GOTTOGPOWER Micro Modular Data Center for Aikang Medical Center in Beijing, China-GOTTOG_Focusing on new energy digital power products

GOTTOGPOWER Micro Modular Data Center for Aikang Medical Center in Beijing, China

[Abstract]: Beijing Aikang Medical Center adopted Gottogpower’s GT‑DC8000 micro modular data center to power its digital healthcare transformation with stable, intelligent infrastructure for core medical systems.

1. Project Background

With the rapid development of healthcare informatization, hospital operations have become increasingly dependent on stable and continuously operating data center systems. Critical services including patient data management, medical imaging diagnosis, emergency response systems, and hospital information platforms all require 24/7 uninterrupted operation.

However, the original IT infrastructure environment gradually exposed limitations in scalability, environmental stability, and centralized management capability. As medical data volumes increased rapidly, the density of servers and storage systems also continued to rise, placing significantly higher demands on power continuity, cooling efficiency, and real-time infrastructure monitoring capability.

At the same time, traditional server room construction methods presented several operational challenges, including long deployment cycles, complex maintenance procedures, and limited space utilization efficiency. These limitations were no longer sufficient to support the growing requirements of modern smart hospital development.

To address these challenges, the medical center decided to upgrade its existing server room environment and establish a more compact, intelligent, and modular data center infrastructure platform capable of supporting long-term smart healthcare development.

2. Project Requirements

During the planning phase, the customer proposed several critical infrastructure requirements focused on business continuity, operational reliability, and intelligent management capability.

First, the hospital’s core business systems required extremely high power reliability. Whether for electronic medical records, medical imaging systems, outpatient platforms, or clinical management systems, any power interruption or system downtime could directly affect medical operations and patient service continuity.

Second, because the available server room space inside the hospital was limited, the infrastructure solution needed to achieve a highly integrated design capable of consolidating power distribution, cooling, monitoring, and cabinet systems within a compact deployment footprint while still supporting future business expansion.

Third, the hospital data center required highly stable environmental control conditions. Servers, storage systems, and networking equipment needed to operate continuously within precise temperature and humidity ranges to ensure long-term reliability of healthcare information systems.

In addition, the customer wanted to establish a highly visualized and intelligent management platform capable of providing real-time infrastructure visibility, improving operational response efficiency, and reducing manual inspection workload.

The hospital also required centralized monitoring capability for UPS systems, batteries, cooling systems, and environmental conditions in order to improve overall infrastructure management efficiency and early risk warning capability.

3. Solution

To meet the healthcare industry’s strict requirements for business continuity and intelligent operation management, Gottogpower deployed the GT-DC8000 Micro Modular Data Center solution integrated with an intelligent modular UPS power system, precision cooling systems, battery backup systems, centralized environmental monitoring platform, and a 65-inch large-screen visualization system.

The GT-DC8000 micro modular architecture adopts a highly integrated design that consolidates power supply systems, cooling systems, monitoring systems, and cabinet infrastructure into standardized modular units. This significantly improves deployment efficiency while reducing long-term operation and maintenance complexity.

For power protection, the project utilizes an intelligent modular UPS system as the core power protection platform, providing continuous and stable uninterruptible power supply for critical hospital IT systems. The modular architecture supports flexible capacity expansion, allowing additional power modules to be deployed according to future growth of hospital information systems without replacing the entire UPS infrastructure.

At the same time, the UPS system supports hot-swappable online maintenance, enabling module replacement and servicing without interrupting ongoing hospital operations, thereby maximizing business continuity for critical healthcare systems.

The integrated battery backup system provides reliable emergency power support during utility power interruptions, ensuring continuous operation of key medical systems.

To ensure stable operation of high-density medical IT equipment, the project also deployed high-precision computer room air conditioning systems. The cooling system continuously maintains stable temperature and humidity conditions within the data center environment, ensuring reliable operation of servers, storage systems, and network equipment.

Meanwhile, the project integrates a centralized intelligent environmental monitoring platform capable of real-time monitoring of UPS operating conditions and load status, battery health and backup performance, precision cooling operating parameters, temperature and humidity conditions, power distribution system status, as well as alarm events including smoke detection and water leakage monitoring.

In addition, a 65-inch large-screen visualization system was installed within the operation center to display real-time infrastructure operating data and alarm conditions. This enables maintenance personnel to quickly understand overall infrastructure status while improving daily operation management and emergency response efficiency.

4. Project Results

Following project deployment, the overall stability, visualization capability, and operational efficiency of the IT infrastructure at Aikang Medical Center in Beijing were significantly improved.

The modular UPS system provided continuous and reliable power protection for critical hospital applications, effectively reducing the risk of business interruption. The precision cooling system improved environmental stability within the server room, providing a safer and more reliable operating environment for high-density medical IT equipment.

At the same time, the centralized monitoring and large-screen visualization system enhanced infrastructure transparency, reduced manual inspection workload, and improved fault response efficiency.

By deploying the GT-DC8000 Micro Modular Data Center solution, the medical center successfully established a modern, intelligent, and scalable digital infrastructure platform that provides strong support for long-term smart hospital development and healthcare digitalization.

Leveraging stable and reliable product performance together with professional and efficient service capability, Gottogpower continues to provide dependable digital infrastructure foundations for next-generation smart healthcare construction.