Describe Dynamics 365 Customer Insights (15–20%) Describe Dynamics 365 Sales (15–20%) Describe Dynamics 365 Customer Service (20–25%) Describe Dynamics 365 Field Service (15–20%) Explore the core capabilities of customer engagement apps in Dynamics 365 (20–25%) Describe Dynamics 365 Customer Insights (15–20%)
Explore Customer Insights – Journeys Describe use cases for Customer Insights – Journeys Describe lead generation and qualification Describe use cases for marketing forms Describe how to target customers by using segments and subscription lists Describe email marketing Describe customer journeys Describe event management features and capabilities Describe Customer Insights – Data and Dynamics 365 Customer Voice Describe use cases of and capabilities for Customer Insights – Data Describe use cases for and capabilities of Customer Voice
Describe Dynamics 365 Sales (15–20%) Explore Sales Describe use cases for Dynamics 365 Sales Describe leads and the process for qualifying leads Describe the opportunity management process Describe the quote lifecycle Describe the order management and invoice management processes Describe use cases for business process flows Describe Sales capabilities and related apps Describe sales pipeline and forecasting concepts Describe use cases for and capabilities of Sales Insights Describe use cases for and capabilities of LinkedIn Sales Navigator Describe use cases for the Dynamics 365 Sales mobile app
Describe Dynamics 365 Customer Service (20–25%) Explore Customer Service Describe use cases for Dynamics 365 Customer Service Describe the functionality for workload management, including basic routing (basic queues), Unified Routing, and Agent Inbox Describe knowledge management in Dynamics 365 Customer Service Describe the case lifecycle including service-level agreements (SLAs) and entitlements Describe Customer Service capabilities and related apps Describe Omnichannel for Customer Service Describe reporting and data visualization options in Dynamics 365 Customer Service Describe use cases of Dynamics 365 Customer Voice for Customer Service
Describe Dynamics 365 Field Service (15–20%) Explore Field Service Describe use cases for Dynamics 365 Field Service Describe common field service processes Describe the work order lifecycle Describe inspections in Dynamics 365 Field Service Describe the Field Service mobile app Describe the scheduling capabilities of Field Service Describe resource and scheduling processes Describe asset management and customer assets Describe Connected Field Service for Dynamics 365
Explore the core capabilities of customer engagement apps in Dynamics 365 (20–25%) Describe the foundations of customer engagement apps Describe use cases for customer engagement apps Describe Microsoft Power Platform as it relates to customer engagement apps Describe Microsoft Dataverse as the foundation for customer engagement apps Navigate to and within customer engagement apps Describe shared activities and integration options in customer engagement apps Describe customers and activities Describe search options and filter criteria Describe reporting capabilities including dashboards, charts, and views Describe Microsoft Teams integration Describe Microsoft Outlook integration Describe Microsoft Excel integration
Sample Question and Answers QUESTION 1 Which two components are included in Dynamics 365 Marketing? Each correct answer presents a complete solution. NOTE: Each correct selection is worth one point.
A. Customer Voice survey B. Customer Service Hub C. Enterprise Asset Management D. Event management
Answer: AD
QUESTION 2 DRAG DROP A company uses Dynamics 365 Marketing. Marketing team members must be able to group related customers for campaigns, market research, and surveys. What should you recommend? To answer, drag the appropriate features to the correct requirements. Each feature may be used once, more than once, or not at all. You may need to drag the split bar between panes or scroll to view content. NOTE: Each correct selection is worth one point.
Answer:
Explanation: Box 1: You cannot use marketing segments in a campaign. Box 2: You can only use one type of marketing list (a subscription list) for customer journeys. You can use any type of marketing segment for customer journeys.
QUESTION 3 HOTSPOT A company plans to implement Dynamics 365 Marketing. For each of the following statements, select Yes if the statement is true. Otherwise, select No. NOTE: Each correct selection is worth one point. Answer: Explanation:
QUESTION 4 HOTSPOT A company has implemented Dynamics 365 Marketing. You need to implement apps to meet the companys business requirements. Which app should you use? To answer, select the appropriate options in the answer area. NOTE: Each correct selection is worth one point.
Answer: Explanation:
QUESTION 5 A company integrates LinkedIn Campaign Manager with Dynamics 365 Marketing. Which two actions can the company perform using out-of-the-box features? Each correct answer presents a complete solution.
NOTE: Each correct selection is worth one point. A. Generate leads from LinkedIn. B. Create email templates for LinkedIn messages. C. Schedule and publish social posts. D. Create and publish events on LinkedIn.
Answer: AC
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Exam Details Exam questions are derived from the recommended training and the exam resources listed above. Pass/fail status is available immediately after taking the exam. The exam is only provided in English.
Exam Objectives Here’s a high-level view of the skillset required to successfully complete the JNCIS-ENT certification exam.
Exam Objective
Description Layer 2 Switching or VLANs
Identify the concepts, operations, or functionalities of Layer 2 switching for the Junos OS: Bridging components Frame processing
Describe the concepts, benefits, or functionalities of VLANs: Ports Tagging Native VLANs and voice VLANs Inter-VLAN routing
Demonstrate knowledge how to configure, monitor, or troubleshoot Layer 2 switching or VLANs: Interfaces and ports VLANs Inter-VLAN routing
Spanning Tree Describe the concepts, benefits, operations, or functionalities of the Spanning Tree Protocol (STP):
STP and Rapid Spanning Tree Protocol (RSTP) concepts Port roles and states Bridge Protocol Data Units (BPDUs) Convergence and reconvergence
Demonstrate knowledge how to configure, monitor, or troubleshoot Spanning Tree: STP RSTP
Layer 2 Security
Identify the concepts, benefits, or operations of various Layer 2 protection or security features: BPDU, loop or root protection Port security, including MAC limiting, DHCP snooping, Dynamic ARP inspection (DAI) or IP source guard MACsec Storm control
Identify the concepts, benefits, or operations of Layer 2 firewall filters: Filter types Processing order Match criteria and actions
Demonstrate knowledge how to configure, monitor, or troubleshoot Layer 2 security: Protection Port security Storm control Firewall filter configuration and application
Protocol Independent Routing
Identify the concepts, operations, or functionalities of various protocol-independent routing components: Static, aggregate, and generated routes Martian addresses Routing instances, including routing information base (RIB) groups Load balancing Filter-based forwarding
Demonstrate knowledge how to configure, monitor, or troubleshoot various protocol-independent routing components: Static, aggregate, and generated routes Load balancing Filter-based forwarding
OSPF Describe the concepts, operations, or functionalities of OSPF:
Link-state database OSPF packet types Router ID Adjacencies and neighbors Designated router (DR) and backup designated router (BDR) OSPF area and router types Realms Link-state advertisement (LSA) packet types
Demonstrate knowledge how to configure, monitor, or troubleshoot OSPF: Areas, interfaces, and neighbors Additional basic options Routing policy application Troubleshooting tools (ping, traceroute, traceoptions, show commands, logging)
IS-IS
Describe the concepts, operations, or functionalities of IS-IS: Link-state database IS-IS Protocol Data Units (PDUs) Type, length, and values (TLVs) Adjacencies and neighbors Levels and areas Designated intermediate system (DIS) Metrics
Demonstrate knowledge of how to configure, monitor, or troubleshoot IS-IS: Levels, interfaces, and adjacencies Additional basic options Routing policy application Troubleshooting tools (ping, traceroute, traceoptions, show commands, logging)
BGP Describe the concepts, operations, or functionalities of BGP: BGP basic operation BGP message types Attributes Route/path selection process Internal and external BGP (IBGP and EBGP) functionality and interaction
Demonstrate knowledge of how to configure, monitor, or troubleshoot BGP: Groups and peers Additional basic options Routing policy application Troubleshooting tools (ping, traceroute, traceoptions, show commands, logging)
Tunnels
Identify the concepts, requirements, or functionalities of IP tunneling: Tunneling applications and considerations Generic Routing Encapsulation (GRE) IP-IP
Demonstrate knowledge of how to configure, monitor, or troubleshoot IP tunnels: GRE IP-IP Troubleshooting tools (ping, traceroute, traceoptions, show commands, logging)
High Availability
Identify the concepts, benefits, applications, or requirements for high availability in a Junos OS environment: Link aggregation groups (LAG) Redundant trunk groups (RTG) Virtual chassis Graceful restart Graceful Routing Engine switchover (GRES) Nonstop active routing (NSR) Nonstop bridging (NSB) Bidirectional Forwarding Detection (BFD) Virtual Router Redundancy Protocol (VRRP) Unified In-Service Software Upgrade (ISSU)
Demonstrate knowledge of how to configure, monitor, or troubleshoot high availability components: LAG and RTG Virtual chassis Graceful restart, GRES, NSB, and NSR VRRP ISSU Troubleshooting tools (traceoptions, show commands, logging)
Exam Preparation We recommend the following resources to help you prepare for your exam. However, these resources aren’t required, and using them doesn’t guarantee you’ll pass the exam.
Recommended Training Junos Intermediate Routing Junos Enterprise Switching
Juniper Learning Portal This track enables you to demonstrate competence with networking technology in general and Juniper Networks enterprise routing and switching platforms. JNCIS-ENT, the specialist-level certification in this track, is designed for experienced networking professionals with beginner to intermediate knowledge of routing and switching implementations in Junos. The written exam verifies your basic understanding of routing and switching technologies and related platform configuration and troubleshooting skills.
This track includes four certifications: JNCIA-Junos: Junos, Associate. For details, see JNCIA-Junos. JNCIS-ENT: Enterprise Routing and Switching, Specialist. For details, see the sections below. JNCIP-ENT: Enterprise Routing and Switching, Professional. For details, see JNCIP-ENT. JNCIE-ENT: Enterprise Routing and Switching, Expert. For details, see JNCIE-ENT.
Sample Questions and Answers QUESTION 1 Exhibit. Which router will become the OSPF BDR if all routers are powered on at the same time?
