(a) Measurement-induced squeezing gate [5]. (b) Single-loop architecture for single-mode Clifford (Gaussian) gates. (c)-(e) Procedure for an arbitrary single-mode Clifford gate. We assume that the input pulse initially arrives at the VBS at time t=0. (f) Programmable control sequence of system parameters. (g) Decomposition of an arbitrary n-mode Clifford gate “We’ll start work to develop the hardware, now that we’ve resolved all problems except how to make a scheme that automatically corrects a calculation error,” Furusawa said. In 2013, Furusawa’s team developed a basic system for optical quantum computing. The system requires more than 500 mirrors and lenses and occupies space 4.2 meters long