On the hardness of classically simulating the one clean qubit model

Tomoyuki Morimae, Keisuke Fujii, Joseph F. Fitzsimons

Published 2013-12-09, updated 2014-04-02Version 2

Deterministic quantum computation with one quantum bit (DQC1) is a model of quantum computing where the input restricted to containing a single qubit in a pure state and with all other qubits in a completely-mixed state, with only a single qubit measurement at the end of the computation [E. Knill and R. Laflamme, Phys. Rev. Lett. {\bf81}, 5672 (1998)]. While it is known that DQC1 can efficiently solve several problems for which no known classical efficient algorithms exist, the question of whether DQC1 is really more powerful than classical computation remains open. In this paper, we introduce a slightly modified version of DQC1, which we call DQC1$_k$, where $k$ output qubits are measured, and show that DQC1$_k$ cannot be classically efficiently simulated for any $k\geq3$ unless the polynomial hierarchy collapses at the third level.