Gabriela Tejada GuerreroGabriela has extensive expertise in international cooperation in education, research and innovation. She joined EPFL as scientist at the Cooperation and Development Center (CODEV) where she led the EPFL Leading House Program (2014-2017) of the Swiss government, which upheld Swiss bilateral research cooperation with Brazil, India, Vietnam and Latin America. Her research focused on scientific diasporas and skilled migration with diverse international collaborations under her leadership. She worked at the University of Zurich, and the UNDP in Moldova and Geneva, and taught at the Monterrey Institute of Technology (ITESM). She was visiting researcher at the CES at Harvard University and the CIS at ETH Zurich. Gabriela obtained a BA in International Relations from the UIA (Ibero) in Mexico, and a PhD in Political Sciences from the UAB in Barcelona. She obtained a CAS IPA - International Policy and Advocacy of the D-MTEC, ETH Zurich (2019). Since 2020 Gabriela is Vice-President of the Swiss Commission for UNESCO (member since 2016), where she promotes science-society linkages and advocates for an inclusive development and dialogue through education, science and culture.Since May 2019, Gabriela is Academic Deputy at the Direction of the College of Humanities (CDH). She serves the Scholars at Risk program (SAR) at EPFL in an advisory capacity.
Babak FalsafiBabak is a Professor in the School of Computer and Communication Sciences and the founding director of the EcoCloud, an industrial/academic consortium at EPFL investigating scalable data-centric technologies. He has made numerous contributions to computer system design and evaluation including a scalable multiprocessor architecture which was prototyped by Sun Microsystems (now Oracle), snoop filters and memory streaming technologies that are incorporated into IBM BlueGene/P and Q and ARM cores, and computer system performance evaluation methodologies that have been in use by AMD, HP and Google PerKit . He has shown that hardware memory consistency models are neither necessary (in the 90's) nor sufficient (a decade later) to achieve high performance in multiprocessor systems. These results eventually led to fence speculation in modern microprocessors. His latest work on workload-optimized server processors laid the foundation for the first generation of Cavium ARM server CPUs, ThunderX. He is a recipient of an NSF CAREER award, IBM Faculty Partnership Awards, and an Alfred P. Sloan Research Fellowship. He is a fellow of IEEE and ACM.
