| Code | Product Name | POC | Short Description | Project(s) |
| 581 | Goddard Mission Services Evolution Center (GMSEC) Architecture | Dan Smith | The GMSEC architecture provides a scalable, extensible ground and flight system for future missions.
http://gmsec.gsfc.nasa.gov/architecture.htm | GLAST, SDO, Terra, TRMM, Air Force, NRO, CSTL, ST-5, MSFC, JSC |
| 581 | Sensor Web | Dan Mandl | Sensor Web 2.0 is a revolutionary software architecture that allows users to access and control global sensors quickly and easily over the Internet. | EO1 |
| 582 | Core Flight Software (CFS) System | Maureen Bartholomew | A flexible and extensible software system that's open architecture directly supports system of systems interoperability concepts and collaboration across multiple independent teams. | GMSEC, LRO, DSILCAS, MMS, GPM, RBSP, LADEE |
| 582 | OS Abstraction Layer (OSAL) | Alan Cudmore | A small software library that isolates embedded software from the real time operating system. The OSAL provides an Application Program Interface (API) to an abstract real time operating system. | SDO, LRO, MMS, GPM, Technology efforts |
| 583 | Advanced Spacecraft Integration System Test (ASIST) | Edwin Fung | A telemetry and command software system that sends commands to a spacecraft and processes the telemetry from the spacecraft. | SDO, MAP, EO-1, DSILCAS, JWST, LRO, GPM, MMS, ELC, XTE, TRMM |
| 583 | Front End Data System (FEDS) | Edwin Fung | A front end data system which is the direct interface to a spacecraft during I & T or to a Ground Station (in Ops) in both forward (Commands) and backwards (Telemetry) directions | SDO, MAP, EO-1, LRO, GPM, MMS, XTE, TRMM |
| 583 | GMSEC Applications Programming Interface (API) | Waka Waktola | Provides a standard interface to the middleware products, normalizing the behavior of all the middlewares and granting access to the capabilities that are provided by the supported middleware products. | GLAST, SDO, Terra, TRMM, Air Force, NRO, CSTL, ST-5, MSFC, JSC |
| 583 | GMSEC Core Components (CAT, GEDAT, GREAT, SA) | LaMont Ruley | Suite of tools that provides system-wide situational awareness, provides system-wide control ability and allows for event-driven automation | GLAST, SDO, Terra, TRMM, Air Force, NRO, CSTL, ST-5, MSFC, JSC |
| 583 | Integrated Test and Operations System (ITOS) | Barbara Milner | ITOS is a real-time control and monitoring system developed and maintained by a small team at the Goddard Space Flight Center. | LRO, GLAST, SET-1, MLAS, TRMM, ULDB |
| 583 | Integrated Trending and Plotting System (ITPS) | Sheila Ritter | ITPS is a comprehensive system for the storage, extraction and analysis of spacecraft housekeeping telemetry data. I | GMSEC, Landsat7, LRO, SET-1, SDO SOHO, TDRSS, TRACE, TRMM, Wind/Polar |
| 583 | Mission Planning and Scheduling System (MPS) | Sheila Ritter | The Mission Planning and Scheduling System (MPS) is a ground system tool used to manage a mission's scheduling activity during Lunar Orbit Insertion (LOI) and operational phases. | LRO |
| 585 | Virtual System Design Environment (VSDE) | Chris Durachka | VSDE provides resources to organize personal information in an individual workspace and the capability to distribute that data to other users if desired. | |
| 587 | Visual System for Browsing, Analysis, and Retrieval of Data (ViSBARD) | Ryan Boller | ViSBARD provides a way of visualizing multiple vector and scalar quantities as measured by many spacecraft at once for analysis of space physics data | Heliospheric Physics Lab |
| 587 | 4D Orbit Viewer | Reine Chimiak | Java Web Start Application providing users with the capability to select spacecraft and time ranges of interest, and see their orbits represented as an interactive 4-D animation | Code 672 |
| 587 | CDAweb+ | Reine Chimiak | Java Web Start Application providing a tool for accessing and displaying data for selected space missions. | Code 672 |
| 587 | IRC | Troy Ames | The IRC architecture is a flexible, platform-independent application framework that is well suited for the distributed control and monitoring of remote devices and sensors. | |
| 587 | Integrated Lunar Information Architecture for Decision Support (ILIADS) | Steve Talabac | Prrovides users with a the ability to access existing and new lunar mission data sets using Open Geospatial Consortium (OGC) Web Mapping, Web Coverage, and Web Feature services. | LMMP, LSOS, LaNDS |
| 589 | Mission Planning Lab (MPL) | Sandra Kleckner | mission visualization, simulation, and analysis software suite | Code 800/launch projects |
| 589 | Selectable IP Slaving (SIPS) | Rodney Davis | antenna slaving system | Code 800/range control center |
| 589 | VIsualization in Real Time Experiment (VIRTEx) | Sandra Kleckner | real-time vehicle attitude display | Code 800/range control center |
| 589 | Cosmic Ray Energetics and Mass (CREAM) | Robert Stancil | flight software for the balloon program CREAM | Code 820/CREAM |
| 589 | External Generic inGestion (EGG) | Rodney Davis | data conversion and distribution system | Code 800/range control center |
| 589 | Ship Surveillance System | Donna Smith | launch range ship suveillance system | Code 800/range control center |
| 589 | SureTrak | Ted Daisey | launch range air and ship suveillance system | Code 800/range control center |
| 589 | Link | Donna Smith | radar, telemetry, and command destruct link analysis program | Code 800/range control center |
| 589 | Max Launch Abort System (MLAS) safing software | Tony Baldwin | safing software for the MLAS project | Code 800/MLAS |
| 589 | Generic Reusable Aerospace Software Platform (GRASP) | Rodney Davis | real-time data handling core for a wide variety of ground and flight systems | CREAM, SIPS |
