Thomas Vidick
EPFL IC IINFCOM QCC
BC 110 (Bâtiment BC)
Station 14
1015 Lausanne
+41 21 693 15 13
Office: BC 110
EPFL › IC › IC-SIN › SIN-ENS
Website: https://sin.epfl.ch
EPFL IC IINFCOM QCC
BC 110 (Bâtiment BC)
Station 14
1015 Lausanne
+41 21 693 15 13
Office: BC 110
EPFL › IC › IC-SSC › SSC-ENS
Website: https://ssc.epfl.ch
EPFL IC IINFCOM QCC
BC 110 (Bâtiment BC)
Station 14
1015 Lausanne
+41 21 693 15 13
Office: BC 110
EPFL › VPA › VPA-AVP-DLE › AVP-DLE-EDOC › EDIC-ENS
EPFL IC IINFCOM QCC
BC 110 (Bâtiment BC)
Station 14
1015 Lausanne
+41 21 693 15 13
Office: BC 110
EPFL › IC › IINFCOM › QCC
Website: https://qcc.epfl.ch
Teaching & PhD
Current Phd
Courses
Introduction to quantum computation
The course introduces the paradigm of quantum computating in an axiomatic way. We introduce the notions of quantum bits, gates, and circuits. We introduce themost important quantum algorithms. We also touch upon error-correcting codes. This course is independent of COM-309.
Introduction to quantum cryptography
This course describes, at a rigorous mathematical level, a range of such tasks, each time identifying the fundamental property of quantum information that makes it possible, its strengths, and its limits.
Methods in Quantum Error Correction
This course discusses mathematical methods of quantum error correction in the style via presentation and discussion of research papers. It covers basic algebraic and geometric properties of quantum error correcting codes and fault tolerance theory and prepares for research in this field.