01 Challenges Faced by AIDC

The rapid development of AI technology has numerous issues with traditional Artificial Intelligence Data Centers/Computing Power Centers (AIDC), including long infrastructure construction periods, prolonged capital occupation, high PUE (Power Usage Effectiveness) and energy consumption, insufficient power supply, and high electricity costs.

How to improve the energy efficiency of AIDC, achieve green and low-carbon development, and promote the integration of green power and green computing power has become an inevitable trend.

02 Kortrong Green AIDC Solution

Recently, Kortrong launched its groundbreaking "One-Stop solution for Green AIDC" using green power as the fundamental guarantee for the construction and continuous operation of AIDC. The solution utilizes core technologies such as modular pre-installed containers and immersion liquid cooling. It consists of key equipment including immersion liquid-cooled IT container units, closed-loop cooling towers/dry coolers, power supply container units, backup power container units, and an optional booster station, enhancing investment returns and ensures the stable operation of the AIDC.

03 Value and Highlights

- Green Power: The independent power supply system of Source-Grid-Load-Storage (SGLS) works in tandem with the grid to provide continuous and stable green power to the AIDC. This reduces electricity costs and enhances economic efficiency.

- Simplified Installation: With a modular design and pre-installation delivery, there is no need to build new buildings. The system allows for onsite, modular installation, making expansion easy. This shortens the installation timeline of the AIDC from 10-15 months to as little as 1-3 months.

- Full Immersion Liquid Cooling: By utilizing full immersion liquid cooling technology and intelligent multi-level temperature control strategies, the PUE value of traditional intelligent computing centers, which is typically 1.4–1.5, can be reduced to 1.05–1.10, resulting in more than 30% energy savings.

- High Cabinet Power Density: The use of flow immersion liquid cooling technology ensures that core components such as GPUs and CPUs inside the servers operate within the optimal temperature range, allowing the IT cabinets to support power densities exceeding 100 kW.

- Server Retrofit and Full Lifecycle Maintenance: Transform high-end servers such as H100/RTX 4090 with immersion liquid cooling technology, providing comprehensive cleaning, maintenance, and technical support services throughout the entire lifecycle.

- Convenient Operations and Maintenance: Servers maintain a modular design, supporting the replacement of individual components such as hard drives and power modules, thereby reducing the maintenance workload of the AIDC.

04 Application Scenarios

AIDC provides computing power services as public infrastructure, offering computing power, data, and algorithm services required by artificial intelligence to government and enterprise users. The application scenarios are extremely broad.