• Explain the different design principles used in an enterprise network 
• Enterprise network design such as Tier 2, Tier 3, and Fabric Capacity planning 
• High availability techniques such as redundancy, FHRP, and SSO 
• Analyze design principles of a WLAN deployment 
• Wireless deployment models (centralized, distributed, controller-less, controller based, cloud, remote branch) 
•  Location services in a WLAN design
• Differentiate between on-premises and cloud infrastructure deployments 
• Explain the working principles of the Cisco SD-WAN solution 
• SD-WAN control and data planes elements 
• Traditional WAN and SD-WAN solutions 
• Explain the working principles of the Cisco SD-Access solution 
• SD-Access control and data planes elements 
• Traditional campus interoperating with SD-Access 
• Describe concepts of wired and wireless QoS 
• QoS components 
• QoS policy 
• Differentiate hardware and software switching mechanisms 
• Process and CEF 
• MAC address table and TCAM 
• FIB vs. RIB 

• Describe device virtualization technologies 
• Hypervisor type 1 and 
• Virtual machine 
• Virtual switching 
• Configure and verify data path virtualization technologies 
• VRF
• GRE and IPsec tunneling 
• Describe network virtualization concepts 
• LISP 
• VXLAN 

• Layer 2 
• Troubleshoot static and dynamic 802.1q trunking protocols 
• Troubleshoot static and dynamic EtherChannels 
• Configure and verify common Spanning Tree Protocols (RSTP and MST) 
• Layer 3 
• Compare routing concepts of EIGRP and OSPF (advanced distance vector vs. linked state, load balancing, path selection, path operations, metrics) 
• Configure and verify simple OSPF environments, including multiple normal  areas, summarization, and filtering (neighbor adjacency, point-to-point and broadcast network types, and passive interface) 
• Configure and verify eBGP between directly connected neighbors (best path selection algorithm and neighbor relationships) 
• Wireless 
• Describe Layer 1 concepts, such as RF power, RSSI, SNR, interference noise, band and channels, and wireless client devices capabilities.
• Describe AP modes and antenna types 
• Describe access point discovery and join process (discovery algorithms, WLC selection process) 
• Describe the main principles and use cases for Layer 2 and Layer 3 roaming
• Troubleshoot WLAN configuration and wireless client connectivity issues 
• IP Services 
• Describe Network Time Protocol (NTP) 
• Configure and verify NAT/PAT 
• Configure first hop redundancy protocols, such as HSRP and VRRP 
• Describe multicast protocols, such as PIM and IGMP v2/v3 

• Diagnose network problems using tools such as debugs, conditional debugs, trace route, ping, SNMP, and syslog 
• Configure and verify device monitoring using syslog for remote logging 
• Configure and verify NetFlow and Flexible NetFlow
• Configure and verify SPAN/RSPAN/ERSPAN 
• Configure and verify IPSLA 
• Describe Cisco DNA Center workflows to apply network configuration, monitoring, and management 
• Configure and verify NETCONF and RESTCONF 

• Configure and verify device access control 
• Lines and password protection 
• Authentication and authorization using AAA 
• Configure and verify infrastructure security features 
• ACLs 
• CoPP 
• Describe REST API security 
• Configure and verify wireless security features 
• EAP 
• WebAuth 
• PSK 
• Describe the components of network security design 
• Threat defense 
• Endpoint security 
• Next-generation firewall 
• TrustSec, MACsec 
• Network access control with 802.1X, MAB, and WebAuth 

• Interpret basic Python components and scripts 
• Construct valid JSON encoded file 
• Describe the high-level principles and benefits of a data modeling language, such as 
• YANG 
• Describe APIs for Cisco DNA Center and vManage 
• Interpret REST API response codes and results in payload using Cisco DNA Center and 
• RESTCONF 
• Construct EEM applet to automate configuration, troubleshooting, or data collection
• Compare agent vs. agentless orchestration tools, such as Chef, Puppet, Ansible, and  SaltStack  

