Description
Complete Study Guide Cisco CCIE DevNet v1.0 Training Mumbai
The Cisco CCIE DevNet v1.0 certification is a highly valuable qualification for IT professionals who want to specialize in automation, software development, and network programmability. At IP Route, we offer comprehensive Cisco CCIE DevNet v1.0 training in Mumbai, designed to equip you with the knowledge and practical skills needed to master this certification. Our program blends hands-on lab training with detailed theoretical lessons to prepare you for the challenging exam.
Whether you’re looking to deepen your understanding of DevNet technologies or seeking to enhance your career, our Cisco CCIE DevNet v1.0 training provides the complete solution to help you succeed.
Benefits of Choosing Cisco CCIE DevNet v1.0 Training Mumbai
Gain Expertise in Network Automation and Software Development with Practical Labs
Our training provides hands-on experience in network automation, API integration, and software development using Cisco technologies. With practical labs and real-world exercises, you will acquire the necessary skills to manage and automate network infrastructure.
Comprehensive Coverage of the Cisco CCIE DevNet v1.0 Blueprint
The curriculum covers all areas of the certification, including programmability, automation tools, Cisco APIs, and DevOps methodologies. Our training is aligned with the official Cisco CCIE DevNet v1.0 blueprint, ensuring you are thoroughly prepared for the exam.
Learn from Certified Experts and Access Continuous Support
Our training is led by certified professionals who have in-depth knowledge of Cisco DevNet technologies. They provide expert guidance throughout the course, helping you understand complex topics and prepare effectively for the exam. We also offer continuous support to address your queries and challenges during the training.
Flexible Learning Options for Busy Professionals
We understand that professionals need flexibility. Our Cisco CCIE DevNet v1.0 training is available in on-site, remote, and hybrid formats, allowing you to choose the mode of learning that best suits your schedule and needs. Whether you’re based in Mumbai or elsewhere, we ensure you can access our training without limitations.
Tailored for Success in Mumbai’s Evolving IT Landscape
Mumbai’s IT market is rapidly growing, with increasing demand for network automation and software development skills. Our training is tailored to meet the needs of professionals in this competitive environment, ensuring that you’re not only ready for the certification but also well-equipped to tackle real-world challenges in the industry.
FAQs
1. What is Cisco CCIE DevNet v1.0 Training?
Cisco CCIE DevNet v1.0 training is a specialized course that prepares IT professionals for the Cisco CCIE DevNet certification. It focuses on network programmability, software development, automation, and DevOps.
2. Who should take this training?
This training is ideal for professionals with experience in networking, automation, or software development. It is also suitable for those looking to specialize in network programmability and DevOps practices.
3. Can I take this training remotely?
Yes, we offer flexible remote training options in addition to on-site classes in Mumbai. Our hybrid learning model allows you to participate from anywhere, at your convenience.
4. What are the key topics covered in the training?
The training covers network automation, API usage, software development principles, DevOps methodologies, and Cisco DevNet tools. It closely follows the Cisco CCIE DevNet v1.0 exam blueprint.
5. Will I have access to labs and study materials?
Yes, we provide full access to hands-on labs and comprehensive study materials, ensuring you are well-prepared for both the theoretical and practical components of the exam.
The following topics are general guidelines for the content that is likely to be included on the exam. Your knowledge, skills, and abilities related to these topics will be tested throughout the entire software development lifecycle, as specified within this document.
- 1.1 Design a solution based on an on-premises, hybrid, or public cloud deployment,considering these factors:
- 1.1.a Deployment: maintainability, modularity (e.g., containers, VM, orchestration, automation, components, and infrastructure requirements)
- 1.1.b Reliability: high availability and resiliency
- 1.1.c Performance: scalability, latency, and rate limiting
- 1.1.d Infrastructure: monitoring, observability, and metrics (e.g., instrument placement and instrument deployment)
- 1.2 Recommend a deployment strategy to mitigate risk and impact on service availability, for a given scenario
- 1.3 Modify an existing network automation solution based on business and technical requirements (includes gap analysis)
- 1.4 Use Git in a CI/CD development workflow
- 1.5 Troubleshoot issues with a CI/CD pipeline (e.g., code-based failures, pipeline issues, and tool incompatibility
- 2.1 Create a scalable solution for infrastructure automation (considering areas such as network impact, risk, and tool selection)
- 2.2 Build, manage, and operate a Python-based REST API with a web application framework (endpoints, HTTP request, and response)
- 2.3 Build, manage, and operate a Python-based CLI application to use a REST API
- 2.4 Consume and use a new REST API, given the documentation
- 2.5 Create a RESTCONF or NETCONF payload based on a given YANG module, and interpret the response
- 2.6 Create a NETCONF filter by using XPath
