Your network contains an Active Directory domain named contoso.com. The domain contains a domain controller named DC1 and a member server named Server1. Server1 has the IP Address Management (IPAM) Server feature installed. On Dc1, you configure Windows Firewall to allow all of the necessary inbound ports for IPAM. On Server1, you open Server Manager as shown in the exhibit. (Click the Exhibit button.)
You need to ensure that you can use IPAM on Server1 to manage DNS on DC1. What should you do?
A. Modify the outbound firewall rules on Server1.
B. Modify the inbound firewall rules on Server1.
C. Add Server1 to the Remote Management Users group.
D. Add Server1 to the Event Log Readers group.
Since no exhibit, the guess here is it’s not using the GPO to manage the Event Log Readers group– evidenced by the fact that the firewall was configured manually instead of with the GPO. If the GPO was being used then the IPAM server would be in the Event Log Readers group due to restricted group settings in the GPO as shown below:
In the above example, the IPAM server is as member of the VDI\IPAMUG group.
Your network contains an Active Directory domain named contoso.com. The domain contains servers named Server1 and Server2 that run Windows Server 2012 R2. Server1 has the IP Address Management (IPAM) Server feature installed. You install the IPAM client on Server2. You open Server Manager on Server2 as shown in the exhibit. (Click the Exhibit button.)
You need to manage IPAM from Server2. What should you do first?
A. On Server1, add the Server2 computer account to the IPAM MSM Administrators group.
B. On Server2, open Computer Management and connect to Server1.
C. On Server2, add Server1 to Server Manager.
D. On Server1, add the Server2 computer account to the IPAM ASM Administrators group.
Your network contains an Active Directory domain named contoso.com. The domain contains a domain controller named Dc1. DC1 has the DNS Server server role installed. The network has two sites named Site1 and Site2. Site1 uses 10.10.0.0/16 IP addresses and Site2 uses 10.11.0.0/16 IP addresses. All computers use DC1 as their DNS server. The domain contains four servers named Server1, Server2, Server3, and Server4. All of the servers run a service named Service1. DNS host records are configured as shown in the exhibit. (Click the Exhibit button.)
You discover that computers from the 10.10.1.0/24 network always resolve Service1 to the [P address of Server1. You need to configure DNS on DC1 to distribute computers in Site1 between Server1 and Server2 when the computers attempt to resolve Service1. What should run on DC1?
A. dnscmd /config /bindsecondaries 1
B. dnscmd /config /localnetpriority 0
C. dnscmd /config /localnetprioritynetmask 0x0000ffff
D. dnscmd /config /roundrobin 0
A. Specifies use of fast transfer format used by legacy Berkeley Internet Name Domain (BIND) servers. 1 enables
B. Disables netmask ordering.
C. You can use the Dnscmd /Config /LocalNetPriorityNetMask 0x0000FFFF command to use class B ( or 16 bit) for netmask ordering for DNS round robin
D. Disables round robin rotation.
http://technet.microsoft.com/en-us/library/cc737355(v=ws.10).aspx http://technet.microsoft.com/en-us/library/cc738473(v=ws.10).aspx http://support.microsoft.com/kb/842197
Your network contains an Active Directory domain named contoso.com. The domain contains a main office and a branch office. An Active Directory site exists for each office. The domain contains two servers named Server1 and Server2 that run Windows Server 2012 R2. Both servers have the DHCP Server server role installed. Server1 is located in the main office site. Server2 is located in the branch office site. Server1 provides IPv4 addresses to the client computers in the main office site. Server2 provides IPv4 addresses to the client computers in the branch office site. You need to ensure that if either Server1 or Server2 are offline, the client computers can still obtain IPv4 addresses.
The solution must meet the following requirements:
– The storage location of the DHCP databases must not be a single point of failure.
– Server1 must provide IPv4 addresses to the client computers in the branch office site only if Server2 is offline.
– Server2 must provide IPv4 addresses to the client computers in the main office site only if Server1 is offline.
Which configuration should you use?
A. load sharing mode failover partners
B. a failover cluster
C. hot standby mode failover partners
D. a Network Load Balancing (NLB) cluster
A. The load sharing mode of operation is best suited to deployments where both servers in a failover relationship are located at the same physical site.
B. Hot standby mode of operation is best suited to deployments where a central office or data center server acts as a standby backup server to a server at a remote site, which is local to the DHCP clients
C. Needs to be a DHCP Failover option
D. Needs to be a DHCP Failover option
You have a DHCP server named Server1. Server1 has an IP address 192.168.1.2 is located on a subnet that has a network ID of 192.168.1.0/24. On Server1, you create the scopes shown in the following table.
You need to ensure that Server1 can assign IP addresses from both scopes to the DHCP clients on the local subnet. What should you create on Server1?
A. A scope
B. A superscope
C. A split-scope
D. A multicast scope
A. A scope is an administrative grouping of IP addresses for computers on a subnet that use the Dynamic Host Configuration Protocol (DHCP) service. The administrator first creates a scope for each physical subnet and then uses the scope to define the parameters used by clients.
