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# Description
Quantum error mitigation (QEM) is essential to exploit better performance from noisy near- and middle-term quantum devices.
The basic idea of QEM is to extend quantum circuits for ch…
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Sometimes the algorithms, in particular the variational ones, require the implementation of general unitary gates. Unitary gates must always be decomposed in terms of basis gates to be implemented in …
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QuTiP currently lacks any functionality directly related to VQAs. It would be useful to have a class-based implementation that allows for problem specification down to the details of parametrized/fixe…
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The main bottleneck of the multi-GPU implementation is swapping the global qubits. In some circuits the number of swaps required can be reduced by rearranging commuting gates. It would be useful to im…
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Found a bunch of repeated words, many of which appear to be erroneous (e.g. "An event is an an element"). I haven't checked all of them though.
Repeated token 'an' at:
discuss in Section 2.1.1.4…
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Tags are quite fragmented at the moment, with some duplicates.
- [x] A. Add guidelines for tags to the User Guidelines page. We decided that tags should be as explicit as possible ('variational quan…
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### Description
Qiskit's circuit library is a collection of important quantum circuits we can use to build algorithms, applications and investigate quantum advantages. By using it we can quickly se…
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### Team Name:
CloudKite
### Project Description:
In current NISQ devices, circuit noise hinders us from obtaining a satisfying outcome. Even for those quantum algorithms specifically desig…
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### Team Name:
UncertaintyHack
### Project Description:
We implement a quantum-classical hybrid QLSTM model by incorporating quantum variational layers into the classical LSTM in order to impro…
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### Team Name:
UncertaintyHack
### Project Description:
We implement a quantum-classical hybrid QLSTM model by incorporating quantum variational layers into the classical LSTM in order to impro…