Direct Liquid Cooled
Optimized PUE Scores
Direct Liquid Cooling (DLC) significantly improves data center efficiency by reducing reliance on traditional air cooling, leading to lower Power Usage Effectiveness (PUE) scores. By directly absorbing heat at the source, DLC minimizes energy waste, enhances thermal management, and enables higher-density computing with optimized power consumption. This results in lower operating costs, improved sustainability, and a more efficient data center infrastructure.
Key Features of Direct Liquid Cooling
Direct Liquid Cooling (DLC) enhances data center efficiency by directly transferring heat away from high-performance computing components, reducing energy waste and improving thermal management. This technology enables higher computing density while significantly lowering cooling-related power consumption, optimizing PUE scores.
Superior Heat Dissipation
DLC efficiently removes heat at the source, allowing for better temperature control and higher performance.
Reduced Energy Consumption
By minimizing the need for air cooling, DLC lowers overall power usage, leading to improved sustainability and cost savings
Increased Computing Density
With more effective cooling, DLC supports higher-density workloads, enabling data centers to maximize space and processing power.
How Direct Liquid Cooled (DLC) Works:
1. Direct-to-Chip Cooling – Liquid coolant flows through cold plates mounted directly onto CPUs, GPUs, and other heat-generating components, absorbing heat at the source.
2. Closed-Loop Circulation – A closed-loop system continuously pumps coolant through heat exchangers, preventing contamination and minimizing fluid loss.
3. Heat Exchange & Dissipation – The heated coolant transfers thermal energy to a heat exchanger or liquid-to-liquid cooling system, efficiently removing excess heat.
4. Facility-Level Heat Reuse – Waste heat can be repurposed for secondary applications like building heating, improving overall energy efficiency.
5. Automated Thermal Management – Smart sensors and real-time monitoring optimize coolant flow, maintaining optimal operating temperatures and reducing power consumption.