• Troubleshoot administrative distance (all routing protocols) 
• Troubleshoot route map for any routing protocol (attributes, tagging, filtering) 
• Troubleshoot loop prevention mechanisms (filtering, tagging, split horizon, route poisoning) 
• Troubleshoot redistribution between any routing protocols or routing sourcesTroubleshoot manual and auto-summarization with any routing protocol 
• Configure and verify policy-based routing 
• Configure and verify VRF-Lite 
• Describe Bidirectional Forwarding Detection 
• Troubleshoot EIGRP (classic and named mode) 
• Address families (IPv4, IPv6) 
• Neighbor relationship and authentication 
• Loop-free path selections (RD, FD, FC, successor, feasible successor, stuck in active)
• Stubs 
• Load balancing (equal and unequal cost) 
• Metrics 
• Troubleshoot OSPF (v2/v3) 
• Address families (IPv4, IPv6) 
• Neighbor relationship and authentication 
• Network types, area types, and router types 
• Point-to-point, multipoint, broadcast, nonbroadcast 
• ( Area type: backbone, normal, transit, stub, NSSA, totally stub  
• Internal router, backbone router, ABR, ASBR 
• Virtual link
• Path preference 
• Troubleshoot BGP (Internal and External) 
• Address families (IPv4, IPv6) 
• Neighbor relationship and authentication (next-hop, mulithop, 4-byte AS, private AS, route refresh, synchronization, operation, peer group, states and timers.
• Path preference (attributes and best-path) 
• Route reflector (excluding multiple route reflectors, confederations, dynamic peer) 
• Policies (inbound/outbound filtering, path manipulation) 

• Describe MPLS operations (LSR, LDP, label switching, LSP) 
• Describe MPLS Layer 3 VPN 
• Configure and verify DMVPN (single hub) 
• GRE/mGRE 
• NHRP 
• IPsec 
• Dynamic neighbor
• Spoke-to-spoke 

• Troubleshoot device security using IOS AAA (TACACS+, RADIUS, local database) 
• Troubleshoot router security features 
• IPv4 access control lists (standard, extended, time-based) 
• IPv6 traffic filter 
• Unicast reverse path forwarding (uRPF) 
• Troubleshoot control plane policing (CoPP) (Telnet, SSH, HTTP(S), SNMP, EIGRP, OSPF, BGP) 

3.4 Describe IPv6 First Hop security features (RA guard, DHCP guard, binding table, ND inspection/snooping, source guard) 

• Troubleshoot device management 
• Console and VTY 
• Telnet, HTTP, HTTPS, SSH, SCP 
• (T)FTP 
• Troubleshoot SNMP (v2c, v3) 
• Troubleshoot network problems using logging (local, syslog, debugs, conditional debugs, timestamps) 
• Troubleshoot IPv4 and IPv6 DHCP (DHCP client, IOS DHCP server, DHCP relay, DHCP options)
• Troubleshoot network performance issues using IP SLA (jitter, tracking objects, delay, connectivity) 
• Troubleshoot NetFlow (v5, v9, flexible NetFlow) 
• Troubleshoot network problems using Cisco DNA Center assurance (connectivity, monitoring, device health, network health)

• Describe Cisco SD-WAN Architecture and Components 
• Orchestration plane (vBond, NAT) 
• Management plane (vManage) 
• Control plane (vSmart, OMP) 
• Data plane (vEdge) 
• TLOC 
• IPsec 
• vRoute 
• BFD 
• Describe WAN Edge platform types, capabilities (vEdges, cEdges) 

• Describe controller cloud deployment 
• Describe Controller on-Prem Deployment 
• Hosting platform (KVM/Hypervisor) 
• Installing controllers 
• Scalability and redundancy 
• Configure and verify certificates and whitelisting 
• Troubleshoot control-plane connectivity between controllers 

• Describe WAN Edge deployment 
• On-boarding 
• Orchestration with zero-touch provisioning/plug-and-play 
• Single/multi data center/regional hub deployments 
• Configure and verify SD-WAN data plane 
• Circuit termination/TLOC-extension 
• Underlay-overlay connectivity 
• Configure and verify OMP 
• Configure and verify TLOCs 
• Configure and verify CLI and vManage feature configuration templates 
• VRRP
• OSPF
• BGP 

• Configure and verify control policies 
• Configure and verify data policies 
• Configure and verify end-to-end segmentation 
• VPN segmentation 
• Topologies 
• Configure and verify SD-WAN application-aware routing
• Configure and verify direct Internet access 

• Configure and verify service insertion 
• Describe application-aware firewall 
• Configure and verify QoS treatment on WAN edge routers 
• Scheduling 
• Queuing 
• Shaping 
• Policing

• Describe monitoring and reporting from vManage
• Configure and verify monitoring and reporting 
• Describe REST API monitoring 
• Describe software upgrade from vManage 

