Huawei Launches Top Ten Trends of Data Center Facilities

SHENZHEN, China, March 18, 2021 /PRNewswire/ — Huawei released the "Top 10 Trends of Data Center Facilities", together with industry guests, media friends, and operator partners to discuss the trends and future opportunities, contributing knowledge sharing for the healthy development of the industry.

Huawei Launches Top Ten Trends of Data Center Facilities
Huawei Launches Top Ten Trends of Data Center Facilities

As remote office, online education, and live broadcasting are becoming increasingly popular, we are in era of digitalization and it is gaining momentum in various industries. Digital transformation in various industries is in the fast track mode. Data centers are the foundation of digital transformation, and are meeting the new opportunities for development.

Trend 1: Zero Carbon DC

Carbon neutrality has become the most urgent mission in the world, triggering a green revolution. Green power, such as wind energy and solar energy, will be more widely used in data centers. It is an inevitable trend to maximize resource saving (such as energy saving, footprint saving, water saving, and material saving) in the entire life cycle of data centers. In the large data center facility, thermal energy recovery is a new energy saving solution. Data center PUE will enter the 1.0x Era, and "zero carbon" DCs will be a reality in near future.

Trend 2: High Density

In next five years, IT devices will continue to evolve to high computing power and density, and the CPU and server power will continue to increase. In addition, as the demand for AI applications grows, the AI computing power will increase. To balance efficiency and cost, data centers will develop to high density. It is estimated that by 2025, diversified computing power collaboration will become the mainstream, and mainstream cloud data centers will form a hybrid deployment of 15–30 kW/cabinet.

Trend 3: Scalable

The lifecycle of IT equipment is generally 3 to 5 years, and the power density is roughly doubled every 5 years. The lifecycle of data center infrastructure is 10 to 15 years. The infrastructure must support elastic architecture and phased investment, and meet the power evolution requirements of two to three generations of IT devices with the optimal CAPEX. In addition, the data center must be flexible to support hybrid deployment of IT devices with different power density, achieving on-demand capacity expansion scalability and space saving.

Trend 4: Fast Deployment

While Internet services have a rapid outbreaks in a short period of time, rapid deployment becomes essential In addition, data centers need to shift from support systems to production systems to meet the diverse application requirements of the cloud and need to be rolled out as quickly as clouds. In the future, the data center TTM will be reduced from 9 to 12 months to 6 months or even 3 months.

Trend 5: Simple Architecture

To address the disadvantages of slow construction of traditional data centers and high initial investment costs, simplified system-level and data center-level architectures will become the mainstream. The DC power supply and cooling architecture evolves from the traditional architecture to integrated link-level converged products. With the prefabricated and modular design, the data center features fast deployment, elastic capacity expansion, simple O&M, and efficient energy saving.

Trend 6: Lithium for All

Traditional data center power supply systems have issues such as complexity, high footprint, frequent accidents such as fire breakout and difficult maintenance. With the trend of lithium for all we are reshaping the traditional batteries with lithium-based batteries in and lead-acid based batteries phase out. Eventually with the decreasing cost of lithium batteries, data centers will be all lithium-based. Compared with traditional lead-acid batteries, lithium batteries have twice the life span, occupies 1/3 footprint and have enhanced visibility. Additionally, with three level BMS and LFP material lithium batteries ensures high security and reliability.

Trend 7: Air In and Water Out

Driven by complex O&M and higher PUE and aligning with carbon neutrality goals, traditional chilled water systems will be replaced. In addition, cooling systems with less or no water will become the mainstream. The modular Indirect Evaporative Cooling system adopts an integrated product design, which shortens deployment time and simplifies O&M, while fully utilizes natural cooling resources, it greatly reduces the power consumption of the cooling system.

Trend 8: Fully Digitalized

With the increasing digital transformation, digital, communications, and AI technologies are increasingly applied. Digital twin technologies will become more widely used throughout the lifecycle of the data center from planning, construction, maintenance and optimization, making All-DC visible, manageable, and controllable, delivering excellent full-lifecycle experience.

Trend 9: AI Enabled

With the continuous improvement and widespread application of IoT and AI technologies, data centers will gradually replace manual operation such as repetitive work, expert experience, and business decision-making to AI based autonomous driving. Data centers will gradually evolve from single-domain intelligence such as O&M, energy saving, and operation to full-lifecycle digitalization and autonomous driving, including planning, construction, O&M, and optimization, AI energy efficiency optimization and real-time parameter adjustment; AI O&M, 24/7 non-stop inspection, and predictive maintenance; AI operation, online simulation, and automatic service design.

Trend 10: Secure and Reliable

As data center infrastructures become more intelligent, network security threats are multiplied. The data center must implement system-level, component-level, and device-level predictive maintenance. The data center must have six features: hardware reliability, software security, system resilience, security, privacy, and always online availability. Hierarchical defense ensures data center security and trustworthiness.

Huawei data center energy products and technologies have made breakthroughs in products and technologies. In addition, Huawei cooperates with industry customers, partners, and third-party organizations to build an open, cooperative, win-win industry ecosystem. Looking forward, Huawei will continuously implement the concept of green and sustainable development, helping achieve the goal of carbon neutrality.

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About Huawei

Founded in 1987, Huawei is a leading global provider of information and communications technology (ICT) infrastructure and smart devices. We have more than 194,000 employees, and we operate in more than 170 countries and regions, serving more than three billion people around the world.

Our vision and mission is to bring digital to every person, home and organization for a fully connected, intelligent world. To this end, we will drive ubiquitous connectivity and promote equal access to networks; bring cloud and artificial intelligence to all four corners of the earth to provide superior computing power where you need it, when you need it; build digital platforms to help all industries and organizations become more agile, efficient, and dynamic; redefine user experience with AI, making it more personalized for people in all aspects of their life, whether they’re at home, in the office, or on the go. For more information, please visit Huawei online at www.huawei.com or follow us on:

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Related Links :

http://www.huawei.com

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