Quantum computers can only realise their full potential by defeating the noise that plagues their delicate qubits. The field of quantum error correction offers some increasingly mature solutions. But it is also still a rapidly evolving discipline, and innovation here, as much as in hardware, will shape the future quantum ... read more
Source: Fact Based Insight – prepare for tomorrowAugust 29, 2019
Right from the conception of quantum computers it was realised that controlling the build-up of errors in quantum computations is a key problem. Theoretical progress over the last 25 years has led to the development of techniques ready to meet this challenge. This introduction is for readers interested in the ... read more
Source: Fact Based Insight – prepare for tomorrowMay 1, 2019
Far more efficient quantum error-correcting codes are needed to cope with the daunting error rates of real qubits. The effort to design better codes is “one of the major thrusts of the field,”
Q-Lion arises from the need to bridge academic research with industry in a more realistic way than what has been done so far. To bring solutions for near term quantum computers platforms. To combat the decoherence in quantum information processing with fault-tolerance quantum error-correcting codes. By helping to prove some quantum advantage with the encoded qubits in the NISQ era.
Topological color codes - we are currently working on distance three fault-tolerant topological color codes with nine physical qubits.