A. R4 B. R1 C. R3 D. R2
Answer: A
Explanation: OSPF DR/BDR election is a process that occurs on multi-access data links. It is intended to select two OSPF nodes: one to be acting as the Designated Router (DR), and another to be acting as the Backup Designated Router (BDR). The DR and BDR are responsible for generating network LSAs for the multiaccess network and synchronizing the LSDB with other routers on the same network1. The DR/BDR election is based on two criteria: the OSPF priority and the router ID. The OSPF priority is a value between 0 and 255 that can be configured on each interface participating in OSPF. The default priority is 1. A priority of 0 means that the router will not participate in the election and will never become a DR or BDR. The router with the highest priority will become the DR, and the router with the second highest priority will become the BDR. If there is a tie in priority, then the router ID is used as a tie-breaker. The router ID is a 32-bit number that uniquely identifies each router in an OSPF domain. It can be manually configured or automatically derived from the highest IP address on a loopback interface or any active interface2. In this scenario, all routers have the same priority of 1, so the router ID will determine the outcome of the election. The router IDs are shown in the exhibit as RID values. The highest RID belongs to R4 (10.10.10.4), so R4 will become the DR. The second highest RID belongs to R3 (10.10.10.3), so R3 will become the BDR. Reference: 1: OSPF DR/BDR Election: Process, Configuration, and Tuning 2: OSPF Designated Router (DR) and Backup Designated Router (BDR)
QUESTION 2 Exhibit. What is the management IP address of the device shown in the exhibit?
A. 10.210.20.233 B. 172.23.12.100 C. 128.0.0.1 D. 172.23.11.10
Answer: B
Explanation: The management IP address of a device is the IP address that is used to access the device for configuration and monitoring purposes. It is usually assigned to a dedicated management interface that is separate from the data interfaces. The management interface can be accessed via SSH, Telnet, HTTP, or other protocols. In the exhibit, the list of interfaces and their statuses shows that the management interface is me0. This interface has an admin status of up, a protocol status of inet, a local address of 172.23.12.100, and a remote address of unspecified. This means that the me0 interface is active, has an IPv4 address assigned, and is not connected to another device. Therefore, the management IP address of the device shown in the exhibit is 172.23.12.100. Reference: : [Management Interfaces Overview] : [Displaying Interface Status Information]
QUESTION 3 Which three protocols support BFD? (Choose three.)
A. RSTP B. BGP C. OSPF D. LACP F. FTP
Answer: BCD
Explanation: BFD is a protocol that can be used to quickly detect failures in the forwarding path between two adjacent routers or switches. BFD can be integrated with various routing protocols and link aggregation protocols to provide faster convergence and fault recovery. According to the Juniper Networks documentation, the following protocols support BFD on Junos OS devices1: BGP: BFD can be used to monitor the connectivity between BGP peers and trigger a session reset if a failure is detected. BFD can be configured for both internal and external BGP sessions, as well as for IPv4 and IPv6 address families2. OSPF: BFD can be used to monitor the connectivity between OSPF neighbors and trigger a state change if a failure is detected. BFD can be configured for both OSPFv2 and OSPFv3 protocols, as well as for point-to-point and broadcast network types3. LACP: BFD can be used to monitor the connectivity between LACP members and trigger a link state change if a failure is detected. BFD can be configured for both active and passive LACP modes, as well as for static and dynamic LAGs4. Other protocols that support BFD on Junos OS devices are: IS-IS: BFD can be used to monitor the connectivity between IS-IS neighbors and trigger a state change if a failure is detected. BFD can be configured for both level 1 and level 2 IS-IS adjacencies, as well as for point-to-point and broadcast network types. RIP: BFD can be used to monitor the connectivity between RIP neighbors and trigger a route update if a failure is detected. BFD can be configured for both RIP version 1 and version 2 protocols, as well as for IPv4 and IPv6 address families. VRRP: BFD can be used to monitor the connectivity between VRRP routers and trigger a priority change if a failure is detected. BFD can be configured for both VRRP version 2 and version 3 protocols, as well as for IPv4 and IPv6 address families. The protocols that do not support BFD on Junos OS devices are: RSTP: RSTP is a spanning tree protocol that provides loop prevention and rapid convergence in layer 2 networks. RSTP does not use BFD to detect link failures, but relies on its own hello mechanism that sends BPDU packets every 2 seconds by default. FTP: FTP is an application layer protocol that is used to transfer files between hosts over a TCP connection. FTP does not use BFD to detect connection failures, but relies on TCPs own retransmission and timeout mechanisms. Reference: 1: [Configuring Bidirectional Forwarding Detection] 2: [Configuring Bidirectional Forwarding Detection for BGP] 3: [Configuring Bidirectional Forwarding Detection for OSPF] 4: [Configuring Bidirectional Forwarding Detection for Link Aggregation Control Protocol] : [Configuring Bidirectional Forwarding Detection for IS-IS] : [Configuring Bidirectional Forwarding Detection for RIP] : [Configuring Bidirectional Forwarding Detection for VRRP] : [Understanding Rapid Spanning Tree Protocol] : [Understanding FTP] QUESTION 4 Exhibit. The ispi _ inet. 0 route table has currently no routes in it. What will happen when you commit the configuration shown on the exhibit?
A. The inet. 0 route table will be completely overwritten by the ispi . inet. 0 route table. B. The inet. 0 route table will be imported into the ispi . inet. 0 route table. C. The ISPI . inet. 0 route table will be completely overwritten by the inet. o route table. D. The ISPI . inet. 0 route table will be imported into the inet. 0 route table.
Answer: B
Explanation: The configuration shown in the exhibit is an example of a routing instance of type virtual-router. A routing instance is a collection of routing tables, interfaces, and routing protocol parameters that create a separate routing domain on a Juniper device1. A virtual-router routing instance allows administrators to divide a device into multiple independent virtual routers, each with its own routing table2. The configuration also includes a rib-group statement, which is used to import routes from one routing table to another. A rib-group consists of an import-rib statement, which specifies the source routing table, and an export-rib statement, which specifies the destination routing table. In this case, the rib-group name is inet-to-ispi, and the import-rib statement specifies inet.0 as the source routing table. The export-rib statement specifies ispi.inet.0 as the destination routing table. This means that the routes from inet.0 will be imported into ispi.inet.0. Therefore, the correct answer is B. The inet.0 route table will be imported into the ispi.inet.0 route table. Reference: 1: Routing Instances Overview 2: Virtual Routing Instances : [rib-group (Routing Options)]
QUESTION 5 Which statement is correct about graceful Routing Engine switchover (GRES)?
A. The PFE restarts and the kernel and interface information is lost. B. GRES has a helper mode and a restarting mode. C. When combined with NSR, routing is preserved and the new master CK does not restart rpd. D. With no other high availability features enabled, routing is preserved and the new master CK does not restart rpd.
Answer: C
Explanation: The Graceful Routing Engine Switchover (GRES) feature in Junos OS enables a router with redundant Routing Engines to continue forwarding packets, even if one Routing Engine fails1. GRES preserves interface and kernel information, ensuring that traffic is not interrupted1. However, GRES does not preserve the control plane1. To preserve routing during a switchover, GRES must be combined with either Graceful Restart protocol extensions or Nonstop Active Routing (NSR)1. When GRES is combined with NSR, nearly 75 percent of line rate worth of traffic per Packet Forwarding Engine remains uninterrupted during GRES1. Any updates to the primary Routing Engine are replicated to the backup Routing Engine as soon as they occur1. Therefore, when GRES is combined with NSR, routing is preserved and the new master CK does not restart rpd1.
Students Reviews and Discussions JUN MA 1 month ago – Australia Passed the exam today Just only 1 of 65 question have not seem. Thanks brothers upvoted 3 times
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Updates to the exam Our exams are updated periodically to reflect skills that are required to perform a role. We have included two versions of the Skills Measured objectives depending on when you are taking the exam.
We always update the English language version of the exam first. Some exams are localized into other languages, and those are updated approximately eight weeks after the English version is updated. While Microsoft makes every effort to update localized versions as noted, there may be times when the localized versions of an exam are not updated on this schedule. Other available languages are listed in the Schedule Exam section of the Exam Details webpage. If the exam isn’t available in your preferred language, you can request an additional 30 minutes to complete the exam. Note
The bullets that follow each of the skills measured are intended to illustrate how we are assessing that skill. Related topics may be covered in the exam. Note
Most questions cover features that are general availability (GA). The exam may contain questions on Preview features if those features are commonly used.
Skills measured as of October 31, 2023 Audience profile As a candidate for this exam, you should have subject matter expertise in planning, implementing, and managing Azure networking solutions, including: Core network infrastructure Hybrid connectivity Application delivery services Private access to Azure services Network security
As an Azure network engineer your responsibilities include optimizing performance, resiliency, scale, and security of Azure networking solutions. You deploy the solutions by using the Azure portal, the command line, and templates. You proactively monitor network environments to identify issues and minimize risk.
To deliver Azure solutions, you work with: Solution architects Cloud administrators Security engineers Application developers DevOps engineers
You also assist Azure support engineers in resolving connectivity issues reported by customers.