B. A superscope is an administrative feature of Dynamic Host Configuration Protocol (DHCP) servers running Windows Server 2008 that you can create and manage by using the DHCP Microsoft Management Console (MMC) snap-in. By using a superscope, you can group multiple scopes as a single administrative entity.
D. Multicasting is the sending of network traffic to a group of endpointsdestination hosts. Only those members in the group of endpoints hosts that are listening for the multicast traffic (the multicast group) process the multicast traffic http://technet.microsoft.com/en-us/library/dd759168.aspx http://technet.microsoft.com/en-us/library/dd759152.aspx
Your network contains servers that run Windows Server 2012 R2. The network contains a large number of iSCSI storage locations and iSCSI clients. You need to deploy a central repository that can discover and list iSCSI resources on the network automatically. Which feature should you deploy?
A. the Windows Standards-Based Storage Management feature
B. the iSCSI Target Server role service
C. the iSCSI Target Storage Provider feature
D. the iSNS Server service feature
A. Windows Server 2012 R2 enables storage management that is comprehensive and fully scriptable, and administrators can manage it remotely. A WMI-based interface provides a single mechanism through which to manage all storage, including non-Microsoft intelligent storage subsystems and virtualized local storage (known as Storage Spaces). Additionally, management applications can use a single Windows API to manage different storage types by using standards-based protocols such as Storage Management Initiative Specification (SMI-S).
B. Targets are created in order to manage the connections between an iSCSI device and the servers that need to access it. A target defines the portals (IP addresses) that can be used to connect to the iSCSI device, as well as the security settings (if any) that the iSCSI device requires in order to authenticate the servers that are requesting access to its resources. C. iSCSI Target Storage Provider enables applications on a server that is connected to an iSCSI target to perform volume shadow copies of data on iSCSI virtual disks. It also enables you to manage iSCSI virtual disks by using older applications that require a Virtual Disk Service (VDS) hardware provider, such as the Diskraid command.
D. The Internet Storage Name Service (iSNS) protocol is used for interaction between iSNS servers and iSNS clients. iSNS clients are computers, also known as initiators, that are attempting to discover storage devices, also known as targets, on an Ethernet network.
Your network contains an Active Directory domain named contoso.com. The domain contains a file server named Server1. All servers run Windows Server 2012 R2. All domain user accounts have the Division attribute automatically populated as part of the user provisioning process. The Support for Dynamic Access Control and Kerberos armoring policy is enabled for the domain. You need to control access to the file shares on Server1 based on the values in the Division attribute and the Division resource property. Which three actions should you perform in sequence?
First create a claim type for the property, then create a reference resource property that points back to the claim. Finally set the classification value on the folder
Your network contains two Active Directory forests named contoso.com and fabrikam.com. The contoso.com forest contains two domains named corp.contoso.com and contoso.com. You establish a two-way forest trust between contoso.com and fabrikam.com. Users from the corp.contoso.com domain report that they cannot log on to client computers in the fabrikam.com domain by using their corp.contoso.com user account. When they try to log on, they receive following error message:
“The computer you are signing into is protected by an authentication firewall. The specified account is not allowed to authenticate to the computer.” Corp.contoso.com users can log on successfully to client computers in the contoso.com domain by using their corp.contoso.com user account credentials. You need to allow users from the corp.contoso.com domain to log on to the client computers in the fabrikam.com forest. What should you do?
A. Configure Windows Firewall with Advanced Security.
B. Enable SID history.
C. Configure forest-wide authentication.
D. Instruct the users to log on by using a user principal name (UPN).
C. The forest-wide authentication setting permits unrestricted access by any users in the trusted forest to all available shared resources in any of the domains in the trusting forest.
Your network contains two servers named Server1 and Server2 that run Windows Server 2012 R2. Both servers have the Hyper-V server role installed. The servers have the hardware configurations shown in the following table.
Server1 hosts five virtual machines that run Windows Server 2012 R2. You need to move the virtual machines from Server1 to Server2. The solution must minimize downtime. What should you do for each virtual machine?
A. Export the virtual machines from Server1 and import the virtual machines to Server2.
B. Perform a live migration.
C. Perform a quick migration.
D. Perform a storage migration.
None of these migration options will work between different Processors ( AMD/Intel). The only option remaining is to export and re-import the VMs
Your network contains an Active Directory domain named contoso.com. The domain contains two servers named Server1 and Server2. Both servers have the Hyper-V server role installed. You plan to replicate virtual machines between Server1 and Server2. The replication will be encrypted by using Secure Sockets Layer (SSL). You need to request a certificate on Server1 to ensure that the virtual machine replication is encrypted. Which two intended purposes should the certificate for Server1 contain? (Each correct answer presents part of the solution. Choose two.)
A. Client Authentication
B. Kernel Mode Code Signing
C. Server Authentication
D. IP Security end system
E. KDC Authentication
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