Mariusz Przybyszewski
About Mariusz Przybyszewski
Mariusz Przybyszewski is a Staff Site Reliability Engineer currently employed at Fivetran in Dublin, Ireland. He has extensive experience in site reliability engineering, having held positions at notable companies such as Google, Microsoft, and Huawei Technologies.
Current Role at Fivetran
Mariusz Przybyszewski serves as a Staff Site Reliability Engineer at Fivetran, a position he has held since 2022. He is based in Dublin, County Dublin, Ireland. In this role, he is responsible for ensuring the reliability and performance of Fivetran's data integration services.
Previous Experience in Site Reliability Engineering
Prior to his current position, Mariusz Przybyszewski worked at Google as a Senior Site Reliability Engineer from 2021 to 2022. He also held the role of Site Reliability Engineer at Google for a decade, from 2008 to 2018. His extensive experience in site reliability engineering has contributed to his expertise in maintaining high availability and performance in complex systems.
Background in Technology and Engineering
Mariusz Przybyszewski studied Computer Science at WSINF, where he earned an Engineering degree from 1997 to 2003. His educational background laid the foundation for his career in technology, leading to various roles in site reliability and database administration.
Career History and Roles
Mariusz Przybyszewski has held multiple positions throughout his career. He worked as an Oracle Consultant at Northern Trust for one month in 2007-2008 and as a Senior DBA at Arantech for eight months in 2007. He also served as Principal Architect at Huawei Technologies from 2019 to 2021 and as Principal Site Reliability Engineer at Microsoft from 2018 to 2019, both in County Dublin, Ireland.
Experience in Financial Services
Mariusz Przybyszewski has experience in the financial services sector, having worked at Allied Irish Banks as Oracle & Unix Support from 2005 to 2007. This role contributed to his understanding of the operational needs and challenges within financial institutions.