As a candidate for this exam, you should have experience creating and managing compute, storage, and networking resources in Azure. You should understand networking fundamentals, such as:
Name resolution Network protocols Network address management
Skills at a glance Design and implement core networking infrastructure (20–25%) Design, implement, and manage connectivity services (20–25%) Design and implement application delivery services (20–25%) Design and implement private access to Azure services (5–10%) Secure network connectivity to Azure resources (15–20%) Design and implement core networking infrastructure (20–25%) Design and implement IP addressing for Azure resources
Plan and implement network segmentation and address spaces Create a virtual network (VNet) Plan and configure subnetting for services, including VNet gateways, private endpoints, firewalls, application gateways, VNet-integrated platform services, and Azure Bastion Plan and configure subnet delegation Create a prefix for public IP addresses Choose when to use a public IP address prefix Plan and implement a custom public IP address prefix (bring your own IP) Create a new public IP address Associate public IP addresses to resources Design and implement name resolution Design name resolution inside a VNet Configure DNS settings for a VNet Design public DNS zones Design private DNS zones Configure a public or private DNS zone Link a private DNS zone to a VNet Design and implement DNS private resolver Design and implement VNet connectivity and routing Design service chaining, including gateway transit Design virtual private network (VPN) connectivity between VNets Implement VNet peering Design and implement user-defined routes (UDRs) Associate a route table with a subnet Configure forced tunneling Diagnose and resolve routing issues Design and implement Azure Route Server Identify appropriate use cases for a network address translation (NAT) gateway in the virtual network Implement a NAT gateway Monitor networks Configure monitoring, network diagnostics, and logs in Azure Network Watcher Monitor and repair network health by using Azure Network Watcher Activate and monitor distributed denial-of-service (DDoS) protection Activate and monitor Microsoft Defender for DNS
Design, implement, and manage connectivity services (20–25%) Design, implement, and manage a site-to-site VPN connection Design a site-to-site VPN connection, including for high availability Select an appropriate VNet gateway stock-keeping unit (SKU) for site-to-site VPN requirements Implement a site-to-site VPN connection Identify when to use a policy-based VPN versus a route-based VPN connection Create and configure an IPsec/Internet Key Exchange (IKE) policy Diagnose and resolve virtual network gateway connectivity issues Implement Azure Extended Network Design, implement, and manage a point-to-site VPN connection Select an appropriate virtual network gateway SKU for point-to-site VPN requirements Select and configure a tunnel type Select an appropriate authentication method Configure RADIUS authentication Configure certificate-based authentication Configure authentication by using Microsoft Entra ID Implement a VPN client configuration file Diagnose and resolve client-side and authentication issues Specify Azure requirements for Always On authentication Specify Azure requirements for Azure Network Adapter Design, implement, and manage Azure ExpressRoute Select an ExpressRoute connectivity model Select an appropriate ExpressRoute SKU and tier Design and implement ExpressRoute to meet requirements, including cross-region connectivity, redundancy, and disaster recovery Design and implement ExpressRoute options, including Global Reach, FastPath, and ExpressRoute Direct Choose between private peering only, Microsoft peering only, or both Configure private peering Configure Microsoft peering Create and configure an ExpressRoute gateway Connect a virtual network to an ExpressRoute circuit Recommend a route advertisement configuration Configure encryption over ExpressRoute Implement Bidirectional Forwarding Detection Diagnose and resolve ExpressRoute connection issues Design and implement an Azure Virtual WAN architecture Select a Virtual WAN SKU Design a Virtual WAN architecture, including selecting types and services Create a hub in Virtual WAN Choose an appropriate scale unit for each gateway type Deploy a gateway into a Virtual WAN hub Configure virtual hub routing Create a network virtual appliance (NVA) in a virtual hub Integrate a Virtual WAN hub with a third-party NVA
Design and implement application delivery services (20–25%) Design and implement an Azure Load Balancer Map requirements to features and capabilities of Azure Load Balancer Identify appropriate use cases for Azure Load Balancer Choose an Azure Load Balancer SKU and tier Choose between public and internal Choose between regional and global Create and configure an Azure Load Balancer Implement a load balancing rule Create and configure inbound NAT rules Create and configure explicit outbound rules, including source network address translation (SNAT) Design and implement Azure Application Gateway Map requirements to features and capabilities of Azure Application Gateway Identify appropriate use cases for Azure Application Gateway Choose between manual and autoscale Create a back-end pool Configure health probes Configure listeners Configure routing rules Configure HTTP settings Configure Transport Layer Security (TLS) Configure rewrite sets Design and implement Azure Front Door Map requirements to features and capabilities of Azure Front Door Identify appropriate use cases for Azure Front Door Choose an appropriate tier Configure an Azure Front Door, including routing, origins, and endpoints Configure SSL termination and end-to-end SSL encryption Configure caching Configure traffic acceleration Implement rules, URL rewrite, and URL redirect Secure an origin by using Azure Private Link in Azure Front Door Design and implement Azure Traffic Manager Identify appropriate use cases for Azure Traffic Manager Configure a routing method Configure endpoints
Design and implement private access to Azure services (5–10%) Design and implement Azure Private Link service and Azure private endpoints Plan private endpoints Create private endpoints Configure access to private endpoints Create a Private Link service Integrate Private Link and Private Endpoint with DNS Integrate a Private Link service with on-premises clients Design and implement service endpoints Choose when to use a service endpoint Create service endpoints Configure service endpoint policies Configure access to service endpoints
Secure network connectivity to Azure resources (15–20%) Implement and manage network security groups Create a network security group (NSG) Associate a NSG to a resource Create an application security group (ASG) Associate an ASG to a network interface card (NIC) Create and configure NSG rules Interpret NSG flow logs Validate NSG flow rules Verify IP flow Configure an NSG for remote server administration, including Azure Bastion Design and implement Azure Firewall and Azure Firewall Manager Map requirements to features and capabilities of Azure Firewall Select an appropriate Azure Firewall SKU Design an Azure Firewall deployment Create and implement an Azure Firewall deployment Configure Azure Firewall rules Create and implement Azure Firewall Manager policies Create a secure hub by deploying Azure Firewall inside an Azure Virtual WAN hub Design and implement a Web Application Firewall (WAF) deployment Map requirements to features and capabilities of WAF Design a WAF deployment Configure detection or prevention mode Configure rule sets for WAF on Azure Front Door Configure rule sets for WAF on Application Gateway Implement a WAF policy Associate a WAF policy
Sample Question and Answers Design, Implement and Manage Hybrid Networking Testlet 1 Case Study This is a case study. Case studies are not timed separately. You can use as much exam time as you would like to complete each case. However, there may be additional case studies and sections on this exam. You must manage your time to ensure that you are able to complete all questions included on this exam in the time provided. To answer the questions included in a case study, you will need to reference information that is provided in the case study. Case studies might contain exhibits and other resources that provide more information about the scenario that is described in the case study. Each question is independent of the other questions in this case study. At the end of this case study, a review screen will appear. This screen allows you to review your answers and to make changes before you move to the next section of the exam. After you begin a new section, you cannot return to this section. To start the case study To display the first question in this case study, click the Next button. Use the buttons in the left pane to explore the content of the case study before you answer the questions. Clicking these buttons displays information such as business requirements, existing environment, and problem statements. When you are ready to answer a question, click the Question button to return to the question.
Overview Litware, Inc. is a financial company that has a main datacenter in Boston and 20 branch offices across the United States. Users have Android, iOS, and Windows 10 devices.
Existing Environment Hybrid Environment The on-premises network contains an Active Directory forest named litwareinc.com that syncs to an Azure Active Directory (Azure AD) tenant named litwareinc.com by using Azure AD Connect. All offices connect to a virtual network named Vnet1 by using a Site-to-Site VPN connection.
Azure Environment Litware has an Azure subscription named Sub1 that is linked to the litwareinc.com Azure AD tenant. Sub1 contains resources in the East US Azure region as shown in the following table. A diagram of the resource in the East US Azure region is shown in the Network Diagram exhibit. There is bidirectional peering between Vnet1 and Vnet2. There is bidirectional peering between Vnet1 and Vnet3. Currently, Vnet2 and Vnet3 cannot communicate directly. Azure Environment Diagram Requirements Business Requirements Litware wants to minimize costs whenever possible, as long as all other requirements are met. Virtual Networking Requirements Litware identifies the following virtual networking requirements: Direct the default route of 0.0.0.0/0 on Vnet2 and Vnet3 to the Boston datacenter over an ExpressRoute circuit. Ensure that the records in the cloud.litwareinc.com can be resolved from the on-premises locations. Automatically register the DNS names of Azure virtual machines to the cloud.litwareinc.com zone. Minimize the size of the subnets allocated to platform-managed services. Allow traffic from VMScaleSet1 to VMScaleSet2 on the TCP port 443 only. Hybrid Networking Requirements Litware identifies the following hybrid networking requirements: Users must be able to connect to Vnet1 by using a Point-to-Site (P2S) VPN when working remotely. Connections must be authenticated by Azure AD. Latency of the traffic between the Boston datacenter and all the virtual networks must be minimized. The Boston datacenter must connect to the Azure virtual networks by using an ExpressRoute FastPath connection. Traffic between Vnet2 and Vnet3 must be routed through Vnet1. PaaS Networking Requirements Litware identifies the following networking requirements for platform as a service (PaaS): The storage1 account must be accessible from all on-premises locations without exposing the public endpoint of storage1. The storage2 account must be accessible from Vnet2 and Vnet3 without exposing the public endpoint of storage2.
QUESTION 1 HOTSPOT You need to recommend a configuration for the ExpressRoute connection from the Boston datacenter. The solution must meet the hybrid networking requirements and business requirements. What should you recommend? To answer, select the appropriate options in the answer area. NOTE: Each correct selection is worth one point. Hot Area: Correct Answer: Section: (none) Explanation Explanation/Reference: Design, Implement and Manage Hybrid Networking Testlet 2
Case Study This is a case study. Case studies are not timed separately. You can use as much exam time as you would like to complete each case. However, there may be additional case studies and sections on this exam. You must manage your time to ensure that you are able to complete all questions included on this exam in the time provided. To answer the questions included in a case study, you will need to reference information that is provided in the case study. Case studies might contain exhibits and other resources that provide more information about the scenario that is described in the case study. Each question is independent of the other questions in this case study. At the end of this case study, a review screen will appear. This screen allows you to review your answers and to make changes before you move to the next section of the exam. After you begin a new section, you cannot return to this section. To start the case study To display the first question in this case study, click the Next button. Use the buttons in the left pane to explore the content of the case study before you answer the questions. Clicking these buttons displays information such as business requirements, existing environment, and problem statements. When you are ready to answer a question, click the Question button to return to the question.
Overview Contoso, Ltd. is a consulting company that has a main office in San Francisco and a branch office in Dallas. Contoso recently purchased an Azure subscription and is performing its first pilot project in Azure. Existing Environment Azure Network Infrastructure Contoso has an Azure Active Directory (Azure AD) tenant named contoso.com. The Azure subscription contains the virtual networks shown in the following table. Vnet1 contains a virtual network gateway named GW1. Azure Virtual Machines The Azure subscription contains virtual machines that run Windows Server 2019 as shown in the following table. The NSGs are associated to the network interfaces on the virtual machines. Each NSG has one custom security rule that allows RDP connections from the internet. The firewall on each virtual machine allows ICMP traffic. An application security group named ASG1 is associated to the network interface of VM1. Azure Network Infrastructure Diagram Azure Private DNS Zones The Azure subscription contains the Azure private DNS zones shown in the following table. Zone1.contoso.com has the virtual network links shown in the following table. Other Azure Resources The Azure subscription contains additional resources as shown in the following table. Requirements Virtual Network Requirements Contoso has the following virtual network requirements: Create a virtual network named Vnet6 in West US that will contain the following resources and configurations: – Two container groups that connect to Vnet6 – Three virtual machines that connect to Vnet6 – Allow VPN connections to be established to Vnet6 – Allow the resources in Vnet6 to access KeyVault1, DB1, and Vnet1 over the Microsoft backbone network. The virtual machines in Vnet4 and Vnet5 must be able to communicate over the Microsoft backbone network. A virtual machine named VM-Analyze will be deployed to Subnet1. VM-Analyze must inspect the outbound network traffic from Subnet2 to the internet. Network Security Requirements Contoso has the following network security requirements: Configure Azure Active Directory (Azure AD) authentication for Point-to-Site (P2S) VPN users. Enable NSG flow logs for NSG3 and NSG4. Create an NSG named NSG10 that will be associated to Vnet1/Subnet1 and will have the custom inbound security rules shown in the following table. Create an NSG named NSG11 that will be associated to Vnet1/Subnet2 and will have the custom outbound security rules shown in the following table. QUESTION 2 You need to configure GW1 to meet the network security requirements for the P2S VPN users. Which Tunnel type should you select in the Point-to-site configuration settings of GW1?
