Understanding Decoding Experimental Surface Code Data
Exploring Decoding Experimental Surface Code Data reveals several interesting facts. The measurement outcomes collected during the operation of an error-corrected quantum computer give hints about which errors ...
Key Takeaways about Decoding Experimental Surface Code Data
- Quantum computers are incredibly powerful, but also incredibly fragile. How do we stop errors from destroying calculations?
- Based on these slides ...
- By James R. Wootton at the Fault Quantum Technologies meeting in Benasque, 18th August 2016. Part 3: ...
- This talk is from QEC'19 - the 5th International Conference on Quantum Error Correction - held 29th July to 2nd August 2019 at ...
- Day 3 of the Spring School on Quantum Error Correction, hosted by CIQC in collaboration with UCLA CQSE and UCLA IPAM.
Detailed Analysis of Decoding Experimental Surface Code Data
Video: Parameters of a How do you get from a protected quantum memory to a fully fault-tolerant quantum computer? Watch the full interview here: In this ... We discuss an error-diagnostic tool that allows us to characterize expected errors (e.g., qubit T1, T2 errors) and unusual errors ...
A talk by Barbara Terhal at the 4th International Conference on Quantum Error Correction, hosted September 11-15, 2017 by ...
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