Course Information
Course Name: Cisco 350-401: Implementing Cisco Enterprise Network Core Technologies (ENCOR) (CCNP) Online Course
Certification Track: CCNP Enterprise
Exam Code: 350-401 ENCOR
Total Video Hours: 8 Hrs 10 Min
Total Videos: 47
Skill Level: Professional / Advanced
Delivery Mode: Online, On-Demand
Instructor: Anthony Sequeira
Certification Progression: CCNP Enterprise and CCIE Enterprise Infrastructure eligibility
Included in This Course
Full coverage of Cisco 350-401 ENCOR exam objectives
Expert-led instruction by a Cisco-certified networking professional
Enterprise architecture and design implementation concepts
Routing, switching, wireless, and IP services coverage
Network assurance and monitoring technologies
Security fundamentals for enterprise networks
Network automation and programmability concepts
Skills aligned with real-world Cisco enterprise environments
Course Outline
Module 1: Architecture
Module 2: Virtualization
Module 3: Infrastructure
Module 4: Network Assurance
Module 5: Security
Module 6: Automation
Cisco 350-401 ENCOR Online Course
Cisco 350-401: Implementing Cisco Enterprise Network Core Technologies (ENCOR) Online Course provides in-depth coverage of enterprise networking technologies required to design, deploy, and maintain scalable Cisco-based infrastructures. As enterprise networks evolve to support cloud integration, automation, and security-driven architectures, networking professionals must master both foundational and emerging technologies. This course aligns with the Cisco CCNP Enterprise certification requirements and prepares candidates for advanced enterprise networking roles.
Enterprise architecture forms the foundation of resilient network design. The course begins by examining classic three-tier and two-tier network models, including spine-leaf architectures commonly used in modern data centers. High availability principles, fabric capacity planning, and redundancy strategies are explained to ensure network reliability and performance. Wireless LAN deployment design considerations are also covered, addressing coverage planning, scalability, and performance optimization.
On-premises and cloud-based architectures are evaluated to help professionals understand hybrid networking strategies. The course explains how Cisco SD-WAN and Cisco SD-Access support centralized control, segmentation, and policy enforcement across distributed enterprise environments. Quality of Service (QoS) concepts are addressed to support traffic prioritization for voice, video, and critical applications. Hardware and software switching comparisons further clarify performance, scalability, and deployment considerations.
Virtualization technologies play a critical role in modern enterprise networks. The course explains device virtualization technologies such as virtual routing and switching instances, enabling efficient resource utilization. Data path virtualization concepts are introduced to demonstrate traffic isolation and forwarding efficiency. Network virtualization principles provide insight into overlay networks and logical segmentation, supporting scalable and flexible enterprise designs.
Infrastructure topics address the core technologies that enable enterprise network operations. Layer 2 technologies such as trunking, VLAN Trunking Protocol (VTP), and EtherChannel are explained to support efficient switching architectures. Spanning Tree Protocol variants, including Rapid Spanning Tree Protocol (RSTP) and Multiple Spanning Tree (MST), are discussed to maintain loop-free networks while optimizing convergence times.
Layer 3 routing protocols are compared to support intelligent routing decisions. The course examines Enhanced Interior Gateway Routing Protocol (EIGRP) and Open Shortest Path First (OSPF), highlighting use cases and design considerations. External Border Gateway Protocol (eBGP) concepts are introduced to support enterprise connectivity with service providers and cloud environments. Wireless networking technologies are also addressed, ensuring learners understand enterprise WLAN integration.
IP services are essential to enterprise network functionality. Network Address Translation (NAT), Port Address Translation (PAT), and Network Time Protocol (NTP) are covered to support connectivity, address conservation, and time synchronization. First-hop redundancy protocols such as HSRP, VRRP, and GLBP are explained to ensure high availability at the network edge. Multicast technologies are also addressed to support efficient data distribution.
Network assurance focuses on maintaining visibility and performance across enterprise networks. The course explains troubleshooting methodologies used to diagnose network issues. Technologies such as NetFlow, SPAN, and IP SLA provide insight into traffic analysis, monitoring, and performance validation. Cisco DNA Center is introduced as a centralized management and assurance platform, supporting automation, analytics, and policy-based management.
Security remains a critical component of enterprise networking. The course covers device access control mechanisms to protect infrastructure components. Access Control Lists (ACLs) and Control Plane Policing (CoPP) are explained to mitigate unauthorized access and control-plane attacks. Wireless security principles address authentication, encryption, and threat mitigation. Core components of security design emphasize defense-in-depth strategies aligned with enterprise requirements.
Automation represents a fundamental shift in how enterprise networks are managed. The course introduces Python scripting to support network programmability and task automation. Data formats such as JSON are explained to support structured data exchange. YANG models and NETCONF/RESTCONF protocols are discussed to demonstrate model-driven network management. Application Programming Interfaces (APIs) enable integration with management platforms and automation frameworks.
Event Manager (EEM) and orchestration tools are introduced to demonstrate policy-based automation and workflow integration. These technologies enable consistent configuration, faster deployments, and reduced operational errors. Automation concepts covered in this course align with modern enterprise network management practices and support scalability across complex environments.
This Cisco 350-401 ENCOR Online Course supports professionals pursuing CCNP Enterprise certification while also providing a pathway toward CCIE Enterprise Infrastructure. The skills gained extend beyond certification preparation and support real-world enterprise networking roles, including network engineer, infrastructure architect, and automation specialist. By aligning with Cisco enterprise technologies, the course prepares learners to operate within modern, policy-driven, and software-defined network environments.
Frequently Asked Questions
Who should enroll in the Cisco 350-401 ENCOR Online Course?
This course is designed for network engineers, administrators, and IT professionals pursuing CCNP Enterprise certification or advanced enterprise networking roles.
Does this course prepare candidates for the CCNP Enterprise certification?
Yes, the course aligns with the Cisco 350-401 ENCOR exam, which is a core requirement for CCNP Enterprise certification.
Is this course suitable for CCIE Enterprise preparation?
Passing the ENCOR exam qualifies candidates to attempt the CCIE Enterprise Infrastructure practical lab exam.
Does the course include automation and programmability topics?
Yes, the course covers Python, APIs, NETCONF, RESTCONF, and orchestration tools used in enterprise automation.
Are both wired and wireless technologies covered?
The course includes enterprise routing, switching, wireless networking, and IP services.
Is prior Cisco experience required?
Professional-level networking knowledge is recommended, including familiarity with routing and switching concepts.
Does the course focus on real-world enterprise environments?
Yes, the content emphasizes practical enterprise network design, implementation, and operations.
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