Efficient Decomposition of Single-Qubit Gates into V Basis Circuits

Abstract

We develop the first constructive algorithms for compiling single-qubit unitary gates into circuits over the universal V basis. The V basis is an alternative universal basis to the more commonly studied \H,T\ basis. We propose two classical algorithms for quantum circuit compilation: the first algorithm has expected polynomial time (in precision (1/ε)) and offers a depth/precision guarantee that improves upon state-of-the-art methods for compiling into the \H,T\ basis by factors ranging from 1.86 to 2(5). The second algorithm is analogous to direct search and yields circuits a factor of 3 to 4 times shorter than our first algorithm, and requires time exponential in (1/ε); however, we show that in practice the runtime is reasonable for an important range of target precisions.