A. IKEv2 and OpenVPN (SSL) B. IKEv2 C. IKEv2 and SSTP (SSL) D. OpenVPN (SSL) E. SSTP (SSL)
Answer: D Section: (none) Explanation Explanation/Reference: Reference: Design, Implement and Manage Hybrid Networking Question Set 3
QUESTION 3 Your company has a single on-premises datacenter in New York. The East US Azure region has a peering location in New York. The company only has Azure resources in the East US region. You need to implement ExpressRoute to support up to 1 Gbps. You must use only ExpressRoute Unlimited data plans. The solution must minimize costs. Which type of ExpressRoute circuits should you create?
A. ExpressRoute Local B. ExpressRoute Direct C. ExpressRoute Premium D. ExpressRoute Standard
Answer: A Section: (none) Explanation Explanation/Reference: Reference:
QUESTION 4 You are planning an Azure Point-to-Site (P2S) VPN that will use OpenVPN. Users will authenticate by an on-premises Active Directory domain. Which additional service should you deploy to support the VPN authentication?
A. an Azure key vault B. a RADIUS server C. a certification authority D. Azure Active Directory (Azure AD) Application Proxy
Answer: B
QUESTION 5 You plan to configure BGP for a Site-to-Site VPN connection between a datacenter and Azure. Which two Azure resources should you configure? Each correct answer presents a part of the solution. (Choose two.) NOTE: Each correct selection is worth one point.
A. a virtual network gateway B. Azure Application Gateway C. Azure Firewall D. a local network gateway E. Azure Front Door
Answer: A,D
QUESTION 6 You fail to establish a Site-to-Site VPN connection between your company?s main office and an Azure virtual network. You need to troubleshoot what prevents you from establishing the IPsec tunnel. Which diagnostic log should you review?
A. IKEDiagnosticLog B. RouteDiagnosticLog C. GatewayDiagnosticLog D. TunnelDiagnosticLog
Answer: A
QUESTION 7 You have an Azure virtual network and an on-premises datacenter. You are planning a Site-to-Site VPN connection between the datacenter and the virtual network. Which two resources should you include in your plan? Each correct answer presents part of the solution. NOTE: Each correct selection is worth one point.
A. a user-defined route B. a virtual network gateway C. Azure Firewall D. Azure Web Application Firewall (WAF) E. an on-premises data gateway F. an Azure application gateway G. a local network gateway
Answer: BG
Students Reviews and Discussion
Zia Meer 1 year, 8 months ago Canada – Ontario Passed easily the exam today 55 Questions: 41 multiple choice (5 new the rest form here) and the 2 Case Study present in this dump (5 question the first and 9 questions the second). Surprisingly no question about Connected Field Service and very few about Workstreams and other new topics despite i was prepared for that. Thanks! upvoted 1 times
PEREIRA KRISNAMURTI 1 year, 9 months ago – São Paulo Brazil Took test 2/1/22 passed with this dump. upvoted 2 times
Omar Salgado 1 year, 9 months ago – Puerto Rico I took on 2.6.2022. About 75% of the questions were on the exam. There were some field service questions embedded into the exam, which I didn’t remotely expect. I passed. upvoted 2 times
Bin Bakkre 1 year, 10 months ago – Dhaka Bangladesh I passed my exam on 10-Jan-22. Many questions from this practice set. Case study based questions (almost 15) were also from this set but those are accessible after I had contributor access. As you know the exam syllabus has changed in Oct-21 so there are ~10 questions where you will need depth knowledge of omnichannel, power virtual agents, analytics. upvoted 3 times
djabour Nacer 1 year, 11 months ago – USA – Texas Passed. About 5 questions were not in the Certkingdom. Had case study with Lamna Healthcare Company but 2 new questions. Thank you Certkingdom. upvoted 3 times
GhoshVivek 1 year, 11 months ago – USA – California I sat the exam today, I would estimate that 80% of questions were covered here. upvoted 1 times
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Format: Multiple Choice Duration: 60 minutes Exam Price: $ Number of Questions: 30 Passing Score: 65% Validation: This exam has been validated against Oracle Cloud Infrastructure 2023 Policy: Cloud Recertification
Earn associated certifications Passing this exam is required to earn these certifications. Select each certification title below to view full requirements.
Prepare to pass exam: 1Z0-1115-23 The Oracle Cloud Infrastructure 2023 Multicloud Architect Associate certification is designed to test an individual’s expertise in designing and implementing Oracle Cloud Infrastructure (OCI) multicloud solutions. This certification aims to evaluate the candidate’s ability to use a combination of cloud services to build a multicloud environment.
Take recommended training Complete one of the courses below to prepare for your exam (optional): Become an OCI Multicloud Architect Associate
Practice Exam Additional Preparation and Information A combination of Oracle training and hands-on experience (attained via labs and/or field experience), in the learning subscription, provides the best preparation for passing the exam.
Review exam topics The following table lists the exam objectives and their weightage. Objectives % in Exam Introduction to Multi-cloud 10% Core OCI Services 20% Multicloud Connection Options 30% Oracle Database Service for Azure 40%
Introduction to Multi-cloud [10%] Understand multi-cloud and its benefits Explain common multi-cloud use cases and their implementation in OCI
Core OCI Services [20%] Federate OCI Identity Domains with identity providers Implement and manage VCN components Administer OCI Database services, such as Base Databases, Autonomous Databases, MySQL Database
Multi-cloud Connection Options [30%] Understand OCI multi-cloud connectivity options, such as Site-to-Site VPN and FastConnect Implement OCI-Azure Interconnect
Oracle Database Service for Azure [40%] Explain the prerequisites and onboarding options for Oracle Database Service for Azure Implement Oracle Database Service for Azure Configure common Oracle Database Service for Azure database management tasks
Sample Questions and Answers QUESTION 1 What is the purpose of the SAML metadata file in the OCI Federation setup with Azure Active Directory (AD)?
A. It is used to exchange metadata information between Azure AD and OCI. B. It is used to configure attribute mapping between Azure AD and OCI. C. It is used to establish trust between Azure AD and OCI. D. It is used to store user credentials for authentication.
Answer: A
Explanation: In general, SAML metadata is used to share configuration information between the Identity Pro-vider (IdP) and the Service Provider (SP).
QUESTION 2
A company wants to seamlessly build a private interconnection between their OCI and Microsoft Azure environments with consistent performance and low latency. They want to enable their cloud engineers to set up Single Sign-On (SSO) between Microsoft Azure and OCI for their Oracle applications, such as PeopleSoft, JD Edwards EnterpriseOne, and E-Business Suite. Which technology integration can the company use to achieve this goal?
A. Direct Connect and Azure VPN Gateway B. OCI Site-to-Site VPN and Azure Site-to-Site VPN C. Oracle FastConnect and Azure ExpressRoute D. Cloud Interconnect and Virtual WAN
Answer: C
Explanation: By using Oracle FastConnect and Azure ExpressRoute, customers can seamlessly build a private interconnection between their OCI and Microsoft Azure environments. The Interconnect also enables joint customers to take advantage of a unified identity and access management platform that leads to cost savings. Cloud engineers can set up SSO between Microsoft Azure and OCI for their Oracle applications, such as PeopleSoft, JD Edwards EnterpriseOne, and E-Business Suite. Having a federated SSO makes the integration seamless and allows users to authenticate only once to access multiple applications, without signing in separately to access each application.
QUESTION 3 Which components are required to establish a Site-to-Site VPN connection in Oracle Cloud Infrastructure?
A. Internet Gateway, Customer Premises Equipment (CPE), and IPsec tunnel B. Internet Gateway (IG), Network Address Translation (NAT) Gateway, and IPsec tun-nel C. Dynamic Routing Gateway (DRG), Customer Premises Equipment (CPE), and IPsec tunnel D. Dynamic Routing Gateway (DRG), NAT Gateway, and IPsec tunnel
Answer: C
Explanation: Site-to-Site VPN Components: CPE OBJECT: At your end of Site-to-Site VPN is the actual device in your on-premises network (whether hardware or software). The term customer-premises equipment (CPE) is commonly used in some industries to refer to this type of on-premises equipment. DYNAMIC ROUTING GATEWAY (DRG): At Oracle’s end of Site-to-Site VPN is a virtual router called a dynamic routing gateway, which is the gateway into your VCN from your on-premises network. IPSEC CONNECTION: After creating the CPE object and DRG, you connect them by creating an IPSec connection, which you can think of as a parent object that represents the Site-to-Site VPN. TUNNEL: An IPSec tunnel is used to encrypt traffic between secure IPSec endpoints. Oracle cre-ates two tunnels in each IPSec connection for redundancy. So, Internet Gateway, NAT Gateway are NOT valid Site-to-Site VPN Components. Hence, Dynamic Routing Gateway (DRG), Customer Premises Equipment (CPE), and IPsec tunnel is the CORRECT answer.
QUESTION 4 What should you do to prepare your Oracle Cloud Infrastructure (OCI) Virtual Cloud Network (VCN) for potential security risks when connected to a Microsoft Azure VNet?
A. Allow all traffic from the Azure VNet without restrictions. B. Limit all inbound and outbound traffic from the Azure VNet to expected and well-defined traffic. C. Remove all OCI security rules. D. Disable the connection between Azure VNet and OCI VCN.
Answer: B Explanation: Controlling Traffic Flow Over the Connection Even if a connection has been established between your VCN and VNet, you can control the packet flow over the connection with route tables in your VCN. For example, you can restrict traf-fic to only specific subnets in the VNet. Controlling the Specific Types of Traffic Allowed It’s important that you ensure that all outbound and inbound traffic with the VNet is intended or expected and well defined. Implement Azure network security group and Oracle security rules that explicitly state the types of traffic one cloud can send to the other and accept from the other.
