The Digital Realty Frankfurt FRA31 Data Center, situated at Wilhelm-Fay-Straße 24a, 65936 Frankfurt am Main, Germany, is a substantial facility spanning 75,000 square feet. This data center boasts a robust power infrastructure with access to 9 MW, supporting its operations. While the gross colocation space details are not publicly available, the facility’s strategic location in Frankfurt am Main, a major European data hub, is underscored by the presence of 87 other data center locations within a 50-mile radius. Demonstrating a commitment to operational excellence and security, the Digital Realty Frankfurt FRA31 Data Center holds a comprehensive suite of certifications, including PCI-DSS, ISO 27001, ISO 50001, ISO 90001, ISO 14001, SOC 2, and SOC 3.
Located northwest of Frankfurt, Digital Frankfurt – Wilhelm-Fay-Straße is a state-of-the-art data center campus comprised of three interconnected buildings. This expansive facility offers a total of 16,700 square meters (179,757 square feet) of net technical space, designed to meet diverse data processing needs. Each building features six advanced data suites, each spanning 1,200 square meters (12,916 square feet) of net space. Additionally, the campus provides 5,500 square meters (59,201 square feet) of ancillary space, including dedicated offices, de-box rooms, test rooms, and specialized plant areas, ensuring comprehensive operational support.
Situated on a substantial six-acre site, the facility offers flexible plant solutions and ample dedicated car parking. A robust campus power supply of 40MVA supports a total of 27MW of delivered IT power, equally distributed across the three buildings. The three-story buildings are engineered to deliver 3MW of IT power at the cabinet level, utilizing a distributed redundant (DR) 4 to make 3 UPS system, evenly allocated across the two data suites per floor. Individual buildings are further fortified by a concurrently maintainable medium voltage (10kV) diesel generator system. Cooling is efficiently delivered to each suite via a concurrently maintainable, N+1 capacity system, which incorporates an advanced ‘free cooling’ pumped refrigerant system for optimal energy efficiency.
