MTCINE is designed for networking professionals who work with large-scale, complex, and multi-network environments, especially where advanced routing and ISP-grade designs are required.
1. ISP & Telecom Network Engineers- Engineers managing BGP, OSPF, MPLS, VPLS, and large routing domains in ISP or carrier networks.
2. Senior Network Engineers & Network Architects- Professionals responsible for designing, optimizing, and scaling enterprise or service provider networks.
3. MikroTik Certified Professionals (MTCRE holders)- Engineers who already hold MTCRE and want to advance to expert-level routing and inter-networking.
4. Data Center & Backbone Network Engineers- Engineers working with core networks, backbone routing, redundancy, and traffic engineering.
5. Enterprise Network Engineers- Those managing multi-site enterprise networks that require advanced routing, high availability, and failover design.
6. Wireless ISP (WISP) Engineers- Professionals designing and maintaining high-performance wireless ISP backbones using MikroTik.
7. Network Consultants & Solution Designers- Consultants who design ISP and enterprise routing solutions using MikroTik RouterOS.
ISP Network Engineer
Senior Network Engineer
Network Architect
Backbone / Core Network Engineer
WISP Engineer
Prerequisite: Valid MTCRE certification
| Title | Details |
|---|---|
| Course Fee | ৳ 4,000 |
| Total Modules | 11 |
| Course Duration | 16 Hours |
| Total Session | 8 |
| Class Duration | 2 Hours |
Review of dynamic routing protocols
Advanced routing design principles
Route selection and optimization
Administrative distance and routing metrics
OSPF multi-area design
Area types (Stub, Totally Stub, NSSA)
OSPF route summarization
OSPF authentication
OSPF troubleshooting and optimization
BGP overview and use cases
iBGP vs eBGP
BGP attributes (AS Path, Local Preference, MED, Weight)
Route advertisements and filtering
BGP best-path selection
Route reflectors and confederations
Policy-based routing with BGP
Load balancing and traffic engineering
BGP communities
Multi-homing scenarios
MPLS concepts and architecture
MPLS labels and forwarding
MPLS vs traditional routing
Use cases in ISP networks
MPLS LDP configuration
MPLS VPLS (Layer 2 VPN)
MPLS traffic engineering basics
MPLS troubleshooting
Site-to-site VPN design
MPLS-based VPN concepts
Interconnecting remote networks securely
VPN performance considerations
Bandwidth management strategies
Advanced queues and queue trees
QoS design for ISP environments
Traffic prioritization and shaping
Redundant routing paths
Failover design with dynamic routing
Load balancing techniques
Network resiliency best practices
Advanced troubleshooting tools
Traffic analysis
Routing protocol debugging
Network performance monitoring
ISP backbone design
Multi-site enterprise interconnection
Scaling MikroTik networks
Best practices and common mistakes
