This learning path provides a comprehensive introduction to Cisco Catalyst Center, guiding network professionals through the platform's core features and advanced capabilities. Learners will start by understanding the hierarchical design model and how it supports scalable management and policy deployment. The course covers device discovery, inventory management, and provisioning workflows, enabling consistent network configuration and automation. It also addresses software image upgrades, lifecycle management, including End-of-Life (EoX) insights, and essential system administration tasks. A significant portion is dedicated to Software-Defined Access (SDA) fabric design, including control and border nodes, as well as implementing secure, policy-driven segmentation through micro-segmentation using Security Group Tags (SGTs). By the end, participants will be equipped to deploy, operate, and optimize Cisco Catalyst Center in modern enterprise environments.

The Cisco Layer 2 Fundamentals Learning Path focuses on key networking concepts including VLANs, Trunks, CDP, LLDP, and UDLD. It starts with understanding how VLANs segment networks for better security and performance, followed by learning how trunk links enable communication between VLANs. You'll explore CDP and LLDP to discover network devices and topologies, and finally dive into UDLD for preventing unidirectional link failures. This path equips you with essential skills to manage, secure, and troubleshoot Layer 2 networks, providing a strong foundation for more advanced networking topics.

This intermediate learning path on Open Shortest Path First (OSPF) is tailored for network professionals who are ready to move beyond the basics and develop a deeper, more practical understanding of OSPF in enterprise networks. The path explores key deployment and optimization techniques including route redistribution between OSPF and other protocols, effective route summarization at ABRs and ASBRs, and implementing route filtering to control routing information flow. It also covers OSPF area types in detail, including standard stub areas, totally stubby areas, and Not-So-Stubby Areas (NSSA), with guidance on when and how to use each to simplify routing and improve scalability. Throughout, the learning path emphasizes best practices, common design mistakes to avoid, and hands-on configuration strategies to help learners confidently apply OSPF in complex, real-world environments.

This learning path provides a comprehensive guide to mastering Cisco's Spanning Tree Protocol (STP) and its variants, including PVST+, RSTP, and MSTP. It covers the fundamentals of STP, such as preventing network loops and ensuring redundancy, while diving into advanced configurations like adjusting STP costs and bridge priority to optimize network performance. The path also emphasizes security features such as Loop Guard, Root Guard, BPDU Guard, and many others, to protect against unintended topology changes and network instability. Additionally, students will engage in hands-on labs to configure STP, allowing them to apply best practices and gain practical experience in designing secure, efficient, and resilient networks."

The EtherChannel Configuration Learning Path focuses on key concepts and protocols for link aggregation, including static EtherChannels, PAgP, and LACP, with a deep dive into LACP's advanced features. You'll begin by understanding how EtherChannels combine multiple physical links into a single logical connection to enhance bandwidth and redundancy. The path covers how to configure static EtherChannels for manual link aggregation, followed by PAgP for dynamic link aggregation in Cisco-only environments. You'll also explore LACP, an open standard protocol, and its advanced features such as negotiation modes, timeouts, and priority settings for optimizing link performance and fault tolerance. This learning path equips you with the skills to configure, manage, and troubleshoot EtherChannel setups, providing a strong foundation for advanced network design and troubleshooting.