Esame 300-635 DCAUTO - Automating Cisco Data Center Solutions

2020-02-26 - 600 parole - tempo di lettura 3 minuti

Codice Esame : 300-635 DCAUTO
versione : None
Vendor : Cisco

This exam tests your knowledge of implementing data center automated solutions, including: Programming concepts Orchestration Automation tools

Area : Automation Data Center
Status : Active
Esame iniziato il: 24-02-2020 terminato il :

Durata (minuti): 90
Domande : min None - max None

Punteggio : min: - max: -
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 data center platforms

• 2.0 - Controller Based Data Center Networking - 30%

  • 2.1 - Describe the following:
  • 2.1.a - ACI target policy
  • 2.1.b - ACI application hosting capabilities
  • 2.1.c - Implementation of an ACI application from the Cisco ACI Apps Center
  • 2.2 - Leverage the API inspector to explore the REST API calls made by the ACI GUI
  • 2.3 - Construct a Python script to create an application policy using the ACI REST API
  • 2.4 - Construct a Python script to create an application policy using the ACI Cobra SDK
  • 2.5 - Construct an Ansible playbook to create an application policy
  • 2.6 - Describe the benefits of integrating Kubernetes infrastructure using the ACI CNI plugin

• 3.0 - Data Center Device-centric Networking - 30%

  • 3.1 - Describe Day 0 provisioning with NX-OS
  • 3.1.a - Cisco POAP
  • 3.1.b - NX-OS iPXE
  • 3.2 - Implement On-Box Programmability and Automation with NX-OS
  • 3.2.a - Bash
  • 3.2.b - Linux containers (LXC and Docker using provided container
  • 3.2.c - NX-OS guest shell
  • 3.2.d - Embedded Event Manager (EEM)
  • 3.2.e - On-box Python Scripting
  • 3.3 - Compare model-driven telemetry such as YANG Push and gRPC to traditional network monitoring strategies such as SMNP, Netflow, and SYSLOG
  • 3.4 - Construct Python script that consumes model-driven telemetry data with NX-OS
  • 3.5 - Implement Off-Box Programmability and Automation with NX-OS
  • 3.5.a - Nexus NX-API (NX-API REST and NX-API CLI)
  • 3.5.b - Nexus NETCONF using native and OpenConfig
  • 3.5.c - Network configuration tools with NX-OS (Ansible)

• 4.0 - Data Center Compute - 30%

  • 4.1 - Configure Cisco UCS with developer tools
  • 4.1.a - UCS PowerTool
  • 4.1.b - UCS Python SDK
  • 4.1.c - Ansible
  • 4.2 - Describe the capabilities of the DCNM API
  • 4.3 - Identify the steps in the Intersight API authentication method
  • 4.4 - Construct an Intersight API call given documentation to accomplish tasks such as manage server policies, service profiles, and firmware updates
  • 4.5 - Describe the process to implement workflows for physical and virtual infrastructure using UCS Director
  • 4.5.a - Pre-defined tasks
  • 4.5.b - Custom tasks
  • 4.5.c - Script libraries
  • 4.6 - Utilize UCS Director REST API browser

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