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How Adaptive Redundant Power changes the power game for data centres

Thu 4 Jun 2020 | Ed Ansett

Adaptable Redundant Power (ARP) meets some of the biggest challenges faced by the hyperscale, wholesale and colocation data centre markets

The top five data centre REITs have a combined market cap approaching $100bn, while aggregated revenues for the top ten biggest DC operators are around $18bn.

Hoya Capital defines wholesale data centres as serving larger customers, with long leases of 5-15 years. It says, “data centre REITs own roughly 30 percent of investment-grade data centre facilities in the US and command roughly a fifth of data centre capacity globally.”

Companies and REITs have typically built their reputations for uptime and security by providing critical infrastructure at scale through Tier 3+ facilities, usually with 2N or N+1 UPS and N+1 or 2 back-up generators and dual-path infrastructure as standard. In power terms, redundancy was king.

But in an increasingly competitive market where high capital expenditure is needed to maintain market share and which is experiencing downward margin pressure, hyperscale, wholesale and colocation players need to squeeze costs and improve income wherever possible. One way to do this is to address power infrastructure inflexibility.

The growth of the wholesale data centre colocation industry proves it has done a fantastic job of securing and deploying grid power capacity for customers across the globe. But having secured and paid for many megawatts of grid capacity, data centre owners should face up to the constraints of traditional static power topologies which restrict their access to the available power, leaving costly stranded capacity unused and pushing costs onto customers.

This is exactly where Adaptable Redundant Power (ARP) helps.

Data centre power cost and service questions

ARP addresses key questions faced by the data centre sector.

  • Are data centre owners being forced to look for ways of improving margin and growing the top line?
  • Are they maximising their use of available (and paid for) power?
  • Is the current model where customers pay for capacity irrespective of whether they use it or not sustainable or will it have to change?
  • Are data centre operations being held back by inflexible power infrastructure?
  • Is unused stranded capacity pushing up power prices as a cost of business?
  • Do data centres have the ability to align the power SLA with IT when the workload is continually changing?
  • Can they meet the inevitable near-term customer requirement for power on a pay-by-use basis?
  • Are requirements for outage mitigation without additional premiums possible in order to meet increased competition from cloud service providers?
  • How can data centre owners respond to market changes?

Large hyperscale customers inside wholesale colocation facilities are buying massive amounts of space and paying for huge chunks of dedicated power capacity. They may not be able to name their own price, but their scale certainly gives them leverage in pricing negotiations. For the provider, this makes power cost efficiency of paramount importance.

Smaller customers, those drawing below 1MW from shared infrastructure, want guaranteed access. In order to maintain profitability data centre owners can oversubscribe the shared portion of their power capacity. But this is risky as demand from customers such as MSPs and retail colocation providers is unpredictable. This causes planning headaches for the data centre operator as demand peaks and troughs from uncontrollable customer behaviour.

Inflexible data centre power issues addressed

Operators may want flexibility, but in power topology terms the reality is that data centre engineers are as constrained as the rest of the market

Over the last 20 years, there have only been incremental changes to the four main power topologies. There has been no step-change away from fault tolerant, block redundant, distributed redundant and ISO parallel setups.

The process around which is chosen for deployment is consistent. Developers consult with engineers, the system is designed, it is installed and tested and once switched on it is rarely if ever changed. In effect, often the set-up is never touched again. And what is common to all, is that in all data centre power topologies little or no automation exists.

Once in operation the main reasons for not changing the power topology are expense and difficulty. In order to alter a 2N system to a N+1 system is complex in terms of distribution and components. And the change may require planned downtime which inevitably increases risk.

How ARP changes the power game for data centres

Adaptable Redundant Power is a newly developed way of thinking about how power provision can be both flexible and responsive and can deliver cost savings by capturing stranded capacity in the data centre.

ARP has four operating modes: Adaptable Redundancy, Inherent Redundancy, Adaptable Inherent Redundancy and IT Load Prioritisation.

Different modes offer complementary features and functions. ARP can enable unused power capacity to be accessed in normal conditions. It provisions predetermined redundant levels to IT loads where the power is derived from unused power capacity. With IT Load prioritisation, ARP can service different hierarchies of application needs in the event of an unplanned power outage.

To meet the external pressures and customer challenges, wholesale data centre owners must look for ways to make operations more profitable.

The fact is that MEP is typically 70 percent of total CAPEX (excluding IT) in large data centre builds and power infrastructure accounts for around 40 percent of the 70 percent. Power accounts for approximately 13 percent of operating costs on an ongoing basis.

The numbers are huge. For companies looking to provide a better service and improve their long-term return on capital deployed and their OPEX bottom line, ARP is the answer.

Experts featured:

Ed Ansett

Co-Founder and Chairman
i3 Solutions Group

Tags:

automated power cloud-scale data centre data centre efficiency dedicated power capacity flexible power topologies hyperscale infrastructure flexibility power capacity power infrastructure power management power redundancy redundant power shared power capacity wholesale data centre
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