As the world embraces digital transformation, the demands placed on networks are growing exponentially.
From the rollout of 5G to the proliferation of IoT devices and the rise of AI-driven applications, the need for networks that are scalable, programmable, and flexible has never been more critical. Segment Routing over IPv6 (SRv6) is emerging as the technology poised to meet these demands, offering a way to simplify network architectures while enabling new services and unlocking innovation.
For decades, Multiprotocol Label Switching (MPLS) has been the backbone of most telecommunications networks. While effective in its time, almost every MPLS network has been built on IPv4 as underlay, an internet protocol introduced more than 40 years ago. IPv4 has long since reached its limits, constrained by address exhaustion and saddled with complexities that make scaling and innovation challenging. IPv6, on the other hand, was developed with the future in mind, although it is already 25 years old
Yet, despite its potential, IPv6 adoption has been slow because of the industry’s reliance on IPv4 and MPLS. SRv6 changes this equation by marrying the scalability and simplicity of IPv6 with advanced programmability, creating an architecture that is not only modern but also future proof.
Why Now?
The question “Why SRv6 now?” is often raised by network operators grappling with tight budgets and existing infrastructure.
The answer lies in the convergence of technological readiness and business need. After years of development and rigorous standardization processes through the IETF, SRv6 has matured into a technology ready for deployment. Early adopters such as SoftBank in Japan and Bell Canada have demonstrated its transformative potential by deploying SRv6 in their production networks. These pioneers have shown that SRv6 can simplify network operations, reduce costs, and enable innovative services that were previously unattainable with legacy systems.
The timing is also driven by external pressures. The rollout of 5G networks demands low-latency, high-bandwidth, and massive-scale solutions that MPLS and IPv4 struggle to provide. SR-MPLS is also the way to obtain benefits from SR technology. However, underlay complexity and scalability challenges in MPLS and IPv4 remains same.
Similarly, industries like manufacturing, transportation, and healthcare are turning to IoT, AR/VR, and AI applications, which require networks that are both scalable and flexible. The world is moving towards these advanced use cases, yet many networks remain tethered to existing complex architectures that limit their ability to innovate.
A New Era for Telecommunications
In Japan, SoftBank has been at the forefront of SRv6 adoption, using it to build a network capable of supporting emerging use cases like network slicing. This capability is essential for applications such as low-latency services and IoT integration, where specific segments of the network need to be optimized for different performance requirements.
Additionally, in Canada, telecom provider Bell Canada has embraced SRv6 to simplify its data center operations. By transitioning to SRv6, Bell has reduced the complexity of managing large-scale infrastructure, enabling faster deployment of new services and improved cost efficiency.
These examples highlight how SRv6 is not merely an upgrade but a foundational shift in how networks are designed and operated.
Unlocking New Possibilities
SRv6’s impact extends beyond telecommunications. In the automotive sector, companies are exploring its potential to support safer driving systems. This is high potential use case that leverages SRv6 to create networks that enable real-time communication between vehicles and infrastructure, enhancing safety and efficiency. These networks require low latency, high reliability, and massive scalability – all areas where SRv6 excels.
The hyperscale environment is another domain benefiting from SRv6. Large-scale data centers, such as those operated by hyperscalers, face immense pressure to manage millions of devices and endpoints while maintaining high performance. SRv6’s programmability and scalability make it an ideal solution, allowing for efficient resource allocation and seamless integration of new technologies.
The Journey to Simplification
At its core, SRv6 represents a journey toward simplification.
Unlike MPLS, which requires multiple protocols and manipulations, SRv6 operates on a streamlined IPv6 foundation. This simplification reduces operational complexity, making networks easier to manage and more cost-effective. It also enables programmability, allowing operators to dynamically adjust network behavior through APIs. This capability is critical for applications like autonomous vehicles and AR/VR, where networks must adapt in real time to changing conditions.
However, adopting SRv6 is not without challenges. Transitioning from existing systems requires investment in both infrastructure and training. Engineers accustomed to IPv4 and MPLS must acquire new skills to design and operate IPv6-based networks. However, the long-term benefits far outweigh the costs. Simplified networks are more scalable, more flexible, and better equipped to handle the demands of the future.
The Path Forward
The transition to SRv6 is about more than technology; it’s about preparing for the future. As industries continue to evolve, the ability to scale, adapt, and innovate will define success. SRv6 offers a clear path forward, enabling organizations to break free from the constraints of inheritance systems and embrace a new era of connectivity.
The resources available for understanding and adopting SRv6 are extensive. Platforms like Segment Routing.net provide a wealth of information, from technical references to case studies showcasing real-world applications. Cisco’s blog, Kickstart Your Journey to IPv6 with SRv6, offers additional insights into how SRv6 can transform networks and boost business outcomes.
As networks age and demands grow, the need for modernization becomes undeniable. SRv6 is not just an option; it’s a necessity. For organizations still relying on IPv4 and MPLS, the time to act is now. The world is moving forward – don’t let your network hold you back.
