Workshops

Workshop in progress at OECD headquarters

2019 workshop at OECD-NEA Data Bank, 19-21 June, Paris

2019 participants, instructors and organisers


Workshop talks
Session 1 – FISPACT-II: An advanced simulation platform for nuclear observables – Mark Gilbert
Session 2 – FISPACT-II: Getting started – Thomas Stainer
Session 3 – FISPACT-II V&V Fusion decay-heat benchmark for nuclear data validation – Mark Gilbert
Session 4 – Self-shielding & spatial variation case study: tungsten in a fusion device – Mark Gilbert
Session 5 – Waste Assessment of Fusion Steels – Greg Bailey
Session 6 – FISPACT-II advanced usage – Thomas Stainer
Session 7 – FISPACT-II applications: materials modelling, scoping and damage metrics – Mark Gilbert
2018 workshop at OECD-NEA Data Bank, 13-15 June, Paris

2018 participants and instructors


Workshop talks
Session 1 – FISPACT-II: An advanced simulation platform for nuclear observables – Mark Gilbert
Session 2 – FISPACT-II: Getting started – Thomas Stainer
Session 3 – Self-shielding & spatial variation case study: tungsten in a fusion device – Mark Gilbert
Session 4 – FISPACT-II: Uncertainties, Pathways and all things nice – Andrew Davis
Session 5 – FISPACT-II: Advanced Usage – Thomas Stainer
Session 6 – FISPACT-II applications: material activation, damage and waste – Mark Gilbert
Session 7 – CAD Based Radiation Transport: DAGMC Toolkit – Andrew Davis
2017 workshop at OECD-NEA Data Bank, 13-15 June, Paris

2017 participants and instructors


Session 1: FISPACT-II: an advanced simulation platform for inventory and nuclear observables
Session 2: FISPACT-II “a renaissance”
Session 3: basics of execution
Session 4 – Reaction rate uncertainty quantification and propagation, variance-covariance
Session 6 – FISPACT-II: Advanced Nuclear Data Uncertainty Quantification and propagation methods
Session 6 – FISPACT-II applications
2016 workshop at OECD-NEA Data Bank, 31st May – 2nd June, Paris

2016 participants and instructors


Introduction and Chapter 1 – Overview, nuclear data, processing, methods
Chapter 2 – Features: self-shielding, uncertainty quantification, pathways, covariances,
Chapter 3 – New features, verification and validation
Chapter 4 – Applications: scoping studies and materials modelling inputs
Chapter 5 – Applications: fission, charged particles and TMC
Chapter 6 – Summary, distribution