RM

Rahul Mehta

Devops Director at Revvity Signals

Rahul Mehta is a seasoned professional in DevOps with extensive experience spanning over a decade. Currently serving as a Senior DevOps Manager at Revvity Signals since April 2017, previously known as PerkinElmer, Rahul has held various key positions including DevOps Manager and Principal DevOps Engineer at Progress Software from May 2009 to April 2017. Skills include automating deployment using AWS APIs and streamlining build and test processes with technologies such as Ant, Perl, and Make. Prior roles include Software Engineer Intern at IBM, where contributions were made to the Tivoli Automation Server, and Engineering Assistant Intern at Blackwave Inc., focusing on system testing automation. Education includes a Master of Science in Computer Science from the University of Massachusetts Lowell and a Bachelor of Engineering in Computer Engineering from the University of Mumbai.

Links

Previous companies


Org chart


Teams


Offices

This person is not in any offices


Revvity Signals

1 followers

Revvity Signals Software, formerly PerkinElmer Informatics, has more than three decades providing unrivaled support for scientific workflows. Our powerful informatics solutions are used across R&D disciplines from drug discovery to specialty chemicals material development. Now under our comprehensive Signals Research Suite, our end-to-end SaaS solution integrates workflows across biology, chemistry and materials new product development to accelerate scientific innovation, and help scientists help each other. In addition, our robust solution, powered by TIBCO® Spotfire®, can revolutionize the clinical trial process. From our internationally recognized flagship ChemDraw® and E-Notebook applications, to our Signals Research Suite (Signals Notebook, Signals VitroVivo and Signals Inventa) to our exclusive TIBCO® Spotfire® partnership that brings scientific data analytics to visual life, no scientific company offers a wider range and more powerful suite of scientific solutions than Revvity Signals.