• Create structured addressing plans for IPv4 and IPv6 
• Create stable, secure, and scalable routing designs for IS-IS 
• Create stable, secure, and scalable routing designs for EIGRP 
• Create stable, secure, and scalable routing designs for OSPF 
• Create stable, secure, and scalable routing designs for BGP 
• Address families 
• Basic route filtering 
• Attributes for path preference 
• Route reflectors 
• Load sharing 
• Determine IPv6 migration strategies 
• Overlay (tunneling) 
• Native (dual-stacking) 
• Boundaries (IPv4/IPv6 translations) 

• Design campus networks for high availability 
• First Hop Redundancy Protocols 
• Platform abstraction techniques 
• Graceful restart 
• BFD 
• Design campus Layer 2 infrastructures 
• STP scalability
• Fast convergence 
• Loop-free technologies 
• PoE and WoL 
• Design multicampus Layer 3 infrastructures 
• Convergence 
• Load sharing 
• Route summarization 
• Route filtering 
• VRFs 
• Optimal topologies 
• Redistribution 
• Describe SD-Access Architecture (underlay, overlay, control and data plane, automation, wireless, and security) 
• Describe SD-Access fabric design considerations for wired and wireless access (overlay, fabric design, control plan design, border design, segmentation, virtual networks, scalability, over the top and fabric for wireless, multicast) 

• Compare WAN connectivity options 
• Layer 2 VPN 
• MPLS Layer 3 VPN 
• Metro Ethernet 
• DWDM
• 4G/5G 
• SD-WAN customer edge 
• Design site-to-site VPN 
• Dynamic Multipoint VPN (DMVPN) 
• Layer 2 VPN 
• MPLS Layer 3 VPN 
• IPsec 
• Generic Routing Encapsulation (GRE) 
• Group Encrypted Transport VPN (GET VPN) 
• Design high availability for enterprise WAN 
• Single-homed 
• Multihomed 
• Backup connectivity Failover
• Describe Cisco SD-WAN Architecture (orchestration plane, management plane, control, plane, data plane, on-boarding and provisioning, security) 

• Describe Cisco SD-WAN design considerations (control plane design, overlay design, LAN design, high availability, redundancy, scalability, security design, QoS and multicast over SD-WAN fabric) 

• Select appropriate QoS strategies to meet customer requirements (DiffServ, IntServ)
• Design end-to-end QoS policies 
• Classification and marking 
• Shaping 
• Policing 
• Queuing 
• Design network management techniques 
• In-band vs. out-of-band 
• Segmented management networks 
• Prioritizing network management traffic 
• Describe multicast routing concepts (source trees, shared trees, RPF, rendezvous points)  
• Design multicast services (SSM, PIM bidirectional, MSDP)

• Choose the correct YANG data model set based on requirements 
• Differentiate between IETF, Openconfig, and Cisco native YANG models 
• Differentiate between NETCONF and RESTCONF 
• Describe the impact of model-driven telemetry on the network 
• Periodic publication
• On-change publication 
• Compare dial-in and dial-out approaches to model-driven telemetry

• Collect design requirements and evaluate constraints 
• Client density 
• Real time applications 
• AP type 
• Deployment type (data, location, voice, video) 
• Security 
• Describe material attenuation and its effect on wireless design 
• Perform and analyze a Layer 1 site survey 
• Perform a pre-deployment site survey 
• Perform a post deployment site survey 
• Perform a predictive site survey 
• Utilize planning tools and evaluate key network metrics (Ekahau, AirMagnet, PI, Chanalyzer, Spectrum Analyzer) 

• Determine physical infrastructure requirements such as AP power, cabling, switch port capacity, mounting, and grounding 
• Determine logical infrastructure requirements such as WLC/AP licensing requirements based on the type of wireless architecture 
• Design radio management 
• RRM 
• RF profiles 
• RxSOP 
• Apply design requirements for these types of wireless networks 
• Data 
• Voice and video 
• Location 
• Hyperlocation 
• Design high-density wireless networks and their associated components (campus, lecture halls, conference rooms) 
• Design wireless bridging (mesh) 
• Modes of operation 
• Ethernet bridging  
• WGB and roaming

• Design mobility groups based on mobility roles 
• Optimize client roaming 
• Validate mobility tunneling for data and control path  

• Design high availability for controllers 
• Network availability through LAG 
• Stateful Switchover (SSO) 
• Anchor controller priority and redundancy 
• Design high availability for APs 
• AP prioritization 
• Fall-back (assigning primary, secondary, and tertiary) 

