Advanced Data Center Cooling Solutions for AI & Supercomputing

Higher Compute. Lower Carbon. Minimal Cost.

GIGABYTE can upgrade your data center with innovative cooling solutions spanning liquid, immersion, and air cooling. Tackle data- and power-intensive workloads in AI development and high-performance computing (HPC) with groundbreaking cooling technology that can unlock better chip performance and stability while reducing your carbon footprint and expenses.

Performance

Advanced cooling ensures stable operations for servers running at peak capacity, which is crucial as the thermal design power (TDP) of processors grows exponentially.

Sustainability

Efficient cooling can improve the power usage effectiveness (PUE) of data centers to as low as 1.02, shrinking the carbon footprint and contributing to ESG goals.

Competitive Edge

Higher chip performance coupled with better cooling translates to lower operating expenses (OpEx) in the long run, giving you a leg up in today's competitive market.

Liquid Cooling: The New Mainstream for AI & HPC

Direct liquid cooling (DLC) or direct-to-chip (D2C) liquid cooling is the leading method of overcoming thermal limits and increasing compute density. GIGABYTE offers a one-stop solution encompassing cooling components at the server level and coolant distribution units (CDUs), manifolds, and DLC racks at the data center level.

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GIGAPOD: Pioneering AI with DLC

GIGABYTE offers the building block of tomorrow's AI data centers with the GIGAPOD, a supercomputing cluster that combines state-of-the-art accelerators, such as AMD Instinct™ MI300 Series, Intel® Gaudi®, or NVIDIA's Hopper and Blackwell GPUs, with DLC or Rear Door Heat Exchangers (RDHx) to provide the compute power necessary to handle the most demanding AI training and inference workloads.

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Explore GIGABYTE's Liquid Cooling Products

Immersion Cooling: Future-proof Your Data Center

Immersion cooling can enhance PUE to a record-low of 1.02, making it the logical next step in delivering more compute while consuming less power. GIGABYTE provides both single-phase and two-phase immersion cooling. GIGABYTE's comprehensive product lineup has everything you need to get started, from immersion-ready servers to immersion tanks.

Experience Immersion Cooling with GIGABYTE

Surpass Limits with Single-phase Immersion

GIGABYTE's total solution includes servers, immersion tanks, coolants and accessories—not to mention incredible support and service. Choose GIGABYTE for one-stop shopping that gives you the choice of cutting-edge AMD EPYC™ or Intel® Xeon® Scalable CPUs for industry-leading compute, as well as EIA or OCP immersion tanks with the option of a built-in CDU for unparalleled flexibility.

Dive into Single-phase Immersion

Explore GIGABYTE's Immersion Cooling Products

G293-S45-IAP1

HPC/AI Server - 5th/4th Gen Intel^® Xeon^® Scalable - 2U DP 8 x PCIe Gen5 GPUs Immersion

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A1P0-EA0

12U EIA Tank

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A1O3-CC0

18OU OCP Tank

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A1P0-EB0

25U EIA Tank

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R183-SF2-IAL1

Rack Server - 5th/4th Gen Intel^® Xeon^® Scalable - 1U DP 4 x PCIe Gen5 GPUs Immersion

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R283-ZF0-IAL1

Rack Server - AMD EPYC™ 9004 - 2U DP 4 x PCIe Gen5 GPUs Immersion

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H263-S64-IAW1

High Density Server - 5th/4th Gen Intel^® Xeon^® Scalable - 2U 4-Node 8-Bay Gen4 NVMe/SATA/SAS Immersion

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TO15-S41-IA01

ORv3 GPU Server - 5th/4th Gen Intel^® Xeon^® Scalable - 1OU DP 8 x PCIe Gen5 GPUs Immersion

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Air Cooling: Breakthrough Innovations

GIGABYTE can pack more compute into a smaller footprint thanks to its proprietary airflow-friendly chassis design and Automatic Fan Speed Control feature, which allows air-cooled servers to output maximum processing while optimizing thermal management. Air-cooled server racks can also be outfitted with RDHx to further enhance PUE.

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GIGABYTE's Featured Air Cooling Products

G893-SD1-AAX3

HPC/AI Server - 5th/4th Gen Intel^® Xeon^® Scalable - 8U DP NVIDIA HGX^™ H200

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G893-ZX1-AAX1

HPC/AI Server - AMD EPYC^™ 9005/9004 - 8U DP AMD Instinct^™ MI300X

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G593-SX1-AAX1

HPC/AI Server - 5th/4th Gen Intel^® Xeon^® - 5U DP AMD Instinct^™ MI300X 8-GPU

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XH23-VG0-AAJ1

NVIDIA MGX™ Arm Server - NVIDIA GH200 Grace Hopper™ Superchip - 2U UP 4-Bay Gen5 NVMe

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G383-R80-AAP1

HPC/AI Server - AMD Instinct^™ MI300A APU - 3U 8-Bay Gen5 NVMe

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G363-SR0-AAX1

HPC/AI Server - 5th/4th Gen Intel^® Xeon^® Scalable - 3U DP HGX^™ H100 4-GPU

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H223-V10-AAW1

HPC/AI Arm Server - NVIDIA GH200 Grace Hopper Superchip - 2U 2-Node 8-Bay Gen5 NVMe

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S183-SH0-AAV1

Storage Server - 5th/4th Gen Intel^® Xeon^® Scalable - 1U DP 32-Bay E1.S NVMe 1600W

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E163-S30-AAG1

Edge Server - 5th/4th Gen Intel^® Xeon^® Scalable - 1U UP 2-Bay Gen4 NVMe/SATA/SAS Titanium

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Data Center Cooling FAQs

How does data center cooling work?

