Locator/ID Separation Protocol (LISP) Zero-to-Hero
Locator/ID Separation Protocol (LISP) Zero-to-Hero
Duration: 15:40:44 | .MP4 1280x720, 30 fps(r) | AAC, 44100 Hz, 2ch | 8.24 GB
Genre: eLearning | Language: English
Duration: 15:40:44 | .MP4 1280x720, 30 fps(r) | AAC, 44100 Hz, 2ch | 8.24 GB
Genre: eLearning | Language: English
Concepts , Configuration and Verification
What you'll learn
LISP Introduction , Identity and Location Address Separation
LISP Components and Packets and Processes
LISP IPv4 Unicast Routing
LISP IPv4-in-IPv4 Encapsulated Packet Contents
LISP IPv6 Unicast Routing
LISP Transition form IPv4 to IPv6 with LISP
LISP Traffic Engineering with Priority and Weight
LISP IPv4 Unicast Routing with Non-Lisp Site
LISP IPv4 Multicast Routing - Source Specfic Multicast (SSM)
LISP IPv4 Multicast Routing - Any Source Multicast (ASM)
LISP IPv6 Multicast Routing in IPv4 RLOC (ASM)
LISP Single Tenant Virtualization with Shared Model
LISP Multi Tenant Virtualization with Shared Model
LISP Multi Tenant Virtualization with Parallel Model
LISP Multi Tenant Virtualization with hybrid Model
LISP Dual Router Dual Homed Enterprise Edge
LISP IPv4 Unicast Routing in NX-OS
Requirements
You need to have routing and multicast fundamentals knowledge. You can implement scenarios of this course in GNS3 and EVE-NG.
Description
The continuous growth of the Internet presents a number of challenges. Among the most fundamental of these challenges is ensuring that the routing and addressing system continues to function efficiently even as the number of connected devices continues to increase. A basic observation during early network research and development work was that the single IP address, which includes both identity and location, leads to suboptimal route scaling and hinders multihoming and device mobility.
Locator ID Separation Protocol (LISP) provides improved routing scalability and facilitates flexible address assignment for multi-homing, provider independence, mobility, and virtualization. LISP offers an alternative to traditional Internet architecture by introducing two separate IP addresses: one to indicate routing locators (RLOCs) for routing traffic through the global Internet and a second address for endpoint identifiers (EIDs) used to identify network sessions between devices.
Locator ID Separation Protocol (LISP) is a network architecture and protocol that implements the use of two namespaces instead of a single IP address:
Endpoint identifiers (EIDs)—assigned to end hosts.
Routing locators (RLOCs)—assigned to devices (primarily routers) that make up the global routing system.
Splitting EID and RLOC functions yields several advantages including improved routing system scalability, and improved multihoming efficiency and ingress traffic engineering.
LISP functionality requires LISP-specific configuration of one or more LISP-related devices, such as the LISP egress tunnel router (ETR), ingress tunnel router (ITR), proxy ETR (PETR), proxy ITR (PITR), map resolver (MR), map server (MS), and LISP alternative logical topology (ALT) device.
Who this course is for:
Network Engineers , Service Provider Engineers , Datacenter Engineers
More Info