Controlling heat equation solver with MIDI #science #gpu #education #midi #physics #coding #python
Fluid Numerics
Controlling heat equation solver with MIDI #science #gpu #education #midi #physics #coding #python
0:38
Streaming MIDI over ssh to a GPU accelerated cluster #science #education #coding #gpu #midi
Fluid Numerics
Streaming MIDI over ssh to a GPU accelerated cluster #science #education #coding #gpu #midi
0:14
Simulating Kelvin Waves using the Spectral Element Library in Fortran
Fluid Numerics
Simulating Kelvin Waves using the Spectral Element Library in Fortran
9:19
Public Service Announcement : Initialize your memory
Fluid Numerics
Public Service Announcement : Initialize your memory
4:42
Spectrally accurate DG Solver for the compressible Euler Equations in 3-D
Fluid Numerics
Spectrally accurate DG Solver for the compressible Euler Equations in 3-D
56:30
Talking CFD, GPU acceleration, and Fortran+Python with Marco Rosenzwieg
Fluid Numerics
Talking CFD, GPU acceleration, and Fortran+Python with Marco Rosenzwieg
54:56
SELF Monthly Collaborators Meeting - December 2024
Fluid Numerics
SELF Monthly Collaborators Meeting - December 2024
29:55
SVG to CFD: Fluid Simulations from Drawings
Fluid Numerics
SVG to CFD: Fluid Simulations from Drawings
1:02:45
Fluid simulation in a jack-o'-lantern
Fluid Numerics
Fluid simulation in a jack-o'-lantern
1:02
Spectrally accurate DG Solver for the compressible Euler Equations in 2-D
Fluid Numerics
Spectrally accurate DG Solver for the compressible Euler Equations in 2-D
47:26
Six ways to implement spectrally accurate vector divergence on CPUs and GPUs
Fluid Numerics
Six ways to implement spectrally accurate vector divergence on CPUs and GPUs
1:05:45
Pushing particles on an unstructured grid
Fluid Numerics
Pushing particles on an unstructured grid
39:25
Using object oriented Fortran and CMake to support GPU acceleration as an optional feature
Fluid Numerics
Using object oriented Fortran and CMake to support GPU acceleration as an optional feature
1:01:05
Deploy WEKA+Slurm-GCP on Google Cloud with Cluster-Toolkit
Fluid Numerics
Deploy WEKA+Slurm-GCP on Google Cloud with Cluster-Toolkit
47:09
Shockwaves in 1-D and some major updates to SELF
Fluid Numerics
Shockwaves in 1-D and some major updates to SELF
1:08:31
Calculate Spectra in Irregular Geometry - Method Derivation
Fluid Numerics
Calculate Spectra in Irregular Geometry - Method Derivation
1:12:18
Noether Unboxing
Fluid Numerics
Noether Unboxing
1:36
Porting a simple Fortran application to GPUs with HIPFort
Fluid Numerics
Porting a simple Fortran application to GPUs with HIPFort
1:34:10
Porting a simple Fortran application to GPUs with OpenMP
Fluid Numerics
Porting a simple Fortran application to GPUs with OpenMP
1:05:50
Getting started with the RCC on Google Cloud
Fluid Numerics
Getting started with the RCC on Google Cloud
1:22:15
TDGS: MITgcm Simulations of the Gulf Stream
Fluid Numerics
TDGS: MITgcm Simulations of the Gulf Stream
6:03
Compressible Euler equations for modeling seawater
Fluid Numerics
Compressible Euler equations for modeling seawater
1:45:50
GPU Programming in Fortran : Differential Geometry and the Metric Identities
Fluid Numerics
GPU Programming in Fortran : Differential Geometry and the Metric Identities
1:55:21
GPU Programming in Fortran : Stabilizing the non-linear shallow water equation solver
Fluid Numerics
GPU Programming in Fortran : Stabilizing the non-linear shallow water equation solver
2:03:11
GPU Programming in Fortran : Building a conservative Nonlinear Shallow Water Equation Solver
Fluid Numerics
GPU Programming in Fortran : Building a conservative Nonlinear Shallow Water Equation Solver
2:39:32
GPU Programming in Fortran : Building a linear Shallow Water Equation Solver
Fluid Numerics
GPU Programming in Fortran : Building a linear Shallow Water Equation Solver
2:19:03
GPU Programming in Fortran : Ensuring stability for variable coefficient advection equation solver
Fluid Numerics
GPU Programming in Fortran : Ensuring stability for variable coefficient advection equation solver
2:18:41
GPU Programming in Fortran : Verifying Spectral Accuracy in the Advection-Diffusion Solvers
Fluid Numerics
GPU Programming in Fortran : Verifying Spectral Accuracy in the Advection-Diffusion Solvers
2:48:10
GPU Programming in Fortran : SELF - Advection 3D + MPI
Fluid Numerics
GPU Programming in Fortran : SELF - Advection 3D + MPI
2:23:07
GPU Programming in Fortran : SELF - Advection 2D/3D + MPI
Fluid Numerics
GPU Programming in Fortran : SELF - Advection 2D/3D + MPI
2:33:35
GPU Programming in Fortran : SELF - Advection 2D/3D
Fluid Numerics
GPU Programming in Fortran : SELF - Advection 2D/3D
2:20:18
GPU Programming in Fortran : SELF - Advection 2D
Fluid Numerics
GPU Programming in Fortran : SELF - Advection 2D
3:05:39
(Livestream) Benchmarks of WRF v4.2 on Google Cloud and Cheyenne
Fluid Numerics
(Livestream) Benchmarks of WRF v4.2 on Google Cloud and Cheyenne
54:52
