the intersection of physics and computer...
Among the post-CMOS technologies currently under investigation, quantum computing (QC) holds a speci...
In this survey paper, we describe a framework for assertion-based verification of quantum circuits b...
While scalable, fully error corrected quantum computing is years or even decades away, there is cons...
In this paper, we introduce the model of quantum Mealy machines and study the equivalence checking a...
Quantum computing promises to offer substantial speed-ups over its classical counterpart for certain...
The distant promise of a full-scale fault-tolerant universal quantum computer offers a speed-up in ...
The ability of a quantum computer to reproduce or replicate the results of a quantum circuit is a ke...
In theory, perfect quantum computers can solve certain problems that are con- sidered intractable wi...
Trading fidelity for scale enables approximate classical simulators such as matrix product states (M...
This paper introduces a study on fuzzy-based approaches aimed at addressing a crucial task in quantu...
Ensuring the correct functioning of quantum error correction (QEC) circuits is crucial to achieve fa...
A universal, scalable quantum computer will require the use of quantum error correction in order to ...
Quantum Computing is an emerging technology that combines the principles of computer science and qua...
30 pages, 1 figureThe impressive progress in quantum hardware of the last years has raised the inter...
Quantum Information Processing (QIP) is an emerging area at the intersection of physics and computer...