Edoardo CharbonEdoardo Charbon (SM’00 F’17) received the Elektrotechnik Diploma from ETH Zurich, the M.S. from the University of California at San Diego, and the Ph.D. from the University of California at Berkeley in 1988, 1991, and 1995, respectively, all in electrical engineering and EECS. He has consulted with numerous organizations, including Bosch, X-Fab, Texas Instruments, Maxim, Sony, Agilent, and the Carlyle Group. He was with Cadence Design Systems from 1995 to 2000, where he was the architect of the company's initiative on information hiding for intellectual property protection. In 2000, he joined Canesta Inc., as the Chief Architect, where he led the development of wireless 3-D CMOS image sensors. Since 2002 he has been a member of the faculty of EPFL, where is a full professor since 2015. From 2008 to 2016 he was full professor and chair at the Delft University of Technology, where he spearheaded the university's effort on cryogenic electronics for quantum computing as part of QuTech. He has been the driving force behind the creation of deep-submicron CMOS SPAD technology, which is mass-produced since 2015 and is present in smartphones, telemeters, proximity sensors, and medical diagnostics tools. His interests span from 3-D vision, LiDAR, FLIM, FCS, NIROT to super-resolution microscopy, time-resolved Raman spectroscopy, and cryo-CMOS circuits and systems for quantum computing. He has authored or co-authored over 400 papers and two books, and he holds 23 patents. Dr. Charbon is a distinguished visiting scholar of the W. M. Keck Institute for Space at Caltech, a fellow of the Kavli Institute of Nanoscience Delft, a distinguished lecturer of the IEEE Photonics Society, and a fellow of the IEEE.
Ties Jan Henderikus KluterSince January 2011:
Teaching digital systems at the Swiss Federal Institute of Technology, Lausanne Switzerland
Since August 2009:
Teaching responsible for digital systems at the university of applied science of Bern, Bienne Switzerland
2003-2010:
Ph.D. candidate at the Swiss Federal Institute of Technology, Lausanne Switzerland
2002-2003:
Product development team leader in the infotainment group of Agere Systems, Nieuwegein The Netherlands.
1997-2003:
Design Engineer in the design services group of Dedris Embedded Algorithms/Frontier Design BV./Adelante Technologies, Tiel The Netherlands
1996-1997:
Assistant R&D at the faculty of computer controlled systems and computer techniques University of Twente, Enschede The Netherlands
1992-1996:
MSc. education at the Technical University of Twente, Enschede The Netherlands
1988-1992:
Bc. edudation at the Higher Technical School of Groningen, Groningen The Netherlands
Mathias Josef PayerMathias Payer is a security researcher and professor at the EPFL school of computer and communication sciences (IC), leading the HexHive group. His research focuses on protecting applications in the presence of vulnerabilities, with a focus on memory corruption and type violations. He is interested in software security, system security, binary exploitation, effective mitigations, fault isolation/privilege separation, strong sanitization, and software testing (fuzzing) using a combination of binary analysis and compiler-based techniques. More details are available in his CV.
Jean-Yves Le BoudecJean-Yves Le Boudec is full professor at EPFL and fellow of the IEEE. He graduated from Ecole Normale Superieure de Saint-Cloud, Paris, where he obtained the Agregation in Mathematics in 1980 (rank 4) and received his doctorate in 1984 from the University of Rennes, France. From 1984 to 1987 he was with INSA/IRISA, Rennes. In 1987 he joined Bell Northern Research, Ottawa, Canada, as a member of scientific staff in the Network and Product Traffic Design Department. In 1988, he joined the IBM Zurich Research Laboratory where he was manager of the Customer Premises Network Department. In 1994 he joined EPFL as associate professor. His interests are in the performance and architecture of communication systems. In 1984, he developed analytical models of multiprocessor, multiple bus computers. In 1990 he invented the concept called "MAC emulation" which later became the ATM forum LAN emulation project, and developed the first ATM control point based on OSPF. He also launched public domain software for the interworking of ATM and TCP/IP under Linux. He proposed in 1998 the first solution to the failure propagation that arises from common infrastructures in the Internet. He contributed to network calculus, a recent set of developments that forms a foundation to many traffic control concepts in the internet. He earned the Infocom 2005 Best Paper award, with Milan Vojnovic, for elucidating the perfect simulation and stationarity of mobility models, the 2008 IEEE Communications Society William R. Bennett Prize in the Field of Communications Networking, with Bozidar Radunovic, for the analysis of max-min fairness and the 2009 ACM Sigmetrics Best Paper Award, with Augustin Chaintreau and Nikodin Ristanovic, for the mean field analysis of the age of information in gossiping protocols. He is or has been on the program committee or editorial board of many conferences and journals, including Sigcomm, Sigmetrics, Infocom, Performance Evaluation and ACM/IEEE Transactions on Networking. He co-authored the book "Network Calculus" (2001) with Patrick Thiran and is the author of the book "Performance Evaluation of Computer and Communication Systems" (2010).
Claude PetitpierreClaude Petitpierre has received his diploma of Electrical Engineer in 1972 from EPFL. He spent the next 5 years in the industry, where he participated in the development of realtime cement plant control. He went back to EPFL, obtained the title of Doctor in 1984 and then spent one year (1985-1986) at the AT&T Bell Labs in Holmdel. He was appointed professor in 1987.
He is interested in the theories and techniques that can support the development of complete and reliable software products and in the formal modeling and analysis theories. The work pursued in his laboratory led to the development of a parsimonious superset of Java, supporting concurrency with a concept close to the one provided by formal languages such as CCS or CSP. He is currently devising a development environment that supports the creation of J2EE application in the frame of software engineering.
Claude Petitpierre is also interested in computer aided teaching. He has developed a computer aided programming course that has been used by first year students.
