Farshad Rezvan
About Farshad Rezvan
Farshad Rezvan is a Network Engineer with extensive experience in network traffic analysis and management. He has worked for various companies, including Nokia and Nova Networks, and currently serves at Adaptiv Networks in Gatineau, Quebec.
Work at Adaptiv Networks
Currently, Farshad Rezvan serves as a Network Engineer at Adaptiv Networks, a position he has held since 2019. In this role, he is responsible for optimizing ISP and transit network connections, addressing BGP peering issues, and resolving packet loss and latency problems. His work contributes to the overall efficiency and reliability of network operations within the organization.
Previous Experience in Network Engineering
Farshad Rezvan has a diverse background in network engineering. He worked at Nova Networks as a Network/Security Engineer from 2015 to 2019, where he focused on network security and management. Prior to that, he held multiple positions at Nokia, including Customer Support Engineer from 2009 to 2013 and Network Operations Center Engineer from 2008 to 2009. His experience spans various aspects of network operations and support.
Technical Expertise in Network Analysis
Farshad has expertise in analyzing network traffic using tools such as Wireshark and Tcpdump. This skill enables him to troubleshoot connectivity issues and respond effectively to security incidents. His technical knowledge is essential for maintaining robust network performance and security.
Educational Background in Computer Engineering
Farshad Rezvan earned a Bachelor's degree in Computer Engineering from Azad University, where he studied from 1994 to 2000. His educational background provided a foundation in computer systems and network technologies, which he has applied throughout his career in various engineering roles.
Collaboration with Data Centers
In his current and previous roles, Farshad collaborates with data centers and co-location facilities, including Aptum, Cyxtera, and DigitalRealty. He manages infrastructure needs such as power, rack, and space requests, ensuring that network operations are supported by adequate resources.