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Superior Effectiveness of Liquid Cooling with Proven Deployments at Scale

Switching from Air Conditioning to More Effective Liquid Cooling Reduces OPEX by more than 40%

  • A Switch from Air Conditioners to Liquid Cooling Technology Saves Energy
  • Additional power is saved by reducing system Fan Operation
  • 1 Year Average Payback on Facility Investment increases the ROI

Liquid Cooling Efficiency Dramatically Improves the PUE of Data Centers for High Performance, High Power CPUs, and GPUs

  • Liquid is fundamentally more efficient at removing heat by up to 1000x
  • Future generations of CPUs and GPUs may require liquid Cooling as air cooling capacity is exceeded
  • The Highest performance and Highest Density servers can be supported, increasing computing capacity per sq. ft.

Reduces Costs and Environmental Impact

  • Liquid cooling reduces power usage and lowers carbon emissions from fossil fuel power plants. Reducing the environmental impact of today's data centers is becoming a corporate responsibility.
Benefits
Liquid Cooling Benefits Graphic

Why Liquid Cooling is Becoming Necessary

Costs to Cool Datacenter/Computer Rooms are Growing.

Latest Generation CPUs: 400 Watts

Latest Generation GPUs: 700 Watts

Liquid Cooling Solutions

Liquid to Liquid Cooling

Liquid-to-Liquid Cooling Diagram

Immersion Cooling

Immersion Cooling Diagram

Air to Liquid Cooling

Air-to-Liquid Cooling Diagram
Supermicro Offers a Range of Liquid Cooling Integrated Solutions

Direct To Chip Solutions with Rack Integration, Test, Burn-in and Onsite Installation

Experience with Active RDHx and Onsite Integration

Abundant Experience with Multiple Partners

Osaka University – SQUID

Cooling Type – Liquid to Liquid (Direct Liquid Cooling)

Read More About Osaka University and Supermicro Servers

Lawrence Livermore National Laboratory “Ruby”

Cooling Type – Liquid to Liquid (Direct Liquid Cooling)

Press Release: Supermicro Scalable Liquid-Cooled Supercomputing Cluster Deployed at Lawrence Livermore National Laboratory for COVID-19 Research

ITRI x KDDI: Immersion Cooling Edge Data Center

ITRI and KDDI co-worked to design and build the immersion cooling edge data center in in cooperation with several global IT companies, including Supermicro

Cooling Type – Immersion

Play the video

NASA SCU14 Utilizes Cooling Doors

NASA SCU14
Chiller Door

Cooling Type - Chilled Doors

Article: NCCS Expanding Discover Supercomputer to 5 Petaflops

To Learn More about How Supermicro can help you:
  • Reduce Your Data Center Costs and Lower the PUE
  • Achieve Higher Performance from your CPUs and GPUs
  • Get Higher Density with Innovative Solutions

Read the Rack Scale Liquid Cooling Solution Guide

View Solution Guide

Liquid Cooling Solution Guide cover

Read the Liquid Cooling Solutions White Paper

View White Paper

Liquid Cooling White Paper cover

Read the Liquid Cooling Tower Solution Datasheet

View Datasheet

Liquid Cooling Tower Solution datasheet cover

Read the Immersion Cooling White Paper

View White Paper

Immersion Cooling White Paper cover

Supermicro’s Rack Integration Services Delivers Complete Racks, Tested and Configured

Learn More

For Questions Regarding Liquid Cooling from Supermicro,

Contact us