Dusatko, J.E. Bjørsvik, E.R. Fox, J.D. Höfle, W. Rivetta, C.H. Turgut, O. JACoW Geneva, Switzerland 978-3-95450-192-2 10.18429/JACoW-IBIC2017-WE1AB1 English 309-313 WE1AB1 ion feedback controls FPGA interface Contribution to a conference proceedings 2018 2018-03 https://doi.org/10.18429/JACoW-IBIC2017-WE1AB1 http://jacow.org/ibic2017/papers/we1ab1.pdf A flexible digital signal processing platform based on FPGA technology has been developed for vertical intra-bunch beam stability studies at the CERN SPS. This system is unique in that samples at a very high rate (4GSa/s) in order to measure and control motion within the 1.7ns proton beam bunch. The core of the system is an FPGA-based digital signal processor. Being programmable, it enables fast development of control algorithms. The processor, together with its supporting components forms a complete platform for demonstration studies of beam instability measurement and control. This system is capable of operation as either a stand-alone arbitrary waveform generator for driven mode instability studies, a closed-loop feedback control system for stability control and as a diagnostic instrument for measurement of beam motion. Recent measurements have shown the system is effective at damping single-bunch and bunch train intra-bunch instabilities with growth times of 200 turns. This paper summarizes the system design, provides some operational highlights, describes the upgrades performed to date and concludes with a description of the next generation processor now in development.