DevNet Associate - DEVASC
DevNet Associate
Course Content
Software Development and Design
- Comparing data formats (XML, JSON, and YAML)
- Describing parsing of common data format (XML, JSON, and YAML) to Python data structures
- Describing the concepts of test-driven development
- Comparing software development methods (agile, lean, and waterfall)
- Explaining the benefits of organizing code into methods / functions, classes, and modules
- Identifying the advantages of common design patterns (MVC and Observer)
- Explaining the advantages of version control
- Utilizing common version control operations with Git
- Clone
- Add/remove
- Commit
- Push / pull
- Branch
- Merge and handling conflicts
- diff
Understanding and Using APIs
- Constructing a REST API request to accomplish a task given API documentation
- Describing common usage patterns related to webhooks
- Identifying the constraints when consuming APIs
- Explaining common HTTP response codes associated with REST APIs
- Troubleshooting a problem given the HTTP response code, request and API documentation
- Identifying the parts of an HTTP response (response code, headers, body)
- Utilizing common API authentication mechanisms: basic, custom token, and API keys
- Comparing common API styles (REST, RPC, synchronous, and asynchronous)
- Constructing a Python script that calls a REST API using the requests library
Cisco Platforms and Development
- Constructing a Python script that uses a Cisco SDK given SDK documentation
- Describing the capabilities of Cisco network management platforms and APIs (Meraki, Cisco DNA Center, ACI, Cisco SD-WAN, and NSO)
- Describing the capabilities of Cisco compute management platforms and APIs (UCS Manager, UCS Director, and Intersight)
- 4 Describing the capabilities of Cisco collaboration platforms and APIs (Webex Teams, Webex devices, Cisco Unified Communication Manager including AXL and UDS interfaces, and Finesse)
- Describing the capabilities of Cisco security platforms and APIs (Firepower, Umbrella, AMP, ISE, and ThreatGrid)
- Describing the device level APIs and dynamic interfaces for IOS XE and NX-OS
- Identifying the appropriate DevNet resource for a given scenario (Sandbox, Code Exchange, support, forums, Learning Labs, and API documentation)
- Applying concepts of model driven programmability (YANG, RESTCONF, and NETCONF) in a Cisco environment
- Constructing code to perform a specific operation based on a set of requirements and given API reference documentation such as these:
- Obtain a list of network devices by using Meraki, Cisco DNA Center, ACI, Cisco SD-WAN, or NSO
- Manage spaces, participants, and messages in Webex Teams
- 9.c Obtain a list of clients / hosts seen on a network using Meraki or Cisco DNA Center
Application Deployment and Security
- Describing benefits of edge computing
- Identifying attributes of different application deployment models (private cloud, public cloud, hybrid cloud, and edge)
- Identifying the attributes of these application deployment types
- Virtual machines
- Bare metal
- Containers
- Describing components for a CI/CD pipeline in application deployments
- Constructing a Python unit test
- Interpreting contents of a Dockerfile
- Utilizing Docker images in local developer environment
- Identifying application security issues related to secret protection, encryption (storage and transport), and data handling
- Explaining how firewall, DNS, load balancers, and reverse proxy in application deployment
- Describing top OWASP threats (such as XSS, SQL injections, and CSRF)
- Utilizing Bash commands (file management, directory navigation, and environmental variables)
- Identifying the principles of DevOps practices
Infrastructure and Automation
- Describing the value of model driven programmability for infrastructure automation
- Comparing controller-level to device-level management
- Describing the use and roles of network simulation and test tools (such as VIRL and pyATS)
- Describing the components and benefits of CI/CD pipeline in infrastructure automation
- Describing principles of infrastructure as code
- Describing the capabilities of automation tools such as Ansible, Puppet, Chef, and Cisco NSO
- Identifying the workflow being automated by a Python script that uses Cisco APIs including ACI, Meraki, Cisco DNA Center, or RESTCONF
- Identifying the workflow being automated by an Ansible playbook (management packages, user management related to services, basic service configuration, and start/stop)
- Identifying the workflow being automated by a bash script (such as file management, app install, user management, directory navigation)
- Interpreting the results of a RESTCONF or NETCONF query
- Interpreting basic YANG models
- Interpreting a unified diff
- Describing the principles and benefits of a code review process
- Interpreting sequence diagram that includes API calls
Network Fundamentals
- Describing the purpose and usage of MAC addresses and VLANs
- Describing the purpose and usage of IP addresses, routes, subnet mask / prefix, and gateways
- Describing the function of common networking components (such as switches, routers, firewalls, and load balancers)
- Interpreting a basic network topology diagram with elements such as switches, routers, firewalls, load balancers, and port values
- Describing the function of management, data, and control planes in a network device
- Describing the functionality of these IP Services: DHCP, DNS, NAT, SNMP, NTP
- Recognizing common protocol port values (such as, SSH, Telnet, HTTP, HTTPS, and NETCONF)
- Identifying cause of application connectivity issues (NAT problem, Transport Port blocked, proxy, and VPN)
- Explaining the impacts of network constraints on applications
Event Properties
Event Date | 03-02-2025 |
Event End Date | 07-02-2025 |
Individual Price | 4.190,00€ |
Durch die Kursteilnahme erhalten Sie 48 Cisco Continuing Education Credits (CE) | |
Training Location | IPnetON GmbH, Berlin / Onsite |
Examen | Pearson Vue Examen 200-901 |
Preis | 285,-€ (exkl. MwSt.) |
zzgl. Bearbeitungsgebühr | 20,- € |