AWS Best Practices
As the main account administrator for CIROH subaccount, here are some best practices to follow within your subaccount:
28 docs tagged with "Cloud Services"
View all tagsAWS Data Science Tools
AWS Data Science Tools
CIROH AWS Account
AWS Research Cloud
CIROH AWS Office Hours
CIROH AWS Office Hours
CIROH CyberInfrastructure
Computing infrastructure access for consortium members and partners
CIROH Google Account
Google Research Cloud
CIROH JupyterHub
2i2c JupyterHub is a cloud-based JupyterHub environment specifically designed for hydrological researchers. It is powered by 2i2c JupyterHub, a cloud-based JupyterHub environment specifically on Google Cloud
Cloud Services Blogs
Want to keep up with the latest updates in the cloud? If so, consider checking out the block pages for CIROH's cloud services partners.
CUAHSI JupyterHub
cuahsi jupyterhub
Cyberinfrastructure and Community NextGen Office Hours
Need help with NGIAB or CIROH Cyberinfrastructure. Join us for office hours!
Documentation and Tutorial
2i2c JupyterHub is a cloud-based JupyterHub environment specifically designed for hydrological researchers. It is powered by 2i2c JupyterHub, a cloud-based JupyterHub environment specifically on Google Cloud
Documentation and Tutorial
AWS documentations
HydroShare and CIROH JupyterHub Integration
HydroShare and CIROH JupyterHub Integration
Infrastructure Access
CIROH provides access to public cloud services, HPC, and on-premises infrastructure to support the research projects of CIROH's members and partners.
Installing NGIAB Locally
A guide to install NGIAB locally.
JupyterHub User Directory
2i2c JupyterHub File System
Manage files in GCP bucket
2i2c JupyterHub Google Cloud Buckets
NextGen In A Box
Community NextGen
NGIAB TEEHR Integration
Use the TEEHR toolkit to evaluate your model runs.
NGIAB Tethys Visualization Integration
Visualize your model output with both spatial navigation and temporal graphing.
NGIAB-CloudInfra
A Docker-based NGIAB distribution; suitable for both local and cloud-based workflows.
Persistent Conda Environment
2i2c JupyterHub is a cloud-based JupyterHub environment specifically designed for hydrological researchers. It is powered by 2i2c JupyterHub, a cloud-based JupyterHub environment specifically on Google Cloud
Prevent Server Timeout
Currently, user servers on JupyterHub stop after about an hour of inactivity. While this helps save costs, it can be problematic for long-running jobs if there is no active interaction with the notebook.
Public Cloud
In tandem with the power of the public cloud, our team of researchers, hydrologists, and engineers at CIROH is committed to advancing our understanding of hydrologic processes, improving operational hydrologic forecasting techniques and workflows, collaborating on community water modeling, converting forecasts into practical solutions, and utilizing water predictions to help guide decision-making processes.
Push and Pull to GitHub
2i2c JupyterHub is a cloud-based JupyterHub environment specifically designed for hydrological researchers. It is powered by 2i2c JupyterHub, a cloud-based JupyterHub environment specifically on Google Cloud
Python Package Version Conflicts
a tutorial guide to help debug python package conflicts
Request custom images
2i2c JupyterHub is a cloud-based JupyterHub environment specifically designed for hydrological researchers. It is powered by 2i2c JupyterHub, a cloud-based JupyterHub environment specifically on Google Cloud
Tag Resources on AWS
AWS tags for cost tracking