Why Density per Rack is Going Up

Average rack density (the amount of power the equipment within a rack uses) has gradually been increasing over the past decade. While the rise was slow and steady, IT advancements are now rapidly pushing the average rack density up and threatening to disrupt traditional practices in data centers.

This article explains the reasons behind the recent increase in density per rack. Read on to learn what is causing this trend and what steps data centers will have to make to remain competitive.

Why density per rack is going up

A Steady Rise in Rack Density

For years, data centers housed equipment in racks that required 2 to 5kW of power on average. These setups were easy to accommodate with single-phase power and blown-in air for cooling.

However, recent IT advancements are increasing the demand for compute-intensive workloads that require more power. Some of these rapidly developing technologies are:

These technologies require high processing power and high-density racks that go beyond the traditional 2 to 5kW average. As a result, enterprise and on-premises data centers are increasing the average density, a concern that was once unique to high-performance computing servers and hyperscale centers.

As data centers look to meet the growing demand, the average server rack (computer rack) density jumped to 8.4 kW per rack in 2020, up from 7.3 kW in 2019. Analytics and surveys run by the Uptime Institute report the following split:

A closer look at the top 16% reveals the following densities:

As an additional indicator of the trend, over 45% of data centers expect their average rack density to be over 11 kW in the near future.

Most common rack densities in 2020

Our article on data center power infrastructure provides an in-depth look at how data center facilities manage power consumption.

What is Driving the Rise in Rack Density?

Data consumption is on the rise as the use of cloud services goes up and new tech gains ground. The demand for compute processing is also growing as companies increasingly rely on power-hungry workloads such as:

AI and ML are at the top of the causes behind the recent increase in average density. While AI and ML are still in relatively early stages, they already require high amounts of power.

AI/ML systems ingest large datasets, learn from them, and draw conclusions when they get new data. These systems require high levels of processing and are often coupled tightly with a single shared memory pool. As a result, 1kW/rack unit is the current standard for AI servers. A rack can have over 30 units, so setups typically run in the 20 to 40kW per rack range. Similarly, it is not uncommon for HPC deployments to reach the 50kW/rack mark.

Alongside AI data-crunching, there is an increase in advanced modeling and data analytics, which is another factor causing the need for higher-density racks. Other drivers of the trend are:

Server rack density statistics

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IT Equipment is Also Pushing Rack Density Up

In response to the rising appetite for processing capacity, manufacturers are boosting the power of chips.

In the early to mid-2010s, mainstream server processors used under 100W, while dual-processor servers consumed about 200W at full load. Nowadays, Intel server chips (which are in more than 90% of server processors) go past the 200W barrier and bring the total average server consumption close to 500W.

Specialized chips are becoming even more power-hungry due to complex analytics and multimedia elements. The new types of chips must support capabilities such as:

These accelerator chips include graphics processing units (GPUs), field-programmable grid arrays (FPGAs), and custom application-specific integrated circuits (ASICs). These components require higher energy per chip than a standard CPU. For example, a GPU card can now draw about 300W, so each setup with three cards per rack unit draws as much as 1kW/rack unit.

Server racks

A Challenge for Legacy Data Centers

Besides the increase in power-hungry processes, modern data centers are also accelerating the move towards higher rack density. Colocation providers see the trend as an opportunity to optimize resources as raising the density bar allows a data center to:

While some data centers embrace the change, some facilities will be under pressure to improve cooling and deploy new technologies. Changing operating strategies is a challenge, especially if a business with legacy equipment hopes to make a smooth, efficient transition at scale.

During the transition period, some data centers will likely offer higher density as an added service. This strategy will help balance out the costs and get some extra time to remodel the equipment.

Read about data center security and learn what measures colocation providers deploy to ensure their facilities remain safe.

Planning for rack density

Key Business Planning Takeaways

Current rack density averages do not suggest an immediate need for technical overhauls, but data centers should prepare for evolving consumer demands. Here are the key factors to consider during business planning:

Our article on colocation pricing explains how facilities calculate prices and helps better understand your data center bills.

Average Rack Density Is Going Nowhere but Up

We expect rack densities to keep rising as data centers look to meet new customer demands.

The change will not happen overnight, but the industry is currently evolving in ways that favor higher-density racks. While there is still no immediate pressure, forward-thinking organizations are planning accordingly.