Zachary Roessler
About Zachary Roessler
Zachary Roessler is a Datacenter Technician and the Run Ops QA/QC & EHS Lead at Black Box in New Albany, Ohio, where he has worked since 2020. He has a background in telecommunications and has held various technical roles, including positions at Network9, LLC and Utility Resource Group, LLC.
Work at Black Box
Zachary Roessler has been employed at Black Box since 2020, where he holds the position of Datacenter Technician, Run Ops QA/QC & EHS Lead. In this role, he oversees quality assurance, quality control, and safety protocols for the Run Ops team at Facebook's New Albany Data Center. His responsibilities include managing the installation and troubleshooting of cabling for capacity upgrades and large retrofit projects. Roessler incorporates BICSI standards and best practices into the team's quality and safety measures, ensuring compliance with industry standards.
Previous Experience in Telecommunications
Prior to his role at Black Box, Zachary Roessler worked at Network9, LLC as a Structured Cabling Lead Technician from 2018 to 2020. In this capacity, he was responsible for overseeing structured cabling projects. He also had a brief stint as a self-employed Telecommunications Technician in 2018. Earlier in his career, he served as an IT Support/Utility Locator at Utility Resource Group, LLC in 2016 and as Advanced Wireless Support at Support.com in 2015. These roles contributed to his extensive knowledge in telecommunications and IT support.
Education and Qualifications
Zachary Roessler completed his high school education at Maysville High School, where he earned his High School Diploma from 2006 to 2010. This foundational education provided him with the skills necessary to pursue a career in the technical field, leading to various positions in telecommunications and IT support.
Collaboration in Network Engineering
In his current position at Black Box, Zachary Roessler collaborates with network engineering and global connectivity teams. His role involves minimizing production network impact during project designs, ensuring that the integration of new systems does not disrupt existing operations. This collaboration is essential for maintaining the efficiency and reliability of network services.