Karen Rhodes
About Karen Rhodes
Karen Rhodes is a Sr. Developer Packaging Systems at Bristol-Myers Squibb in Princeton, New Jersey, where she has worked since May 1987.
Title and Role at Bristol-Myers Squibb
Karen Rhodes serves as the Sr. Developer Packaging Systems at Bristol-Myers Squibb in Princeton, New Jersey. In this role, she is the go-to expert for computer system validation, leading validation efforts and managing test plans and resources. She also acts as the department liaison for 'fix to test to production' requirements, ensuring smooth transitions and high system efficiency.
Expert in Computer System Validation
Karen Rhodes is a subject matter expert in computer system validation. She leads validation efforts, manages test plans, and oversees resource allocation. Her expertise ensures that Bristol-Myers Squibb maintains stringent standards in system validation, crucial for regulatory compliance and operational excellence.
System Administrator Responsibilities
At Bristol-Myers Squibb, Karen Rhodes holds multiple system administrator roles. As the SPS System Administrator, she maintains unique system tables crucial for business operations. Additionally, she serves as the ROBAR System Administrator, where she is responsible for managing shipper label templates. These roles entail significant attention to detail and system integrity.
Communication and Training
Karen Rhodes effectively communicates new system upgrades and enhancements to the business. She is also responsible for system training and onboarding new users, ensuring they are fully equipped to utilize the software efficiently. Her role is pivotal in keeping the team updated and proficient in new technologies.
Collaboration and Project Leadership
Karen Rhodes leads multiple project efforts, collaborating daily with Application Services and QA teams. Her leadership and teamwork capabilities drive successful project outcomes. By managing all system testing requirement evaluations, she ensures that high standards are met, and system functionality is maintained at optimal levels.