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Three Key Consideration for Successful OpenRAN Deployments

Three Key Consideration for Successful OpenRAN Deployments Image Credit: shutting/Bigstockphoto.com

Greenfield versus brownfield networks

When you see the many announcements around innovation in OpenRAN for 5G, what you may not realize is that the 4G and 5G-only OpenRAN approach is only suited for greenfield deployments. So, what does that mean for brownfield or existing wireless networks? There are only two prominent greenfield networks in the world: Rakuten and Dish. The rest of the world has legacy 2G, 3G, and even 4G - and as we are aware these legacy deployments are not OpenRAN. The new greenfield deployments are going for the OpenRAN-powered network deployment approach for obvious reasons. The OpenRAN solution is well suited for greenfield 4G or 5G deployments as it leads to faster deployment and, at the same time, allows the operator to future-proof their investment. The software-enabled network simplifies expansions and makes it easy for operators with greenfield networks to scale their new networks. The new network is software upgradeable and does away with the cost and complexity of transitioning the networks to 5G.

Consideration #1: TCO impact of deploying OpenRAN only for 4G and 5G

But what about all these mobile operators with the legacy 2G, 3G, 4G deployments? What is the best way for them to move to 5G and open up their RAN? They need to look at the overall network TCO across their legacy and 5G deployments and use 5G as an opportunity to improve their TCO. Let us have a look at what happens to a mobile operator’s TCO if they deploy OpenRAN for 5G only alongside their 2G, 3G and even 4G legacy network without considering OpenRAN for legacy or as we say for ALL G...

If a mobile operator only deploys OpenRAN for 5G, they will have the challenge of managing two networks: a vertical one with legacy equipment and the new one with distributed, OpenRAN architecture. While the operator might have flexibility and will avoid vendor lock-in for 5G, the legacy network will still rely on closed RAN components. This approach doesn’t fit into a promise of OpenRAN avoiding vendor lock-in and reducing cost. OpenRAN needs to replace legacy Gs as well. This way, ALL the RAN network components for ALL of the Gs will be open and virtualized. Leading global operators using OpenRAN to modernize their legacy networks estimate their return on the modernization investment will be returned in 3 years and will help them to deploy 5G cost-effectively.

Consideration #2: 5G as a part of the Overall Network Strategy

The mobile operators with legacy networks that only deploy OpenRAN for 5G without rethinking their overall network strategy, including legacy Gs might see short-term CAPEX savings in deployment of OpenRAN for 4G and 5G compared to the equipment from legacy 4G and 5G vendors, but their overall OPEX will be 30-50% higher, as older Gs are not as power-efficient or easy to maintain. Long term gain can be only seen if ALL Gs will become OpenRAN while mobile networks move to 5G.

With legacy 2G, 3G and even 4G, the service providers adopted a siloed approach of adding a new layer for every new G. Legacy RAN systems were based on proprietary hardware and depended on prolonged and costly lifecycles in development, deployment, and operation. The siloed approach of adding a new layer for every new technology leads to network complexity and demands high investment in CAPEX and OPEX to maintain. This leads to vendor lock-in and sometimes prevents the mobile operators from keeping pace with the new technology developments. With the launch of the new generation, the radios are replaced with newer versions, which demands substantial investment.

5G offers service providers an opportunity to reimagine the overall network architecture and deploy cost-effective open networks not just for 5G, but for legacy as well.

The telecom infrastructures are already undergoing a rapid transformation towards applications running on Network Functions Virtualization (NFV) or containers. Now it is extending further to the RAN to separate functions and horizontally disaggregate hardware from software, where every vendor offering can interoperate with other products based on the interfaces that are open. This vendor diversity allows service providers to benefit from cloud-scale economies and service agility.

Figure 1: OpenRAN Multi-RAT Needs of Global Mobile Operators (based on Parallel Wireless' OpenRAN engagement across 75+ networks in 8 years)

Several global service providers are already opting for OpenRAN architecture across ALL Gs to break from the limitations imposed on them by proprietary radio systems. The OpenRAN network architecture that addresses 2G, 3G, 4G and 5G, which is programmable, flexible and unbundled, can meet the requirements for improved mobile broadband and extremely low latency for legacy and newer Gs. The new OpenRAN across ALL G approach allows mobile operators to run just one OpenRAN network. The most significant advantage of the ALL G OpenRAN is that it enables service providers to improve network economics by converging all Gs, including 2G, 3G, 4G, and 5G, on one single software platform. It not only helps in enhancing network simplicity but brings down the cost of managing and maintaining the network. This will allow the unification of legacy brownfield with greenfield so it can be managed as one cloud-native ALL IP network.

Consideration #3: 5G as an opportunity to rethink legacy Gs

Even if there are challenges in rolling out 5G services, as there are commercial as well as infrastructural issues related to the mass launch of 5G services, there is no denying that the technology would give a massive boost to the world’s economy. 5G technology, owing to its inherent features like high data speed, low latency, effective use of spectrum, and better coverage, supports a larger number of devices and low energy consumption opens up a whole new number of use cases that will benefit the end users and businesses as the use cases are all experience driven. 5G will have service providers offering a myriad of innovative experiences like augmented reality, virtual reality, remote surgery, autonomous transport systems, industrial automation and more that will co-exist with basic services of voice and data that are offered by 2G and 3G. The new 5G functionalities could help deliver services like healthcare and education on a mass scale by side-stepping infrastructural challenges, but 2G/3G voice and 3G/4G-based data will co-exist as many end users as businesses globally will still use those type of devices. 5G will enable the mobile network to support services including e-learning and e-health, through digital platforms, which is more cost effective and sustainable, but only if legacy Gs are addressed as a part of the overall OpenRAN strategy as the 2G and 3G services are here to stay for a while.

5G is just another tool in the OpenRAN box, but unless ALL Gs become OpenRAN, the true promise of OpenRAN, or 5G itself for that matter, cannot be realized.

Author

Steve leads the senior management team at Parallel Wireless in setting the company’s strategic direction and is guiding the company’s evolution from its successful first customer deployment into broad commercialization and growth. Steve has been part of reimagining the technology landscape for over 20 years. 

As founder and CEO of Endeca, he reimagined the database to support faceted information ultimately leading to Oracle acquiring the company as its 6th largest acquisition ever when announced (reported at $1.1 billion). He was part of the team creating Akamai that reimagined global Internet content distribution - now carrying peaks of 15 terabits/s of web traffic on any given day - and led the team at Inktomi that reimagined the network cache to create carrier class caching. Earlier he worked with AT&T Teradata where enterprise computing was reimagined with the first use of Intel processors for enterprise servers.

He has a BS from Princeton University and MBA from Harvard Business School.

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