No CDU, no chiller tower. Negative-pressure phase change carries heat out of 45KW cabinets silently, with PUE convergent at 1.08.
Industry Status
2024 — 2026
Liquid cooling isn't about better cost-effectiveness — it's about air cooling reaching its limit.
Modern AI chips have pushed past the boundaries of traditional thermal management. When a single chip needs over 1000W of cooling, air isn't an option — it's just a plan that overheats.
The mission of liquid cooling isn't saving money — it's ensuring continuous, stable operation and extended component lifespan, protecting your computing investment. That's why we chose two-phase cooling: not because it's new, but because it's the only approach that can keep pace with chip power growth.
New-gen AI chip power
Air cooling limit
Power density gap
The human body dissipates heat through sweat evaporation. RK-01 mimics this natural mechanism, using phase change to carry heat away in a closed-loop cycle.
High-power chips directly heat the attached two-phase cold plate, with heat conducted efficiently through liquid-metal interfaces.
Eco-friendly working fluid vaporizes inside the cold plate, rapidly removing substantial heat through phase change — no high-power pump required.
Hot gas transfers naturally through piping to the outdoor condenser, driven by temperature differential — the entire process consumes almost no energy.
Outdoor temperature differential condenses gas back to liquid, returning to the reservoir to complete the cycle. That's why we don't need CDUs or chiller towers.
Industry-leading efficiency
Per-chip cooling capacity
Energy reduction (vs air)
CDU/chiller required
Single-phase liquid cooling is mature, but its limitations in high-power scenarios are evident. Two-phase cooling isn't an optimization — it's a solution redesigned from first principles.
Higher chip power creates more vigorous vaporization and better cooling — we haven't found a theoretical limit yet.
Neogenint's proprietary fanless power supply achieves true silent operation through two-phase liquid cooling. Industry-first, paired with RK-01, liberates data centers from 95dB noise floors.
Equivalent to office environment noise level
High power output
Titanium efficiency
Operating noise
Fans
Fanless power supply available for separate purchase. Contact sales for custom specifications. Ideal for high-performance computing scenarios requiring silent operation.
PUE measures total facility power divided by IT equipment power. 1.0 is the theoretical limit — we achieve 1.08.
Annual energy saved
OpEx reduction
Carbon reduction
87% energy reduction isn't a marketing number — it means intelligence can live anywhere there's power, not just in hyperscale data centers.
Calculated based on actual chip power, no hidden fees. Pricing adjusts to site conditions, typically achieving PUE below 1.15.
Final pricing requires site survey. Contact us for custom solutions and detailed quotes.
Contact us to learn more about RK-01 two-phase cooling system or schedule a site survey with our engineers.