XanaduinXanaduAIA Comparison of Quantum Algorithms for the Maximum Clique ProblemWe set out to compare the details of implementing a well known problem using the qubit gate model and boson sampling, to see the strengths…Nov 11, 2021Nov 11, 2021
XanaduinXanaduAIWhat does a Xanadu Resident do?With the opening of applications for the 2022 Xanadu Residency Program, we wanted to showcase some of the projects that our 2021 residents…Sep 13, 2021Sep 13, 2021
XanaduinXanaduAIQHack—the quantum machine learning hackathonPart hackathon, part fan expo, part scientific conference, QHack offered a new kind of experience in the quantum space.Mar 29, 2021Mar 29, 2021
XanaduinXanaduAIFrom a state of light to state of the art: the photonic path to millions of qubitsA blueprint for a universal, fault-tolerant, and scalable photonic quantum computerOct 30, 2020Oct 30, 2020
XanaduinXanaduAIOn the Road to Room Temperature Quantum ComputationHow to use integrated photonics to build quantum computers that don’t require super-cooling, allowing them to be miniaturized and deployed…Jun 2, 20203Jun 2, 20203
XanaduinXanaduAIWhat would you do with 1000 QPUs?Making multi-device computation easy with PennyLaneFeb 18, 2020Feb 18, 2020
XanaduinXanaduAIIntroducing the Strawberry Fields Applications LayerJuan Miguel Arrazola and Thomas R. BromleyJan 22, 2020Jan 22, 2020
XanaduinXanaduAIWe came, we saw, we QHACKedThe Xanadu team hosted its first quantum machine learning hackathon, QHACK, from Nov 25–26, bringing together experts and enthusiasts in…Nov 29, 2019Nov 29, 2019
XanaduinXanaduAIRiding bosonic qubits towards fault-tolerant quantum computationA guide to bosonic codes and error correction in a photonic platformNov 18, 20191Nov 18, 20191