Zenlayer launches Fabric Port service in Singapore with single connectivity entry point

Zenlayer launched its Fabric Port service in Singapore, aiming to provide a single entry point for provisioning connectivity across multiple destinations. The company positioned the rollout as a step in expanding its distributed cloud platform for enterprises with global digital infrastructure needs.

Fabric Port is described as enabling organizations to provision unlimited virtual connections to public cloud platforms, IP transit providers, internet exchanges, and data centers. Zenlayer said access is available from a single port in Singapore to its connectivity partner ecosystem, supported by a global backbone spanning six continents. The service was presented as the inaugural market for the company’s broader strategy to deploy the entry point across major interconnection hubs.

In the description of the underlying architecture, Zenlayer linked Fabric Port to Fabric for Artificial Intelligence (AI), a connectivity architecture for distributed AI infrastructure. The company stated that as organizations deploy AI agents across regions and compute environments, they require high-bandwidth, low-latency interconnection to coordinate inference traffic and minimize token transit times between compute nodes and model endpoints. Fabric Port was said to support port speeds of up to 400 Gbps to support data movement across global AI infrastructure.

“Our goal is to remove the barriers that slow down global digital expansion,” said Joe Zhu, Founder & CEO of Zenlayer. “By including metro connectivity in Singapore at no additional charge, we are giving our customers a simpler, more cost-effective way to scale their infrastructure. Singapore is the starting point for this vision, as we continue to expand this streamlined architecture to other major interconnection hubs.”

Zenlayer said Fabric Port also served as a foundational component of Fabric for AI for distributed AI infrastructure and that the company continued to expand the architecture to other interconnection hubs.