Author(s): Kuchi Padmavathi and Yesuratnam Anitha Kumari

Abstract: A quantum circuit is a model for Hilbert space computation in which a computation is a sequence of quantum spaces, which are reversible transformations on a quantum mechanical space of an n-bit register. This analogous structure is referred to as an n-space register. We define and can build efficient depth-universal and almost size-universal quantum circuits Such circuits can be viewed as general purpose simulators for central classes of quantum circuits and can be used to capture the computational power of the circuit class being simulated. For depth we construct universal circuits whose depth is the same order as the circuits being simulated. For size, there is a log factor blow-up in the universal circuits constructed here. The architecture scalability afforded by recent proposals of a large-scale photonic-based quantum space computer allows us to move on to a discussion of High performance Hilbert quantum circuits.

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