QUESTION 5 Which is a database service that CANNOT be provisioned in the Oracle Public Cloud?
A. Autonomous Database on Dedicated Infrastructure B. Exadata Database Service on Shared Infrastructure C. Autonomous Database on Shared Infrastructure D. Exadata Database Service on Dedicated Infrastructure
Answer: B
Explanation: As you can see in the screenshot, Exadata Database Service on Shared Infrastructure is NOT supported.
Students reviews and Discussions Packiam Vijendran 1 months ago – Malaysia Passed the exam yesterday, 95% of the question were from this site. Note: Pay more attention to all the community discussions on each question, instead of the answers provided by the examtopics and I strongly suggest to get the contributor access. upvoted 4 times
Javier Cardaba Enjuto 2 months, 1 week ago – Spain Excellent pre-exam session tool upvoted 2 times Palanisamy Arulmohan 1 months, 1 week ago – USA I passed today, 94 questions asked and 99% of them were in this dump. 3 labs: BGP (as-override), HSRP, OSPF (without network statement) upvoted 4 times
peppinauz 3 months, 2 weeks ago I pass my exam, dump is valid about 90-95%. review the community answers!! upvoted 6 times
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Format: Multiple Choice Duration: 90 Minutes Exam Price: $ Number of Questions: 60 Passing Score: 65% Validation: This exam has been validated against Oracle Cloud Infrastructure 2023 Policy: Cloud Recertification
Earn associated certifications Passing this exam is required to earn these certifications. Select each certification title below to view full requirements. Oracle Autonomous Database Cloud 2023 Certified Professional
An Oracle Autonomous Database 2023 Certified Professional has demonstrated the knowledge required to provision, manage, monitor, and migrate workloads to Autonomous Database, both on shared and dedicated Exadata infrastructure.
Individuals who earn this certification understand and successfully use the features, workflows, and architecture of an Autonomous Database. In addition, they are capable of using Autonomous Database tools to develop an Autonomous Database.
Up-to-date training and hands-on experience or practice in Autonomous Database is highly recommended.
This certification is available to all candidates, including on-premise DBAs, Cloud data management professionals, and consultants.
Take recommended training Complete one of the courses below to prepare for your exam (optional):
Become an Oracle Autonomous Database Cloud Professional (2023)
Additional Preparation and Information
A combination of Oracle training and hands-on experience (attained via labs and/or field experience), in the learning subscription, provides the best preparation for passing the exam.
Review exam topics
Autonomous Database Technical Overview Describe Autonomous Database architecture, integrations, and license types Articulate the key features of Autonomous Database Understand the Oracle Cloud Infrastructure Describe the Different Autonomous Database offerings
Autonomous Database (ADB) Shared Create Autonomous Database Shared Instances – provisioning, scaling OCPU and storage, start, stop, and cloning and moving refreshable clones Manage users Monitor Autonomous Database Shared instances – events and alarms Manage Autonomous Database Shared Backups and Restores
Managing and Maintaining Autonomous Database Manage Autonomous Database instances: REST APIs, OCI CLI, moving resources Use Access Control Llist (ACL) and Private End Points Monitor ADB performance and set up service notifications Monitor ADB auto-scaling Use services in ADB: auto-indexing, data safe, compartment quotas Use ADB connectivity: Wallets, service handles Use Marketplace Developer image to connect to ADB, use ADW with third-party tools Configure Disaster Recovery (Data Guard) – both Shared and Dedicated
Autonomous Database Tools Describe Autonomous Database Tools Use Autonomous Database with Oracle Machine Learning, APEX, and SQL Developer Web (Database actions) Use Data Load and Data Transforms Create Business Models Apply Data Insights Explore Catalog
Developing an Autonomous Database Use Autonomous JSON Database Use Oracle Text Use Oracle Spatial Use Graph Studio Integrate Object Storage data
Migrating to Autonomous Database Describe the options and considerations for migrating to Autonomous Database Migrate to Autonomous Database using Data Pump
Sample Questions and Answers
QUESTION 1 You are the admin user of an Autonomous Database (ADB) instance. A new business analyst has joined the team and would like to explore ADB tables using SQL Developer Web. What steps do you need to take?
A. Create a database user (with connect, resource, object privileges), enable the schema to use SQL Developer and provide the user with the user-specific modified URL. B. Create a database user with the default privileges. C. Create a database user with connect, resource, and object privileges. D. Create an IDCS user. Create a database user with connect, resource, and object privileges.
Answer: A
QUESTION 2 What is the correct way to list all files in the default data pump directory?
A. By executing select * from DBMS_CLOUD.LIST_FILES(‘DATA_PUMP_DIR’); B. You cannot list files in the default data pump directory from Autonomous Data Warehouse (ADW). C. Log onto ADW server and issue is -al on the command line. D. By executing select * from utl_file . list ( “?DATA_PUMP_DIR ‘ ) ;
Answer: A
Explanation: To list all files in the default data pump directory, you can use the DBMS_CLOUD.LIST_FILES procedure with the directory name as the parameter. See Listing Files in a Directory for more details.
QUESTION 3 What REST verb is used to create an Autonomous Database service using REST APIs?
A. An “INSERT” REST call B. A “GET” REST call C. A “POST” REST call D. A “PUT” REST call
Answer: C
Explanation: To create an Autonomous Database service using REST APIs, you need to use a POST method with the appropriate request body. See Create Autonomous Database for more details.
QUESTION 4 When using Data Pump to migrate your Oracle database to Autonomous Database, which two objects are imported?
A. Data B. Schemas C. Tablespaces D. Reports
Answer: AB
Explanation: When using Data Pump to migrate your Oracle database to Autonomous Database, you can import data and schemas from Data Pump files. You cannot import tablespaces or reports. See Export Your Existing Oracle Database to Import into Autonomous Database for more details.
QUESTION 5 What are two differentiators of Oracle Autonomous Database Dedicated Infrastructure?
A. Users have OS access to the database machine. B. Users can customize the maintenance schedule. C. It offers greater control and isolation starting at the Exadata cloud infrastructure level. D. Users have SYS privileges in the database. E. Users can customize the OS stack and add additional packages
Answer: BC
Explanation:
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Format: Multiple Choice Duration: 90 Minutes Exam Price: $ Number of Questions: 55 Passing Score: 65% Validation: This exam is validated against Oracle Analytics Cloud 2023 Policy: Cloud Recertification
Earn associated certifications Passing this exam is required to earn these certifications. Select each certification title below to view full requirements. Oracle Cloud Infrastructure 2023 Certified Enterprise Analytics Professional
Prepare to pass exam: 1Z0-1041-23 An Oracle Cloud Infrastructure 2023 Certified Enterprise Analytics Professional is capable of implementing Oracle Analytics Cloud. They have the knowledge required to perform provisioning, build dimensional models, and create data visualizations. They can use Advanced Analytics capabilities and create a machine-learning model. They understand and use the various augmented capabilities available with Oracle Analytics Cloud. They will also learn to use the various mobile applications available with Oracle Analytics Cloud Subscription.
Take recommended training Complete one of the courses below to prepare for your exam (optional):
Become an Oracle Analytics Expert – 2023
Practice Exam Additional Preparation and Information
A combination of Oracle training and hands-on experience (attained via labs and/or field experience), in the learning subscription, provides the best preparation for passing the exam.
Oracle Analytics Cloud Provisioning and Lifecycle Provision Users and Application Roles Explain Migration Options to OAC and OAS
Modeling Explain Transactional System, Analytical Systems, Data Warehousing, Dimensions, Facts, and Hierarchies
Data Visualization Explain OAC ‘best visualization’ for a data set Describe brushing and its benefits Create a flexible layout of multiple visualizations to present data as a story Use OAC to present your data as a story Import a custom visualization plugin Use Search and BI Ask. Use Map Layers & Map Backgrounds
Data Preparation Describe self service data preparation Perform operations on a data set Describe ‘sequence’ in the context of OAC data preparation Explain the OAC Data Gateway Use Data Flows to curate a Data Set Create Connection ADW or ATP Describe using Function Shipping with ADW Using Oracle Applications Connector and EPM Connector
Advanced Analytics Describe the Advanced Analytics capabilities in OAC Explain Advanced Calculations inside Expression Editor Create Advanced Analytics Functions
Machine Learning Use the ‘Explain’ functionality Create and train a machine learning model, analyze its effectiveness, and use it in a project Use an ML scenario in a project Register and apply Oracle Database Machine Learning Models
Oracle Analytics Cloud Answers, Dashboards, and BI Publisher Use Oracle BI Analysis to build a report Design Pixel Perfect Reports Manage content in the Catalog Create Prompts, Dashboards, and Calculations Administer Analysis, Dashboards, and Reports Use OAC Mobile and Day by Day Navigate from a Data Visualization into a Publisher Report using Data Actions Bursting Pixel Perfect Reports and using Data Sets
Sample Questions QUESTION 1 Which data action must you use to connect to Oracle Analytics Publisher reports?
A. HTTP API B. Analytics Link C. Publish Event D. URL Navigation E. Webhooks
Answer: B
Explanation: Analytics Link is a data action that allows you to connect to Oracle Analytics Publisher reports and view them in Oracle Analytics Cloud. You can use Analytics Link to embed reports in your dashboards, projects, or data visualizations. You can also pass parameters to the reports and filter them dynamically. Reference: [Oracle Help Center]
QUESTION 2 Which are two use-cases for Data Flow?
A. To curate data sets that can be used for visualizations. B. Create a custom Python Machine Learning model. C. Perform some lightweight transformation within the Project. D. Train and test the Machine Learning model.
Answer: A
Explanation: Data Flow is a feature of Oracle Analytics Cloud that enables you to create and run data flows to transform and enrich your data. You can use Data Flow for various use-cases, such as: To curate data sets that can be used for visualizations. You can join, filter, aggregate, pivot, and perform other operations on your data sets to prepare them for analysis. To train and test the Machine Learning model. You can use Data Flow to apply machine learning algorithms to your data and create predictive models. You can also evaluate the performance of your models and compare them with different parameters. Reference: [Oracle Help Center], [Oracle Help Center]
QUESTION 3 Data How can take one or more data sets and integrate them to produce curated sets of data. After applying all the joins, transformations, and filters, you need to save the data. What are the two options to save data in Data Flow?
