GEOS-Chem High Performance Working Group
Welcome to the GEOS-Chem High Performance (GCHP) Working Group wiki page! GCHP represents the next generation of GEOS-Chem with a distributed memory capability enabling efficient scaling across many cores and finer resolution simulations. GCHP also has the advantage of using a cubed-sphere geometry enabling more accurate transport and eliminating the polar singularity inherent to lat-lon grids.
If you are interested in working with or contributing to GCHP development, please subscribe to the GCHP Working Group email list following the instructions below and send an email introducing yourself. We also encourage you to your platform and operation system as well as a description of your project in the tables on this page.
|GEOS-Chem HP Working Group Chairs|
|GEOS-Chem HP email list||geos-chem-hp [at] g.harvard.edu|
|To subscribe to email list||Either
|To unsubscribe from email list||Either
HP Computing Platforms
If you are a GCHP user, please add your system information below.
|User Group||Platform and OS||Contact Person|
|Dalhousie||Platform: Linux 2.6.18 OS: CentOS 5.7||Junwei Xu|
|Dalhousie||Platform: Linux 2.6.32 OS: Red Hat 6.4||Junwei Xu|
|Harvard||Platform: Linux 2.6.32 OS: CentOS 6.4
(AMD Opteron 16-core "Abu Dhabi" @ 2.3 GHz)
|GEOS-Chem Support Team|
|Add yours here!|
Current GCHP Projects
If you are working on a project using GCHP, please add your group name, contact information, and a short description of your project to the table below.
|User Group||Description||Contact Person|
|Harvard||Core development, validation, and documentation||Lizzie Lundgren|
|Jintai Lin (ACM @ PKU)||Impacts of small-scale processes on global and regional chemistry (OH, O3 and CO in particular)||Jintai Lin|
|Christoph Keller||Coupling of GEOS-Chem to the GEOS Earth System Model and Data Assimilation System.||Christoph Keller|
|Daniel Rothenberg||Offline simulations with CESM/CAM meteorology||Daniel Rothenberg|
|Add yours here!|