This all-in-one solution reduces complexity and accelerates the deployment times of cloud applications and AI training, both in new data centers and in upgrades (greenfield and retrofit) for colocation and hyperscale facilities.
The implementation of Vertiv SmartRun offers significant advantages in scalability and efficiency, providing end-to-end speed and adaptable configurations to meet diverse design requirements. Thanks to its prefabricated assembly, plug-and-play design, and simplified single-lift installation process, Vertiv SmartRun can accelerate deployments by up to 85% compared to traditional on-site component-based methods, enabling data center installations exceeding 1MW in a single day with a single crew. The pre-engineered system reduces personnel requirements for engineering review and installation of switchgear, piping, network cabling, and hot aisle containment systems, offering a seamless approach to integrating overhead infrastructure.
The system also addresses the white space challenges associated with incorporating new heat removal technologies in AI data centers by integrating a secondary fluid network into the Vertiv SmartRun design. Prefabricated systems with stainless steel piping mitigate the complexity of design, manufacturing, and commissioning by providing a single source for comprehensive liquid cooling of the data center.
“As digital infrastructure demands evolve, organizations require solutions that accelerate growth without adding complexity,” said Viktor Petik, Senior Vice President of Infrastructure Solutions at Vertiv. “Vertiv™ SmartRun represents a strategic investment in prefabricated, high-density infrastructure that delivers operational agility and facilitates seamless expansion to support the future of high-density computing.”.
Vertiv™ SmartRun is supported by Vertiv™ Liquid Cooling Services and Vertiv™ Services, global networks of experts available to provide comprehensive support during the installation, maintenance, and optimization of liquid-cooled infrastructure, improving efficient thermal management and long-term reliability in high-density environments.

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