A. Spreadsheet B. All Rows C. Data Set Storage D. Database Connection
Answer: C, D
Explanation: After creating a data flow, you need to save the output data to a destination. You have two options to save data in Data Flow: Data Set Storage: This option allows you to save the output data as a data set in Oracle Analytics Cloud. You can choose the name, description, and format of the data set. You can also specify whether to overwrite or append the existing data set. Database Connection: This option allows you to save the output data to an external database that you have connected to Oracle Analytics Cloud. You can choose the connection, schema, table name, and mode of the database destination. Reference: [Oracle Help Center], [Oracle Help Center]
QUESTION 4 Which service do you need to subscribe for creating an Oracle Analytics Cloud (OAC) instance?
A. Oracle Back Storage B. Oracle Autonomous Database C. Oracle Analytics Cloud D. Oracle Big Data Cloud Storage
Answer: C
Explanation: To create an Oracle Analytics Cloud (OAC) instance, you need to subscribe to the Oracle Analytics Cloud service on Oracle Cloud Infrastructure (OCI). Oracle Analytics Cloud is a comprehensive analytics platform that provides a range of analytics capabilities, such as data visualization, augmented analytics, machine learning, enterprise reporting, and more. You do not need to subscribe to other services such as Oracle Back Storage, Oracle Autonomous Database, or Oracle Big Data Cloud Storage to create an OAC instance, although you can use them as data sources for your analytics projects. Reference: [Oracle Help Center], [Oracle Help Center]
QUESTION 5 You have a data set of stocks with the columns Date, MaxStockPrice and MinStockPrince. Which column cannot be removed when performing a trend analysis?
A. Date B. MintStockPrince C. All columns are required D. MaxStackPrince
Answer: A
Explanation: To perform a trend analysis on a data set of stocks, you need to have at least one date column that represents the time dimension of your data. A trend analysis is a method of analyzing how a variable changes over time and identifying patterns or trends that may exist. Without a date column, you cannot perform a trend analysis on your data set. The other columns, such as MaxStockPrice and MinStockPrice, are optional and depend on what variable you want to analyze. Reference: [Oracle Help Center]
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Format: Multiple Choice Duration: 90 Minutes Exam Price: $ Number of Questions: 58 Passing Score: 66% Validation: This exam has been validated against 22A/22B/22C/22D/23A/23B. Policy: Cloud Recertification Earn associated certifications
Passing this exam is required to earn these certifications. Select each certification title below to view full requirements.
Oracle Learning Cloud 2023 Certified Implementation Professional
Prepare to pass exam: 1Z0-1051-23 An Oracle Learning Cloud 2023 Certified Implementation Professional has demonstrated the skills to set up Learning Cloud Security, Bulk data load, Self-paced offerings, and Instructor-Led and Blended offerings in Oracle Learning Cloud. Individuals earning this certification have the knowledge to manage offerings, specializations, the learning catalog, and communities.
If you have a valid Oracle Learning Cloud Implementation Professional Certification, and your credential has not expired, you can maintain your certification by taking the corresponding shorter Delta exam.
Login to Oracle to check if your certification credential has expired or is still valid.
Check the Oracle Recertification Policy to see if you qualify.
Take recommended training Complete one of the courses below to prepare for your exam (optional):
Back Become a Certified Learning Implementer
Additional Preparation and Information
A combination of Oracle training and hands-on experience (attained via labs and/or field experience), in the learning subscription, provides the best preparation for passing the exam.
Self-Paced Offerings Upload and manage Content Create and manage Courses Create and manage Offerings
Instructor-Led and Blended Offerings Manage ILT Offerings and Resources Manage Blended Offerings Manage Offering Activities
Specializations Manage sections, completion rules, and other attributes
Learning Requests, Assignments, and Initiatives Set up and manage Learning Requests and Approvals Create and manage Learning Assignments Create and manage Learning Initiatives
Learning Catalog Apply Access Rules Describe Access Groups
Learning Communities Manage Membership Manage Community Catalog Manage Community Assignments
Bulk Upload Data Upload Learning History Upload Catalog Items
Other Learning Cloud features Create and manage Learning Outcomes and Evaluations Create Reports Analyze Notifications Activity Sequencing Observation Checklists HCM Journeys Skills Advisor
Sample Questions and Answers
QUESTION 1 You are explaining the catalog model to a new Learning Administrator who is restricted to creating offerings and below (ie., they cannot create courses or specializations). Which three statements are true about creating an offering for a course?
A. From the offerings tab in the Learning Catalog, create an offering for a course by searching for and selecting an existing course. B. From the Manage Catalog Resources page, select the content and create a Self-Paced Offering de Blended Offering. You can then associate the offering with an existing course or create a course for the offering. C. From the Offerings content area on the Course Details page, edit a course to add an offering. D. Create an offering and associate it with a course from the Actions menu in the Administrator work area. E. From the Manage Setup page, select the content and create a Self-Paced Offering or Blended Offering.
Answer: A, C, D
QUESTION 2 What three statements are true about blended learning?
A. You can use it to view a Microsoft Word document. B. It consists of either an Instructor-Led Training (ILT) and/or a Self-Paced Activity. C. It can include Evaluations. D. All activities must be completed for the Blended Offering to be completed. E. SCORM editors are included. F. Tutorials and other informal learning may be included.
Answer: A, B, C
Explanation: You can have optional activities in a blended offering. SCORM editors are not included. Informal learning cannot be included. You can create a manual activity that stores a Word document as attachment.
QUESTION 3 You have been asked to provide a Blended Offering titled How to Select Your Health Benefits. The Blended Offering already includes Instructor-Led Training (ILT) activities and now you need to add an E-learning session titled Benefits Overview. How do you add the self-paced offering?
A. Go to the Learning Catalog and, on the Offerings tab, select the Blended Offering titled How to Select Your Health Benefits, select Edit, and add the Self-Paced Activity called Benefits Overview. B. You cannot edit a Blended Offering after it is saved with an Instructor-Led Training (ILT): now you must create a new Blended Offering that includes both ILT and Self-Paced Activity. C. Go to the Learning Catalog and, on the Offerings tab, create a Blended Offering and add a Self- Paced Activity called Benefits Overview. D. Go to the Learning Catalog, select Courses, and create a new course called Health Benefits. Open the Blended Offering titled How to Select Your Health Benefits and add the newly created course called Health Benefits.
Answer: A
QUESTION 4 As a Learning Administrator, you manage several ILT-based courses. Waitlisting is enabled. You want to ensure that leamers are not automatically placed into a class from the waitlist after the class has started. How do you achieve this?
A. No action is required: this is the application’s default behavior. B. Run the Change the Status of Offering Assignments with Any Pre-Active Status to Delete process. C. Run the Reconcile Learning Enrollments process. D. Enter a low capacity at the activity level and increase the capacity as the class fills.
Answer: A
QUESTION 5 You manage a course that is often offered as a Virtual Instructor-Led Training (VILT) through Microsoft Teams. You are sure that Teams is capturing attendance. Is it possible to import that information into Learning and, if so, how do you achieve this?
A. Yes: schedule the Virtual Classroom External Provider Synchronization process. B. No. C. Yes: manually export the attendance record from Teams, locate the correct activity, and upload it.
Answer: A
Explanation: Getting the attendance report using the scheduled Virtual Classroom External Provider Synchronization background process is possible as long as the following parameters are sent to Microsoft Teams: – Tenant ID – Client ID – Client Secret – Administrator primary email address – Meeting ID
Students Reviews / Discussion
Kishore Neelam 4 weeks ago – India Thanks guys! upvoted 2 times
Dmytro Bokatov 8 months ago – Belgium Passed!!!! It’s legit y’all. Got a 95% score, a.k.a. perfect score lol upvoted 1 times
Phoebe Zhao 8 months ago – China Passed today All questions are from here. Read the comment section carefully for correct answers. upvoted 2 times
Ali Sherif 8 months, 2 weeks ago – Cairo Egypt Passed today with a score of over 93%. All questions is from here. Read the comment section carefully and look at the upvotes comment. upvoted 1 times
Format: Multiple-Choice Duration: 120 Minutes Number of Questions: 77 Passing Score: 65% Validation: Exam has been validated for product version Oracle Database 19c Format: Multiple-Choice Duration: 120 Minutes Number of Questions: 77 Passing Score: 65% Validation: Exam has been validated for product version Oracle Database 19c
Prepare to pass exam: 1Z0-078 The Oracle Certified Expert, Oracle Database 19c: RAC, ASM, and Grid Infrastructure Administrator certification is for Database production Systems Administrators and Database Administrators with 12-18 months of experience using RAC, ASM, and Grid Infrastructure. This exam measures your skills and knowledge on installation, configuration, backup and recovery, monitoring and tuning of these components, and increases your value to your company and the marketplace.
Take recommended training Complete one of the courses below to prepare for your exam (optional): Oracle Database 19c: RAC Administration Workshop Oracle Database 19c: ASM Administration Workshop Oracle Database 19c: Clusterware Administration Workshop Additional Preparation and Information A combination of Oracle training and hands-on experience (attained via labs and/or field experience), in the learning subscription, provides the best preparation for passing the exam.
