Author:
Davis Andrew,Dubas Aleksander,Otin Ruben
Abstract
The field of fusion energy is about to enter the ITER era, for the first time we will have access to a device capable of producing 500 MW of fusion power, with plasmas lasting more than 300 seconds and with core temperatures in excess of 100-200 Million K. Engineering simulation for fusion, sits in an awkward position, a mixture of commercial and licensed tools are used, often with email driven transfer of data. In order to address the engineering simulation challenges of the future, the community must address simulation in a much more tightly coupled ecosystem, with a set of tools that can scale to take advantage of current petascale and upcoming exascale systems to address the design challenges of the ITER era.
Reference13 articles.
1. DeSalvo Gabriel J. and Swanson John A., ANSYS Engineering Analysis System User’s Manual, Houston, Pa., Swanson Analysis Systems, 1985.
2. Werner C.J., Bull J.S., Solomon C.J., et al., “MCNP6.2 Release Notes”, LA-UR-1820808, 2018
3. ERMES: A nodal-based finite element code for electromagnetic simulations in frequency domain
4. Gustafson P. A., Yapor Genao F. A., et al, “Integration of MAC/GMC into CalculiX, an open source finite element code”, AIAA SciTech 2019 Forum, 7-11th January 2019
5. A tensorial approach to computational continuum mechanics using object-oriented techniques
Cited by
3 articles.
订阅此论文施引文献
订阅此论文施引文献,注册后可以免费订阅5篇论文的施引文献,订阅后可以查看论文全部施引文献