Code |
Description |
A2 |
Know and acquire competence in experimental techniques for the processing of quantum information: interactions, measurements, oscillations, interference, communication systems, ... |
A3 |
Understanding and knowledge of the fundamentals of Quantum Information Theory, as well as two basic aspects of two four types of quantum technologies: computing, communications, metrology, simulation. |
A7 |
Acquire and know how to apply the basic principles of quantum computing: analyze, understand and implement quantum algorithms, master the appropriate computer languages ​​as well as understand the paradigm of two quantum circuits. |
B2 |
To acquire knowledge about quantum systems with many degrees of freedom as a means of storing and processing information. |
B3 |
To know the physical bases that allow encoding and processing information. Understanding of the new rules that Quantum Mechanics imposes for its processing. |
B5 |
To have knowledge of quantum information theory, universal limitations, and their implications for computing, communications, and metrology. |
C1 |
To analyze and break down a complex concept, examine each part and see how they fit together |
C2 |
To classify and identify types or groups, showing how each category is different from the others |
C3 |
To compare and contrast and point out similarities and differences between two or more topics or concepts |