Quantum Advantage in Non-Interactive Source Simulation

TL;DR

This paper investigates the non-interactive source simulation problem, demonstrating that quantum advantage exists in non-binary output scenarios with entanglement, but not in binary-output cases.

Contribution

It establishes the equivalence of feasible distributions in binary-output scenarios and shows quantum advantage in non-binary output cases for EA-NISS.

Findings

Quantum advantage exists in non-binary output EA-NISS scenarios.

Binary-output NISS scenarios show no quantum advantage.

Feasible distributions are identical for EA-NISS and CR-NISS in binary cases.

Abstract

This work considers the non-interactive source simulation problem (NISS). In the standard NISS scenario, a pair of distributed agents, Alice and Bob, observe a distributed binary memoryless source $(X^d,Y^d)$ generated based on joint distribution $P_{X,Y}$. The agents wish to produce a pair of discrete random variables $(U_d,V_d)$ with joint distribution $P_{U_d,V_d}$, such that $P_{U_d,V_d}$ converges in total variation distance to a target distribution $Q_{U,V}$. Two variations of the standard NISS scenario are considered. In the first variation, in addition to $(X^d,Y^d)$ the agents have access to a shared Bell state. The agents each measure their respective state, using a measurement of their choice, and use its classical output along with $(X^d,Y^d)$ to simulate the target distribution. This scenario is called the entanglement-assisted NISS (EA-NISS). In the second variation, the agents have access to a classical common random bit $Z$, in addition to $(X^d,Y^d)$. This scenario is called the classical common randomness NISS (CR-NISS). It is shown that for binary-output NISS scenarios, the set of feasible distributions for EA-NISS and CR-NISS are equal with each other. Hence, there is not quantum advantage in these EA-NISS scenarios. For non-binary output NISS scenarios, it is shown through an example that there are distributions that are feasible in EA-NISS but not in CR-NISS. This shows that there is a quantum advantage in non-binary output EA-NISS.