Revolutionising data centre sustainability with power capping

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Revolutionising data centre sustainability with power capping

Revolutionising data centre sustainability with power capping As a tech journalist, Zul focuses on topics including cloud computing, cybersecurity, and disruptive technology in the enterprise industry. He has expertise in moderating webinars and presenting content on video, in addition to having a background in networking technology.


Have you ever noticed how the rise of AI and cloud computing has supercharged energy demands?

Data centre, the unsung heroes of our digital world, are now grappling with a growing dilemma. While they power our online lives, they’re also some of the biggest energy guzzlers, contributing significantly to global power consumption. With generative AI booming and workloads ballooning, it’s no surprise that technology’s carbon footprint is on the rise.

This raises an important question: how can data centres meet AI’s energy needs without compromising performance? That’s where Climatik, a project led by Red Hat in collaboration with Intel, Bloomberg, and IBM, comes in. It’s intended to optimise energy efficiency in data centres using a sophisticated approach known as power capping—and it’s all about finding the sweet spot between sustainability and performance.

What’s the deal with power capping?

Power capping might sound technical, but at its core, it’s about controlling energy consumption intelligently. Climatik uses Kubernetes, Prometheus, Kepler, and Custom Resource Definitions (CRD) to monitor and adjust power usage in real time. The result? A data centre can level out those pesky energy spikes produced by intensive AI workloads without missing a beat on performance.

Basically, it’s like setting and sticking to an energy budget. Kubernetes admins can tweak these caps dynamically, ensuring operations remain sustainable while heavy-duty AI applications run seamlessly.

The brains behind Climatik

Climatik isn’t just any solution—it’s built on a robust, cloud-native stack that fits right into existing setups. Here’s a quick glance at the technology that makes everything work:

  • Kubernetes: Professionally manages containerised AI workloads.
  • Prometheus and Kepler: Keep a close eye on real-time power consumption metrics.
  • CRD: Defines customised power capping policies for specific tasks.
  • Controller: Constantly adjusts power caps based on live data.
  • Webhook: Enforces these policies on the fly.

This combination lets Climatik reduce energy use without sacrificing the performance AI workloads demand.

Why it matters

Deploying Climatik offers tangible benefits:

  1. Energy efficiency: It smooths out power usage and limits consumption without hindering performance.
  2. Sustainability goals: By curbing energy use, businesses can slash their carbon emissions.
  3. Optimised performance: AI workloads stay efficient, even under power management constraints.

The need for energy-efficient solutions is only going to grow as AI and cloud computing continue to scale. Climatik’s approach to power capping provides a practical, forward-thinking solution for data centres looking to reduce their carbon footprint while staying on top of their game.

Looking ahead, Climatik is set to expand its capabilities by integrating with more monitoring and management tools. What’s the goal? To build a system that is both reliable and scalable, ready to adapt to any data centre’s needs.

(Photo by Unsplash)

See also: Cisco sets its sights on quantum data centres

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