Review exam topics
RAC Databases and Architecture Describe the benefits of Oracle RAC Explain the necessity of global resources Describe global cache coordination
Installing and Configuring Oracle RAC Install the Oracle database software Create a cluster database Convert a single instance Oracle database to RAC
Administering Oracle RAC Define redo log files in a RAC environment Define undo tablespaces in a RAC environment Start and stop RAC databases and instances Modify initialization parameters in a RAC environment
Managing Backup and Recovery for RAC Configure the RAC database to use ARCHIVELOG mode and the fast recovery area Configure RMAN for the RAC environment
Managing Global Resources Explain the need for global concurrency control Describe the Global Resource Directory Explain how global resources are managed Explain global enqueue and instance lock management Explain global buffer cache management Explain use of Affinity to reduce Global Resource Contention
RAC Database Monitoring and Tuning Identify RAC-specific tuning components Determine RAC-specific wait-events, global enqueues and system statistics Implement the most common RAC tuning practices Use the Cluster Database Performance pages Use the Automatic Workload Repository (AWR) in RAC Use Automatic Database Diagnostic Monitor (ADDM) in RAC RAC Database SGA Runtime Management
Managing High Availability of Services Configure and manage services in a RAC environment Use services with client applications Configure services aggregation and tracing
Managing High Availability for Connections and Applications Configure client-side connect-time load balancing and failover Configure server-side connect-time load balancing Use the Load Balancing Advisory (LBA) Explain the benefits of Fast Application Notification (FAN) Configure Transparent Application Failover (TAF) Co-location Tag for Client Routing Transparent Application Continuity Dynamic Services Fallback
Upgrading and Patching Oracle RAC Plan for rolling patches and rolling updates Install a patchset with the Oracle Universal Installer (OUI) utility Install a patch with the opatch utility
Managing Oracle RAC One Node Convert an Oracle RAC One Node database to a RAC database Use DBCA to convert a single-instance database to a RAC One Node database
Using Oracle Database Quality of Service Management (QoS) Explain the purpose and benefits of using QoS Explain the operation of QoS
Using Multitenant Architecture in a RAC Environment Describe the multitenant architecture in RAC and non-RAC environments Create a RAC multitenant container database (CDB) Create a pluggable database (PDB) in a RAC CDB Use the default CDB and PDB services Create PDB services to associate PDB services with server pools Automated PDB Patching and Relocation
Grid Infrastructure Administration
Introduction to Clusterware Explain the principles and purposes of clusters Describe Cluster hardware best practices Describe how Grid Plug and Play affects Clusterware
Flex Clusters Explain the Flex Cluster architecture and components Describe the effect of node failure in a Flex Cluster
Grid Infrastructure Installation Planning and Pre-Tasks Plan for Grid Infrastructure installation Verify system and network requirements Create groups and users Create directories
Grid Infrastructure Installation Install Grid Infrastructure Verify the installation Configure ASM disk groups Optional Install for the Grid Infrastructure Management Repository
Managing Cluster Nodes Perform the prerequisite steps to extend a cluster Delete a node from a cluster Use DBCA to ADD new nodes to extend the cluster
Traditional Clusterware Management Perform day to day Clusterware administration tasks Perform Oracle Cluster Registry (OCR) backup and recovery Manage network settings Explain the scope and capabilities of what-if command evaluation Secure Cluster Communication
Policy-Based Cluster Management Explain the architecture and components of policy-based cluster management Administer server categorization Administer a policy set Activate a policy
Upgrading and Patching Grid Infrastructure Explain the types of patches and upgrades available Plan for rolling patches and rolling upgrades Compare software versions with the active version Install a patchset with the Oracle Universal Installer (OUI) Install a patch with the opatch utility Zero-Downtime Oracle Grid Infrastructure Patching
Troubleshooting Oracle Clusterware Locate the Oracle Clusterware log files and use diagcollection.pl Enable resource debugging Enable component-level debugging Troubleshoot the Oracle Cluster Registry (OCR) file
Making Applications Highly Available with Oracle Clusterware Explain the hivh availability components of Oracle Clusterware Explain policy-managed and administration-managed databases Create an application Virtual IP (VIP) Manage application resources
Automatic Storage Management (ASM) Administration Overview of ASM
Explain the Automatic Storage Management (ASM) architecture Describe the components of ASM
Administering ASM Instances Explain and apply initialization parameters for ASM instances Manage ASM instances and associated processes Monitor ASM instances using the V$ASM dynamic performance views FLEX ASM Describe the architecture and components of Flex ASM Install and configure Flex ASM Manage Flex ASM
Administering ASM Disk Groups Create and delete ASM disk groups Set the attributes of an existing ASM disk group Perform ongoing maintenance tasks on ASM disk groups Explain key performance and scalability considerations for ASM disk groups
Administering ASM Files, Directories and Templates Use client tools to access ASM files Describe the format of a fully qualified ASM file name Explain how ASM files, directories and aliases are created and managed Describe and manage disk group templates
Administering Oracle CloudFS Administer ASM Dynamic Volume Manager Manage ASM volumes Implement ASM Cluster File System (ACFS) Use ACFS snapshots
QUESTION 1 Examine this sequence of commands: The cluster consists of nodes HOST01, HOST02, HOST03 and HOST04, and the clusterware is running on all four nodes. Which three statements are true about the result of the root user running these commands on HOST01? (Choose three.)
A. The Oracle Clusterware stack is stopped on all nodes. B. The Oracle Clusterware stack is prevented from being automatically started on host01. C. The Oracle Clusterware stack is prevented from being automatically started on all nodes. D. The Oracle Clusterware stack is stopped on all nodes except host01. E. The Oracle Clusterware stack is started on all nodes except host01. F. The Oracle Clusterware stack is started on all nodes.
Answer: A, B, F
QUESTION 2 Secure Cluster Communication protects the cluster interconnect from common security threats when used together with Single Network Support. Secure Cluster Communication includes message digest mechanisms, protection against fuzzing, and uses Transport Layer Security (TLS) to provide privacy and data integrity between the cluster members. Which statement is true about securing cluster interconnect communication?
A. Security for the cluster interconnect is invoked automatically as part of a new Oracle Grid Infrastructure 19c deployment or an upgrade to Oracle Grid Infrastructure 19c and Database administrators or cluster administrators do not need to make any configuration changes for this feature. B. Security for the cluster interconnect is invoked automatically as part of a new Oracle Grid Infrastructure 19c deployment or an upgrade to Oracle Grid Infrastructure 19c using an autogenerated encryption key that is stored locally on each node of the cluster in an Oracle Wallet and Database administrators or cluster administrators must provide a valid path for the Wallet file. C. Security for the cluster interconnect is invoked by auto-generated server certificates that will be assigned to each cluster node as part of a new Oracle Grid Infrastructure 19c deployment or an upgrade to Oracle Grid Infrastructure 19c. D. Database administrators or cluster administrators must provide an encryption key during new Oracle Grid Infrastructure 19c deployment or an upgrade to Oracle Grid Infrastructure 19c to secure the interconnect communication. E. Database administrators or cluster administrators must provide a valid server certificate and an Oracle Wallet for each node during new Oracle Grid Infrastructure 19c deployment or an upgrade to Oracle Grid Infrastructure 19c to secure the interconnect communication.
Answer: A
QUESTION 3 Which three resources are managed using global concurrency control in an Oracle 19c RAC multiinstance database? (Choose three.)
A. Database block buffers B. Mutexes C. Redo log buffers D. Latches E. Enqueues F. Cursors
Answer: B, D, E
QUESTION 4 Examine this command: SQL> CREATE PLUGGABLE DATABASE pdb3 FROM pdb1; Which three conditions must be true for successful execution of this command on a RAC database? (Choose three.)
A. The source PD3 must be closed on the CDS instance from where the command is executed. B. The source PD3 must be in read only mode on all CD3 instances if the CDB is in No Archive mode. C. The source pdb must use a global temporary D. It can be executed only by a common user with the create pluggable database system privilege connected to the root container. E. Oracle Managed Files must be enabled or PD3 file name convert must be set. F. All running CDB instances must be open in restricted mode.
Audience profile DevOps engineers are developers or infrastructure administrators who also have subject matter expertise in working with people, processes, and products to enable continuous delivery of value in organizations.
Responsibilities for this role include designing and implementing strategies for collaboration, code, infrastructure, source control, security, compliance, continuous integration, testing, delivery, monitoring, and feedback.
DevOps engineers work on cross-functional teams that include developers, site reliability engineers, and Azure administrators.
DevOps engineers must have experience with administering and developing in Azure, with strong skills in at least one of these areas. They should be familiar with both Azure DevOps and GitHub.
Skills at a glance Configure processes and communications (10–15%) Design and implement source control (15–20%) Design and implement build and release pipelines (40–45%) Develop a security and compliance plan (10–15%) Implement an instrumentation strategy (10–15%)
Configure processes and communications (10–15%) Configure activity traceability and flow of work Plan and implement a structure for the flow of work and feedback cycles Identify appropriate metrics related to flow of work, such as cycle times, time to recovery, and lead time Integrate Azure Pipelines and GitHub Actions with work item tracking tools Implement traceability policies decided by development Integrate a repository with Azure Boards Configure collaboration and communication Communicate actionable information by using custom dashboards in Azure Boards Document a project by using tools, such as wikis and process diagrams Configure release documentation, including release notes and API documentation Automate creation of documentation from Git history Configure notifications by using webhooks
Design and implement source control (15–20%) Design and implement a source control strategy Design and implement an authentication strategy Design a strategy for managing large files, including Git LFS and git-fat Design a strategy for scaling and optimizing a Git repository, including Scalar and cross-repository sharing Implement workflow hooks Plan and implement branching strategies for the source code Design a branch strategy, including trunk-based, feature branch, and release branch Design and implement a pull request workflow by using branch policies and branch protections Implement branch merging restrictions by using branch policies and branch protections Configure and manage repositories Integrate GitHub repositories with Azure Pipelines Configure permissions in the source control repository Configure tags to organize the source control repository Recover data by using Git commands Purge data from source control
Design and implement build and release pipelines (40–45%) Design and implement pipeline automation Integrate pipelines with external tools, including dependency scanning, security scanning, and code coverage Design and implement quality and release gates, including security and governance Design integration of automated tests into pipelines Design and implement a comprehensive testing strategy (including local tests, unit tests, integration tests, and load tests) Design and implement UI testing Implement orchestration of tools, such as GitHub Actions and Azure Pipelines Design and implement a package management strategy Design a package management implementation that uses Azure Artifacts, GitHub Packages, NuGet, and npm Design and implement package feeds, including upstream sources Design and implement a dependency versioning strategy for code assets and packages, including semantic versioning and date-based Design and implement a versioning strategy for pipeline artifacts Design and implement pipelines Select a deployment automation solution, including GitHub Actions and Azure Pipelines Design and implement an agent infrastructure, including cost, tool selection, licenses, connectivity, and maintainability Develop and implement pipeline trigger rules Develop pipelines, including classic and YAML Design and implement a strategy for job execution order, including parallelism and multi-stage Develop complex pipeline scenarios, such as containerized agents and hybrid Configure and manage self-hosted agents, including virtual machine (VM) templates and containerization Create reusable pipeline elements, including YAML templates, task groups, variables, and variable groups Design and implement checks and approvals by using YAML environments Design and implement deployments Design a deployment strategy, including blue/green, canary, ring, progressive exposure, feature flags, and A/B testing Design a pipeline to ensure reliable order of dependency deployments Plan for minimizing downtime during deployments by using VIP swap, load balancer, and rolling deployments Design a hotfix path plan for responding to high-priority code fixes Implement load balancing for deployment, including Azure Traffic Manager and the Web Apps feature of Azure App Service Implement feature flags by using Azure App Configuration Feature Manager Implement application deployment by using containers, binary, and scripts Design and implement infrastructure as code (IaC) Recommend a configuration management technology for application infrastructure Implement a configuration management strategy for application infrastructure, including IaC Define an IaC strategy, including source control and automation of testing and deployment Design and implement desired state configuration for environments, including Azure Automation State Configuration, Azure Resource Manager, Bicep, and Azure Automanage Machine Configuration Maintain pipelines Monitor pipeline health, including failure rate, duration, and flaky tests Optimize pipelines for cost, time, performance, and reliability Analyze pipeline load to determine agent configuration and capacity Design and implement a retention strategy for pipeline artifacts and dependencies
Develop a security and compliance plan (10–15%) Design and implement a strategy for managing sensitive information in automation Implement and manage service connections Implement and manage personal access tokens Implement and manage secrets, keys, and certificates by using Azure Key Vault, GitHub secrets, and Azure Pipelines secrets Design and implement a strategy for managing sensitive files during deployment Design pipelines to prevent leakage of sensitive information Automate security and compliance scanning Automate analysis of source code by using GitHub code scanning, GitHub secrets scanning, pipeline-based scans, and SonarQube Automate security scanning, including container scanning and OWASP ZAP Automate analysis of licensing, vulnerabilities, and versioning of open-source components by using Mend Bolt and GitHub Dependency Scanning
Implement an instrumentation strategy (10–15%) Configure monitoring for a DevOps environment Configure and integrate monitoring by using Azure Monitor Configure and integrate with monitoring tools, such as Azure Monitor and Application Insights Manage access control to the monitoring platform Configure alerts for pipeline events Analyze metrics Inspect distributed tracing by using Application Insights Inspect application performance indicators Inspect infrastructure performance indicators, including CPU, memory, disk, and network Identify and monitor metrics for business value Analyze usage metrics by using Application Insights Interrogate logs using basic Kusto Query Language (KQL) queries
Sample Questions
QUESTION 1 What should you use to implement the code quality restriction on the release pipeline for the investment planning applications suite?
