Kishore Selvam
About Kishore Selvam
Kishore Selvam is an L2 Engineer at HTC Global Services with expertise in deploying applications in Pivotal Cloud Foundry and handling production support.
Current Role at HTC Global Services
Kishore Selvam currently holds the position of L2 Engineer at HTC Global Services. In this role, which he has been fulfilling since 2023, he is responsible for providing production support for all products at the company. He is heavily involved in code evaluation and its implementation in the production environment, ensuring seamless operation and troubleshooting any arising issues.
Previous Role at HTC Global Services
Before assuming his current role, Kishore Selvam worked as a Software Engineer at HTC Global Services from 2020 to 2022. During this period, he was engaged in a remote capacity, contributing significantly to various projects and enhancing his skills in software development and deployment.
Early Career at HTC Global Services
Kishore Selvam started his career at HTC Global Services in 2020 by working as a Java Full Stack Developer for four months. This experience, based in Chennai, Tamil Nadu, India, laid the foundation for his expertise in full stack development and provided valuable on-site project experience early in his professional journey.
Educational Background
Kishore Selvam completed his BTech in Information Technology from ST. JOSEPH'S INSTITUTE OF TECHNOLOGY, OMR. Attending from 2015 to 2019, he gained a solid grounding in various IT disciplines which have been integral to his career in technology and engineering.
Technical Expertise
Kishore Selvam has developed significant expertise in several technical areas over his career. He has proficiency in deploying applications using Pivotal Cloud Foundry (PCF) and is experienced in handling migration projects from Websphere Application Server to Springboot. His responsibilities also involve working closely with clients to convert their business needs into detailed software specifications, ensuring that solutions are tailored to specific operational requirements.