Raymond Pierrehumbert FRS

Some fine points on radiative forcing Reply

PHYSICS TODAY 64:7 (2011) 12-12

Principles of Planetary Climate

Cambridge University Press (CUP), 2010

The Importance of Ice Vertical Resolution for Snowball Climate and Deglaciation

Journal of Climate American Meteorological Society 23:22 (2010) 6100-6109

Authors:

Dorian S Abbot, Ian Eisenman, Raymond T Pierrehumbert

Mudball: Surface dust and Snowball Earth deglaciation

Journal of Geophysical Research American Geophysical Union (AGU) 115:D3 (2010)

Authors:

Dorian S Abbot, Raymond T Pierrehumbert

PyCCSM: Prototyping a python-based community climate system model

ANZIAM Journal 48 (2010) C1112-C1130

Authors:

M Tobis, M Steder, J Walter Larson, RT Pierrehumbert, RL Jacob, ET Ong

Abstract:

Coupled climate models are multiphysics models comprising multi-ple separately developed codes that are combined into a single physical system. This composition of codes is amenable to a scripting solution, and Python is a language that offers many desirable properties for this task. We have prototyped a Python coupling and control infrastruc-ture for version 3.0 of the Community Climate System Model (ccsm3). Our objective was to improve dramatically ccsm3's already exible coupling facilities to enable research uses of the model not currently supported. We report the progress in the first steps in this effort: the construction of Python bindings for the Model Coupling Toolkit, a key piece of third-party coupling middleware used in ccsm3, and a Python-based ccsm3 coupler (pypcl) application. We report prelim-inary performance results for this new system, which we call pyccsm. We find pyccsm is significantly slower than its Fortran counterpart, and explain how pypcl's performance may be improved to support production runs. We believe our results augur well for the use of Python in the top-level coupling and organisation of large parallel multiphysics and multiscale applications.