A. a trigger B. a pre deployment approval C. a post-deployment approval D. a deployment gate Answer: D
AZ-140 Configuring and Operating Windows Virtual Desktop on Microsoft Azure Exam Skills measured prior to October 26, 2023
Skills measured prior to October 26, 2023
Audience profile Candidates for this exam are server or desktop administrators with subject matter expertise in designing, implementing, managing, and maintaining Microsoft Azure Virtual Desktop experiences and remote apps for any device.
To deliver these experiences, they work closely with Azure administrators, Azure architects, Microsoft 365 administrators, and Azure security engineers.
Candidates for this exam should have experience with Azure technologies, including virtualization, networking, identity, storage, and resiliency. They should be able to manage end-user desktop environments, including delivering applications and configuring user settings. These professionals use the Azure portal, templates, scripting, and command-line tools to manage an Azure Virtual Desktop deployment.
Skills at a glance Plan and implement an Azure Virtual Desktop infrastructure (40–45%) Plan and implement identity and security (15–20%) Plan and implement user environments and apps (20–25%) Monitor and maintain an Azure Virtual Desktop infrastructure (10–15%)
Plan and implement an Azure Virtual Desktop infrastructure (40–45%) Plan, implement, and manage networking for Azure Virtual Desktop Assess network capacity and speed requirements for Azure Virtual Desktop Calculate and recommend a configuration for network requirements Plan and implement Azure virtual network connectivity Manage connectivity to the internet and on-premises networks Plan and implement RDP Shortpath and quality of service (QoS) policies Plan and implement name resolution for Azure Virtual Desktop Monitor and troubleshoot network connectivity Plan and implement storage for Azure Virtual Desktop user data Plan storage for Azure Virtual Desktop user data Implement storage for FSLogix components Implement storage accounts Implement file shares Implement Azure NetApp Files Plan host pools and session hosts Recommend resource groups, subscriptions, and management groups Recommend an operating system (OS) for an Azure Virtual Desktop implementation Recommend an appropriate licensing model for Azure Virtual Desktop based on requirements Plan a host pools architecture Calculate and recommend a configuration for performance requirements Calculate and recommend a configuration for Azure Virtual Machines capacity requirements Implement host pools and session hosts Create host pools and session hosts by using the Azure portal Automate creation of Azure Virtual Desktop hosts and host pools by using PowerShell, Azure CLI, Azure Resource Manager templates (ARM templates), and Bicep Configure host pool and session host settings Apply a Windows client or Windows Server license to a session host Create and manage session host images Create a golden image manually Create a golden image by using Azure VM Image Builder Modify a session host image Plan and implement lifecycle management for images Apply OS and application updates to an image Create a session host by using a golden image Plan and implement image storage Create and manage Azure Compute Gallery
Plan and implement identity and security (15–20%) Plan and implement identity integration Choose an identity management and authentication method Identify Azure Virtual Desktop requirements for Active Directory Domain Services (AD DS), Microsoft Entra Domain Services, and Microsoft Entra ID Plan and implement Azure roles and role-based access control (RBAC) for Azure Virtual Desktop Plan and implement Microsoft Entra Conditional Access policies for connections to Azure Virtual Desktop Plan and implement multifactor authentication in Azure Virtual Desktop Manage roles, groups, and rights assignments on Azure Virtual Desktop session hosts Plan and implement security Plan, implement, and manage security for Azure Virtual Desktop session hosts by using Microsoft Defender for Cloud Configure Microsoft Defender Antivirus for session hosts Implement and manage network security for connections to Azure Virtual Desktop Configure Azure Bastion or just-in-time (JIT) for administrative access to session hosts Plan and implement Windows Threat Protection features on Azure Virtual Desktop session hosts, including Windows Defender Application Control
Plan and implement user environments and apps (20–25%) Plan and implement FSLogix Recommend FSLogix configuration Install and configure FSLogix Configure Profile Containers Configure Office Containers Configure Cloud Cache Plan and implement user experience and client settings Choose an Azure Virtual Desktop client and deployment method Deploy and troubleshoot Azure Virtual Desktop clients Configure device redirection Configure printing and Universal Print Configure user settings through Group Policy and Microsoft Intune policies Configure Remote Desktop Protocol (RDP) properties on a host pool Configure session timeout properties Implement the Start Virtual Machine on Connect feature Assign and unassign personal desktops for users Install and configure apps on a session host Choose a method for deploying an app to Azure Virtual Desktop Configure dynamic application delivery by using MSIX app attach Publish an application as a RemoteApp Implement FSLogix application masking Implement and manage OneDrive, including multisession environments Implement and manage Microsoft Teams, including AV redirect Implement and manage Microsoft 365 apps on Azure Virtual Desktop session hosts Implement and manage browsers for Azure Virtual Desktop sessions Create and configure an application group Assign users to application groups
Monitor and maintain an Azure Virtual Desktop infrastructure (10–15%) Monitor and manage Azure Virtual Desktop services Configure log collection and analysis for Azure Virtual Desktop session hosts Configure Azure Virtual Desktop monitoring by using Azure Monitor Monitor Azure Virtual Desktop by using Azure Monitor Customize Azure Monitor workbooks for Azure Virtual Desktop monitoring Monitor Azure Virtual Desktop by using Azure Advisor Optimize session host capacity and performance Implement autoscaling in host pools Monitor and manage active sessions and application groups Configure automation for Azure Virtual Desktop Automate management of host pools, session hosts, and user sessions by using PowerShell and Azure CLI Plan, implement, and maintain business continuity Recommend an update strategy for session hosts Plan and implement a disaster recovery plan for Azure Virtual Desktop Plan for multi-region implementation Design a backup strategy for Azure Virtual Desktop Configure backup and restore for FSLogix user profiles, personal virtual desktop infrastructures (VDIs), and golden images
Sample Question and Answers QUESTION 1 You plan to implement the FSLogix profile containers for the Seattle office. Which storage account should you use?
A. storage2 B. storage4 C. storage3 D. storage1 Answer: A
Explanation:
QUESTION 2 Which role should you assign to Operator2 to meet the technical requirements?
A. Desktop Virtualization Session Host Operator B. Desktop Virtualization Host Pool Contributor C. Desktop Virtualization User Session Operator D. Desktop Virtualization Contributor
Answer: D
QUESTION 3 You need to configure the device redirection settings. The solution must meet the technical requirements. Where should you configure the settings?
A. Workspace1 B. MontrealUsers C. Group1 D. Pool1
Answer: D
QUESTION 4 You need to configure the virtual machines that have the Pool1 prefix. The solution must meet the technical requirements. What should you use?
A. Windows Virtual Desktop automation task B. Virtual machine auto-shutdown C. Service Health in Azure Monitor D. Azure Automation
Answer: A
QUESTION 5 Which setting should you modify for VNET4 before you can deploy Pool4?
A. Service endpoints B. Address space C. DNS servers D. Access control (1AM) E. Peerings
Answer: C QUESTION 6 Which three PowerShell modules should you install on Server1 to meet the technical requirements? Each correct answer presents part of the solution. NOTE: Each correct selection is worth one point.
A. Pester B. RemoteDesktop C. ServerManager D. ActiveDirectory E. Hyper-V
Answer: ADE
Students Reviews / Discussion
Mike 3 months, 3 weeks ago – UGanda 430/500, the 60 questions are within the 100 questions of this dump. upvoted 1 times
Mohammed Deeia 4 months, 1 week ago – Kuwait Above 90% of questions are valid until now but review all the questions, a some of them have wrong answers. upvoted 1 times
SHARON GRUBER 6 months, 1 week ago – United States They`re valid. 465/500 passing score. Thanks upvoted 2 times
Lembede 6 months, 2 weeks ago – South Africa They`re valid. 439/500 passing score. Thanks ! DYOR upvoted 1 times
Sharan Telukunta 9 months, 3 weeks ago – New Jersey Passed with 448/500. Do independent research on all questions. upvoted 1 times
Term moxa 10 months ago – Baltimore Passed with 439/500. Do independent research on all questions. upvoted 1 times
Christoph Spirig 10 months, 1 week ago – Switzerland Passed with 457/500 Dump is valid, Check the discussions and search in Internet upvoted 1 times
Mama Brien10 months, 1 week ago – Singapore Passed with 450/ 500 , All questions are in this dump. Check the discussions and do your research. upvoted 1 times