Real-Time Diagnostics · Thermal-Hydraulics · Low-Latency Response

Detecting phase change
before it becomes a problem

thDynamiX develops physics-informed diagnostic systems that detect boiling, cavitation, and flow instabilities in liquid-cooled infrastructure by combining acoustic emission, thermal-hydraulic modelling and real-time digital twins. Enabling millisecond-scale detection of thermal-fluid instabilities.

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Core Technology

Sensing what conventional
instrumentation misses

Boiling onset and cavitation events in liquid cooling systems generate characteristic acoustic emission signatures milliseconds before thermal sensors respond. thDynamiX builds the detection and inference layer that acts on this signal.

Real-Time Decision Layer

Sensor fusion architecture feeding TH data into a fast inference layer for active system protection to maximize power capacity.

Acoustic Emission Detection

High-frequency AE sensing tuned to the spectral signatures of phase-change events in liquid cooling circuits.

Physics-informed Thermal-Hydraulics

Development of proprietary thermal-hydraulic models supporting sensor fusion, real-time state estimation and predictive diagnostics for advanced liquid-cooled systems.

Target Markets

Primary focus: liquid cooling for AI and HPC infrastructure. Future applications include nuclear, fusion and other safety-critical thermal-fluid systems.

Physics-grounded,
experiment-proven

thDynamiX was founded by Jozef Klimo, an applied physicist with over 15 years of experimental experience in nuclear physics and thermal-hydraulics. The company's technology combines first-principles thermal-hydraulics, experimental physics and high-frequency sensing to develop next-generation diagnostics for advanced cooling systems.

ISOLDE-CERN
KU Leuven
ÚJV Řež
JINR Dubna
Cyclotron Institute · Texas A&M

Let's talk

Whether you are exploring diagnostics solutions for liquid cooling infrastructure, interested in collaboration, or have questions about our research — we are open to conversation.

Location Prague, Czech Republic