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Title: Get Real AZ-220 Exam Dumps [Aug-2022] Practice Tests [Q66-Q90]

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 Get Real AZ-220 Exam Dumps [Aug-2022] Practice Tests
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How to Prepare For AZ-220:Microsoft Azure IoT Developer Exam
Preparation Guide for AZ-220:Microsoft Azure IoT Developer Exam
Introduction
Microsoft has created a track for Azure professionals who are knowledgeable in Azure IoT landscape to get certified this platform. This certification program provides Microsoft Azure IoT developer professionals a way to demonstrate their skills. The assessment is based on a rigorous exam using industry standard methodology to determine whether a candidate meets Microsoft's proficiency standards.
According to Microsoft, a Microsoft AZ-220 Certified Professional enables organizations to leverage Microsoft Azure IoT developer technologies with a thorough implementation and the coding required to create and maintain the cloud and edge portion of an IoT solution. An IoT Developer is responsible for maintaining the devices throughout the life cycle.
Certification is evidence of your skills, expertise in those areas in which you like to work. There are many vendors in the market that are providing these certifications. If candidate wants to work on Microsoft Azure IoT developer and prove his knowledge, certification offered by Microsoft. This AZ-220 Exam Certification helps a candidate to validates his skills in Microsoft Azure IoT.
In this guide, we will cover the AZ-220:Microsoft Azure IoT Developer Certification exam, AZ-220:Microsoft Azure IoT Developer Certified professional salary and all aspects of the AZ-220:Microsoft Azure IoT Developer Certification.

 


NEW QUESTION 66You have an IoT device that gathers data in a CSV file named Sensors.csv.You deploy an Azure IoT hub that is accessible at ContosoHub.azure-devices.net. You need to ensure that Sensors.csv is uploaded to the IoT hub.Which two actions should you perform? Each correct answer presents part of the solution.
 Upload Sensors.csv by using the IoT Hub REST API.
 From the Azure subscription, select the IoT hub, select Message routing, and then configure a route to storage.
 From the Azure subscription, select the IoT hub, select File upload, and then configure a storage container.
 Configure the device to use a GET request to ContosoHub.azure-devices.net/devices/ContosoDevice1/ files/notifications.
ExplanationC: To use the file upload functionality in IoT Hub, you must first associate an Azure Storage account with your hub. Select File upload to display a list of file upload properties for the IoT hub that is being modified.For Storage container: Use the Azure portal to select a blob container in an Azure Storage account in your current Azure subscription to associate with your IoT Hub. If necessary, you can create an Azure Storage account on the Storage accounts blade and blob container on the Containers A: IoT Hub has an endpoint specifically for devices to request a SAS URI for storage to upload a file. To start the file upload process, the device sends a POST request to {iot hub}.azure-devices.net/devices/{deviceId}/ files with the following JSON body:{“blobName”: “{name of the file for which a SAS URI will be generated}”}Reference:https://github.com/MicrosoftDocs/azure-docs/blob/master/articles/iot-hub/iot-hub-configure-file-upload.mdNEW QUESTION 67You develop a custom Azure IoT Edge module named temperature-module.You publish temperature-module to a private container registry named mycr.azurecr.io You need to build a deployment manifest for the IoT Edge device that will run temperature-module.Which three container images should you define in the manifest? Each correct answer presents part of the solution.NOTE: Each correct selection is worth one point.
 mcr.microsoft.com/azureiotedge-simulated-temperature-sensor:1.0
 mcr.microsoft.com/azureiotedge-agent:1.0
 mcr.microsoft.com/iotedgedev:2.0
 mycr.azurecr.io/temperature-module:latest
 mcr.microsoft.com/azureiotedge-hub:1.0
Each IoT Edge device runs at least two modules: $edgeAgent and $edgeHub, which are part of the IoT Edge runtime. IoT Edge device can run multiple additional modules for any number of processes. Use a deployment manifest to tell your device which modules to install and how to configure them to work together.Reference:https://docs.microsoft.com/en-us/azure/iot-edge/module-compositionNEW QUESTION 68You have an instance of Azure Time Series Insights and an Azure IoT hub that receives streaming telemetry from IoT devices.You need to configure Time Series Insights to receive telemetry from the devices.Which three actions should you perform in sequence? To answer, move the appropriate actions from the list of actions to the answer area and arrange them in the correct order.
