Edgar Giesen on Twitter: "A very noteworthy paper on Scalable and High-Fidelity Quantum Random Access Memory in Spin-Photon Networks #Quantum #photonic @qpclub1 @Dirk_Englund" / Twitter
![PRX Quantum 2, 030319 (2021) - Scalable and High-Fidelity Quantum Random Access Memory in Spin-Photon Networks PRX Quantum 2, 030319 (2021) - Scalable and High-Fidelity Quantum Random Access Memory in Spin-Photon Networks](https://cdn.journals.aps.org/journals/PRXQUANTUM/key_images/10.1103/PRXQuantum.2.030319.png)
PRX Quantum 2, 030319 (2021) - Scalable and High-Fidelity Quantum Random Access Memory in Spin-Photon Networks
![Methods for parallel quantum circuit synthesis, fault-tolerant quantum RAM, and quantum state tomography | Semantic Scholar Methods for parallel quantum circuit synthesis, fault-tolerant quantum RAM, and quantum state tomography | Semantic Scholar](https://d3i71xaburhd42.cloudfront.net/82480eede30cf51c908a5e46bc146f0b66da5c27/16-Figure1.1-1.png)
Methods for parallel quantum circuit synthesis, fault-tolerant quantum RAM, and quantum state tomography | Semantic Scholar
![chrome uses more ram than firefox - I just tried Quantum and Chrome at my school libraries computer (4GB RAM). Seriously? Both times I tried opening my we - devRant chrome uses more ram than firefox - I just tried Quantum and Chrome at my school libraries computer (4GB RAM). Seriously? Both times I tried opening my we - devRant](https://img.devrant.com/devrant/rant/r_1424783_9XL2R.jpg)