ResearchTools & Data Publications TOOLS & DATA RESEARCH HIGHLIGHTS Home › Research › Tools and dataOpen source data and codes Gitlab Repositories Open source code repository and collaborative software development platform. Title Description PISCES-gas PISCES-GAS includes a wider array of trace gases and aerosols precursors emissions. Designed to be CMIP and coupled-model compatible. MAGICC Open-source version of the reduce-complexity Model for the Assessment of Greenhouse Gas Induced Climate Change (beta version). ESMValTool Tool for evaluation and analysis of Earth System Models. Developed and maintained by the ESMValGroup. ESMValCore Core library supporting ESMValTool functionalities. Includes preprocessing and diagnostic framework essential for model evaluation. BLOM/iHAMOCC Ocean component of the NorESM model, with an optional extended nitrogen cycle developed under ESM2025. ESMValTool – CO₂ Emissions Diagnostics New diagnostics comparing model output with NOAA GML station data for CO₂ emissions, developed under ESM2025. Code in development, to be merged into ESMValTool. ESMValTool – NOAA GML Station Data Integration Code to integrate NOAA GML station data into ESMValTool diagnostics. ESMValTool – Aerosol Optical Depth (AOD) Diagnostics based on AOD data developed by Catherine Hardacre, now integrated in ESMValTool. ESMValTool – Aerosol Optical Depth (AOD) Diagnostics (bis) Diagnostics based on AOD data developed by Catherine Hardacre, now integrated in ESMValTool. ESMValTool - CO₂ Emissions Diagnostics (in development) New diagnostics comparing model output with NOAA GML station data for CO₂ emissions, developed under ESM2025. Not yet merged into main branch; pending ESMValCore update. ESMValTool – NOAA GML Station Data Integration (in development) Code to integrate NOAA GML station data into diagnostics, supported by ESM2025. Branch not yet merged; awaiting next ESMValCore release. ESMValTool – Trace Gas Surface Concentration Diagnostics (CO₂, CH₄, N₂O) New diagnostic aims to evaluate surface concentrations of trace gases by comparing model outputs with surface flask measurements made available by NOAA's GML for CO2, CH4, and N2O.