1 – Create a dedicated consumer group..2 – Add a new Time Series Insights event source.3 – Configure the Time Series event source to connect to an existing IOT hub Reference:https://docs.microsoft.com/en-us/azure/time-series-insights/time-series-insights-how-to-add-an-event-source-iothubNEW QUESTION 69You are troubleshooting an Azure IoT hub.You discover that some telemetry messages are dropped before they reach downstream processing. You suspect that IoT Hub throttling is the root cause.Which log in the Diagnostics settings of the IoT hub should you use to capture the throttling error events?
 Routes
 DeviceTelemetry
 Connections
 C2DCommands
ExplanationThe device telemetry category tracks errors that occur at the IoT hub and are related to the telemetry pipeline.This category includes errors that occur when sending telemetry events (such as throttling) and receiving telemetry events (such as unauthorized reader). This category cannot catch errors caused by code running on the device itself.Note: The metric d2c.telemetry.ingress.sendThrottle is the number of throttling errors due to device throughput throttles.Reference:https://docs.microsoft.com/en-us/azure/iot-hub/iot-hub-monitor-resource-healthNEW QUESTION 70You have an Azure IoT solution that includes a standard tier Azure IoT hub and an IoT device.The device sends one 100-KB device-to-cloud message every hour.You need to calculate the total daily message consumption of the device.What is the total daily message consumption of the device?
 24
 600
 2,400
 4,800
100 KB * 24 is around 2,400 bytes.The 100 KB message is divided into 4 KB blocks, and it is billed for 25 messages. 25 times 24 is 600 Note: The maximum message size for messages sent from a device to the cloud is 256 KB. These messages are metered in 4 KB blocks for the paid tiers so for instance if the device sends a 16 KB message via the paid tiers it will be billed as 4 messages.Reference:https://azure.microsoft.com/en-us/pricing/details/iot-hub/NEW QUESTION 71You have an Azure subscription that contains an Azure Time Series Insights environment. The environment has the properties shown in the following table.You need to create a D.Which two time series expressions can be correctly used as part of the query? Each correct answer presents a complete solution.NOTE: Each correct selection is worth one point.
 $event.p1.String = ‘abc’
 $event.p2 = ‘abc’
 $event[‘p1’] != NULL
 $event.p4.p5 = 0.0
ExplanationExample: $event[‘p1’] != NULL[‘p1’] is the only token used. Interpreted as $event[‘p1’].Double != NULL Reference:https://docs.microsoft.com/en-us/rest/api/time-series-insights/reference-time-series-expression-syntaxNEW QUESTION 72You have the devices shown in the following table.You are implementing a proof of concept (POC) for an Azure IoT solution.You need to deploy an Azure IoT Edge device as part of the POC.On which two devices can you deploy IOT Edge? Each correct answer presents a complete solution.NOTE: Each correct selection is worth one point.
 Device1
 Device2
 Device3
 Device4
Azure IoT Edge runs great on devices as small as a Raspberry Pi3 to server grade hardware.Tier 1.The systems listed in the following table are supported by Microsoft, either generally available or in public preview, and are tested with each new release.Reference:https://docs.microsoft.com/en-us/azure/iot-edge/supportNEW QUESTION 73You have an Azure IoT hub and 15,000 IoT devices that monitor temperature. The IoT hub has four partitions. Each IoT device sends a 1-KB message every five seconds.You plan to use Azure Stream Analytics to process the telemetry stream and generate an alert when temperatures exceed a defined threshold.You need to recommend the minimum number of streaming units to configure for Stream Analytics.What should you recommend?
 1
 3
 6
 12
Reference:https://docs.microsoft.com/en-us/azure/stream-analytics/stream-analytics-parallelization#calculate-the-maximum-streaming-units-of-a-jobNEW QUESTION 74You have 100 devices that connect to an Azure IoT hub named Hub1. The devices connect by using a symmetric key.You deploy an IoT hub named Hub2.You need to migrate 10 devices from Hub1 to Hub2. The solution must ensure that the devices retain the existing symmetric key.What should you do?
 Add a desired property to the device twin of Hub2. Update the endpoint of the 10 devices to use Hub2.
 Add a desired property to the device twin of Hub1. Recreate the device identity on Hub2.
