To ensure this design has maximum resiliency without added complexity, Aruba created a high availability system that supports multi-chassis link-aggregation (MC-LAG) while keeping the control plane of each switch independent. Most large organizations adopt a model where the aggregation layer provides Layer 2 towards the access switches and Layer 3 towards a fully routed core. With features like always-on PoE, Virtual switching Framework (VSF), and Virtual switching Extension (VSX), organizations can rely on the network infrastructure for their mission critical traffic.ĪOS-CX allows a variety of two-tier and three-tier options from a Layer 3 routed access layer all the way to switched Layer 2 access with a redundant Layer 3 aggregation and core. They use a cloud-native operating system called AOS-CX which is designed with a focus on network resiliency utilizing a database centric operational model. These switches are available in modular and stackable options to satisfy a diverse set of requirements. The Aruba CX portfolio provides a variety of form factors which include models with the latest networking standards. Innovations in high availability, upgrade simplicity, and programmability are what separates the Aruba ESP Campus from the competition. The ESP Campus architecture consists of wired and wireless options to accommodate different use cases based on physical environments, features, and scaling requirements. ESP Campus Summary ESP Campus Architecture.
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