Austria | EN | DE
Belgium | EN | FR | NL
Bulgaria | EN | BG
Czech Republic | EN | CS
Denmark | EN
Estonia | EN
Finland | EN

France | EN | FR
Germany | EN | DE
Greece | EN
Hungary | EN | HU
Italy | EN | IT
Luxembourg | EN | FR
Netherlands | EN | NL

Norway | EN
Poland | EN | PL
Portugal | EN | PT
RomaniaEN | RO
Serbia | EN | SR
Slovakia | EN | SK
Slovenia | EN | SL

Spain | EN | ES
Sweden | EN
Switzerland | EN | DE | FR
United Kingdom | EN

Argentina | EN
Bolivia | EN
BrazilEN | BR
ChileEN
Colombia | EN

Ecuador | EN
Mexico | EN
Peru | EN
United States | EN
Venezuela | EN

Bangladesh | EN
China | EN | 简体中文
Hong Kong SAREN | 繁體中文
India | EN
Indonesia | EN | ID

Israel  EN
JapanEN | JA
Pakistan | EN
Singapore | EN
South KoreaEN | 한국어

Taiwan (Chinese Taipei) EN | 繁體中文
Thailand | EN | TH
Turkey | EN | TK
Uzbekistan | EN
Vietnam | EN | VN

Australia | EN
EgyptEN
MoroccoEN  | FR
South AfricaEN

Data centers and supercomputers are facing new challenges: liquid cooling is the solution

Why choose liquid cooling?

In today's fast-paced digital landscape, where emerging technologies continually transform the scene, data centers and supercomputers handle increasingly complex data sets. Given its superior efficiency and ability to handle high heat densities, liquid cooling has emerged as the optimal choice for modern data centers seeking to enhance performance and maintain system reliability. 

AI mainly drives the sector: The data center and supercomputer sector, propelled by the expansion of artificial intelligence (AI), is managing vast amounts of data that significantly increase system heat, necessitating advanced cooling solutions.

• Air cooling can't be efficient when you have more than 20kw per rack. For data centers with a demand exceeding 20kW per rack, air-cooling systems may no longer provide efficient thermal management, highlighting the need for more advanced cooling techniques.

New environment requirements: In response to the latest environmental requirements, data centers and supercomputers are advancing toward green system status by adopting energy-efficient technologies and sustainable operations.

Energy consumption requirements: To meet data centers’ stringent energy consumption requirements, implementing strategies to achieve optimal Power Usage Effectiveness (PUE) is crucial for maximizing efficiency and minimizing environmental impact.

Build modular systems closer to the actual needs: Modularity is essential in the dynamic landscape of data center construction. It allows for scalable designs that accommodate the seamless integration of fixed and removable components to support evolving technological demands.

SUCCESS STORY COOLIT

They switched to liquid cooling, why not you?

When CoolIT started designing cooling solutions for data centers, they acknowledged the numerous advantages of liquid cooling. However, they faced the challenge of developing a dependable and foolproof system that would allow for the safe removal and integration of servers into a liquid-cooled environment. They choose Stäubli connectors for liquid cooling.

How to face actual challenges?

White Paper

This White Paper from Stäubli discusses the numerous challenges faced by data centers to ensure flawless service continuity

  • Maximising data storage
  • Guaranteeing equipment and data security
  • Improving energy efficiency
  • Reducing hot swapping times and ultimately maximising uptime and productivity

Download our White Paper

Policies

Sorry, we encountered a technical issue. Please try again.

check-confirm

Thank you for your submission!​

Your white paper is on its way - check your inbox shortly. For more on Stäubli Fluid Connectors, visit our website now.​

Best, The Stäubli Team