Vertiv announced that it is releasing a complete 7MW reference architecture of the NVIDIA GB200 NVL72 platform, co-developed with NVIDIA,
that will enable customers to transform traditional data center
architectures into AI factories capable of powering AI applications
across the enterprise.
The reference architecture will accelerate the deployment of the NVIDIA
GB200 NVL72 liquid-cooled rack-scale platform and supports up to 132kW
per rack. The architecture takes an end-to-end approach to infrastructure design
to optimize deployment speed, performance, resiliency, cost, energy
efficiency and scalability for current- and future-generation data
centers.
"We are proud to deepen our collaboration with NVIDIA to enable
AI-driven data centers of today and tomorrow," said Giordano (Gio)
Albertazzi, CEO of Vertiv. "As a leader in critical power and cooling
infrastructure, Vertiv is uniquely positioned to support the NVIDIA
GB200 NVL72 platform. Our portfolio of high-performance power and
cooling solutions, combined with our global scale, will enable customers
to deploy AI data centers faster, more efficiently and with greater
flexibility to address densification, dynamic workloads, retrofits and
enable future-ready designs."
"New data centers are built for accelerated computing and generative AI
with architectures that are significantly more complex than those for
general-purpose computing," said Jensen Huang, founder and CEO of
NVIDIA. "With Vertiv's world-class cooling and power technologies,
NVIDIA can realize our vision to reinvent computing and build a new
industry of AI factories that produce digital intelligence to benefit
every company and industry."
With Vertiv power and cooling infrastructure matched to, and closely
coupled with, the NVIDIA Blackwell platform, the reference architecture
simplifies and accelerates deployment of AI workloads in new and
existing data centers while reducing risk and enabling standardization
across sites. The architecture's complete critical power infrastructure
is designed to significantly reduce stranded power by aligning AI
clusters to data center capacity blocks. The hybrid liquid- and
air-cooling infrastructure leverages the interdependent impact of the
two approaches to efficiently manage high-density heat removal. In
addition, the design includes guidance for optional Open Compute
Project-inspired systems, such as DC power shelves.
The reference architecture is part of the Vertiv 360AI portfolio of
reference designs for retrofit and greenfield data centers, designed to
help customers navigate integrated solutions for power and cooling for
AI and other high-performance computing applications. Key benefits of
the co-developed reference architecture for the NVIDIA GB200 NVL72
design include:
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Rapid Deployment and Retrofit: Enabling the use of preconfigured
modules and factory integration, Vertiv MegaMod CoolChip delivers
turnkey AI critical infrastructure up to 50% faster than onsite builds.
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Space-Saving Power Management: Using Vertiv's advanced power
technologies, including Vertiv Trinergy uninterruptible power supply
system (UPS) and Vertiv EnergyCore lithium battery cabinet, the design
delivers industry-leading reliability and energy-efficient power
management in ~40% less space compared to legacy offerings.
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Energy-Efficient Cooling: Integrating liquid and low-GWP (Global
Warming Potential) air cooling technologies at scale - including Vertiv
AFC chiller, Vertiv Liebert CW chilled water-based room cooling
system and Vertiv XDU coolant distribution units - offers up to 20%
lower annual cooling costs compared to fixed screw solutions.
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Dynamic Workload Management: Integrated load averaging via lithium-ion battery and next generation UPS provides support for dynamic GPU workloads.
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Installation and Operations Services: With an industry-leading
scale, scope, and reach of ~4,000 field service engineers globally,
Vertiv is the trusted lifecycle service partner and complex system-level
expert for retrofit and newbuild.
As enterprises embrace AI at an unprecedented pace, Vertiv is reshaping
the future of critical power and cooling to support accelerated
computing, with the most complete portfolio of critical digital
infrastructure that enables AI-ready infrastructure capable of managing
the unique requirements of AI and other accelerated compute
applications.