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Found 5 papers, 3 papers with code
Spacetime-Efficient Low-Depth Quantum State Preparation with Applications
When our protocol is compiled into CNOT and arbitrary single-qubit gates, it prepares an $N$-dimensional state in depth $O(\log(N))$ and spacetime allocation (a metric that accounts for the fact that oftentimes some ancilla qubits need not be active for the entire circuit) $O(N)$, which are both optimal.
SeQUeNCe: A Customizable Discrete-Event Simulator of Quantum Networks
We implement a comprehensive suite of network protocols and demonstrate the use of SeQUeNCe by simulating a photonic quantum network with nine routers equipped with quantum memories.
Quantum Physics
Quantum Circuits: Divide and Compute with Maximum Likelihood Tomography
We introduce maximum likelihood fragment tomography (MLFT) as an improved circuit cutting technique for running "clustered" quantum circuits on quantum devices with a limited number of qubits.
Quantum Physics
Term Grouping and Travelling Salesperson for Digital Quantum Simulation
Digital simulation of quantum dynamics by evaluating the time evolution of a Hamiltonian is the initially proposed application of quantum computing.
Quantum Physics
Minimizing State Preparations in Variational Quantum Eigensolver by Partitioning into Commuting Families
Variational quantum eigensolver (VQE) is a promising algorithm suitable for near-term quantum machines.
Quantum Physics
