Microwave Integrated Retrieval System (MIRS) Software Version 2.3 Release
9 May 2019
The University of Wisconsin-Madison SSEC is pleased to announce a new release of the NOAA/NESDIS/STAR Microwave
Integrated Retrieval System (MIRS) for retrieval of atmospheric profiles, cloud and surface
properties from ATMS, AMSU-A, and MHS microwave sensor data. This package is in support of Direct Broadcast
users, and is sponsored by the Community Satellite Processing Package (CSPP) project funded by
the NOAA/NASA Joint Polar Satellite System (JPSS). The MIRS project is led by Quanhua (Mark) Liu and
Chris Grassotti at the NOAA NESDIS Center for Satellite Applications and Research (STAR).
This release provides MIRS version 11.4 adapted and tested for operation in a real-time direct
broadcast environment. For more information on MIRS, please visit
The CSPP_MIRS v2.3 software package contains binary executable files and supporting static data files,
as well as input and output files for verification of a successful installation. Source code for the
MIRS package is not included in this release. Source code can be provided upon receipt of a signed
NOAA license agreement available
What is new in CSPP MIRS Version 2.3?
System requirements for the CSPP_MIRS v2.3 software are as follows:
- Code base updated to Version 11.4,
- Snowfall Rate product (SFR) upgraded to provisional validated maturity,
- New product, probability of falling snow (%) (Prob_SF, ATMS instrument only),
- New Snowfall Rate product QC flags added.
Supported satellites, sensors, and data include:
- Intel or AMD CPU with 64-bit instruction support,
- lftp utility to fetch ancillary data (unless running in quarantine mode or with --noSFR),
- 8 GB RAM
- CentOS-6 64-bit Linux (or other compatible 64-bit Linux distribution),
- 2 GB of disk space (plus space for your own DB data and CSPP_MIRS products).
Official Validated Products created by MIRS include:
- NOAA-20 and Suomi-NPP ATMS Sensor Data Records (SDR) (from CSPP)
- NOAA-18 and -19 AMSU-A and MHS Level 1B (from AAPP)
- NOTE:The NOAA-18 MHS instrument began experiencing problems on 20 October 2018 and is not supported after this event.
- Metop-A and Metop-B AMSU-A and MHS Level 1B (from AAPP)
Experimental Products (not fully validated) created by MIRS:
The following products are also produced experimentally for NOAA-18, NOAA-19, Metop-A, Metop-B, Suomi-NPP, and NOAA-20. Note that they lack a thorough validation due to the absence of reliable ground truth measurements. These are made available to users for the purpose of evaluating their usefulness.
- Temperature profile over open water ocean
- Humidity profile over open water ocean
- Humidity profile over non-coastal Land
- Total Precipitable Water (TPW) over open water ocean
- Total Precipitable Water over non-coastal land
- Land surface temperature
- Surface Emissivity over land and snow
- Snow Water Equivalent (SWE)
- Sea Ice Concentration (SIC)
- Snow Cover Extent (SCE), based on the SWE
- Vertically-Integrated Non-precipitating Cloud Liquid Water (CLW) over open water ocean
- Vertically-Integrated Ice Water Path (IWP)
- Vertically-Integrated Rain Water Path (RWP)
- Rainfall Rate (RR) over open water ocean and non-coastal, non-snow-covered land surface types
- Effective grain size of snow (over snow-covered land surface)*
- Multi-Year (MY) Type Sea Ice Concentration*
- First-Year (FY) Type Sea Ice Concentration*
- Snow Fall Rate (SFR)
- Probability of Falling Snow (Prob_SF)(ATMS only)
*Note that FY and MY Sea Ice Concentration, as well as Snow Grain Size are not officially operational, but preliminary products, which is a higher maturity level than experimental status.
**Note that all retrieval products from NOAA-20 are at provisional validated maturity level.
- Cloud Liquid Water Profile (CLWP) over ocean
- Surface Temperature (skin) extended to snow-covered land surface type
- Surface Temperature (skin) extended to open ocean water