Why Advanced Liquid Cooling Is Important?
Liquid Cooling Solutions for Modern Applications
Direct Liquid to Chip (DLC)
DLC systems utilize cold plates connected directly to CPUs, GPUs, and memory components, circulating coolant through precision-engineered channels to extract heat with minimal thermal resistance. This targeted approach allows for:
- Enhanced Thermal Efficiency: DLC directly removes heat from processors, achieving 20-25°C lower operating temperatures compared to traditional air cooling.
- Increased Compute Density: Support for racks exceeding 80kW without thermal throttling, enabling higher performance per square foot.
- Lower Power Usage Effectiveness: Reduce PUE by 30-50%, significantly cutting energy costs while freeing computing power.
- Scalability for AI & HPC Workloads: Optimal cooling for power-hungry GPUs and accelerators used in artificial intelligence and scientific computing.
Our DLC implementations are vendor-agnostic, allowing us to select the optimal components for your specific workloads and infrastructure requirements. From retrofitting existing data centers to designing greenfield facilities, our engineering team ensures seamless integration and maximum cooling efficiency.
Rear Door Heat Exchangers (RDHx)
As servers push hot exhaust air toward the rear of the rack, the RDHx removes this heat through highly efficient heat transfer to a circulating coolant. This approach provides numerous advantages:
- Superior Cooling Capacity: Effectively cool high-density racks exceeding 30-50kW without extensive facility modifications.
- Improved Energy Efficiency: Reduce or eliminate dependency on traditional CRAC/CRAH units, lowering PUE by up to 30%.
- Space Optimization: Eliminate the need for hot/cold aisle containment while enabling higher rack densities.
- Retrofit-Friendly Implementation: Easily integrate into existing data centers without overhauling entire cooling systems.
Our RDHx solutions include passive and active variants, allowing for customized implementations based on your specific heat loads, space constraints, and efficiency goals. This technology excels particularly in hybrid cooling strategies for AI and high-performance computing environments.
Single Phase Immersion Cooling
Our single-phase immersion solutions maintain the fluid in a liquid state throughout the cooling process, creating a simplified yet highly efficient cooling architecture:
- Maximum Thermal Efficiency: Near-isothermal operation with consistent temperatures across all compute nodes, supporting heat loads exceeding 100kW per rack.
- Ultralow PUE: Achieve industry-leading PUE values of 1.03–1.1 by eliminating fans, CRAC/CRAH units, and other cooling infrastructure.
- Extended Hardware Lifespan: Stable thermal conditions and protection from environmental contaminants reduce failures and extend equipment life.
- Space Optimization: Compact tank designs allow significantly higher compute density per square foot, optimizing valuable data center space.
Triton Thermal provides comprehensive immersion cooling solutions, including tank design, fluid selection, heat exchangers, and integration with facility cooling systems. Our engineering team ensures proper implementation for optimal performance, reliability, and long-term operational efficiency.
The Triton Thermal Advantage
- Vendor-Agnostic : We select the optimal technologies based on your needs, not limited to specific manufacturers.
- End-to-End Expertise: From whitespace to grayspace, we design integrated cooling systems that optimize efficiency across your entire facility.
- Hybrid Cooling Integration: We combine liquid, air, and immersion technologies to create the most effective and efficient thermal management strategy.
- Total Cost of Ownership Optimization: Our solutions deliver measurable ROI through reduced energy consumption, increased compute capacity, and extended infrastructure lifespan.
Let our experts design your optimal cooling solution. Contact Triton Thermal today to start your journey toward more efficient, sustainable, and powerful computing.