 Recreate the device identity on Hub2. Update the endpoint of the 10 devices to use Hub2.
 Disable the 10 devices on Hub1. Update the endpoint of the 10 devices to use Hub2.
ExplanationDesired properties. Used along with reported properties to synchronize device configuration or conditions. The solution back end can set desired properties, and the device app can read them. The device app can also receive notifications of changes in the desired properties.Reference:https://docs.microsoft.com/en-us/azure/iot-hub/iot-hub-devguide-device-twinsNEW QUESTION 75You have an existing Azure IoT hub.You use IoT Hub jobs to schedule long running tasks on connected devices.Which two operations do the IoT Hub jobs support directly? Each correct answer presents a complete solution.NOTE: Each correct selection is worth one point.
 Trigger Azure functions.
 Invoke direct methods.
 Update desired properties.
 Send cloud-to-device messages.
 Disable IoT device registry entries.
Consider using jobs when you need to schedule and track progress any of the following activities on a set of devices:Invoke direct methodsUpdate desired propertiesUpdate tagsReference:https://docs.microsoft.com/en-us/azure/iot-hub/iot-hub-devguide-jobsNEW QUESTION 76You need to configure Stream Analytics to meet the POV requirements.What are two ways to achieve the goal? Each Answer presents a complete solution.NOTE: Each correct selection is worth one point.
 From IoT Hub, create a custom event hub endpoint, and then configure the endpoint as an input to Stream Analytics.
 Create a Stream Analytics module, and then deploy the module to all IoT Edge devices in the fleet.
 Create an input in Stream Analytics that uses the built-in events endpoint of IoT Hub as the source.
 Route telemetry to an Azure Blob storage custom endpoint, and then configure the Blob storage as a reference input for Stream Analytics.
ExplanationNEW QUESTION 77You have an Azure IoT Central application that has a custom device template.You need to configure the device template to support the following activities:* Return the reported power consumption.* Configure the desired fan speed.* Run the device reset routine.* Read the fan serial number.Which option should you use for each activity? Each correct answer presents part of the solution.NOTE: Each correct selection is worth one point.
Explanation:Box 1: MeasurementTelemetry/measurement is a stream of values sent from the device, typically from a sensor. For example, a sensor might report the ambient temperature.Box 2: PropertyThe template can provide a writeable fan speed propertyProperties represent point-in-time values. For example, a device can use a property to report the target temperature it’s trying to reach. You can set writeable properties from IoT Central.Box 3: SettingsBox 4: CommandYou can call device commands from IoT Central. Commands optionally pass parameters to the device and receive a response from the device. For example, you can call a command to reboot a device in 10 seconds.Reference:https://docs.microsoft.com/en-us/azure/iot-central/core/howto-set-up-templateNEW QUESTION 78You have an Azure IoT solution that includes several Azure IoT hubs.A new alerting feature was recently added to the IoT devices. The feature uses a new device twin reported property named alertCondition.You need to send alerts to an Azure Service Bus queue named MessageAlerts. The alerts must include alertConditionand the name of the IoT hub.Which two actions should you perform? Each correct answer presents part of the solution.NOTE: Each correct selection is worth one point.
 Configure File upload for each IoT hub. Configure the device to send a file to an Azure Storage container that contains the device name and status message.
 Add the following message enrichments:Name = iotHubNameValue = $twin.tag.locationEndpoint = MessageAlert
 Create an IoT Hub routing rule that has a data source of Device Twin Change Events and select the endpoint for MessageAlerts.
 Add the following message enrichments:Name = iotHubNameValue = $iothubnameEndpoint = MessageAlert
 Create an IoT Hub routing rule that has a data source of Device Telemetry Messages and select the endpoint for MessageAlerts.
B: Message enrichments is the ability of the IoT Hub to stamp messages with additional information before the messages are sent to the designated endpoint. One reason to use message enrichments is to include data that can be used to simplify downstream processing. For example, enriching device telemetry messages with a device twin tag can reduce load on customers to make device twin API calls for this information.D: Applying enrichmentsThe messages can come from any data source supported by IoT Hub message routing, including the following examples:* –>device twin change notifications — changes in the device twin* device telemetry, such as temperature or pressure* device life-cycle events, such as when the device is created or deleted Reference:https://docs.microsoft.com/en-us/azure/iot-hub/iot-hub-message-enrichments-overviewNEW QUESTION 79You enable Azure Security Center for IoT.You need to onboard a device to Azure Security Center.What should you do?