A data center's cooling system takes the heat expelled from servers and removes it from the facility so that processors can deliver peak and stable performance. Traditionally, this was done through computer room air conditioning, or CRAC. However, as AI and HPC chips generate more heat, advanced cooling methods like liquid cooling are being adopted to make data center cooling more effective.

What are the benefits of cooling in a data center?

On a fundamental level, cooling prevents processors from overheating and shutting down, so effective cooling is essential to smooth operations in high-performance, high-availability data centers. As computing becomes ubiquitous in modern society, superb data center cooling can help a corporation reduce its carbon footprint and make it more competitive and cost-efficient.

What is the future of data center cooling?

Direct liquid cooling (DLC), where liquid coolant is piped into servers to chill essential components, and immersion cooling, where servers are submerged in a bath of dielectric coolant, are already replacing traditional air cooling in many newly built data centers. The future of data center cooling revolves around green computing solutions that will improve the facility's power usage effectiveness (PUE) so that operators can generate more compute for less operating expenses (OpEx) and lower carbon emissions.

What are the key considerations for data center cooling?

When adopting new cooling technology, the data center's existing infrastructure must be evaluated for compatibility. For example, air cooling infrastructure lacks the facility cooling loop to support the liquid-to-liquid variation of liquid cooling, and so hybrid liquid-to-air cooling through the use of rear door heat exchangers (RDHx) may be the optimal choice. The data center's desired ambient temperature, which may be subject to regulations, must also be considered. It is important to work with a data center solution provider—such as GIGABYTE—to review your requirements and limitations so you can receive a bespoke data center cooling system best suited to your needs.

Trusted by the World’s Leading Innovators

Automotive: Air Cooling

Satisfying Your Need for Speed: Server Technology Helps to Achieve Aerodynamic Vehicle Design

Aerospace: Direct Liquid Cooling

GIGABYTE Servers Become Part of the German Aerospace Center’s Data Center

5G: Single-Phase Immersion Cooling

Japanese Telco Leader KDDI Invents Immersion Cooling Small Data Center with GIGABYTE

Electronics: Two-Phase Immersion Cooling

Semiconductor Giant Selects GIGABYTE’s Two-Phase Immersion Cooling Solution

Solution

GIGABYTE Direct Liquid Cooling Solution

GIGABYTE Direct Liquid Cooling solution focuses on innovative breakthroughs in AI, HPC and cloud computing, delivering outstanding efficiency in heat dissipation while achieving high system availability and stability.

Glossary

Liquid Cooling

Video

GIGABYTE Debuts Liquid Cooled High-density Servers

GIGABYTE announced two high-density servers, H262-ZL0 and H262-ZL2, with direct liquid cooling for CPUs and more. Engineered to cool up to eight CPUs in ...

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Video

What is it? Liquid Cooling in 60 seconds

What is Liquid Cooling? As the name suggests, liquid cooling technology uses liquid as a heat transfer mechanism. Two common liquid ...

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Tech Guide

How to Get Your Data Center Ready for AI? Advanced Cooling

The proliferation of artificial intelligence has led to the broader adoption of innovative technology, such as advanced cooling and cluster computing, in data centers around the world. Specifically, the rollout of powerful AI processors with ever higher TDPs has made it all but mandatory for data centers to upgrade or even retrofit their infrastructure to utilize more energy-efficient and cost-effective cooling. In part one of GIGABYTE Technology’s latest Tech Guide, we explore the industry’s most advanced cooling solutions so you can evaluate whether your data center can leverage them to get ready for the era of AI.

Solution

Single-phase Immersion Cooling with GIGABYTE

Complete single-phase immersion cooling solution under one roof.

Video

GIGABYTE’s One Stop Solution—Single-phase Immersion Cooling 18OU OCP Tank

Data centers must be reimagined if they are to sustain the compute performance required to continue quantum leaps in ...

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Video

GIGABYTE’s One Stop Solution—Single-phase Immersion Cooling 25U EIA Tank

Data centers must be reimagined if they are to sustain the compute performance required to continue quantum leaps in ...

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Interactive Cooling Scenario

Proposing the solution to the ultimate challenge: increasing processing power while reducing the environmental footprint.

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Tech Guide

Two-phase and Single-phase Liquid Immersion Cooling

Glossary

Immersion Cooling

Video

Immersion Cooling in 60 Seconds

Two-Phase Immersion cooling is a new type of cooling technology for data centers. In a two-phase immersion cooled system, electronic components are submerged into a bath of dielectric heat transfer liquid, which is a much better heat conductor than air, water or oil. With a low boiling point (56°C vs. 100°C in water), the fluid boils on the surface of heat generating components, and rising vapor passively takes care of heat transfer. In contrast to submersion oil cooling, two-phase immersion cooling liquids are clean, environmentally friendly and non-flammable. No pumps and jets are required to keep hardware cool. Circulation happens passively by the natural process of evaporation and without spending any extra energy. It is this simplicity that eliminates conventional cooling hardware and results in better cooling efficiency. Compared to traditional air, water or oil cooling, this passive process results in the use of much less energy.

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