- The network promises high-speed, flexible 800 G wavelengths nationwide, aiming at bridging urban-rural digital divides.
- Experts caution that such grand backbone projects must ensure long-term maintenance, open interoperability and avoid vendor lock-in.
What happened: A nationwide all-optical backbone project
South Africa’s national broadband infrastructure firm Broadband Infraco (BBI) has partnered with Huawei to deploy an “intelligent all-optical backbone network” using 800-gigabit-per-wavelength (800G) optical transport. The project, announced 8 December 2025, is part of the government’s SA Connect strategy to extend affordable, stable high-capacity broadband across the nation.
Using Huawei’s Optical Cross-Connect (OXC) technology, the backbone will enable high-speed data transmission between cities and data centres, support connectivity for public Wi-Fi hotspots and deliver broadband to millions of homes — particularly in underserved and rural areas. So far, BBI reports more than 13,000 public Wi-Fi hotspots and over two million rural households connected thanks to early deployment phases.
The backbone will span all nine provinces of South Africa and extend fibre connectivity toward neighbouring border countries, potentially strengthening regional cross-border links. According to BBI’s CEO, the goal is to reduce the digital inequality gap internally and bring South Africa closer to global broadband standards.
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Why it’s important: Broadband equity and technical potential
For years, many rural and peri-urban communities in South Africa have struggled with poor or unreliable connectivity. The new backbone promises to democratise access — from urban business centres to remote villages — enabling online education, e-health, e-commerce and remote work. Policies like SA Connect aim to ensure inclusive broadband by 2030; this network is arguably among the most concrete steps toward that target. The early rollout connecting millions of homes indicates real-world impact.
The use of 800G per wavelength offers future-proofing: the backbone can support not only current broadband demands, but also upcoming needs — streaming, cloud services, remote data-heavy applications, and large-scale data-centre interconnection. An all-optical backbone reduces latency and improves reliability. For a country aiming to modernise its digital infrastructure, such performance is a strong foundation.
Yet despite the promise, there are important questions. Large backbone builds tied to a single vendor risk lock-in — if maintenance, upgrades or interoperability with other vendors prove difficult, long-term costs or technical limitations may emerge. Also, while the rollout targets broad access, the quality of “last-mile” connections (from backbone to households) remains critical. Without investment in that segment, rural users may still face poor services despite the strong backbone.
Finally, backbone infrastructure must be complemented by robust governance, transparent service provision, and local capacity building to avoid repeating past mistakes where infrastructure was built but under-utilised.
The Huawei–BBI 800G backbone represents a major step forward for South Africa’s connectivity ambitions. It lays down the digital highway that could support inclusive access, economic growth, and modern public services.
But backbone alone does not guarantee universal, high-quality access. Success depends on open ecosystems, fair regulation, affordable services, and continued upgrades. As Africa watches with interest, this project could become a landmark — or a cautionary tale about scale without sustainability.
