George Krikis, MSc

President and CEO

Mr. Krikis is the founder and Chief Executive Officer of Noesis Technologies. He is responsible for the company’s strategic planning, business development and day to day operations. Mr. Krikis founded Noesis Technologies in 2008 and under his guidance a rich portfolio of Silicon IP Cores has been developed and established an impressive customer list ranging from tier1 OEMs to innovative start-ups. Before founding Noesis Technologies, he served as a Manager at Microelectronics Lab of Intracom Telecom, project leading the design of multiple ASIC/SoCs that have integrated in telecom systems rendering sales at the order of tens of million dollars. He has designed more than 30 Application Specific Integrated Circuits (ASICs) and his research interests include parallel processing, embedded systems, digital image processing, design and VLSI implementation of digital signal processing algorithms for telecom applications, cryptography, forward error correction, channel equalization and dynamically reconfigurable FPGA systems. He wrote many papers published in international conferences. Mr.Krikis graduated in Electrical and Electronics Department of University of Patras and holds an M.Sc. degree in Microelectronics System Design of Brunel University, UK.

Fokion Alexandris

CTO

Mr. Alexandris serves as the Chief Architect for the efficient hardware design of computationally intensive telecom algorithms in ASIC/FPGA target technologies as well as in the development of hardware accelerators for various applications and their real-time FPGA testing. He plays also an instrumental role in the definition of company’s ASIC design and verification methodologies. Mr. Alexandris graduated in Electrical and Electronics Department of University of Patras and his research interests include resources management of multi-threaded processors, embedded systems, digital image processing, design and VLSI implementation of digital signal processing algorithms for telecom applications, forward error correction and channel equalization.