Waterless Liquid Cooling For High-Performance Financial Computing

Enable faster trading, real-time analytics, and AI-driven financial workloads with waterless direct-to-chip liquid cooling designed for modern financial data centers.

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Built for the Demands of Financial Infrastructure

Financial services organizations operate some of the most performance-sensitive computing environments in the world. From real-time trading systems to AI-driven market analysis, infrastructure must deliver consistent performance, high reliability, and scalable compute capacity.

ZutaCore HyperCool® is designed to support these demanding environments by removing thermal limits and enabling efficient high-density computing.

 

Maintain stable CPU and GPU performance for latency-sensitive trading, analytics, and financial workloads without thermal throttling.

Support next-generation processors and AI-driven financial applications with cooling designed for modern high-power compute environments.

Protect sensitive systems with ZutaCore’s two-phase direct-to-chip cooling that removes heat efficiently while keeping water away from servers.

Thermal Challenges Facing Financial Institutions

latency performance risks

Latency Performance Risks

Thermal instability and processor throttling can introduce latency variability that impacts trading performance and real-time analytics.

compute density growth

Compute Density Growth

Next-generation CPUs and GPUs are driving power densities beyond the limits of traditional air cooling in financial data centers.

colocation capacity limits

Colocation Capacity Limits

Space, power, and cooling constraints in colocation facilities restrict the ability to scale high-performance financial infrastructure.

The HyperCool® Solution

Direct-to-Chip Cooling

Direct-To-Chip Cooling

HyperCool removes heat directly from the processors powering trading platforms, AI analytics, and market data systems. This enables higher compute density per rack and consistent performance for latency-sensitive financial workloads without thermal throttling.

Increased Compute Density

Waterless by Design

Unlike immersion or traditional liquid cooling that relies on water near electronics, HyperCool uses a closed-loop two-phase system that keeps water away from servers. This reduces operational risk while enabling efficient cooling in colocation environments where reliability is critical.

Energy Savings

Energy Savings

HyperCool reduces cooling power requirements by up to 70%, helping financial institutions lower operational costs while supporting increasingly dense compute infrastructure used for trading, analytics, and AI workloads.

Environmentally Friendly

Sustainable Cooling

Financial infrastructure often operates across strategic colocation facilities near exchanges and market hubs. HyperCool’s modular architecture allows organizations to deploy high-density compute and scale infrastructure without costly facility redesign or additional cooling systems.

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Zutacore

Power the Future of Financial Infrastructure

Discover how waterless direct-to-chip liquid cooling enables financial institutions to increase compute density, maintain trading performance during market volatility, and scale infrastructure in colocation environments.

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What Our Clients Are Saying

“When implemented on Intel technologies, we found ZutaCore’s HyperCool® to be a reliable, scalable, and cost-effective liquid cooling technology, well suited for both brown and greenfield projects.”

Earl Dodd

Global HPC Business Practice Leader at WWT

“By deploying ZutaCore’s direct-to-chip liquid cooling technology, we were able to increase the density of servers in a rack, while also using less electrical power for fans. Also, in comparison to a water based solution, ZutaCore technology allowed us to achieve greater server density and reduce energy costs while operating at higher liquid temperatures compared to water-based systems.”

Holger Angenent

Leader of CIT e-Science Infrastructure Group at University of Münster

"We have been thrilled with our efficient transition to HyperCool. This system has vast potential in enhancing power within the rack and enabling an energy-efficient leap towards next-generation servers."

Maurizio Davini

CTO at University of Pisa