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Features
The liquid cooling system features high density, energy efficiency, and reliability, easy deployment, and O&M.
High Density
A cabinet can house up to twenty 2288C V5 servers.
- A single cabinet provides a maximum of 19.2 kW heat dissipation capability.
High Energy Efficiency
- It supports up to 32°C (89.6°F) inlet water and natural cooling. The cooling PUE can reach 1.05.
- The cabinet is airtight, and all heat is removed from the cabinet by using the liquid cooling system, achieving optimal heat exchange efficiency.
- The liquid-cooled compute node provides higher cooling efficiency and supports up to 50°C (122°F) inlet water.
High Reliability
- Less CRACs are required, which improves the reliability and maintainability of the cooling system.
- Water blocks with reinforcement design ensure long-term reliable and stable operation.
- High-quality corrosion-resistant liquid pipe components ensure long-term reliable and stable running.
- Integrated monitoring system prevents condensation and leakage of the water pipes, and enables automatic exhaust.
- High-quality pipe components and redundancy design of key components ensure high system reliability.
Easy Deployment
- The cabinet is airtight and does not require air channels in the equipment room, which facilitates deployment.
- The cabinet runs once it is powered on and liquid cooling is available, which makes deployment more flexible and efficient.
- The cabinet can be installed with a small coolant distribute unit (CDU), which eliminates the need of the secondary side pipe.
Easy O&M
- A single liquid-cooled compute node can be installed or removed separately for maintenance purposes.
- Leak-proof connectors enable simple plug and play.
- The liquid cooling system can be remotely monitored by the NMS, which facilitates management and O&M.