Center For Computational Relativity and Gravitation Courses

HARM3D and NUC: Numerical Simulations in Relativistic Astrophysics

Explore HARM3D and NUC in relativistic astrophysics, focusing on computational techniques for modeling extreme cosmic events and gravitational phenomena.

• YouTube
• 36 minutes
• On-Demand
• Free Video

Tutorial on Simulation Analysis

Explore advanced techniques for analyzing gravitational wave simulations, focusing on data interpretation and visualization in computational relativity research.

• YouTube
• 1 hour 32 minutes
• On-Demand
• Free Video

SpECTRE: A Relativistic Astrophysics Code

Explore SpECTRE, a cutting-edge relativistic astrophysics code, and its applications in computational relativity and gravitation research.

• YouTube
• 30 minutes
• On-Demand
• Free Video

Numerical Relativity in Spherical Coordinates with SphericalN

Explore numerical relativity in spherical coordinates using SphericalN, covering advanced computational techniques for gravitational physics simulations.

• YouTube
• 58 minutes
• On-Demand
• Free Video

Modeling the Kelvin-Helmholtz Instability in BNS Mergers

Explore advanced modeling techniques for Kelvin-Helmholtz instability in binary neutron star mergers, enhancing understanding of gravitational wave sources and astrophysical phenomena.

• YouTube
• 37 minutes
• On-Demand
• Free Video

ExaStar: Multi-Physics Stellar Astrophysics Simulations at the Exascale

Explore cutting-edge multi-physics simulations for stellar astrophysics at exascale computing levels, focusing on the ExaStar project and its applications in computational relativity.

• YouTube
• 39 minutes
• On-Demand
• Free Video

Radiation Transport in Athena++ - 2023 North American Einstein Toolkit School

Explore radiation transport in Athena++, focusing on computational methods for modeling energy transfer in astrophysical simulations.

• YouTube
• 39 minutes
• On-Demand
• Free Video

Harm3D: Highly Accurate Relativistic MHD in 3D

Explore highly accurate relativistic magnetohydrodynamics in 3D with Harm3D, a cutting-edge computational tool for astrophysical simulations.

• YouTube
• 44 minutes
• On-Demand
• Free Video

Canuda Tutorial

Explore gravitational wave analysis using the Canuda toolkit in this comprehensive tutorial from the 2023 North American Einstein Toolkit School and Workshop.

• YouTube
• 1 hour 18 minutes
• On-Demand
• Free Video

AsterX and GPU Simulations in Computational Relativity - Tutorial

Explore AsterX and GPU simulations for computational relativity and gravitation, enhancing understanding of advanced numerical techniques in astrophysics.

• YouTube
• 1 hour 14 minutes
• On-Demand
• Free Video

The Spritz Code for Computational Relativity and Gravitation

Explore the Spritz code for computational relativity and gravitation with expert Bruno Giacomazzo. Gain insights into advanced numerical techniques for simulating astrophysical phenomena.

• YouTube
• 38 minutes
• On-Demand
• Free Video

Dendro-GR: An Introduction to Adaptive Mesh Refinement in Numerical Relativity

Explore Dendro-GR, a cutting-edge tool for computational relativity and gravitation, presented by David Neilsen at the 2023 North American Einstein Toolkit School and Workshop.

• YouTube
• 42 minutes
• On-Demand
• Free Video

BlackHoles@Home - Citizen Science in Computational Relativity

Explore cutting-edge research on black holes through citizen science, contributing to gravitational wave detection and understanding cosmic phenomena.

• YouTube
• 48 minutes
• On-Demand
• Free Video

Neutrinos in Neutron Star Simulations

Explore neutrino physics in neutron star simulations, focusing on computational methods and their impact on astrophysical modeling.

• YouTube
• 45 minutes
• On-Demand
• Free Video

Simulating Extreme Plasmas in Neutron Star Mergers

Explore cutting-edge simulations of extreme plasma behavior during neutron star mergers, uncovering insights into astrophysical phenomena and gravitational waves.

• YouTube
• 38 minutes
• On-Demand
• Free Video