Mission-first thermal control for shipboard and shore HPC & AI. The ultimate defense against harsh environments where air is the enemy.
Seamlessly transitioning Midas’s proven commercial technology to the most demanding military theaters.
Since 2010, Midas Immersion has engineered battle-hardened cooling from Austin, Texas. Our American-made technology powers the world’s most advanced AI workloads with industrial-grade reliability.
Successfully integrated into diverse environments, from shore-based data centers to volatile maritime installations.
Trusted partner for the most power-hungry GPU clusters and supercomputing initiatives worldwide.
Our Austin facility produces up to 10MW of cooling capacity every week to meet tight mission timelines.
Engineered for "Always Mission-Ready" status with redundant solutions that allow maintenance in under 10 minutes.
Standard air-cooling is inefficient and exposes sensitive IT to:
Marine air is saturated with salt and humidity. When pulled through servers by fans, it causes immediate oxidation and hardware failure on critical IT interfaces.
Dust, debris, and diesel particulates from shore and shipboard environments clog traditional filters, leading to thermal spikes and system throttling.
Fans are the primary point of failure in standard servers. In high-vibration environments, they cause excessive noise and mechanical breakdowns that jeopardize the mission.
Air is a poor heat conductor. The newest AI infrastructure generates heat densities that standard air-cooling methods simply cannot manage, forcing systems to throttle performance.
The MMXCI creates a total thermal barrier by vacating all air from the system. This patented, closed-loop environment completely isolates your critical IT from external threats.
Removes 100% of internal air to eliminate salt-laden humidity, dust, and airborne debris that compromise high-performance electronics.
Engineered for maritime and mobile operations, our design prevents fluid movement during "Rough Seas" to maintain consistent thermal contact.
The ruggedized chassis acts as a physical shield, protecting sensitive IT from extreme temperature swings and high-vibration shocks in the field.
Liquid cooling allows servers to run at peak speeds without thermal throttling, delivering maximum compute density for mission-critical AI.
While the lid is closed, the system is a secured closed environment.
When opened for service, the system automatically controls fluid levels.
Switch operational modes and swap hardware with zero interruption to service.
For micro-deployments and hard-to-reach locations.
High-density GPU clusters for data centers.
Optimized for specialized compute efficiency.
Rapidly deployable, climate-controlled mobile units.
As AI power demands outpace traditional grids, MIDAS provides the essential infrastructure to reduce cooling and power costs by 30%, meeting the demands of 2026 and beyond.
| Heat Dissipation Capacity | Up to 2kW Per U |
| Immersion Server Capacity | TBD |
| Maximum Server Depth | 30” / 762mm |
| Dimensions | TBD |
| System Power Consumption2 | TBD |
| Water Connection | Needed |
| Water Requirements3 | TBD |
| Ambient Heat Loss | <5% of consumed kW |
| Liquid Volume | TBD |
| Tank Dry Weight | TBD |
| Tank Weight with Dielectric | TBD |
| Pressure Rating (Tank and Coolant) | TBD |
| Pressure Rating (Tank, MMXCI servers & Coolant) | TBD |
| Pump Rating | TBD |
| Cooling Module Power Requirement | 208-240 V / 1 ph / 10 A 60 Hz (customizable) |
| Network | SNMP, SNTP and DHCP Client Enabled |
| Web Interface | Yes |
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