Navigating the Next Sustainable Frontier

The edge: Where innovation meets net zero goals for telecom and enterprise.

In our previous blog, we focused on where the sustainability puck is, our overall research and where we are going in helping our telecom and enterprise customers reach their sustainability goals. Where does the puck go next? Out to the edge! What is interesting about the edge is that, as we make an impact in edge sustainability, I see the ROI for both communications service providers (CSPs) and the enterprise, making implementing these solutions even more compelling.

5G has been called “the Enterprise G” because CSPs have the potential to monetize their network investments as they work to solve enterprise challenges, leveraging their highly distributed network to process data where it is generated—at the edge and at customer sites. And if CSPs can build edge solutions with sustainability in mind, their ROI will be potentially better due to reductions in energy consumption. In our research with GSMA Intelligence, we found that by retaining 20% of traffic at the edge (instead of sending it to the cloud), there is a potential overall reduction in energy use of 15%. Similarly, at a higher scale, if 40% of edge data were retained, this would translate into an energy savings of just over 30% (see Figure 8 below). There are, of course, variations on this, but the edge can be more efficient if CSPs make better use of it in building enterprise solutions.

Chart depicting share of edge traffic retained at the edge (in black) and change in energy for all sectors combined (in red).

Sustainability at the Edge

When we think about moving workloads to the edge, we also need to consider the environmental requirements the hardware solutions will need to support. Edge environments require compute solutions that are ruggedized to handle harsh environments such as extreme heat and cold, high humidity, etc. For example, think about a CSP deployment of a private wireless solution in a manufacturing facility. The CSP would bring the hardware directly to the manufacturing customer and deploy it on-site, needing to ensure it can handle environmental conditions not typical of a traditional data center without the need for constant monitoring or replacement.

Flexible and independent sled configurations for servers are key to allow for deploying virtually any workload to the edge. Ensuring your hardware has ease of upgrading makes it possible to ride the wave of new technology, improving performance and lowering TCO.

In addition to being edge-ready and flexible, this equipment also needs to be efficient. Enterprise customers are deploying edge solutions to save themselves time and money. By not using a lot of power (people or energy) to maintain their equipment, the ROI is even greater—making the sales more compelling for CSPs.

AI, Management and Edge Compute

AI inferencing is increasingly being done at the edge, hence the term “EdgeAI.” This has opened up new opportunities for edge use cases that were previously unimaginable, building solutions like self-driving cars and video surveillance. As we capture more and more data at the source (the edge), it is important that CSPs have an energy-efficient approach as they deploy AI-enabled edge infrastructure. This will help minimize latency and enable real-time decision-making, which is crucial for many applications.

In addition to bringing AI to the edge, CSPs must be able to deploy and manage their (now) distributed hardware wherever it is outside of a data center. Dell NativeEdge helps enterprises securely scale their edge operations using automation, open design, Zero Trust security principles and multicloud connectivity. This means edge use cases across various industries can now securely power any workload, anywhere, to achieve desired business outcomes.

Today, more sustainable edge hardware like the PowerEdge XR8000 is a must, and the research with the GSMAi underscores the significance of an energy “dividend” by leveraging efficient processing at the edge. As industries across the board increasingly adopt edge computing, they not only enhance their operational efficiency but also contribute to sustainability efforts. The potential energy savings are not just theoretical; they translate into real-world impact, reducing the carbon footprint of digital operations in key industries.

As we look to the future, embracing edge computing in tandem with responsible practices and innovations is not just a choice, it’s an imperative. At Dell Technologies, we are excited about the future of sustainability at the edge and are well-positioned to drive these changes, paving the way for a more sustainable and efficient digital landscape. Learn more on how to push the edge to net zero.

Manish Singh

About the Author: Manish Singh

Manish is a well-respected industry leader with over 25 years of experience and specializes in Wireless Networks. Manish is currently the CTO of Telecom Systems Business at Dell. Before joining Dell, Manish was at Meta (formerly Facebook), where he headed the Wireless Ecosystems Program for Open RAN and Open Core Networks and was heavily involved with O-RAN Alliance and Telecom Infra Project. For three consecutive years, he also served on the Board of Small Cell Forum. Manish is a thought leader with good balance of technology depth and business acumen. Prior to Meta, Manish was VP of Network Services at Tech Mahindra. Prior to that, he served as Radisys’ CTO, where he spearheaded the company’s strategic initiatives in SDN, NFV and VoLTE (Voice-over-LTE). Prior to Radisys, Manish was the VP of Product Management at Continuous Computing, where he led the startup’s spectacular growth in Small Cells and DPI. Manish held various Management and Architect positions at Intel, Trillium Digital Systems and C-DOT over the course of his career. Manish holds an MS degree from I.I.Sc. Bangalore. He routinely appears as a keynote speaker at leading industry events. He is a thoughtful writer with copious published papers and articles and holds multiple patents in fields of computing and communications.