changes to the switch VLAN configuration required
Figure 3.9 Setting the VLAN ID for a virtual machine's network adapter
Figure 3.10 PVLAN overview and the three types
Figure 3.11 Enabling a PVLAN by using SCVMM on a new logical network
Figure 3.12 Using SCVMM to create multiple isolated PVLANs that use the
same secondary VLAN ID
Figure 3.13 Common networks seen in a datacenter with virtualization
Figure 3.14 High-level view of logical networks
Figure 3.15 Viewing the security settings for the built-in Guest Dynamic IP
virtual port profile
Figure 3.16 The steps for SCVMM network configuration
Figure 3.17 Disabling the automatic creation of logical networks in SCVMM
2016
Figure 3.18 Creating a logical network that represents a connected collection
of sites
Figure 3.19 Adding a single site to a logical network
Figure 3.20 Creating a VLAN-based logical network
Figure 3.21 Choose the site for a new IP pool or create a new one.
Figure 3.22 Configuring the IP address range for the IP pool
Figure 3.23 The complete logical network and VM network configuration
Figure 3.24 Setting the options for a new uplink port profile and NIC Teaming
options
Figure 3.25 Selecting the network sites that can be connected to by using the
uplink port profile
Figure 3.26 Selecting the type of uplink to be used in the switch
Figure 3.27 Selecting the adapters to be used for the logical switch
deployment
Figure 3.28 Viewing the status of logical switch deployment
Figure 3.29 Viewing the status of logical switch modification to SET mode
Figure 3.30 High-level overview of network virtualization
Figure 3.31 High-level overview of network virtualization using NVGRE
Figure 3.32 The three planes that enable network virtualization for HNVv
Figure 3.33 The three planes that enable network virtualization for HNVv