• Deploy FlexConnect components such as switching and operating modes 
• Deploy FlexConnect capabilities 
• FlexConnect groups and roaming 
• Split tunneling and fault tolerance 
• VLAN-based central switching and Flex ACL 
• Smart AP image upgrade 
• Implement Office Extend 

• Implement QoS schemes based on requirements including wired to wireless mapping 
• Implement QoS for wireless clients 
• Implement AVC including Fastlane (only on WLC) 

• Implement multicast components 
• Describe how multicast can affect wireless networks 
• Implement multicast on a WLAN 
• Implement mDNS 
• Implement Multicast Direct 

• Deploy MSE and CMX on a wireless network 
• Implement location services 
• client tracking
• RFID tags (tracking only) 
• Interferers 
• Rogue APs 
• Clients 

• Implement CMX components 
• Detect and locate 
• Analytics 
• Presence services 
• Implement location-aware guest services using custom portal and Facebook Wi-Fi 
• Troubleshoot location accuracy using Cisco Hyperlocation 

5.4 Troubleshoot CMX high availability 

5.5 Implement wIPS using MSE 

• Configure client profiling on WLC and ISE 
• Implement BYOD and guest 
• CWA using ISE (including self-registration portal) 
• LWA using ISE or WLC 
• Native supplicant provisioning using ISE 
• Certificate provisioning on the controller 

6.3 Implement 802.1X and AAA on different wireless architectures and ISE 

6.4 Implement Identity-Based Networking on different wireless architectures (VLANs, QoS, 

ACLs) 

7.1 Utilize reports on PI and Cisco DNA center 

7.2 Manage alarms and rogues (APs and clients) 

• Utilize common version control operations with git (add, clone, push, commit, diff, 
•        branching, merging conflict) 
• Describe characteristics of API styles (REST and RPC) 
• Describe the challenges encountered and patterns used when consuming APIs 
•       synchronously and asynchronously 
• Interpret Python scripts containing data types, functions, classes, conditions, and looping 
• Describe the benefits of Python virtual environments 
• Explain the benefits of using network configuration tools such as Ansible and Puppet for automating IOS XE platforms 

• Identify the JSON instance based on a YANG model 
• Identify the XML instance based on a YANG model 
• Interpret a YANG module tree generated per RFC8340 
• Compare functionality, benefits, and uses of OpenConfig, IETF, and native YANG models 
• Compare functionality, benefits, and uses of NETCONF and RESTCONF  

• Implement device management and monitoring using NetMiko 
• Construct a Python script using ncclient that uses NETCONF to manage and monitor an 
• IOS XE device 
• Configure device using RESTCONF API utilizing Python requests library 
• Utilize Ansible to configure an IOS XE device 
• Configure a subscription for model driven telemetry on an IOS XE device (CLI, NETCONF, and RESTCONF) 
• Compare publication and subscription telemetry models 
• Periodic / cadence 
• On-change 
• Describe the benefits and usage of telemetry data in troubleshooting the network 
• Describe Day 0 provisioning methods 
• iPXE 
• PnP 
• ZTP  

• Compare traditional versus software-defined networks 
• Describe the features and capabilities of Cisco DNA Center 
• Network assurance APIs 
• Intent APIs 
• Multivendor support (3rd party SDKs) 
• Events and notifications 
• Implement Cisco DNA Center event outbound webhooks 
• Implement API requests for Cisco DNA Center to accomplish network management tasks 
• Intent APIs 
• Command Runner APIs 
• Site APIs 
• Implement API requests for Cisco DNA Center to accomplish network management tasks using these APIs 
• Network discovery and device APIs 
• Template APIs (Apply a template)
• Troubleshoot Cisco DNA Center automation process using Intent APIs

• Describe features and capabilities of Cisco SD-WAN vManage Certificate Management APIs
• Implement a Python script to perform API requests for Cisco SD-WAN vManage Device Inventory APIs to retrieve and display data
• Construct API requests for Cisco SD-WAN vManage Administration APIs 
• Implement a Python script to perform API requests for Cisco SD-WAN vManage 
• Configuration APIs to modify Cisco SD-WAN fabric configuration
• Construct API requests for Cisco SD-WAN vManage Monitoring APIs (Including real-time) 
• Troubleshoot a Cisco SD-WAN deployment using vManage APIs

• Describe features and capabilities of Cisco Meraki 
• Location Scanning APIs 
• MV Sense APIs 
• External Captive Portal APIs
• WebHook Alert APIs 
• Create a network using Cisco Meraki APIs 
• Configure a network using Cisco Meraki APIs  
• Implement a Python script for Cisco Meraki Alert WebHooks