Benchmarks of WRF v4.2 on Google Cloud and Cheyenne
Fluid Numerics
Benchmarks of WRF v4.2 on Google Cloud and Cheyenne
40:10
OSHackathon : Initial HIPFort port of SELF for portable GPU acceleration
Fluid Numerics
OSHackathon : Initial HIPFort port of SELF for portable GPU acceleration
40:06
Fluid Numerics Live Stream
Fluid Numerics
Fluid Numerics Live Stream
OS Hackathon Spring HIP Hackathon Summary
Fluid Numerics
OS Hackathon Spring HIP Hackathon Summary
21:36
How to quickly launch an autoscaling HPC cluster on Google Cloud Platform with Terraform
Fluid Numerics
How to quickly launch an autoscaling HPC cluster on Google Cloud Platform with Terraform
4:53
How to quickly launch an autoscaling HPC cluster on Google Cloud Platform
Fluid Numerics
How to quickly launch an autoscaling HPC cluster on Google Cloud Platform
5:07
Strategies for managing your HPC cluster in the Cloud
Fluid Numerics
Strategies for managing your HPC cluster in the Cloud
32:15
Strategies for managing your HPC cluster in the Cloud
Fluid Numerics
Strategies for managing your HPC cluster in the Cloud
33:25
Build a CI Pipeline for Containerized GPU Accelerated Applications
Fluid Numerics
Build a CI Pipeline for Containerized GPU Accelerated Applications
44:10
Build a CI Pipeline for Containerized GPU Accelerated Applications
Fluid Numerics
Build a CI Pipeline for Containerized GPU Accelerated Applications
43:01
Build a CI Pipeline for Containerized Fortran Applications
Fluid Numerics
Build a CI Pipeline for Containerized Fortran Applications
44:25
Build a CI Pipeline for Containerized Fortran Applications
Fluid Numerics
Build a CI Pipeline for Containerized Fortran Applications
41:55
Diagnosing & resolving common issues in Fluid-Slurm-GCP
Fluid Numerics
Diagnosing & resolving common issues in Fluid-Slurm-GCP
27:55
A turn-key solution for OpenFOAM and Paraview on Google Cloud Platform
Fluid Numerics
A turn-key solution for OpenFOAM and Paraview on Google Cloud Platform
27:41
Connect your Paraview Client to an autoscaling Paraview server cluster on Google Cloud
Fluid Numerics
Connect your Paraview Client to an autoscaling Paraview server cluster on Google Cloud
22:45
Connect your Paraview Client to an autoscaling Paraview server cluster on Google Cloud
Fluid Numerics
Connect your Paraview Client to an autoscaling Paraview server cluster on Google Cloud
23:30
Run OpenFOAM on Google Cloud Platform
Fluid Numerics
Run OpenFOAM on Google Cloud Platform
20:05
Run OpenFOAM on Google Cloud Platform
Fluid Numerics
Run OpenFOAM on Google Cloud Platform
44:15
Create a custom OpenFoam VM Image on Google Cloud
Fluid Numerics
Create a custom OpenFoam VM Image on Google Cloud
35:25
Python Package Management on HPC Systems
Fluid Numerics
Python Package Management on HPC Systems
44:51
Python Package Management on HPC Systems
Fluid Numerics
Python Package Management on HPC Systems
40:30
HPC in the Cloud - Python Package Management : Fluid Numerics Friday Morning Livestream!
Fluid Numerics
HPC in the Cloud - Python Package Management : Fluid Numerics Friday Morning Livestream!
46:55
HPC in the Cloud - Python Package Management - Evening Livestream!
Fluid Numerics
HPC in the Cloud - Python Package Management - Evening Livestream!
43:56
"HPC in the Cloud - Fluid-Slurm-GCP Basics" : Fluid Numerics Friday Morning Livestream!
Fluid Numerics
"HPC in the Cloud - Fluid-Slurm-GCP Basics" : Fluid Numerics Friday Morning Livestream!
1:10:55
"HPC in the Cloud - Fluid-Slurm-GCP Basics" : Fluid Numerics Evening Livestream!
Fluid Numerics
"HPC in the Cloud - Fluid-Slurm-GCP Basics" : Fluid Numerics Evening Livestream!
1:04:00
"HPC in the Cloud - Fluid-Slurm-GCP Basics" : Fluid Numerics Friday Morning Livestream!
Fluid Numerics
"HPC in the Cloud - Fluid-Slurm-GCP Basics" : Fluid Numerics Friday Morning Livestream!
1:00:13
"HPC in the Cloud - Fluid-Slurm-GCP Basics" : Fluid Numerics Evening Livestream!
Fluid Numerics
"HPC in the Cloud - Fluid-Slurm-GCP Basics" : Fluid Numerics Evening Livestream!
1:04:06
Create a high availability (multi-zone) HPC compute partition on Google Cloud Platform
Fluid Numerics
Create a high availability (multi-zone) HPC compute partition on Google Cloud Platform
3:42
Create a globally scalable (multi-region) HPC compute partition on Google Cloud Platform
Fluid Numerics
Create a globally scalable (multi-region) HPC compute partition on Google Cloud Platform
3:45
Create a HPC Cluster on GCP - Part 2 : Launch from Marketplace and Verify
Fluid Numerics
Create a HPC Cluster on GCP - Part 2 : Launch from Marketplace and Verify
4:33
Create a HPC Cluster on GCP - Part 1 : Project Setup
Fluid Numerics
Create a HPC Cluster on GCP - Part 1 : Project Setup
3:50
Run Singularity Container on GCP with GPUs
Fluid Numerics
Run Singularity Container on GCP with GPUs
1:59
bubble
Fluid Numerics
bubble
0:28
Lock Exchange fluid simulation
Fluid Numerics
Lock Exchange fluid simulation
0:25
2018 Boulder GPU Hackathon
Fluid Numerics
2018 Boulder GPU Hackathon
2:23