Exam description:
This exam tests your knowledge of DevOps practices as it pertains to deployment automation that enables automated configuration, management, and scalability of cloud microservices and infrastructure processes on Cisco platforms.
Area : DevNet DevOps
Status : Active - Near To Change
Exam start on : 24-02-2020 end on : 22-01-2024
Duration (minutes): 90
Questions : min None - max None
Score :
Cost :
Language :
Format : Closed Book
Delivery : Testing center - Proctored
Note : None
Exam topics:
1.0 - CI/CD Pipeline - 20%
1.1 - Describe characteristics and concepts of build /deploy tools such as Jenkins, Drone, or Travis CI
1.2 - Identify the sequence, components, and integrations to implement a CI/CD pipeline for a given scenario
1.4 - Identify tests to integrate into a CI/CD pipeline for a given scenario
1.5 - Identify release deployment strategy (canary, rollbacks, and blue/green) for a given scenario
1.6 - Diagnose code dependency management issues including API, tool chain, and libraries
1.3 - Troubleshoot issues with a CI/CD pipeline such as code-based failures, pipeline issues, and tool incompatibility
2.0 - Packaging and Delivery of Applications - 15%
2.1 - Identify the steps to containerize an application
2.2 - Identify steps to deploy multiple microservice applications
2.4 - Identify safe handling practices for configuration items, application parameters, and secrets
2.5 - Construct a Docker file to address application specifications
2.6 - Describe the usage of golden images to deploy applications
2.3 - Evaluate microservices and container architecture diagrams based on technical and business requirements (security, performance, stability, and cost)
3.0 - Automating Infrastructure - 20%
3.1 - Describe how to integrate DevOps practices into an existing organization structure
3.3 - Construct an Ansible playbook to automate an application deployment of infrastructure services
3.4 - Construct a Terraform configuration to automate an application deployment of infrastructure services
3.5 - Describe the practice and benefits of Infrastructure as Code
3.6 - Design a pre-check validation of the network state in a CI/CD pipeline for a given scenario
3.7 - Design a pre-check validation of the application infrastructure in a CI/CD pipeline for a given scenario
3.8 - Describe the concepts of extending DevOps practices to the network for NetDevOps
3.2 - Describe the use of configuration management tools to automate infrastructure services such as Ansible, Puppet, Terraform, and Chef
3.9 - Identify the requirements such as memory, disk I/O, network, and CPU needed to scale the application or service
4.0 - Cloud and Multicloud - 15%
4.1 - Describe the concepts and objects of Kubernetes
4.2 - Deploy applications to a Kubernetes cluster
4.3 - Utilize objects of Kubernetes to build a deployment to meet requirements
4.4 - Interpret the pipeline for continuous delivery of a Drone configuration file
4.5 - Validate the success of an application deployment on Kubernetes
4.7 - Describe the process of tracking and projecting costs when consuming public cloud
4.8 - Describe benefits of infrastructure as code for repeatable public cloud consumption
4.9 - Compare cloud services strategies (build versus buy)
4.6 - Describe method and considerations to deploy an application to multiple environments such as multiple cloud providers, high availability configurations, disaster recovery configurations, and testing cloud portability
5.0 - Logging, Monitoring, and Metrics - 20%
5.2 - Implement a log collection and reporting system for applications
5.2.a - aggregate logs from multiple related applications
5.2.b - search capabilities
5.2.c - reporting capabilities
5.3 - Troubleshoot a distributed application using AppDyanmics with Application Performance Monitoring
5.4 - Describe the principles of chaos engineering
5.5 - Construct Python scripts that use APIs to accomplish these tasks
5.5.a - build a monitoring dashboard
5.5.b - notify Webex Teams space
5.5.c - responding to alerts and outages
5.5.d - creating notifications
5.5.e - health check monitoring
5.5.f - opening and closing incidents
5.6 - Identify additional application requirements to provide visibility into application health and performance
5.7 - Describe Kubernetes capabilities related to logging, monitoring, and metrics
5.8 - Describe the integration of logging, monitoring and alerting in a CI/CD pipeline design
5.1 - Identify the elements of log and metric systems to facilitate application troubleshooting such as performance issues and streaming telemetry logs
6.0 - Security - 10%
6.1 - Identify methods to secure an application and infrastructure during production and testing in a CI/CD pipeline
6.2 - Identify methods to implement a secure software development life cycle