- 2.7 Configure network devices on an existing infrastructure by using NETCONF or RESTCONF, given YANG analysis tools
- 2.8 Create and use a role by utilizing Ansible to manage infrastructure, given support documentation
- 2.8.a Loop control
- 2.8.b Conditionals
- 2.8.c Use of variables and templating
- 2.8.d Use of connection plug-ins such as network CLI, HTTPAPI, and NETCONF
- 2.9 Use Terraform to statefully manage infrastructure, given support documentation
- 2.9.a Loop control
- 2.9.b Resource graphs
- 2.9.c Use of variables
- 2.9.d Resource retrieval
- 2.9.e Resource provision
- 2.9.f Management of the state of provisioned resources
- 2.10 Create a basic Cisco NSO service package to meet given business and technical requirements. The service would generate a network configuration on the target device platforms using the “cisco-ios-cli” NED and be of type “python-and-template”
- 2.10.a Create a service template from a provided NSO device configuration
- 2.10.b Create a basic YANG module for the service containers (including lists, leaf lists, data types, leaf references, and single argument “when” and “must” conditions)
- 2.10.c Create basic actions to verify operational status of the service
- 2.10.d Monitor service status by reviewing the NCS Python VM log file
- 3.1 Create, modify, and troubleshoot scripts by using Python libraries and SDK documentation to automate against APIs (ACI, AppDynamics, DNA Center, FDM, Intersight, IOS XE, Meraki, NSO, Webex)
- 3.2 Automate the configuration of a Cisco IOS XE network device (based on a provided architecture and configuration), including these components:
- 3.2.a Interfaces
- 3.2.b Static routes
- 3.2.c VLANs
- 3.2.d Access control lists
- 3.2.e BGP peering
- 3.2.f BGP and OSPF routing tables
- 3.2.g BGP and OSPF neighbors
- 3.3 Deploy an application on a Cisco IOS XE device by leveraging the technologies of Guest Shell and application hosting
- 3.4 Modify and troubleshoot an automated test by using pyATS to meet requirements
- 3.4.a Create a testbed file for connecting to Cisco IOS, IOS XE, or NX-OS devices
- 3.4.b Gather current configuration and operational state from devices using the Genie parsers and models included with pyATS
- 3.4.c Develop and execute test jobs and scripts using AEtest to verify network health
- 3.5 Design a model-driven telemetry solution based on given business and technical requirements by using gNMI dial-in, gRPC dial-out, and NETCONF dial-in
- 3.6 Create YANG model-driven telemetry subscriptions
- 3.6.a Identify model elements and cadence
- 3.6.b On-change or event drive
- 3.6.c Optimize frequency
- 3.6.d Dial-out subscription
- 3.6.e Secure telemetry streams
- 3.6.f Confirm data transmission
- 3.6.g Identify network issues and make changes
- 4.1 Create a Docker image (including Dockerfile)
- 4.1.a From a provided image
- 4.1.b Expose ports
- 4.1.c Add or copy files
- 4.1.d Run commands during image build
- 4.1.e Manipulate entry point and initial commands
- 4.1.f Establish working directories
- 4.1.g Environment variables as part of a definition to control an application
- 4.1.h Docker ignore file
- 4.1.i Volumes
- 4.2 Package and deploy a solution by using Docker Compose
- 4.2.a Deploy and manage containers
- 4.2.b Define services, networks, volumes, and links
- 4.3 Package and deploy a solution by using Kubernetes
- 4.3.a Use deployments, secrets, services, ingress, volumes, namespaces, and replicas
- 4.3.b Manage the lifecycle of pods (e.g., scale up, scale down, help status, logs)
- 4.3.c Monitor pods by building health checks)
- 4.3.d Use the kubectl interface
- 4.4 Create, consume, and troubleshoot a Docker host and bridge-based networks and integrate them with external networks
- 5.1 Leverage OWASP secure coding practices into all solutions to meet given requirements
- 5.1.a Input validation
- 5.1.b Authentication and password management
- 5.1.c Access control
- 5.1.d Cryptographic practices
- 5.1.e Error handling and logging
- 5.1.f Communication security
- 5.2 Create a certificate signing request (CSR) by using OpenSSL; send CSR to a provided certificate authority; and use the certificate to secure a web application
- 5.3 Use OAuth2+ to obtain an authentication token
- 5.4 Use a secret management system to secure an application
- 5.5 Use tokens, headers, and secrets to secure a REST API
Please write to us at [email protected] for the price and upcoming schedule.
- Introduction
- A (Very) Basic Introduction to Networking
- The OSI Reference Model Overview
- The TCP/IP Stack
- The Upper OSI Layers
- The Lower OSI Layers
- Introduction
- The Transport Layer Header, TCP and UDP
- Introduction
- Class A IP Addresses
- IP Address Classes B and C
- IP Address Classes D and E
- Introduction
- Local Area Network Layer 2 – Ethernet
- Introduction
- Switches vs Hubs
- Switch Operation
Routers - Other Cisco Devices
- Cisco Device Functions – Lab Exercises
- Introduction
- A (Very) Basic Introduction to Networking
- The OSI Reference Model Overview
- The TCP/IP Stack
- The Upper OSI Layers
- The Lower OSI Layers
- Introduction
- The Transport Layer Header, TCP and UDP
- Introduction
- Class A IP Addresses
- IP Address Classes B and C
- IP Address Classes D and E
- Introduction
- Local Area Network Layer 2 – Ethernet
- Introduction
- Switches vs Hubs
- Switch Operation
Routers - Other Cisco Devices
- Cisco Device Functions – Lab Exercises
Updated Labs, Great Support, Professional trainers, Overwhelming after sales support, Best CCIE