In the modern digital landscape, where data centres power everything from social media to critical business operations, energy efficiency has become a top priority. The metric most widely used to measure data centre efficiency is Power Usage Effectiveness, or PUE. This standard, developed by members of the Green Grid industry consortium, plays a crucial role in understanding and improving the sustainability of these energy-intensive facilities.

What is PUE?

Power Usage Effectiveness, or PUE, is a simple yet powerful metric that indicates how efficiently a data centre uses energy. It’s calculated by dividing the total power entering a data centre by the power specifically used for computing purposes. In essence:

A PUE of 1.0 would indicate perfect efficiency—meaning all power entering the facility is used exclusively for computing with no energy wasted on cooling, lighting, or other facility operations. However, a PUE of 1.0 is an ideal target and virtually impossible to achieve in real-world settings. Instead, the goal is to push PUE values as close to 1.0 as possible, improving overall energy efficiency with each step.

The Limitations of PUE

Although PUE provides valuable insight into data centre energy usage, it’s a basic measurement that does not capture all aspects of environmental impact or operational complexity. Several factors highlight the limitations of relying solely on PUE as a marker of energy efficiency:

Water Usage: Implementing adiabatic cooling (a method that uses water for cooling rather than refrigerants) can improve PUE by reducing power use, but at the cost of increased water consumption. This trade-off can negatively impact a data centre’s overall environmental footprint, particularly in regions where water is scarce.
Resiliency Architecture: More robust data centre architectures, designed for higher resiliency, often have a higher PUE because additional redundancy adds to power consumption. Thus, while redundancy ensures continuous service, it may skew PUE, making the metric less reflective of true energy efficiency.
Impact of Facility Design and Utilization: The PUE can vary based on non-energy factors like the physical density of IT equipment or the specific electrical infrastructure in place. Additionally, how full or empty a data centre is also affects the PUE score—larger, more utilized centres typically achieve better PUE ratings.
Energy Source: PUE does not account for the carbon footprint of the power source itself. A data centre drawing electricity from renewable energy has a fundamentally different environmental impact than one powered by coal, yet PUE fails to reflect this difference.

Despite these limitations, PUE remains a widely recognized indicator, valuable for comparing baseline efficiencies across data centres.

Global & African PUE Trends

According to the Uptime Institute, the average global PUE in 2020 was 1.59, a significant improvement from over a decade ago when PUE values were much higher. However, as efficiency levels improve, the industry is beginning to hit a PUE “floor,” with further improvements becoming increasingly challenging.

This plateau is partly attributed to two main trends:

Decentralization: With the rise of Edge computing (spurred by 5G and IoT developments), data processing is becoming more distributed. While this helps reduce latency, it makes PUE improvements difficult since smaller, dispersed data centres cannot always match the efficiency of larger, centralized hyperscale facilities.
Climate Impact: Rising global temperatures are also playing a role, with data centres worldwide needing to adapt to warmer climates, which can impact cooling requirements and increase overall power consumption.

Despite these challenges, the global data centre industry’s efforts have been paying off. The International Energy Agency (IEA) notes that, although data centre workloads increased by a factor of eight over the last decade, total energy consumption has remained nearly flat. This is a testament to the industry’s dedication to energy efficiency.

PUE in Africa | Meeting Global Standards

Africa’s data centre industry, though relatively young, is making impressive strides in energy efficiency. A recent survey reveals that the average PUE in African data centres stands at 1.72—only 8% above the global average. This achievement can be attributed to several factors:

Newer Infrastructure: A majority of African data centres are recent builds, with over half constructed post-2015. These newer facilities are designed with energy efficiency in mind, resulting in lower PUE values. In fact, data centres built after 2017 show an average PUE of 1.53, underscoring the benefits of modern technology and design.
Favorable Climate: Many African data centres are strategically located in coastal or high-altitude regions, where moderate temperatures naturally aid in cooling. The average yearly temperature for data centres in the survey sample is a manageable 22.2°C, which helps reduce cooling costs and improves PUE.
Increasing Efficiency: Africa’s data centres are continuously improving, with the average PUE in 2020 recorded at 1.79, showing a 4% enhancement in just two years.

Building a Sustainable Future in African Data Centres

Africa’s data centre industry is booming, and as it grows, maintaining efficient PUE levels will be critical. For Africa to keep pace with global standards and support sustainable digital growth, it must continue investing in energy-efficient technologies and embrace best practices in data centre management.

Reducing PUE and improving sustainability requires a multi-faceted approach, which includes adopting redundant power sources, using free-cooling solutions where feasible, deploying RAID storage systems, and configuring application clusters across primary and secondary data centres. Additionally, green energy solutions should be prioritized, particularly as PUE does not reflect the environmental impact of non-renewable power sources.

Wrap | PUE as a Benchmark for Progress

While PUE is an imperfect metric, it remains a key indicator for data centre efficiency and a valuable tool for benchmarking progress. The data centre industry’s commitment to reducing PUE has already yielded significant benefits, as seen in the flat energy use despite surging digital demands globally. Africa’s data centres are well-positioned to join this trend, with promising PUE results and a commitment to sustainable growth.

As the industry moves forward, the focus should expand beyond PUE, incorporating metrics that provide a holistic view of sustainability and efficiency. In this way, data centres across Africa and beyond can continue to support the digital revolution while minimizing their environmental footprint.

⚡Understanding Power Usage Effectiveness (PUE) in Data Centres | Measuring Efficiency & Striving for Sustainability🔌