Simulations of Shor's Algorithm using Matrix Product States

Abstract

We show that under the matrix product state formalism the states produced in Shor's algorithm can be represented using O(max(4lr2, 22l)) space, where l is the number of bits in the number to factorise, and r is the order and the solution to the related order-finding problem. The reduction in space compared to an amplitude formalism approach is significant, allowing simulations as large as 42 qubits to be run on a single processor with 32GB RAM. This approach is readily adapted to a distributed memory environment, and we have simulated a 45 qubit case using 8 cores with 16GB RAM in approximately one hour.