-
### Team Name:
my\_favourite\_team
### Project Description:
In this Qhack 2022 Open Hackathon, we propose to re-implement concepts related to asynchronous Quantum Computing, also framed as En…
-
### Description
In this project, we aim to use extend and run a new class of variational algorithms in IBM quantum hardware.
### Deliverables
benchmarking the algorithm for different data and stud…
-
# Abstract
When performing variational quantum computations on noisy quantum processors, the measured expectation values ‘drift’ as the amount of noise increases. By making use of increasingly noisy …
-
### Team Name:
QuantumLegion
### Project Description:
The usual method to simulate quantum evolution in quantum systems is using the Trotter expansion. However, this usually requires circui…
-
**Is your feature request related to a problem? Please describe.**
A clear and concise description of what the problem is. Ex. I'm always frustrated when [...]
Yes, I am working on the application s…
-
Looking at the functionality of the library I would like to add another feature which is to create a function to estimate the gradients of quantum pulses. As qua is a platform for control qubits on mu…
-
# Quantum computing for quantum chemistry: a brief perspective | PennyLane Blog
We share two short lessons regarding the leading quantum algorithms for quantum chemistry: the variational quantum eige…
-
# Description
VQE is probably the most well known variational quantum algorithm, and it is used to find the ground state energy of quantum systems. There is a growing interest in using quantum algori…
-
### Team Name:
Hooked on Photonics
### Project Description:
One of the most promising applications of variational quantum algorithms is the study of condensed matter phenomena, such as quan…
-
# From NISQ to ISQ | PennyLane Blog
In a world where NISQ devices are commonplace and variational algorithms are the go-to for quantum computing, how should we plan for the future? Prepare for the IS…