Speakers
Muhammad Naveed Saeed
Vice President, Global Delivery Management,
Uptime Institute
Muhammad Naveed Saeed currently holds the position of Vice President of Global Delivery Management, stationed in London, United Kingdom. He leverages his extensive technical and managerial prowess to drive initiatives focused on design standardization, cost optimization, agility, and process enhancement, all with the overarching goal of elevating the efficiency of data center construction and operations.
Boasting nearly two decades of professional experience spanning Europe, Middle East, Africa, and Asia, Saeed's career spans a diverse array of engineering projects and mission-critical facilities. Saeed’s expertise spans the entire project lifecycle, commencing with design, project management, construction oversight, and culminating in commissioning and seamless operational execution. Within his role at Uptime, he plays a pivotal advisory role for data center proprietors, offering strategic counsel on technology roadmaps, Tier compliance, design and execution strategies, and sustainable operational practices.
Furthermore, Saeed serves as an esteemed instructor, imparting knowledge through the delivery of Accredited Tier Designer/Professional courses to data center professionals. He also spearheads advanced seminars, delving into intricate subjects such as Advanced Mechanical & Tiers, Advanced Electrical & Tiers, and Fundamentals of Tier Topology. His commitment to education and mentorship underscores his dedication to nurturing excellence within the data center industry.
In addition to his instructional and advisory roles, Saeed is a recognized authority in sustainability, adding a vital dimension to his corporate profile. His educational background includes a bachelor’s degree in mechanical engineering and a Master's Degree in Mechatronics Engineering, further solidifying his qualifications and profound insights within this domain.
Sessions
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06-Mar-2024Energy Efficiency, Cost Management & DCIM TheatreFireside Chat: The Transitional State of Direct Liquid Cooling