Ibermática Report V
In this project, we have explored potential applications of the Quantum Approximate Optimization Algorithm (QAOA) in real industrial environments using the CESGA simulator
In this project, we have explored potential applications of the Quantum Approximate Optimization Algorithm (QAOA) in real industrial environments using the CESGA simulator
In this project, we have explored potential applications of the Quantum Approximate Optimization Algorithm (QAOA) in real industrial environments using the CESGA simulator
In this project, we have explored potential applications of the Quantum Approximate Optimization Algorithm (QAOA) in real industrial environments using the CESGA simulator
In this project, we have explored potential applications of the Quantum Approximate Optimization Algorithm (QAOA) in real industrial environments using the CESGA simulator
In this project, we have explored potential applications of the Quantum Approximate Optimization Algorithm (QAOA) in real industrial environments using the CESGA simulator
The Computer Architecture Group at UDC and CESGA are developing a proposal focused on assessing the performance of quantum computers in executing applications, based on identifying tasks that are common to multiple quantum computing applications
The Computer Architecture Group at UDC and CESGA are developing a proposal focused on assessing the performance of quantum computers in executing applications, based on identifying tasks that are common to multiple quantum computing applications
The Computer Architecture Group at UDC and CESGA are developing a proposal focused on assessing the performance of quantum computers in executing applications, based on identifying tasks that are common to multiple quantum computing applications
The Computer Architecture Group at UDC and CESGA are developing a proposal focused on assessing the performance of quantum computers in executing applications, based on identifying tasks that are common to multiple quantum computing applications
We calculated the optimal conformation for three 10-amino acid peptide sequences at interfaces with different polarity gradients. The results obtained with our approach using the quantum emulator available at CESGA