Novel constructions for the fault-tolerant Toffoli gate

Abstract

We present two new constructions for the Toffoli gate which substantially reduce resource costs in fault-tolerant quantum computing. The first contribution is a Toffoli gate requiring Clifford operations plus only four T = (iπσz/8) gates, whereas conventional circuits require seven T gates. An extension of this result is that adding n control inputs to a controlled gate requires 4n T gates, whereas the best prior result was 8n. The second contribution is a quantum circuit for the Toffoli gate which can detect a single σz error occurring with probability p in any one of eight T gates required to produce the Toffoli. By post-selecting circuits that did not detect an error, the posterior error probability is suppressed to lowest order from 4p (or 7p, without the first contribution) to 28p2 for this enhanced construction. In fault-tolerant quantum computing, this construction can reduce the overhead for producing logical Toffoli gates by an order of magnitude.