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Course Outline
Day One
Welcome and Student Introductions
Tab 1 – Introduction to the IT Industry
- Technology trends
- Historical servers, storage, network improvements
- Future trends driving the industry
- Technology uses
- Data generation
- Artificial intelligence and machine learning
- Technology supporting infrastructure
- Data center facility types
- Electricity usage and sustainability
- Network and usage
Tab 2 – Properties of Moist Air
- Temperature and humidity
- Enthalpy and pressure
- Psychrometric chart
- Sensible and latent heat
- Mixing of two air streams
Tab 3 – ASHRAE and Environmental Criteria
- ASHRAE Technical Committee 9.9
- ASHRAE air cooling environments
- ASHRAE air contamination guidelines
- ASHRAE liquid cooling environments
- ASHRAE data center standards
Tab 4 – Defining Uptime Expectations
- Standards and guidelines
- Best practices
- Mechanical system topologies
- Electrical system topologies
- Performance analysis and optimization
- Risk and availability assessment
Tab 5 – Data Center Architecture
- Data Center layout
- Planning a data center floor (Cold Aisle / Hot Aisle)
- Raised floor vs. non-raised floor
- Cabling
- IT placement
Day Two
Tab 5 – Data Center Architecture (continued)
- Air cooling
- Air flow configurations
- CFD analysis
Tab 6 – Data Hall Design Considerations
- Owner’s Project Requirements (OPR)
- ITE Load
- Pysical arrangement
- Uptime expectation
- Data Hall Cooling
- Perimeter cooling
- Liquid cooling
- Data Hall power distribution
- Power Distribution Units
- Critical power distribution
Tab 7 – Mechanical System Design
- Data Center cooling loads
- Mechanical plant equipment
- Chillers
- Heat rejection systems
- Economizers
- Performance metrics
- Power Usage Effectiveness (PUE)
- WUE and CUE
Tab 8 – Uninterruptible Power Supply (UPS)
- Technologies
- Topologies
- Electrical capacity management
Day Three
Tab 9 – IT Equipment
- IT equipment and workloads
- IT equipment thermal design
- Air cooling implementations
- Liquid cooling implementations
- IT interaction with data center
- X factor reliability analysis
- Pressure, DT, airflow
Tab 10 – Data Center Infrastructure Management (DCIM)
- Define and reference
- Goals and use cases
- Reporting structure
Tab 11 – Electrical Codes and Standards
- NFPA 70, National Electrical code
- NFPA 70E, Standard for Electrical Safety in the workplace
- NFPA 75, Standard for the fire Protection of Information Technology Equipment
- IEEE Std. 1100, IEEE Recommended Practice for Powering and Grounding Electronic Equipment (IEEE Emerald Book)
Tab 12 – Electrical System Design
- Utility service and voltage classes
- Standby power and emergency generators
- Primary power and transfer switches
Tab 13 – Case Studies
- Tier IV with 2,400 kW IT Load (NJ)
- Conversion from existing Tier II
- Tier III with 2,400 kW IT Load (MN)
- Equipment galleries
- Tier III with 6,400 kW IT load (CO)
- Modular data halls
- Tier III with 8,200 kW IT load (NC)
- Capacity increase after initial build
Course Schedule
Registration Date/Time:
11/11/2025 8:0am Central Time
Event Dates/Times:
- 11/11/2025 8:30am - 4:30pm Central Time
- 11/12/2025 8:30am - 4:30pm Central Time
- 11/13/2025 8:30am - 4:00pm Central Time
Location
Venue
Accommodations
Room: rates start at 165
Group Code:
Reserve by: Oct. 16, 2025
Accommodations include:
Program Director & Instructors
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Program Director
Mark Malkin
Mark Malkin
Program Director and Teaching Faculty
Mark P. Malkin, PE, is a program director in the Office of Interdisciplinary Professional Programs in the College of Engineering at UW-Madison. He is a registered Professional Engineer with over 25 years of experience in university facilities project management and HVAC systems design. His course offerings include HVAC, plumbing and fire protection fundamentals, building code reviews, and design and operation of science labs, data centers, museums and libraries. Mark received his bachelor's in Mechanical Engineering from Cornell University, and his MS in Mechanical Engineering from UW–Madison.
Richard Schlosser
Senior Electrical Engineer
Richard Schlosser, principal at TiePoint-bkm Engineering in Baltimore, Maryland, is a registered professional engineer with more than 35 years of experience designing and commissioning Tier III and Tier IV power systems for computer and computer-related facilities. He served as a technical advisor to the Site Uptime Network for more than ten years. Richard holds a Bachelor of Electrical Engineering degree from Johns Hopkins University and a Master of Engineering degree from the University of Wisconsin—Madison.
Stephen O'Neal
Senior Mechanical Engineer
Stephen M. O’Neal, PE, Senior Mechanical Engineer at TiePoint-bkm in Baltimore, MD, is a Professional Engineer with more than 10 years of experience focused on data center and critical infrastructure projects. Stephen specializes in central plant and complex expansion projects within live facilities. Stephen holds a BS in Mechanical Engineering from the University of Pittsburgh
Dustin Demetriou
Senior Technical Staff Member, Sustainability Data Center Innovation
Dustin W. Demetriou, PhD, is a Senior Technical Staff Member at IBM Corporation where he leads the sustainability and data center innovation team. He has more than 15 years of experience focused on data center optimization and advanced electronics cooling technologies. He is the current Vice Chair of the ASHRAE TC 9.9 IT Subcommittee and the past Chair of ASHRAE TC 9.9. Dustin received his BS in Mechanical Engineering from Manhattan College, and MS and PhD in Mechanical and Aerospace Engineering from Syracuse University.