| Common Core Courses | ECTS | hours |
Fundamentals in Nuclear Energy | 5 | |
| P1 : Fundamentals in Nuclear Physics and thermohydraulics | 24 | |
| P2 : Fundamentals in Materials Sciences | 28 | |
| P3 : General operation of nuclear reactors and thermal machine operation | 4 | |
| A : General approach to Energy issues | 10 | |
| A : Conferences about energy | ||
| Materials for nuclear reactors | 7 | 68 |
| B1 : Reactor design | 10 | |
| B2 : Materials selection methods | 10 | |
| B3 : Materials used in nuclear reactors | 10 | |
| B4 : Design of primary circuits components | 10 | |
| B5 : Fundamentals in water chemistry | 8 | |
| B6 : Chemistry, transfer and thermohydraulics | 20 | |
| Physics of irradiated materials | 6 | 70 |
| C10 : Introduction | 2 | |
| C11 : Fundamental in modelling methods | 10 | |
| C12 : Irradiation defects | 12 | |
| C13 : Irradiation microstructures and dislocation | 36 | |
| C14 : Interaction between radiations and living matter | 10 | |
| Material ageing in a nuclear environment | 7 | 64 |
| C21 : Irradiation ageing | 14 | |
| C22 : Fracture mechanics | 14 | |
C23 : Fundamentals in corrosion | 16 | |
| C23 : Nuclear Corrosion | 8 | |
C25 : Laboratory Classes | 12 |
| Courses | ECTS | hours |
| OPTION PWR Components - Operation feedback in PWR | 5 | 86 |
| D1 : Fuel cladding and rod cluster control assembly | 14 | |
| D2 : Pressure vessels and internals | 18 | |
| D3 : Circuits and exchangers | 10 | |
| D4 : Non destructive testing | 10 | |
| D5 : Polymers and concrete (nuclear containement) | 10 | |
| E1 : Back-End | 10 | |
| E2 : Future reactors generations | 14 | |
| OPTION Nuclear fuel CEA Nuclear fuel : PWR, RNR and other reactors concepts | 5 | 90 |
| F1 : Nuclear fuel design | 20 | |
| F2 : Fabrication and characterisation | 20 | |
| F3 : Nuclear Fuel behaviour under irradiation | 30 | |
| F4 : Nuclear Fuel cycle | 20 |