Climate model evaluation through the Model Intercomparison Projects (MIPs) turns 30 in 2020, with the first Atmospheric MIP (AMIP1), initiated in 1990. Since the early days, climate modeling has matured considerably and now is a key input into the United Nations Intergovernmental Panel on Climate Change (IPCC) assessments, which also date back to 1990 (FAR). The complexity of climate models has also increased, aided by an expanding scientific community, broadening science questions, and also by the exponential increase in computer power that has aided climate science discovery.

The sixth phase CMIP6 is the latest development in this evolution, completing an expansion in model complexity from atmosphere general circulation models (AGCM) to coupled atmosphere-ocean (AOGCM) to full Earth System Models (ESMs). To better leverage the CMIP6 science resource, advances in the coordination, organization, and construction of the project have taken place, leveraging next-generation technologies to deliver climate model data to a stakeholder community of 10's of thousands around the globe.

The CMIP6 data request is one component of the technological advancement and has facilitated 50 modeling groups and 133 models to contribute to a hugely broadened project that is now overseen by an ever-expanding community, comprising 24 satellite MIPs and 316 experiments. The CMIP6 data request ensures that consistency is maintained across these numerous activities, and consistent and reproducible science is delivered by the project.