Jan. 16, 2013
/PRNewswire/ -- Automated Logic Corporation (ALC), a leading provider of innovative building automation solutions that maximize energy efficiency while ensuring occupant comfort, is providing critical building monitoring and control for the new High-Performance Computing Research Center (HPCRC) at
. The facility is one of only nine high-performance data centers in the world to achieve U.S. Green Building Council
Leadership in Energy and Environmental Design (LEED
) Gold certification. ALC is part of UTC Climate, Controls & Security, a unit of United Technologies Corp. (NYSE: UTX).
"We're proud to be the building automation provider for this important project," said
, president, ALC. "The installation of our WebCTRL
system at HPCRC underscores our expertise and commitment to helping customers achieve their sustainability goals in the mission-critical and education sectors."
, the 47,000 sq. ft. facility is home to
's Terascale Infrastructure for Groundbreaking Research in Science and Engineering, also known as TIGRESS. The facility contains nearly 1,800 computers that support major research initiatives, administrative systems and departmental functions.
HPCRC received LEED Gold certification in 2012 and is currently consuming one-third less energy than the former data center on campus. That level of performance is aligned with
's ambitious sustainability plan, which promotes sustainable building technologies to reduce energy demand and conserve water.
The centralized computing facility features sophisticated heating, ventilation and air conditioning (HVAC) technology, monitored and controlled by ALC's WebCTRL system. Three chillers maintain water temperature at approximately 45 degrees Fahrenheit to air-cool the computers, which generate excessive heat; the system can switch to outside air during colder months. A natural gas-driven generator, switched on when electricity prices spike, features a co-generation function that captures expelled heat as a source of energy to chill water. The WebCTRL system provides multiple levels of redundant (N+1) control, backed by extensive trend reporting capabilities.