Cisco Certified Design Expert CCDE

RegisterInquiry
Cisco Certified Design Expert CCDE
Loading...

B1617

Dubai (UAE)

26 Jul 2026 -06 Aug 2026

5565

Overview

Introduction:

Network design at the expert level represents a structured discipline that governs architecture, scalability, and decision-making within complex enterprise environments. It integrates design frameworks, traffic analysis models, and infrastructure strategies to support resilient and efficient network systems. This training program presents advanced network design principles, architecture models, and decision frameworks aligned with large scale enterprise and service provider environments. It provides an institutional perspective on how networks are structured, evaluated, and optimized through systematic design methodologies.

Program Objectives:

By the end of this program, participants will be able to:

  • Explore advanced network design frameworks within enterprise environments.

  • Evaluate architecture models across routing, switching, and service layers.

  • Assess traffic flow, scalability, and resiliency structures within network systems.

  • Examine design trade-offs and decision-making frameworks within complex infrastructures.

  • Analyze the alignment between business requirements and network architecture models.

Target Audience:

  • Senior network engineers and architects.

  • Network design and infrastructure professionals.

  • Telecommunications and service provider engineers.

  • IT architects and systems designers.

  • Professionals involved in large-scale network architecture.

Program Outline:

Unit 1:

Network Design Methodologies and Architectural Thinking:

  • Design methodologies within network environments.

  • Architecture principles within enterprise systems.

  • Requirement analysis within network design contexts.

  • Layered design approaches within infrastructure systems.

  • Relationship between design methodology and system performance.

Unit 2:

Routing and Switching Design Architectures:

  • Routing design structures within enterprise networks.

  • Switching models within campus and data center environments.

  • Control plane and data plane considerations.

  • Protocol selection criteria within design frameworks.

  • Relationship between routing structures and network stability.

Unit 3:

Scalability, Resiliency, and High Availability Models:

  • Scalability frameworks within network design.

  • Redundancy and failover structures within infrastructure systems.

  • High availability models within enterprise networks.

  • Fault tolerance within design environments.

  • Relationship between resiliency and service continuity.

Unit 4:

Traffic Engineering and Service Integration:

  • Traffic flow analysis within network environments.

  • Quality of service structures within design frameworks.

  • Service integration within multi-layer networks.

  • Application behavior within network design contexts.

  • Relationship between traffic patterns and design efficiency.

Unit 5:

Design Trade-Offs and Business Alignment:

  • Importance of trade-off analysis within network design decisions.

  • Cost, performance, and scalability considerations.

  • Alignment between business requirements and network architecture.

  • Risk considerations within design frameworks.

  • Relationship between design decisions and organizational outcomes.