At Langley Research Center, research is underway to apply high-performance computing technologies to the multidisciplinary design optimization (MDO) of Reusable Launch Vehicles (RLV). Various analysis codes are being integrated using a commercially developed framework such as iSIGHT. The framework allows the use of networked heterogeneous workstations, vector supercomputers, and a scalable parallel testbed.

The framework also allows easy addition or deletion of analysis codes and facilitates changes in the control flow of the MDO process through a graphical user interface.

Initially, coarse-grained parallelism is being used to generate many vehicle designs simultaneously for trade studies. This capability to perform conceptual MDO using low-fidelity codes will be demonstrated on a full RLV configuration during the coming year.

Later, high-fidelity analysis codes will be incorporated, giving RLV designers, for the first time, the capability to perform preliminary vehicle design with complex multidisciplinary interactions in a reasonable amount of time.

More information on Langley Research Center's HPCC projects.

Point of Contact:
Dr. Joe Rehder
(757) 864-4481
j.j.rehder@larc.nasa.gov