 Add the azureiotsecurity module identity to the Azure IoT Hub device identity.
 Open incoming TCP port 8883 on the device.
 Modify the connection string of the device.
 Install an X.509 certificate on the hardware security module (HSM) of the device.
Use the following workflow to deploy and test your Azure Security Center for IoT security agents:1. Enable Azure Security Center for IoT service to your IoT Hub2. If your IoT Hub has no registered devices, Register a new device.3. Create an azureiotsecurity security module for your devices.Azure Security Center for IoT makes use of the module twin mechanism and maintains a security module twin named azureiotsecurity for each of your devices.Note: To manually create a new azureiotsecurity module twin for a device use the following instructions:1. In your IoT Hub, locate and select the device you wish to create a security module twin for.2. Click on your device, and then on Add module identity.3. In the Module Identity Name field, enter azureiotsecurity.4. Click Save.Reference:https://docs.microsoft.com/en-us/azure/asc-for-iot/quickstart-create-security-twinNEW QUESTION 80From the Device Provisioning Service, you create an enrollment as shown in the exhibit. (Click the Exhibit tab.)You need to deploy a new IoT device.What should you use as the device identity during attestation?
 a self-signed X.509 certificate
 the random string of alphanumeric characters
 the HMACSHA256 hash of the device’s registration ID
 the endorsement key of the device’s Trusted Platform Module (TPM)
Each device uses its derived device key with your unique registration ID to perform symmetric key attestation with the enrollment during provisioning. To generate the device key, use the key you copied from your DPS enrollment to compute an HMAC-SHA256 of the unique registration ID for the device and convert the result into Base64 format.Reference:https://docs.microsoft.com/en-us/azure/iot-edge/how-to-auto-provision-symmetric-keysNEW QUESTION 81You have an Azure IoT hub and 15,000 IoT devices that monitor temperature. The IoT hub has four partitions.Each IoT device sends a 1-KB message every five seconds.You plan to use Azure Stream Analytics to process the telemetry stream and generate an alert when temperatures exceed a defined threshold.You need to recommend the minimum number of streaming units to configure for Stream Analytics.What should you recommend?
 1
 3
 6
 12
Reference:https://docs.microsoft.com/en-us/azure/stream-analytics/stream-analytics-parallelization#calculate-the-maximumNEW QUESTION 82You have 1,000 devices that connect to an Azure IoT hub.You discover that some of the devices fail to send data to the IoT hub.You need to ensure that you can use Azure Monitor to troubleshoot the device connectivity issues.Which two actions should you perform? Each correct answer presents part of the solution.NOTE: Each correct selection is worth one point.
 From the Diagnostics settings of the IoT hub, select Archive to a storage account.
 Collect the DeviceTelemetry, Connections, and Routes logs.
 Collect all metrics.
 From the Diagnostics settings of the IoT hub, select   Log Analytic.
 Collect the JobsOperations, DeviceStreams, and FileUploadOperations logs.
ExplanationThe IoT Hub resource logs connections category emits operations and errors having to do with device connections. The following screenshot shows a diagnostic setting to route these logs to a Log Analytics workspace:Note: Azure Monitor: Route connection events to logs:IoT hub continuously emits resource logs for several categories of operations. To collect this log data, though, you need to create a diagnostic setting to route it to a destination where it can be analyzed or archived. One such destination is Azure Monitor Logs via a Log Analytics workspace, where you can analyze the data using Kusto queries.Reference:https://docs.microsoft.com/en-us/azure/iot-hub/iot-hub-troubleshoot-connectivityNEW QUESTION 83You are planning a proof of concept (POC) that will use an Azure IoT hub.You have two self-signed client authentication certificates named Cert1 and Cert2. Cert1 has a basic constraint that contains Subject Type=C You need to identify which certificates to use.What should you identify? To answer, select the appropriate options in the answer area.NOTE: Each correct selection is worth one point.
