Add to ORKGOne of the challenges in quantum computing is the synthesis of unitary operators into quantum circuits with polylogarithmic gate complexity. Exact synthesis of generic unitaries requires an exponential number of gates in general. We propose a novel approximate quantum circuit synthesis technique by relaxing the unitary constraints and interchanging them for ancilla qubits via block encodings. This approach combines smaller block encodings, which are easier to synthesize, into quantum circuits for larger operators. Due to the use of block encodings, our technique is not limited to unitary operators and can be applied for the synthesis of arbitrary operators. We show that operators which can be approximated by a canonical polyadic expression ...
International audienceThe synthesis of a quantum circuit consists in decomposing a unitary matrix in...
International audienceThe synthesis of a quantum circuit consists in decomposing a unitary matrix in...
International audienceA method for synthesizing quantum gates is presented based on interpolation me...
One of the challenges in quantum computing is the synthesis of unitary operators into quantum circui...
Given an arbitrary 2(w) x 2(w) unitary matrix U, a powerful matrix decomposition can be applied, lea...
Diagonal unitary operators are commonly found in many quantum algorithms. They find application as a...
The first two authors contributed equally to this work. In this paper, the problem of constructing a...
Given a gate set S universal for quantum computing, the problem of decomposing a unitary operator U ...
In this work, we report on a novel quantum gate approximation algorithm based on the application of ...
AbstractWe discuss an algorithmic construction which, for any finite but universal set of computable...
International audienceA method for synthesizing quantum gates is presented based on interpolation me...
International audienceA method for synthesizing quantum gates is presented based on interpolation me...
International audienceThe synthesis of a quantum circuit consists in decomposing a unitary matrix in...
International audienceA method for synthesizing quantum gates is presented based on interpolation me...
International audienceA method for synthesizing quantum gates is presented based on interpolation me...
International audienceThe synthesis of a quantum circuit consists in decomposing a unitary matrix in...
International audienceThe synthesis of a quantum circuit consists in decomposing a unitary matrix in...
International audienceA method for synthesizing quantum gates is presented based on interpolation me...
One of the challenges in quantum computing is the synthesis of unitary operators into quantum circui...
Given an arbitrary 2(w) x 2(w) unitary matrix U, a powerful matrix decomposition can be applied, lea...
Diagonal unitary operators are commonly found in many quantum algorithms. They find application as a...
The first two authors contributed equally to this work. In this paper, the problem of constructing a...
Given a gate set S universal for quantum computing, the problem of decomposing a unitary operator U ...
In this work, we report on a novel quantum gate approximation algorithm based on the application of ...
AbstractWe discuss an algorithmic construction which, for any finite but universal set of computable...
International audienceA method for synthesizing quantum gates is presented based on interpolation me...
International audienceA method for synthesizing quantum gates is presented based on interpolation me...
International audienceThe synthesis of a quantum circuit consists in decomposing a unitary matrix in...
International audienceA method for synthesizing quantum gates is presented based on interpolation me...
International audienceA method for synthesizing quantum gates is presented based on interpolation me...
International audienceThe synthesis of a quantum circuit consists in decomposing a unitary matrix in...
International audienceThe synthesis of a quantum circuit consists in decomposing a unitary matrix in...
International audienceA method for synthesizing quantum gates is presented based on interpolation me...