Course Information
Course Name: Cisco 300-115: CCNP - SWITCH - Routing and Switching Online Course
Total Video Hours: 19 Hrs 30 Min
Total Videos: 60
Delivery Mode: Online, On-Demand
Skill Level: Intermediate to Advanced
Instructor: Rafiq Wayani
Cisco 300-115: CCNP - SWITCH - Routing and Switching Online Course is designed to address the technical requirements of Cisco IP switched networks. The course emphasizes planning and deploying scalable switching infrastructures, advanced VLAN configurations, Layer 3 switching, redundancy protocols, and network monitoring techniques required in enterprise-grade environments.
Included in This Course
19.5 hours of in-depth Cisco switching and routing instruction
60 professionally structured video lessons
Enterprise network planning and design principles
VLAN, trunking, and VTP configuration techniques
Layer 3 switching and inter-VLAN routing strategies
STP, RSTP, and MST configuration and optimization
Redundancy protocols including HSRP, VRRP, and GLBP
Network monitoring, IPSLA, and NTP configuration concepts
CCNP SWITCH 300-115 exam-aligned technical coverage
Course Outline
Module 1 Plan And Design
Course And Instructor Introduction
Planning For Complex NetworkPart1
Planning For Complex NetworkPart2
Intro To Cisco Enterprise Architecture And CAM Part1
Intro To Cisco Enterprise Architecture And CAM Part2
Review Networking Topology Part1
Review Networking Topology Part2
Review OSI Model
Review SLA
Network Discovery
NTP ExplainedPart1
NTP ExplainedPart2
Network SecurityPart1
Network SecurityPart2
Module 2 Switch Configuration
VLAN And Trunking Part1
VLAN And Trunking Part2
VTP Intro And Config
Ether Channel Configuration And Load Balancing
More Ether Channel ConfigurationPart1
More Ether Channel ConfigurationPart2
Port Security
Root Guard
Configuring MST
Module 3 IP Configuration
DHCP Intro And ConfigPart1
DHCP Intro And ConfigPart2
IPV6 Intro And ConfigPart1
IPV6 Intro And ConfigPart2
Configure DHCP
Configure DHCPV6
Configure IPSLA
NTP Configuration
Network Monitoring Using IPSLAPart1
Network Monitoring Using IPSLAPart2
Network Monitoring Using IPSLAPart3
Module 4 STP And RTP
STP Intro And Config
Improve STP ConfigPart1
Improve STP ConfigPart2
Improve STP ConfigPart3
Improve STP ConfigPart4
Implement RSTP
Intro And Config MST
Module 5 Routing
Config Routing Between VLANs With Router
Routing On A MultiLayer Switch
Routing With An External Router
Further Routing On Multilayer Switch
Module 6 HSRP, VRRP, GLBP
Configure And Tune HSRP
Configure HSRP With Load Balancing
HSRP For IPv6
Configure VRRP
Configure VRRP With Load Balancing
Implement GLBP
Configure GLBP
Module 07 Course Review
Designing Complex Networks
Review Demo CAM
Review Demo VLAN’s And Trunking
Review Demo VTP Configure
Review Demo Ether Channel And Load Balancing
Review Demo RSTP
Review Demo Routing Between VLAN’s With A Router
Cisco 300-115: CCNP - SWITCH - Routing and Switching
Cisco 300-115: CCNP - SWITCH - Routing and Switching Online Course focuses on enterprise switching environments that demand stability, scalability, and high availability. Modern enterprise networks rely heavily on advanced switching technologies to support critical applications, segmented traffic flows, and resilient infrastructure. This course addresses these demands through structured instruction aligned with Cisco Enterprise Campus Architecture.
Network planning and design serve as the foundation of reliable switching environments. The course begins by addressing complex network planning considerations, including topology design, service-level agreements, and architectural models. Understanding these elements ensures that switching solutions align with organizational requirements and performance expectations.
Cisco Enterprise Architecture concepts are introduced to explain how modular design improves scalability and fault tolerance. The course explains Content Addressable Memory (CAM) tables and their role in efficient packet forwarding within switches. These principles support informed design decisions and troubleshooting efficiency.
Reviewing networking fundamentals reinforces critical concepts required for advanced switching. OSI model alignment, topology analysis, and network discovery techniques are explained to ensure consistent understanding across enterprise environments. These reviews strengthen the ability to analyze traffic flow and diagnose switching issues effectively.
Switch configuration forms a central component of the course. VLAN and trunking concepts are addressed in detail, supporting logical network segmentation and traffic isolation. Proper VLAN design improves security, performance, and manageability within large-scale networks.
VTP configuration and management are explained to support centralized VLAN administration. The course highlights configuration considerations and operational impacts to ensure consistency across switching domains. Understanding VTP behavior reduces configuration errors and operational risks.
EtherChannel configuration and load balancing techniques are covered extensively. Aggregating physical links improves bandwidth utilization and redundancy. The course explains configuration methods, negotiation protocols, and traffic distribution strategies used in enterprise networks.
Port security and root guard configurations enhance network protection. These features prevent unauthorized access and maintain stable spanning-tree topologies. The course explains how to implement these controls without compromising network availability.
IP configuration topics address both IPv4 and IPv6 environments. DHCP configuration ensures efficient address allocation, while DHCPv6 addresses modern addressing requirements. IPSLA monitoring techniques are introduced to measure network performance and detect failures proactively.
Time synchronization using NTP is addressed to ensure consistent logging and monitoring across network devices. Accurate timekeeping supports troubleshooting, compliance, and performance analysis in enterprise networks.
Spanning Tree Protocol (STP) optimization is critical for loop prevention and network stability. The course explains STP operation, enhancement techniques, and configuration improvements. Rapid Spanning Tree Protocol (RSTP) and Multiple Spanning Tree (MST) implementations are addressed to support faster convergence and scalable topologies.
Routing within switched environments is explored through inter-VLAN routing configurations. The course explains routing between VLANs using routers, multilayer switches, and external routing devices. These techniques support efficient traffic flow across segmented networks.
Redundancy and high availability are addressed through HSRP, VRRP, and GLBP. These protocols ensure gateway availability and load balancing within enterprise networks. The course explains configuration, tuning, and IPv6 support to address modern networking requirements.
The course review module consolidates knowledge through practical demonstrations. Real-world configuration examples reinforce planning, VLAN management, EtherChannel implementation, STP optimization, and routing techniques. This structured review supports exam preparation and operational confidence.
Cisco 300-115: CCNP - SWITCH - Routing and Switching Online Course supports professionals responsible for designing, implementing, and maintaining enterprise switching infrastructures. Instruction balances theoretical concepts with configuration practices aligned with industry standards. The course provides technical depth required for certification preparation and operational excellence.
FAQs
Who should enroll in this Cisco 300-115 course?
This course is intended for network engineers, administrators, and professionals preparing for CCNP SWITCH certification.
Does this course align with the CCNP SWITCH 300-115 exam?
Yes, the course content aligns with the legacy CCNP SWITCH 300-115 exam objectives.
Is prior networking knowledge required?
Yes, foundational knowledge of Cisco networking and CCNA-level concepts is recommended.
Does the course cover both IPv4 and IPv6 configurations?
Yes, both IPv4 and IPv6 DHCP and routing concepts are included.
Are redundancy protocols explained in detail?
Yes, HSRP, VRRP, and GLBP configurations and tuning are covered extensively.
How long does it take to complete the course?
The total runtime is 19 hours and 30 minutes, allowing structured self-paced study.
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