%T A Reconfigurable System\-on\-Chip Architecture for Pico\-Satellite Missions %A Tanya Vladimirova, Xiaofeng Wu %E Alistair A. McEwan, Steve Schneider, Wilson Ifill, Peter H. Welch %B Communicating Process Architectures 2007 %X Spacecraft operate in the unique space environment and are exposed to various types of radiation. Radiation effects can damage the on\-board electronic circuits, particularly silicon devices. There is a pressing need for a remote upgrading capability which will allow electronic circuits on\-board satellites to self\-repair and evolve their functionality. One approach to addressing this need is to utilize the hardware reconfigurability of Field Programmable Gate Arrays. FPGAs nowadays are suitable for implementation of complex on\-board system\-on\-chip designs. Leading\-edge technology enables innovative solutions, permitting lighter picosatellite systems to be designed. This paper presents a reconfigurable system\-onchip architecture for pico\-satellite on\-board data processing and control. The SoC adopts a modular bus\-centric architecture using the AMBA bus and consists of soft intellectual property cores. In addition the SoC is capable of remote partial reconfiguration at run time.