The ability of a quantum computer to reproduce or replicate the results of a quantum circuit is a key concern for verifying and validating applications of quantum computing. Statistical variations in circuit outcomes that arise from ill-characterized fluctuations in device noise may lead to computational errors and irreproducible results. While device characterization offers a direct assessment of noise, an outstanding concern is how such metrics bound the reproducibility of a given quantum circuit. Here, we first directly assess the reproducibility of a noisy quantum circuit, in terms of the Hellinger distance between the computational results, and then we show that device characterization offers an analytic bound on the observed variabili...
Quantum computers have the potential to outperform classical computers in a range of computational t...
Gates in error-prone quantum information processors are often modeled using sets of one- and two-qub...
This paper serves as an addendum to my previously published work, which delves into the experimentat...
Quantum computers are a promising technology expected to provide substantial speedups to important c...
Quantum computing promises to offer substantial speed-ups over its classical counterpart for certain...
Quantum computers promise to be a revolutionary new technology. However, in order to realise this pr...
Noisy Intermediate-Scale Quantum (NISQ) computers consisting of tens of inherently noisy quantum bit...
Noise is the central obstacle to building large-scale quantum computers. Quantum systems with suffic...
Quantum computers have the potential to solve problems which are classically intractable. Supercondu...
In the model of gate-based quantum computation, the qubits are controlled by a sequence of quantum g...
Remarkable experimental advances in quantum computing are exemplified by recent announcements of imp...
We provide and experimentally demonstrate an accreditation protocol that upper bounds the variation ...
With quantum devices rapidly approaching qualities and scales needed for fault tolerance, the validi...
From Pharmacology to Cryptography and from Geology to Astronomy are some of the scientific fields in...
Recently, various quantum computing and communication tasks have been implemented using IBM's superc...
Quantum computers have the potential to outperform classical computers in a range of computational t...
Gates in error-prone quantum information processors are often modeled using sets of one- and two-qub...
This paper serves as an addendum to my previously published work, which delves into the experimentat...
Quantum computers are a promising technology expected to provide substantial speedups to important c...
Quantum computing promises to offer substantial speed-ups over its classical counterpart for certain...
Quantum computers promise to be a revolutionary new technology. However, in order to realise this pr...
Noisy Intermediate-Scale Quantum (NISQ) computers consisting of tens of inherently noisy quantum bit...
Noise is the central obstacle to building large-scale quantum computers. Quantum systems with suffic...
Quantum computers have the potential to solve problems which are classically intractable. Supercondu...
In the model of gate-based quantum computation, the qubits are controlled by a sequence of quantum g...
Remarkable experimental advances in quantum computing are exemplified by recent announcements of imp...
We provide and experimentally demonstrate an accreditation protocol that upper bounds the variation ...
With quantum devices rapidly approaching qualities and scales needed for fault tolerance, the validi...
From Pharmacology to Cryptography and from Geology to Astronomy are some of the scientific fields in...
Recently, various quantum computing and communication tasks have been implemented using IBM's superc...
Quantum computers have the potential to outperform classical computers in a range of computational t...
Gates in error-prone quantum information processors are often modeled using sets of one- and two-qub...
This paper serves as an addendum to my previously published work, which delves into the experimentat...