Line Card

We represent manufacturers whose technologies sit on the critical path of AI data center deployment. Our current focus is two-phase, direct-to-chip liquid cooling — built for the rack densities AI workloads now demand, from 150–250 kW per rack with deployments pushing toward 288 kW in 48U. Each partner is selected for technical relevance, production readiness, and fit with the engineering teams shaping today's greenfield and high-density projects.

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Technology Focus

Two-Phase, Direct-to-Chip Liquid Cooling

The thermal envelope of next-generation GPU deployments has outgrown what air and single-phase loops can serve. Two-phase, direct-to-chip is the cooling architecture purpose-built for that ceiling — covering the full thermal path from the processor through the coolant distribution unit out to the facility's heat rejection infrastructure.

Density

150–250 kW per rack, with deployments pushing toward 288 kW in 48U. Sized for current and next-generation GPU stacks.

Coverage

Chip to chiller — full thermal-path coverage from direct-to-chip cooling at the processor, through the CDU, out to facility heat rejection.

Leak Profile

Dielectric refrigerant — leak-safe by chemistry. A leak does not damage hardware.

Serviceability

~90% of critical components hot-swappable, with N+1 pump redundancy and auto-failover. Built for uptime in 24/7 environments.

Manufacturer partner announcements forthcoming. Additional product categories — power distribution, deployment infrastructure — are being added to the line card.

Why Two-Phase, Why Now

AI data center infrastructure is built in layers, compute, cooling, power, and deployment. As rack densities move past 100 kW and continue climbing, cooling architecture is becoming a much earlier and more consequential design decision. Two-phase direct-to-chip cooling is one of the clearest examples of that shift.

Density

GPU racks are now running at 150–250 kW, with deployments pushing toward 288 kW in 48U. Air and many legacy cooling assumptions are reaching their limits.

Efficiency

Two-phase systems can reduce facility cooling burden by operating with warmer water and a more efficient thermal path, improving long-term site performance.

Reliability

Refrigerant-based dielectric cooling changes the risk profile of liquid cooling, reducing the consequences of leaks while supporting dense, serviceable deployments.

On a project? Let's align.

If you're specifying cooling on an AI build, we can help frame the architecture and bring the right manufacturer resources into the conversation.

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