Explanation:Box 1: Cert2 onlyCert2: The leaf certificate, or end-entity certificate, identifies the certificate holder. It has the root certificate in its certificate chain as well as zero or more intermediate certificates. The leaf certificate is not used to sign any other certificates. It uniquely identifies the device to the provisioning service and is sometimes referred to as the device certificate.Box 2: Cert1 onlyCert1: A root certificate is a self-signed X.509 certificate representing a certificate authority (CA). It is the terminus, or trust anchor, of the certificate chain. Root certificates can be self-issued by an organization or purchased from a root certificate authority.Reference:https://docs.microsoft.com/en-us/azure/iot-dps/concepts-x509-attestationNEW QUESTION 84You have an Azure IoT hub.You plan to attach three types of IoT devices as shown in the following table.You need to select the appropriate communication protocol for each device.What should you select? To answer, drag the appropriate protocols to the correct devices. Each protocol 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.
Explanation:Box 1: AMQPUse AMQP on field and cloud gateways to take advantage of connection multiplexing across devices.Box 2: MQTTMQTT is used on all devices that do not require to connect multiple devices (each with its own per-device credentials) over the same TLS connection.Box 3: HTTPSUse HTTPS for devices that cannot support other protocols.Reference:https://docs.microsoft.com/en-us/azure/iot-hub/iot-hub-devguide-protocolsNEW QUESTION 85You are developing an Azure IoT solution for a shipping company. The company’s ships will have sensors used for predictive maintenance. Some sensor devices will be MQTT-capable, and others will use Modbus.Each ship has an internet connection that is available only when the ship is docked.You create an Azure IoT hub.You need to implement an IoT solution that uses Azure IoT Edge.What should you do?
 Configure an loT Edge gateway. Deploy an loT Edge Modbus module. From the Azure portal, create loT devices and add connection strings to the devices.
 Add the MQTT devices to the loT hub and configure an loT Edge gateway. From the loT Edge gateway device, assign the MQTT devices as child devices of the gateway. Use the File upload feature of loT Hub when internet connectivity is available.
 Add the MQTT devices to the loT hub. configure an loT Edge gateway, and set Enable connection to loT Hub to Disable. From the loT Edge gateway device, assign the MQTT devices as child devices of the gateway. Deploy the loT Edge Modbus module.
 Add the MQTT devices to the loT hub and configure an loT Edge gateway. From the loT Edge gateway device, assign the MQTT devices as child devices of the gateway. Deploy an loT Edge Modbus module.
https://docs.microsoft.com/en-us/azure/iot-edge/deploy-modbus-gatewayNEW QUESTION 86Note: This question is part of a series of questions that present the same scenario. Each question in the series contains a unique solution that might meet the stated goals. Some question sets might have more than one correct solution, while others might not have a correct solution.After you answer a question in this section, you will NOT be able to return to it. As a result, these questions will not appear in the review screen.You have an Azure IoT solution that includes an Azure IoT hub and an Azure IoT Edge device.You plan to deploy 10 Bluetooth sensors. The sensors do not support MQTT, AMQP, or HTTPS.You need to ensure that all the sensors appear in the IoT hub as a single device.Solution: You configure the IoT Edge device as an IoT Edge transparent gateway. You configure the sensors to connect to the device.Does this meet the goal?
 Yes
 No
ExplanationIoT Edge transparent gateways support only the MQTT or AMQP protocols.Instead use a translation gateway.IoT Hub. The translation module receives messages from downstream devices, translates them into a supported protocol, and then the IoT Edge device sends the messages on behalf of the downstream devices. All information looks like it is coming from one device, the gateway.Reference:https://docs.microsoft.com/en-us/azure/iot-edge/iot-edge-as-gatewayNEW QUESTION 87Note: This question is part of a series of questions that present the same scenario. Each question in the series contains a unique solution that might meet the stated goals. Some question sets might have more than one correct solution, while others might not have a correct solution.After you answer a question in this section, you will NOT be able to return to it. As a result, these questions will not appear in the review screen.You have a Standard tier Azure IoT hub and a fleet of IoT devices.The devices connect to the IoT hub by using either Message Queuing Telemetry Transport (MQTT) or Advanced Message Queuing Protocol (AMQP).You need to send data to the IoT devices and each device must respond. Each device will require three minutes to process the data and respond.Solution: You use cloud-to-device messages and watch the cloud-to-device feedback endpoint for successful acknowledgement.Does this meet the goal?
