NSXTD32 – VMware NSX-T Data Center: Design v3.2
NSXTD32 - VMware NSX-T Data Center: Design v3.2
Course Overview
This five-day course provides comprehensive training on considerations and practices to design a VMware NSX-T™ Data Center environment as part of a software-defined data center strategy. This course prepares the student with the skills to lead the design of NSX-T Data Center offered in release 3.2, including design principles, processes, and frameworks. The student gains a deeper understanding of the NSX-T Data Center architecture and how it can be used to create solutions to address the customer’s business needs.
Product Alignment
VMware NSX-T Data Center 3.2
Who should attend
Network and security architects and consultants who design the enterprise and data center networks and VMware NSX® environments
Certifications
This course is part of the following Certifications:
VMware Certified Professional ‒ Network Virtualization 2023
VMware Certified Advanced Professional ‒ Network Virtualization Design 2023
Prerequisites
Before taking this course, you must complete the following course:
VMware NSX-T Data Center: Install, Configure, Manage V3.2
You should also have the understanding or knowledge of these technologies:
Good understanding of TCP/IP services and protocols
Knowledge and working experience of computer networking and security, including:
Switching and routing technologies (L2-L3)
Network and application delivery services (L4-L7)
Firewalling (L4-L7)
vSphere environments
The VMware Certified Professional – Network Virtualization certification is recommended.
Course Objectives
By the end of the course, you should be able to meet the following objectives:
Describe and apply a design framework
Apply a design process for gathering requirements, constraints, assumptions, and risks
Design a VMware vSphere® virtual data center to support NSX-T Data Center requirements
Create a VMware NSX® Manager™ cluster design
Create a VMware NSX® Edge™ cluster design to support traffic and service requirements in NSX-T Data Center
Design logical switching and routing
Recognize NSX-T Data Center security best practices
Design logical network services
Design a physical network to support network virtualization in a software-defined data center
Create a design to support the NSX-T Data Center infrastructure across multiple sites
Describe the factors that drive performance in NSX-T Data Center
Course Content
Course Introduction
Introduction and course logistics
Course objectives
NSX Design Concepts
Identify design terms
Describe framework and project methodology
Describe VMware Validated Design™
Identify customers’ requirements, assumptions, constraints, and risks
Explain the conceptual design
Explain the logical design
Explain the physical design
NSX Architecture and Components
Recognize the main elements in the NSX-T Data Center architecture
Describe the NSX management cluster and the management plane
Identify the functions and components of management, control, and data planes
Describe the NSX Manager sizing options
Recognize the justification and implication of NSX manager cluster design decisions
Identify the NSX management cluster design options
NSX Edge Design
Explain the leading practices for edge design
Describe the NSX Edge VM reference designs
Describe the bare-metal NSX Edge reference designs
Explain the leading practices for edge cluster design
Explain the effect of stateful services placement
Explain the growth patterns for edge clusters
Identify design considerations when using L2 bridging services
NSX Logical Switching Design
Describe concepts and terminology in logical switching
Identify segment and transport zone design considerations
Identify virtual switch design considerations
Identify uplink profile, VMware vSphere® Network I/O Control profile, and transport node profile design considerations
Identify Geneve tunneling design considerations
Identify BUM replication mode design considerations
NSX Logical Routing Design
Explain the function and features of logical routing
Describe NSX-T Data Center single-tier and multitier routing architectures
Identify guidelines when selecting a routing topology
Describe the BGP and OSPF routing protocol configuration options
Explain gateway high availability modes of operation and failure detection mechanisms
Identify how multitier architectures provide control over stateful service location
Identify VRF Lite requirements and considerations
Identify the typical NSX scalable architectures
NSX Security Design
Identify different security features available in NSX-T Data Center
Describe the advantages of an NSX Distributed Firewall
Describe the use of NSX Gateway Firewall as a perimeter firewall and as an intertenant firewall
Determine a security policy methodology
Recognize the NSX-T Data Center security best practices
NSX Network Services
Identify the stateful services available in different edge cluster high availability modes
Describe failover detection mechanisms
Explain the design considerations for integrating VMware NSX® Advanced Load Balancer™ with NSX-T Data Center
Describe stateful and stateless NSX-T Data Center NAT
Identify benefits of NSX-T Data Center DHCP
Identify benefits of metadata proxy
Describe IPSec VPN and L2 VPN
Physical Infrastructure Design
Identify the components of a switch fabric design
Assess Layer 2 and Layer 3 switch fabric design implications
Review guidelines when designing top-of-rack switches
Review options for connecting transport hosts to the switch fabric
Describe typical designs for VMware ESXi™ compute hypervisors with two pNICs
Describe typical designs for ESXi compute hypervisors with four or more pNICs
Describe a typical design for a KVM compute hypervisor with two pNICs
Differentiate dedicated and collapsed cluster approaches to SDDC design
NSX Multilocation Design
Explain scale considerations in an NSX-T Data Center multisite design
Describe the main components of the NSX Federation architecture
Describe the stretched networking capability in Federation
Describe stretched security use cases in Federation
Compare Federation disaster recovery designs
NSX Optimization
Describe Geneve Offload
Describe the benefits of Receive Side Scaling and Geneve Rx Filters
Explain the benefits of SSL Offload
Describe the effect of Multi-TEP, MTU size, and NIC speed on throughput
Explain the available N-VDS enhanced datapath modes and use cases
List the key performance factors for compute nodes and NSX Edge nodes