Refereed publications using COMPASS
- Ferreira, F. et al., “Numerical estimation of wavefront error breakdown in adaptive optics”, A&A 2018
- Ferreira, F. et al, “COMPASS: an efficient GPU-based simulation software for adaptive optics systems”, HPCS 2018, To be published
- Ltaief, H. et al., “Adaptive Optics Simulation for the World’s Largest Telescope on Multicore Architectures with Multiple GPUs”, ACM PASC 2016
- Clénet, Y. et al., “Anisoplanatism effect on the E-ELT SCAO point spread function. A preserved coherent core across the field”, Astronomy & Astrophysics, Volume 583, id.A102, 10 pp. (2015)
- Charara, A. et al., “Pipelining computational stages of the tomographic reconstructor for multi-object adaptive optics on a multi-gpu system”, High Performance Computing, Networking, Storage and Analysis, SC14 : International Conference for, pages 262–273, Nov (2014)
COMPASS in international conferences
- Deo, V. et al.,“A modal approach to optical gain compensation for the pyramid wavefront sensor”, SPIE 2018
- Ferreira, F. et al., “Real-time end-to-end AO simulations at ELT scale on multiple GPUs with the COMPASS platform”, SPIE 2018
- Ferreira, F. et al., “AO error breakdown: anisoplanatism and bandwidth error correlation with ROKET”, AO4ELT5 2017
- Vidal, F. et al., “End-to-end simulations for the MICADO-MAORY SCAO mode”, AO4ELT5 2017
- Deo, V. et al.,“Enlarging the Control Space of the Pyramid Wavefront Sensor: Numerical Simulations and Bench Validation”, AO4ELT5 2017
- Ferreira, F. et al., “Deriving comprehensive error breakdown for wide field adaptive optics systems using end-to-end simulations”, SPIE, 2016
- Clénet, Y. et al., “Joint MICADO-MAORY SCAO mode: specifications, prototyping, simulations and preliminary design “, SPIE, 2016
- Gratadour, D. et al, “COMPASS: status update and long term develoment plan”, SPIE, 2016
- Gratadour, D. et al, “COMPASS: an efficient, scalable and versatile numerical platform for the development of ELT AO systems”, SPIE, 2014
- Disseau, K et al, “Simulations of high-z galaxy observations with an ELT-MOS”, SPIE, 2014
- Carlotti, A. et al, “Modelization of a pyramid wavefront sensor for the E-ELT in the context of the COMPASS project”, SPIE, 2014
- Gendron, É. et al, “A novel fast and accurate pseudo-analytical simulation approach for MOAO”, SPIE, 2014
- Vidal, F. et al, “Adaptive optics simulations for the MICADO SCAO system”, SPIE, 2014
- Baudoz, P. et al, “The high contrast imaging modes of MICADO”, SPIE, 2014
- Sevin, A. et al, “Enabling technologies for GPU driven adaptive optics real-time control”, SPIE, 2014
- Puech, M. et al, “Sky background subtraction with fiber-fed spectrographs”, SPIE, 2014
- Abdelfattah, A. et al, “High Performance Pseudo-analytical Simulation of Multi-object Adaptive Optics over Multi-GPU Systems”. Euro-Par conference 2014 on Parallel Processing
- Gratadour, D. et al., “Building a reliable, scalable and affordable RTC for AO instruments on ELTs”, AO4ELT3, 2013
- Clénet, Y. et al, “First GPU-based end-to-end AO simulations to dimension the E-ELT MICADO SCAO mode”, AO4ELT3, 2013
- Disseau, K. et al, “Web-based scientific simulation tools for E-ELT instruments”, Proceedings of the Annual meeting of the French Society of Astronomy and Astrophysics, 2013
- Gratadour, D. et al, “GPUs for adaptive optics: simulations and real-time control”, SPIE, 2012