Esame 300-435 ENAUTO – Implementing Automation for Cisco Enterprise Solutions

Implementing Automation for Cisco Enterprise Solutions

Codice Esame : 300-435 ENAUTO
versione : 1
Vendor : Cisco

This exam tests your knowledge of implementing enterprise automated solutions including Programming concepts Python programming APIs Controllers Automation tools

Area : Automation Enterprise 
Status : Active 
Esame iniziato il: 24-2-2020 terminato il :  
Durata (minuti): 90
Domande : min None – max None 

Punteggio : min None max None
Costo : 

Exam topics:

  • 1.0 – Network Programmability Foundation – 10%
    • 1.1 – Utilize common version control operations with git (add, clone, push, commit, diff, branching, merging conflict) 
    • 1.2 – Describe characteristics of API styles (REST and RPC) 
    • 1.3 – Describe the challenges encountered and patterns used when consuming APIs synchronously and asynchronously 
    • 1.4 – Interpret Python scripts containing data types, functions, classes, conditions, and looping 
    • 1.5 – Describe the benefits of Python virtual environments 
    • 1.6 – Explain the benefits of using network configuration tools such as Ansible and Puppet for automating IOS XE platforms 
  • 2.0 – Automate APIs and Protocols – 10%
    • 2.1 – Identify the JSON instance based on a YANG model 
    • 2.2 – Identify the XML instance based on a YANG model 
    • 2.3 – Interpret a YANG module tree generated per RFC8340 
    • 2.4 – Compare functionality, benefits, and uses of OpenConfig, IETF, and native YANG models 
    • 2.5 – Compare functionality, benefits, and uses of NETCONF and RESTCONF 
  • 3.0 – Network Device Programmability – 20%
    • 3.1 – Implement device management and monitoring using NetMiko 
    • 3.2 – Construct a Python script using ncclient that uses NETCONF to manage and monitor an IOS XE device 
    • 3.3 – Configure device using RESTCONF API utilizing Python requests library 
    • 3.4 – Utilize Ansible to configure an IOS XE device 
    • 3.5 – Configure a subscription for model driven telemetry on an IOS XE device (CLI, NETCONF, and RESTCONF) 
    • 3.6 – Compare publication and subscription telemetry models 
    • 3.6.a – Periodic / cadence 
    • 3.6.b – On-change 
    • 3.7 – Describe the benefits and usage of telemetry data in troubleshooting the network 
    • 3.8 – Describe Day 0 provisioning methods 
    • 3.8.a – iPXE 
    • 3.8.b – PnP 
    • 3.8.c – ZTP 
  • 4.0 – Cisco DNA Center – 20%
    • 4.1 – Compare traditional versus software-defined networks 
    • 4.2 – Describe the features and capabilities of Cisco DNA Center 
    • 4.2.a – Network assurance APIs 
    • 4.2.b – Intent APIs 
    • 4.2.c – Multivendor support (3rd party SDKs) 
    • 4.2.d – Events and notifications 
    • 4.3 – Implement Cisco DNA Center event outbound webhooks 
    • 4.4 – Implement API requests for Cisco DNA Center to accomplish network management tasks 
    • 4.4.a – Intent APIs 
    • 4.4.b – Command Runner APIs 
    • 4.4.c – Site APIs 
    • 4.5 – Implement API requests for Cisco DNA Center to accomplish network management tasks using these APIs 
    • 4.5.a – Network discovery and device APIs 
    • 4.5.b – Template APIs (Apply a template) 
    • 4.6 – Troubleshoot Cisco DNA Center automation process using Intent APIs 
  • 5.0 – Cisco SD-WAN – 20%
    • 5.1 – Describe features and capabilities of Cisco SD-WAN vManage Certificate Management APIs 
    • 5.2 – Implement a Python script to perform API requests for Cisco SD-WAN vManage Device Inventory APIs to retrieve and display data 
    • 5.3 – Construct API requests for Cisco SD-WAN vManage Administration APIs 
    • 5.4 – Implement a Python script to perform API requests for Cisco SD-WAN vManage Configuration APIs to modify Cisco SD-WAN fabric configuration 
    • 5.5 – Construct API requests for Cisco SD-WAN vManage Monitoring APIs (Including real-time) 
    • 5.6 – Troubleshoot a Cisco SD-WAN deployment using vManage APIs 
  • 6.0 – Cisco Meraki – 20%
    • 6.1 – Describe features and capabilities of Cisco Meraki 
    • 6.1.a – Location Scanning APIs 
    • 6.1.b – MV Sense APIs 
    • 6.1.c – External Captive Portal APIs 
    • 6.1.d – WebHook Alert APIs 
    • 6.2 – Create a network using Cisco Meraki APIs 
    • 6.3 – Configure a network using Cisco Meraki APIs 
    • 6.4 – Implement a Python script for Cisco Meraki Alert WebHooks 

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