In today’s cloud-first, bandwidth-intensive world, networks expanding into Asia need reliable interconnectivity with other networks, clouds, and customers. The most efficient way to scale a connected community is through interconnection hubs, with Internet Exchanges providing the ideal environment for simple connectivity to your digital community.Â
For networks where Singapore is a key market, Epsilon’s remote peering to the Singapore Internet Exchange (SGIX) delivers low-latency, high-performance connectivity to and within Singapore – without local infrastructure.Â
Interconnection is no longer a back-office utility; it’s a strategic lever. Faster connections improve user experiences, route diversity boosts resilience, and regional ecosystem access accelerates time-to-market.Â
Epsilon’s partnership with SGIX combines local peering excellence with global reach, helping networks, platforms, and enterprises unlock performance, scalability, and simplicity from day one.Â
Access SGIX Remotely Without Local InfrastructureÂ
SGIX is the heart of Singapore’s interconnection ecosystem, connecting carriers, ISPs, CDNs, cloud providers, and enterprises.Â
Traditionally, joining SGIX required a physical presence. But remote peering allows networks to tap into Singapore’s digital ecosystem instantly, without the cost or complexity of local infrastructure.Â
With Epsilon’s remote peering, networks can now connect directly into SGIX through Epsilon’s global network footprint – no local colocation or physical infrastructure required. Note that connectivity depends on individual peering policies and agreements between networks, as with all peering environments.Â
The benefits of remote SGIX access via Epsilon are:Â
- Lower latency for regional traffic Â
- Efficient routing across ASEAN networks Â
- Greater flexibility in traffic engineering and routing policiesÂ
- Significant capex savingsÂ
Scale on Demand with 100G CapacityÂ
Traffic growth in Asia is accelerating – driven by cloud migration, content delivery, AI/ML workloads, and edge applications.Â
To meet this demand, Epsilon offers high-capacity 100G interconnection to SGIX, with scalable Nx1G and Nx10G VLANs through a future-ready architecture.Â
These scalability benefits are:Â
- Streamlined provisioning through Epsilon’s orchestration platform Â
- Scalable bandwidth without re-architecting your network Â
- Cost-efficient consolidation of multiple services on a single port Â
For networks anticipating rapid growth, this is a straightforward way to future-proof connectivity without overhauling existing infrastructure.Â
Strengthen Your ASEAN Connectivity StrategyÂ
Singapore is one of Asia’s most important digital gateways. By combining SGIX’s local peering fabric with Epsilon’s global network, networks can reduce latency to Singapore-hosted services, improve traffic delivery across Southeast Asia, and enhance network resilience through multiple routing options.Â
Whether you’re expanding edge infrastructure, improving content delivery, or entering new markets, remote peering to SGIX is a scalable, efficient entry point into the region.Â
One Provider, One PlatformÂ
SGIX’s footprint across SG1, SG3, and Global Switch aligns with Epsilon’s global presence, giving networks a cohesive interconnection experience end to end.Â
The key advantages of this ‘one’ approach are:Â
- Single provider for interconnection and connectivity services Â
- Unified provisioning, billing, and support Â
- Faster deployments and reduced operational overhead Â
- Consistent SLAs across all services Â
The result is a simpler journey from the rack to the peering fabric – one partner, one platform, one less thing to manage.Â
Get Started with Remote Peering to SGIXÂ
Whether you’re a network entering Singapore for the first time or an established network expanding across Asia, Epsilon makes it easy to connect to SGIX without borders, scale capacity without complexity, and improve performance without compromise – all through a single, unified platform.Â
Connect with Epsilon today to start your remote peering journey in Singapore.
