Multiphysics Applications of Ace3p∗
نویسندگان
چکیده
The TEM3P module of ACE3P, a parallel finite-element electromagnetic code suite from SLAC, focuses on the multiphysics simulation capabilities, including thermal and mechanical analysis for accelerator applications. In this paper, thermal analysis of coupler feedthroughs to superconducting rf (SRF) cavities will be presented. For the realistic simulation, internal boundary condition is implemented to capture RF heating effects on the surface shared by a dielectric and a conductor. The multiphysics simulation with TEM3P matched the measurement within 0.4%.
منابع مشابه
Advances in Parallel Electromagnetic Codes for Accelerator Science and Development*
Over a decade of concerted effort in code development for accelerator applications has resulted in a new set of electromagnetic codes which are based on higher-order finite elements for superior geometry fidelity and better solution accuracy. SLAC’s ACE3P code suite is designed to harness the power of massively parallel computers to tackle large complex problems with the increased memory and so...
متن کاملOn a data-driven environment for multiphysics applications
The combination of the recent advances in computational and distributed sensor network technologies provide a unique opportunity for focused efforts on low uncertainty modelling and simulation of multiphysics systems. Responding to this opportunity, we present in this paper the architecture of a data-driven environment for multiphysics applications (DDEMA) as a multidisciplinary problem solving...
متن کاملMultiphysics simulations: Challenges and opportunities
We consider multiphysics applications from algorithmic and architectural perspectives, where ‘‘algorithmic’’ includes both mathematical analysis and computational complexity, and ‘‘architectural’’ includes both software and hardware environments. Many diverse multiphysics applications can be reduced, en route to their computational simulation, to a common algebraic coupling paradigm. Mathematic...
متن کاملDynamic Data Driven Methodologies for Multiphysics System Modeling and Simulation
We are presenting a progress overview associated with our work on a data-driven environment for multiphysics applications (DDEMA). In this paper, we emphasize the dynamic-data-driven adaptive modeling and simulation aspects. Adaptive simulation examples of sensororiginating data-driven precomputed solution synthesis are given for two applications. Finally, some of the computational implementati...
متن کاملDDEMA: A Data Driven Environment for Multiphysics Applications
In this paper we present the design of a multidisciplined problem solving environment (MPSE) for supporting an efficient prediction capability for the response of multiscale interdisciplinary continuous interacting systems. This design takes into consideration information technologies, coupled multiphysics sciences, and data-driveness to steer adaptive modelling and simulation of the underlying...
متن کامل