 Yes
 No
IoT Hub provides three options for device apps to expose functionality to a back-end app:Twin’s desired properties for long-running commands intended to put the device into a certain desired state. For example, set the telemetry send interval to 30 minutes.Direct methods for communications that require immediate confirmation of the result. Direct methods are often used for interactive control of devices such as turning on a fan.Cloud-to-device messages for one-way notifications to the device app.Reference:https://docs.microsoft.com/en-us/azure/iot-hub/iot-hub-devguide-c2d-guidanceNEW QUESTION 88You have an Azure IoT hub that uses a Device Provision Service instance.You plan to deploy 100 IoT devices.You need to confirm the identity of the devices by using the Device Provision Service.Which three device attestation mechanisms can you use? Each correct answer presents a complete solution.NOTE: Each correct selection is worth one point.
 X.509 certificates
 Trusted Platform Module (TPM) 2.0
 Trusted Platform Module (TPM) 1.2
 Symmetric key
 Device Identity Composition Engine (DICE)D18912E1457D5D1DDCBD40AB3BF70D5D
 509 certificates based on the standard X.509 certificate authentication flow.Trusted Platform Module (TPM) based on a nonce challenge, using the TPM 2.0 standard for keys to present a signed Shared Access Signature (SAS) token. This does not require a physical TPM on the device, but the service expects to attest using the endorsement key per the TPM spec.Symmetric Key based on shared access signature (SAS) Security tokens, which include a hashed signature and an embedded expiration.
The Device Provisioning Service supports the following forms of attestation:Reference:https://docs.microsoft.com/en-us/azure/iot-dps/concepts-service#attestation-mechanismNEW QUESTION 89Note: This question is part of a series of questions that present the same scenario. Each question in the series contains a unique solution that might meet the stated goals. Some question sets might have more than one correct solution, while others might not have a correct solution.After you answer a question in this section, you will NOT be able to return to it. As a result, these questions will not appear in the review screen.You have an Azure Stream Analytics job that receives input from an Azure IoT hub and sends the outputs to Azure Blob storage. The job has compatibility level 1.1 and six streaming units.You have the following query for the job.You plan to increase the streaming unit count to 12.You need to optimize the job to take advantage of the additional streaming units and increase the throughput.Solution: You change the compatibility level of the job to 1.2.Does this meet the goal?
 Yes
 No
ExplanationMax number of Streaming Units with one step and with no partitions is 6.Reference:https://docs.microsoft.com/en-us/azure/stream-analytics/stream-analytics-parallelizationNEW QUESTION 90You have an Azure IoT hub that uses a Device Provisioning Service instance.You create a new individual device enrollment that uses symmetric key attestation.Which detail from the enrollment is required to auto provision the device by using the Device Provisioning Service?
 the registration ID of the enrollment
 the primary key of the enrollment
 the device identity of the IoT hub
 the hostname of the IoT hub
An enrollment is the record of devices or groups of devices that may register through auto-provisioning. The enrollment record contains information about the device or group of devices, including:the attestation mechanism used by the devicethe optional initial desired configuration desired IoT hubthe desired device IDNote: Azure IoT auto-provisioning can be broken into three phases:1. Service configuration – a one-time configuration of the Azure IoT Hub and IoT Hub Device Provisioning Service instances, establishing them and creating linkage between them.2. Device enrollment – the process of making the Device Provisioning Service instance aware of the devices that will attempt to register in the future. Enrollment is accomplished by configuring device identity information in the provisioning service, as either an “individual enrollment” for a single device, or a “group enrollment” for multiple devices.3. Device registration and configurationReference:https://docs.microsoft.com/en-us/azure/iot-dps/concepts-service#enrollment Loading …






	
	

Asked Prerequisites
The Microsoft AZ-220 candidate should ensure that a considerable amount of work experience in implementing the Azure services must have been gained beforehand. Data storage options, ways to perform data processing, and data analysis concepts must be also clear for those targeting this test. Besides, it is important that the exam aspirant is capable to recognize the Azure IoT service configuration setting along with languages like C#, Node, C, and Python. 

Suitable Candidate Profile
Think of AZ-220 if you are considering becoming a Microsoft Azure Developer in the near future. Plus, those who want to explore the world of IoT in the best possible way can aim at this exam to sustain the exam journey. 

 

Get Ready to Pass the AZ-220 exam with Microsoft Latest Practice Exam : https://www.validexam.com/AZ-220-latest-dumps.html


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