Code |
Description |
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. |
A10 |
Know scenarios of practical application of quantum computing in problems of scientific, technological and financial interest. Identify domains that exhibit quantum advantage. Know the institutions and companies that are actors in quantum computing, acquiring a perspective of the agenda that is reasonable to expect in the coming years. |
B4 |
To have knowledge of quantum computing, algorithms, circuits, its programming in different languages ​​and accessible platforms. |
B6 |
To acquire knowledge about physical systems capable of implementing information processing in quantum degrees of freedom. |
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 |