Start quantum computing with us
Learn quantum computing and run your circuits on our photonic quantum hardware test
New experimentFeatures
Explore Quantum Computing
Run intuitive experiments
Unleash your curiosity and dive into the realm of quantum experimentation with our intuitive tools, empowering you to design and run your own insightful quantum experiments with ease and precision.
Get StartedGet results for your experiments
Unlock profound discoveries and gain valuable insights from your quantum experiments with PhotonQ's powerful computational capabilities, delivering fast and precise results for your research endeavors.
Get StartedQuantum Code Playground
Dive into the world of quantum computing with our interactive platform. You can write and run quantum code, experiment with quantum algorithms, and unlock the potential of this cutting-edge technology.
Diagram
// quantum ripple-carry adder from Cuccaro et al, quant-ph/0410184 OPENQASM 2.0; include "qelib1.inc"; gate majority a,b,c { cx c,b; cx c,a; ccx a,b,c; } gate unmaj a,b,c { ccx a,b,c; cx c,a; cx a,b; } qreg cin[1]; qreg a[4]; qreg b[4]; qreg cout[1]; creg ans[5]; // set input states x a[0]; // a = 0001 x b; // b = 1111 // add a to b, storing result in b majority cin[0],b[0],a[0]; majority a[0],b[1],a[1]; majority a[1],b[2],a[2]; majority a[2],b[3],a[3]; cx a[3],cout[0]; unmaj a[2],b[3],a[3]; unmaj a[1],b[2],a[2]; unmaj a[0],b[1],a[1]; unmaj cin[0],b[0],a[0]; measure b[0] -> ans[0]; measure b[1] -> ans[1]; measure b[2] -> ans[2]; measure b[3] -> ans[3]; measure cout[0] -> ans[4];
Translation
Powered by Perceval, Qiskit, PyZX
Not run yet
Simulation
Not run yet
PhotonQ
One-way Quantum Computing
We are a diverse team of scientists and software developers at the Christian Doppler Laboratory for Photonic Quantum Computing, located at the Faculty of Physics, University of Vienna.
New experimentAbout Us
The People Behind
We are a diverse team of scientists and software developers at the Christian Doppler Laboratory for Photonic Quantum Computing, located at the Faculty of Physics, University of Vienna.
Netsnek's Quantum Marvel
PhotonQ is a quantum leap in innovation, redefining quantum exploration with its user-friendly interface and photon polarization focus. It's not just a platform; it's a collaborative gateway to the future of computing. Kudos to Netsnek for making quantum accessible and paving the way for a brighter, collaborative tomorrow!
Netsnek
Development StudioStunning quantum platform
We at cronit are thrilled to be working with PhotonQ and bringing their stunning quantum platform to the world.
cronit
Development Studio