Course Information
Course Name: Cisco 640-864: CCDA Cisco Certified Design Associate Online Course
Total Video Hours: 9 Hrs 12 Min
Total Videos: 51
Delivery Mode: Online video-based instruction
Skill Level: Associate-level network design
Instructor: Chris Avants
Focus Area: Cisco enterprise network design concepts
Included in This Course
Instructor-led video sessions covering Cisco design frameworks
Business-driven network design methodologies
Enterprise campus, WAN, and remote network design concepts
Routing, switching, and IP addressing design principles
VLAN, switching, and multilayer campus design strategies
IPv4 and IPv6 design considerations
Legacy CCDA 640-864 aligned design knowledge
Course Outline
MOD 01 Methodologies Used To Design A Network
1.1 Intro
1.2 Developing Business Trends
1.3 P.P.D.I.O.O. Part 1
1.4 P.P.D.I.O.O. Part 2
1.5 3 Layer Campus Design
1.6 Modular Network Design
1.7 Cisco Eight Step Design Methodology
1.8 Cisco IIN
MOD 02 Network Structure and Modularity
2.1 Network Design Fundamentals
2.2 Design Methods And Methodologies Part 1
2.3 Design Methods And Methodologies Part 2
2.4 Enterprise Campus Design
MOD 03 Basic Enterprise Campus Networks
3.1 Campus Design Considerations Part 1
3.2 Campus Design Considerations Part 2
3.3 Cisco SONA
MOD 04 Enterprise Edge And Remote Network Modules
4.1 WAN Technologies And VPN Part 1
4.2 WAN Technologies And VPN Part 2
4.3 WAN Technologies Part 1
4.4 WAN Technologies Part 2
4.5 VPN Technologies Part 1
4.6 VPN Technologies Part 2
4.7 VPN Technologies Part 3
MOD 05 IP Addressing And Routing Protocols
5.1 Routing Protocol Operation And Design Part 1
5.2 Routing Protocol Operation And Design Part 2
5.3 Routing Protocol Operation And Design Part 3
5.4 OSPF Part 1
5.5 OSPF Part 2
5.6 EIGRP Part 1
5.7 EIGRP Part 2
MOD 06 Enterprise Switching
6.1 Virtual LANS And Trunks
6.2 InterVLAN Routing Part 1
6.3 InterVLAN Routing Part 2
6.4 Enterprise Switch Features And Design
6.5 Multilayer Switches In Campus Networks
6.6 Enterprise VLAN Design Best Practices
MOD 07 Switch Macros
7.1 Switch Macros
7.2 PVLAN Port Types
7.3 Ether Channel
MOD 08 IP Concepts & Designs
8.1 IPv4
8.2 Introducing Classless Interdomain Routing
8.3 Subnetting Part 1
8.4 Subnetting Part 2
8.5 Subnetting Part 3
8.6 IPv6
Lesson 16 Endpoints
16.1 Endpoints
16.2 Endpoints Demo
Lesson 17 Linking Servers
17.1 Linking Servers
Lesson 18 Triggers
18.1 Triggers-Part 1
18.2 Triggers-Part 2
18.3 Triggers Demo
Lesson 19 Replication
19.1 Replication
19.2 Replication Coverage-Part 1
19.3 Replication Coverage-Part 2
19.4 Replication Demo
Lesson 20 Performing Indexing and Full-Text Searching
20.1 Indexing
20.2 SQL Searching
20.3 Searching And Indexing In SQL Demo
Lesson 21 Transactions and Locks
21.1 Transactions
21.2 Locks
21.3 Locks Demo
Lesson 22 Moving Data
22.1 MovingData
Lesson 23 Handling Specialty Data
23.1 Handling Specialty Data
23.2 XML Demo
Lesson 24 High-Availability Methods
24.1 High-Availability-Part 1
24.2 High-Availability-Part 2
24.3 Creating A Snaphot Demo
Lesson 25 Maintaining and Automating a SQL Server
25.1 Maintaining And Automating A SQL Server-Part 1
25.2 Maintaining And Automating A SQL Server-Part 2
25.3 Setting Up A SQL Email Demo
Lesson 26 Monitoring and Optimizing SQL Server
26.1 Monitoring And Optimizing SQL Server
26.2 Monitoring And Optimizing SQL Server Demo
Lesson 27 SQL Server Management Tools
27.1 SQL Server Management Tools-Part 1
27.2 SQL Server Management Tools-Part 2
Lesson 28 Troubleshooting Techniques
28.1 TroubleshootingTechniques-Part 1
28.2 TroubleshootingTechniques-Part 2
28.3 Troubleshooting Utilities Demo
28.4 Conclusion
Network Design as a Business-Driven Discipline
Cisco 640-864: CCDA Cisco Certified Design Associate Online Course presents network design as a structured discipline that aligns technical infrastructure with business objectives. Network design decisions directly influence scalability, availability, security, and operational efficiency. This course focuses on building design awareness rather than device-level configuration, enabling professionals to think strategically about network architecture.
