Title :
Megagate ASICs for the Thuraya satellite digital signal processor
Author :
Sunderland, David A. ; Duncan, Gary L. ; Rasmussen, Brad J. ; Nichols, Harry E. ; Kain, Daniel T. ; Lee, Lawrence C. ; Clebowicz, Brian A. ; Hollis, Richard W., IV ; Wissel, Larry ; Wilder, Tad
Author_Institution :
Boeing Satellite Syst., El Segundo, CA, USA
Abstract :
Boeing Satellite Systems and IBM have designed and fabricated a, set of ASIC chip types to perform computation-intensive digital signal processing (DSP) functions on board geosynchronous satellites of the Thuraya mobile communications system. Preparation for this application required comprehensive review of the reliability and space-worthiness of the underlying process and packaging technology. First-pass success on all nine million-plus-gate ASIC designs required extensive model-based simulation and verification. These technologies allowed a four-fold increase in the computational power of the DSP unit over previous systems based on radiation-hardened ASICs, while simultaneously decreasing the number of ASICs required by another factor of five. The first Thuraya satellite is on-orhit, and the whole communications system is performing flawlessly.
Keywords :
CMOS digital integrated circuits; VLSI; application specific integrated circuits; artificial satellites; digital signal processing chips; integrated circuit design; integrated circuit packaging; integrated circuit reliability; mobile satellite communication; radiation hardening (electronics); space vehicle electronics; telecommunication computing; ASIC design; Boeing Satellite Systems; CCGA package qualification; CMOS ASIC chips; DSP architecture; IBM; IC reliability; IC space-worthiness; Thuraya mobile communications system; Thuraya satellite DSP; ceramic column grid array; computation-intensive DSP functions; design methodology; digital signal processing functions; digital signal processor; geosynchronous satellites; megagate ASICs; model-based simulation; process qualification; radiation-tolerant semiconductor processes; satellite on-board processor; verification; Application specific integrated circuits; Artificial satellites; Digital signal processing chips; Digital signal processors; Mobile communication; Packaging; Power system modeling; Power system reliability; Signal design; Space technology;
Conference_Titel :
Quality Electronic Design, 2002. Proceedings. International Symposium on
Print_ISBN :
0-7695-1561-4
DOI :
10.1109/ISQED.2002.996791
