Navigating the Path to Agile Excellence: Metrics that Matter in DevOps Transformation
In today's rapidly evolving tech landscape, transitioning to agile and DevOps practices is crucial for organizational growth. However, many teams struggle to gauge their progress effectively within these methodologies. In this insightful session, Cholette will explore the key metrics that drive success in agile and DevOps adoption, focusing on best practices that can be applied across various organizational settings. Delving into essential metrics drawn from industry best practices, Cholette will shed light on the critical indicators for understanding progress and fostering continuous improvement. From scrutinizing cycle times and deployment frequencies to evaluating team morale and customer satisfaction, this session offers pragmatic guidance on measuring success within these transformative frameworks. Attendees will glean valuable insights on how to track, analyze, and leverage these metrics to steer their organizations towards agility, efficiency, and sustained growth in development processes. Join Cholette to discover how these best practices can propel your team towards agile excellence and a successful DevOps transformation.
Cholette Voehl is a Senior Principal Agile Program Manager at Discover Financial Services. She's a highly accomplished technology professional with 20+ years of experience in the industry featuring a strong background in project/program management, Scrum, Agile methodologies, and software implementation. Cholette has consistently utilized metrics to drive informed decisions and optimize outcomes throughout their career. Cholette understands the critical role that metrics play in effectively managing projects and driving success. She has successfully implemented metrics-driven strategies to measure performance, track progress, and identify areas for improvement. Her ability to leverage metrics in decision-making has been instrumental in achieving exceptional results and maximizing the efficiency of engineering processes.