Arrcus teamed with 5G networking provider UfiSpace on work with AI-optimized networking platforms to power large-scale service providers, data centers, edge, and cloud environments.
The collaboration was spurred by operators shifting to platforms that combine large throughput, operational efficiency, and built-in security in response to distributed AI workloads expanding into edge environments.
The partnership, announced at Mobile World Congress, is said to combine high-capacity routing and switching hardware with a unified software foundation to support the next phase of AI-driven networking.
The solution integrates Arrcus' ArcOS with UfiSpace’s next-generation routing and switching platforms to help service providers and cloud operators introduce higher-capacity systems and scale AI workloads across environments.
Instead of positioning AI networking as a greenfield deployment, Arrcus and UfiSpace are focused on production networks already supporting millions of subscribers and services. ArcOS offers a unified software foundation across UfiSpace platforms, enabling operators to introduce higher-capacity routing and switching systems while maintaining operational discipline.
“AI workloads are driving unprecedented demands on network capacity, security, and efficiency across both service provider and data center environments,” UfiSpace CEO Vincent Ho explained in a statement. “Our next-generation routing and switching platforms, combined with Arrcus ArcOS, give operators a scalable, energy-efficient foundation to support distributed AI traffic, secure transport, and new high-value services while maintaining carrier-grade reliability.”
The Arrcus–UfiSpace collaboration supports high-growth deployments, including AI cluster interconnect and data center interconnect with multiterabit platforms that aggregate dense 400 Gb/s (400G) and 800G links to connect AI clusters and distributed data centers.
Other features include AI infrastructure scale-up and scale-out networks with high density and ultra-low latency Ethernet switching silicon, along with secure transport for AI and enterprise traffic.
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