Design methodologies introduced in this course emphasize planning before implementation. By understanding business drivers and technical constraints, designers can develop network solutions that support long-term organizational goals.
Cisco Design Methodologies and Frameworks
The course begins with an examination of Cisco design methodologies, including the P.P.D.I.O.O. lifecycle and Cisco’s eight-step design methodology. These frameworks guide network professionals through phases of planning, implementation, validation, and optimization.
Instruction highlights how structured design processes reduce risk and ensure consistent results. Learners gain insight into how Cisco applies these methodologies across enterprise environments, reinforcing industry-aligned best practices.
Modular and Hierarchical Network Design
Modular design principles are central to scalable enterprise networks. The course explains the three-layer campus design model and modular network architecture, which separate network functions into access, distribution, and core layers.
This approach improves manageability and fault isolation while supporting growth. Learners explore how modular designs simplify troubleshooting and enhance flexibility in evolving enterprise environments.
Enterprise Network Structure and Campus Design
Enterprise campus networks require careful planning to support users, applications, and services. The course addresses network structure and modularity, emphasizing design fundamentals used in large-scale deployments.
Cisco SONA and enterprise campus design models are discussed to illustrate how business processes integrate with network architecture. Learners understand how campus designs support performance, resilience, and security requirements.
WAN, VPN, and Remote Network Design
Modern enterprises rely on WAN and VPN technologies to connect distributed locations. This course covers WAN technologies, remote connectivity options, and VPN design considerations.
Instruction explains how design choices impact performance, reliability, and security. Learners gain awareness of selecting appropriate technologies based on business needs and geographic distribution.
IP Addressing and Routing Protocol Design
Effective IP addressing and routing design ensures efficient data flow and scalability. The course explores routing protocol behavior, design considerations, and protocol selection.
OSPF and EIGRP design principles are examined in detail, highlighting how protocol characteristics influence network performance. Learners develop the ability to evaluate routing designs that balance convergence speed, scalability, and administrative control.
Enterprise Switching and VLAN Design
Switching infrastructure forms the foundation of enterprise networks. The course explains VLANs, trunking, inter-VLAN routing, and multilayer switching concepts.
Design best practices for VLAN segmentation and enterprise switch features are emphasized. Learners understand how switching designs support traffic isolation, performance optimization, and simplified management.
Advanced Switching Features and Optimization
Advanced switching concepts such as switch macros, private VLANs, and EtherChannel are introduced. These features enhance efficiency and resilience within enterprise networks.
Instruction focuses on how these technologies fit into broader design strategies rather than isolated configurations. Learners gain awareness of optimizing switch deployments for high availability and performance.
IP Concepts, Subnetting, and IPv6 Design
Strong IP design skills are essential for network designers. The course provides detailed instruction on IPv4 addressing, CIDR, subnetting, and IPv6 concepts.
Learners explore how address planning supports scalability and efficient resource utilization. IPv6 design considerations are included to reflect modern network requirements.
Supplementary Lessons and Operational Awareness
The later lessons introduce additional technical concepts such as endpoints, replication, indexing, high availability, monitoring, and troubleshooting. While these topics extend beyond traditional CCDA scope, they provide broader infrastructure awareness relevant to enterprise environments.
Understanding these operational elements supports holistic design thinking, allowing designers to consider application behavior, data availability, and system resilience.
Professional Value of CCDA Knowledge
Cisco CCDA knowledge supports roles focused on network planning, design, and architecture. This course equips learners with conceptual frameworks and design vocabulary used by Cisco professionals worldwide.
Although the 640-864 CCDA exam is considered legacy, the design principles remain applicable across modern Cisco and multi-vendor networks.
Frequently Asked Questions
Who should take the Cisco 640-864 CCDA Online Course?
This course is suitable for network engineers, administrators, and professionals interested in network design fundamentals.
Is this course focused on configuration or design concepts?
The course emphasizes design methodologies and architectural principles rather than device-level configuration.
Does the course cover enterprise campus and WAN design?
Yes, enterprise campus, WAN, VPN, and remote network design topics are core components.
Is prior networking knowledge required?
Foundational knowledge of routing and switching concepts is recommended.
Is the CCDA certification still relevant?
While the exam is legacy, the design principles remain valuable for network architecture roles.
Does the course address IPv6 design concepts?
Yes, IPv6 addressing and design considerations are included.
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