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arxiv: 1512.07240 · v3 · pith:G2BEIFAWnew · submitted 2015-12-22 · 🪐 quant-ph · math-ph· math.MP

The block-ZXZ synthesis of an arbitrary quantum circuit

classification 🪐 quant-ph math-phmath.MP
keywords gatesarbitrarycircuitmatrixunitarycontrolledquantumqubit
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Given an arbitrary $2^w \times 2^w$ unitary matrix $U$, a powerful matrix decomposition can be applied, leading to four different syntheses of a $w$-qubit quantum circuit performing the unitary transformation. The demonstration is based on a recent theorem by F\"uhr and Rzeszotnik, generalizing the scaling of single-bit unitary gates ($w=1$) to gates with arbitrary value of~$w$. The synthesized circuit consists of controlled 1-qubit gates, such as NEGATOR gates and PHASOR gates. Interestingly, the approach reduces to a known synthesis method for classical logic circuits consisting of controlled NOT gates, in the case that $U$ is a permutation matrix.

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