By: Samer Labaky, Manager, Enterprise and Public Sector Accounts, UAE, and Oman at Nutanix
When it comes to provisioning the IT on which all businesses rely, running costs and energy efficiency have long played a significant role in the decision-making processes. Recently, however, concerns about global warming and soaring energy costs have moved them to the top of the priority list. This, in turn, is causing CIOs across the board to fundamentally rethink the approach they take, particularly when it comes to the data center where huge benefits are to be had on both counts.
The size of the problem
Estimates vary but according to the International Energy Agency (and others), datacentres and their associated infrastructures account for around 1% of global energy consumption. In EMEA alone that translates to over 90TWh per year, or enough to satisfy the domestic energy needs of a small country. Moreover, this figure carries with it an environmental impact equivalent to running almost 6 million vehicles.
Big numbers whichever way you look at them and which, in turn, mean that any action to reduce energy consumption would not only save businesses money but have a significant impact when it comes to climate change.
There are lots of ways of tackling this issue with some organizations, for example, abandoning their on-premises datacentres altogether and moving to the cloud. That, however, doesn’t necessarily save on running costs. Indeed, many businesses find it more expensive compared to running an on-premises datacentre, and with none of the budgetary certainty of an on-premises facility. Neither does it address the climate issues. It just makes them somebody else’s problem.
Of course, the cloud has other benefits besides, but the data center looks like it’s here to stay for some time albeit with changes to the operational model to deliver the benefits of cloud computing at a lower cost in terms of energy and emissions. Indeed, that change is already happening with growing numbers moving from traditional 3-tier architectures (servers + storage + networks) towards next-generation models, hyper-converged infrastructures (HCI) which, most analysts, agree is the best and most expedient way of reducing datacentre energy consumption and carbon footprint.
The reason for that assertion is down to the way hyper-converged models work by distributing computing power and storage across low-cost commodity hardware platforms, linking them with software, and using virtualization to provide an easily scaled and managed operational whole. A mature technology with several different HCI platforms available, here are the expected benefits in terms of energy consumption and climate change of switching from 3-tier to HCI models:
- Measurable benefits could be achieved across a range of organizations from small businesses through big enterprises to the large-scale hyperscalers and managed service providers
- In comparison to traditional 3-tier IT platforms, next-generation HCI architectures could potentially reduce energy consumption and carbon footprint by up to 27% per year.
- Across the EMEA region, HCI transformation has the potential to reduce energy consumption by 56.7 TWh and cut emissions by 14.2 million tonnes of CO²e over the period 2022-2025
- By 2025 a full changeover to HCI across UK datacentres could potentially save 8.1 TWh of energy and 1.8 million tonnes of CO²e, roughly the same as taking 400,000 cars off the road
- By 2025 a full changeover to HCI across data centres in the Middle East & Africa could potentially save 4 TWh of energy and roughly 2.4 million tonnes of CO²e.
- Large-scale colocation datacentres offer a much lower PUE (Power Usage Effectiveness) factor than typical on-premises facilities. Switching these to HCI architectures could potentially boost energy saving by 30-40%.
- Next-generation colocation datacentres could provide access to renewable energy through long-term Power Purchase Agreements (PPA) and so contribute to an organization’s climate neutrality goal without having to invest in CO2 certificates