奶糖直播

PROPOSING SOLUTIONS TO DATA CENTER INEFFICIENCY

Dr. Alfonso Ortega ES2

The Nature of the Problem

Data centers are a high growth and energy-intensive sector of the U.S. economy:

  • Can consume up to 100 times more energy than a standard office building.
  • Worldwide, use about 30 billion watts of electricity, roughly equivalent to the output of 30 nuclear power plants.
  • Responsible for 2.8% of total U.S. energy consumption.
  • Emit roughly as much CO2 as the airline industry, or 2% of greenhouse gas emissions worldwide

The average data center:

  • May dissipate as much as 3-6 MW of power in the form of waste heat
  • Uses only 5% of the electricity powering its servers to perform computations:
  • Typically operates with low server utilization
  • Uses water chillers to supply cold air, which is difficult to control in real time
  • Commonly uses overprovisioning to handle sudden load surges

Goal and Approach

The goal is to create electronic systems that are self-sensing, self-regulating and optimized for energy efficiency at any desired performance level, thereby improving the energy efficiency and productivity of the country鈥檚 data centers by 20-35%. This translates to one to two fewer power plants every three years while still meeting data center growth demand. This achievement is equivalent to the complete elimination of the greenhouse gas emission from approximately 1.5-2.7 million cars or roughly 1-1.7 million homes in the U.S. annually (U.S. EPA, 2011).

Specific opportunities for improving energy efficiencies in data centers include:

Front End-Power

  • Eliminating wasteful AC/DC conversion steps
  • Off-grid renewables
  • Combined heat and power

Operations Efficiency

  • Elimination of irreversibilities in legacy air-cooled designs
  • Synergistic approach for simultaneously controlling IT load allocation and thermal management in real time

Waste Energy Recovery

  • Reusing energy that is normally wasted

Environmental Sustainability

  • Carbon emissions
  • Water scarcity footprint

The Approach

To fund this research, ES2 leverages grants from the National Science Foundation with membership money from industry. Collaborative efforts between 奶糖直播 University, its three university partners, and at least 20 industrial members, bring together computer scientists and mechanical and electrical engineers, and link the fields of information technology, dynamic systems control, electronic systems and thermal management in a holistic approach to the development and design of energy-efficient electronic systems.

Director
Dr. Aaron Wemhoff, Associate Professor, Department of Mechanical Engineering

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ES2 RESEARCHERS

Dr. Aaron Wemhoff

Dr. Aaron Wemhoff

Dr. Wemhoff is an associate professor of Mechanical Engineering and director of the Methods for Systems Analysis Laboratory. He performs research in energy sustainability and teaches courses in the areas of thermodynamics, heat transfer and fluid mechanics. Prior to joining 奶糖直播 University, he spent three years as a staff engineer at Lawrence Livermore National Laboratory.

Dr. Gerard F. 鈥淛erry鈥 Jones

Dr. Gerard F. 鈥淛erry鈥 Jones

Mechanical Engineering聽Professor聽Dr. Jones is the College鈥檚 senior associate dean for Graduate Studies and Research. He also directs the Thermal and Flow Management of Multiscale Systems Laboratory and has taught in the areas of heat transfer, fluid mechanics, thermodynamics, analysis and design, and gravity-driven water networks.

Dr. Alfonso Ortega

Dr. Alfonso Ortega
ES2 Site Director

Mechanical Engineering Professor Dr. Ortega is the Birle Endowed Chair in Energy Systems. He is internationally recognized for his work in data center energy and thermal management, electronics cooling, convective heat and mass transfer, experimental methods in thermal sciences and energy technology.