相关论文: Evolving Quantum Circuits using Genetic Algorithms
We develop genetic algorithms for searching quantum circuits, in particular stabilizer quantum error correction codes. Quantum codes equivalent to notable examples such as the 5-qubit perfect code, Shor's code, and the 7-qubit color code…
This paper has been withdrawn.
The paper has been withdrawn
This paper has been withdrawn by the author(s), due a crucial error on the entanglement of $\Gamma$ registers.
This paper is withdrawn.
This paper is withdrawn. See quant-ph/9806031 for a discussion.
The paper referred to in the title is withdrawn.
The paper has been withdrawn due to numerical error.
This paper has been withdrawn.
The paper has been withdrawn
In this paper we present Quanrum Encoded Quantum Evolutionary Algorithm (QEQEA) and compare its performance against a a classical GPU accelerated Genetic Algorithm (GPUGA). The proposed QEQEA differs from existing quantum evolutionary…
This paper has been withdrawn by the author(s), due a crucial sign error in conclusion .
This paper has been withdrawn by the author due to some problems.
Quantum computing leverages the unique properties of qubits and quantum parallelism to solve problems intractable for classical systems, offering unparalleled computational potential. However, the optimization of quantum circuits remains…
This paper has been withdrawn by the author, because a better treatment is given in the author's Phd. thesis (Sections 3.4.6 and 4.4), now available on the arxiv.
This paper has been withdrawn by the author due to some problems.
This paper has been withdrawn by the authors; replaced by arXiv:0705.2531v2 [quant-ph].
In recent years, the emergence of the first quantum computers at a time when AI is undergoing a fruitful era has led many AI researchers to be tempted into adapting their algorithms to run on a quantum computer. However, in many cases the…
This paper has been withdrawn.
This paper has been withdrawn by the author due to a crucial sign error in equation 1