The global demand for data has seen near-exponential growth, fueled by the pandemic. When many of our jobs moved online, the demand for data increased dramatically.
Strategically located in the north of Osaka, the 485,000 square foot (45,000 square meters) campus will be comprised of two data centers with seismic base-isolation structures.
The Federal Energy Management Program’s (FEMP’s) Data Center Program assists federal agencies and other organizations with optimizing the design and operation of energy and water systems in data centers. It also funds the work at the Center of Expertise for Energy Efficiency in Data Centers (CoE) at Lawrence Berkeley National Laboratory.
Developing an understanding of liquid cooling technologies is crucial for making informed decisions about the future of our data centers, especially in light of rising IT equipment demand and evolving sustainability requirements.
As the built environment continues to change, two building types have remained in high demand: data centers and warehouses. But, further innovation in these building types is lagging.
Complex problems require intricate solutions, and tackling Scope 3 emissions undoubtedly presents a formidable challenge within the realm of carbon emissions reduction.
The initial release of Ctrl-flow allows designers to input project information, the desired systems, and their configurations. The tool will then provide an edited sequence based on ASHRAE Guideline 36-2021 that is specific to the selected options.
On-Demand In this third session we will examine how DCIM can manage the ongoing challenges of moves, adds and changes, while continuous helping to optimize energy efficiency.