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NEW QUESTION: 1
Which interface type connects the control and forwarding planes on an MX Series device?
A. fxp1
B. fxp0
C. me0
D. ae1
Answer: A
NEW QUESTION: 2
ネットワークにcontoso.comという名前のActive Directoryフォレストが含まれています。 フォレストには、次の表に示すように構成されたVPNサーバーが含まれています。
Server1という名前のネットワークポリシーサーバー(NPS)サーバーを構成しています。 Server1には次のRADIUSクライアントがあります。
3つのVPNサーバーはすべて、RADIUS認証にServer1を使用するように構成されています。 comtoso.comのすべてのユーザーがVPN接続を確立することを許可されています。 以下の各ステートメントについて、そのステートメントが当てはまる場合はYESを選択してください。 そうでなければ、いいえを選択します。
注:それぞれ正しい選択は1ポイントの価値があります。
Answer:
Explanation:
Explanation
References:
https://docs.microsoft.com/en-us/windows-server/remote/remote-access/vpn/always-on-vpn/deploy/vpn-deploy-n
NEW QUESTION: 3
DRAG DROP
You have an Exchange Server 2013 organization named adatum.com. The organization contains a server named Server1. Server1 is a member of a Database Availability Group (DAG) named DAG1.
You have a user named Sales1 in the Sales department.
You need to prevent Sales1 from submitting more than 75 email messages per minute to the Exchange Server organization by using Microsoft Outlook.
Which three commands should you run in sequence? (To answer, move the appropriate three commands from the list of commands to the answer area and arrange them in the correct order.) Select and Place:
Answer:
Explanation:
Explanation/Reference:
Explanation:
Set-mailbox-identity
Use the Set-Mailbox cmdlet to modify the settings of an existing mailbox. You can use this cmdlet for one mailbox at a time.
To perform bulk management, you can pipeline the output of various Get- cmdlets (for example, the Get- Mailbox or Get-User cmdlets) and configure several mailboxes in a single-line command. You can also use the Set-Mailbox cmdlet in scripts.
EXAMPLE 1
Set-Mailbox -Identity John -DeliverToMailboxAndForward $true -ForwardingSMTPAddress [email protected]
The Identity parameter specifies the mailbox.
This parameter accepts the following values:
Alias
Example: JPhillips
Canonical DN
Example: Atlanta.Corp.Contoso.Com/Users/JPhillips
Display Name
Example: Jeff Phillips
Distinguished Name (DN)
Example: CN=JPhillips,CN=Users,DC=Atlanta,DC=Corp,DC=contoso,DC=com
Domain\Account
Example: Atlanta\JPhillips
GUID
Example: fb456636-fe7d-4d58-9d15-5af57d0354c2
Immutable ID
Example: [email protected]
Legacy Exchange DN
Example: /o=Contoso/ou=AdministrativeGroup/cn=Recipients/cn=JPhillips
SMTP Address
Example: [email protected]
User Principal Name
Example: [email protected]
The RecipientLimits parameter specifies the maximum number of recipients per message to which this mailbox can send.
You must specify either an integer or unlimited.
If you set this attribute on a mailbox, that mailbox setting overrides the value set for this attribute in the Transport service.
The ThrottlingPolicy parameter specifies the identity of the throttling policy for this mailbox.
New-throttlingpolicy limits
Use the New-ThrottlingPolicy cmdlet to create a non-default user throttling policy.
EXAMPLE 1
This example creates a non-default user throttling policy that can be associated with specific users. Any parameters that you omit inherit the values from the default throttling policy GlobalThrottlingPolicy_<GUID>.
After you create this policy, you must associate it with specific users.
New-ThrottlingPolicy -Name ITUserPolicy -EwsMaxConcurrency 4 -ThrottlingPolicyScope Regular The RecipientRateLimit parameter specifies the limits on the number of recipients that a user can address in a 24-hour period.
The MessageRateLimit parameter specifies the number of messages per minute that can be submitted to transport.
For messages submitted through the Mailbox server role (using Microsoft Outlook, Microsoft Office Outlook Web App, Exchange ActiveSync, or Exchange Web Services), this results in the deferral of messages until the quota for the user is available. Specifically, messages appear in the Outbox or Drafts folder for longer periods of time when users submit messages at a rate greater than the MessageRateLimit parameter.
For POP or IMAP clients submitting messages directly to transport using SMTP, clients receive a transient error if they submit at a rate that exceeds the MessageRateLimit parameter. Exchange attempts to connect and send the messages at a later time.
Get-throttlingpolicy
Use the Get-ThrottlingPolicy cmdlet to view the user throttling settings for one or more throttling policies.
Set-transpotserver-identity
Use the Set-TransportServer cmdlet to set the transport configuration options for the Transport service on Mailbox servers or for Edge Transport servers.
EXAMPLE 1
This example sets the DelayNotificationTimeout parameter to 13 hours on server named Mailbox01.
Set-TransportServer Mailbox01 -DelayNotificationTimeout 13:00:00
The Identity parameter specifies the server that you want to modify.
The MaxOutboundConnections parameter specifies the maximum number of outbound connections that can be open at a time.
The default value is 1000. The valid input range for this parameter is from 1 through 2147483647. If you enter a value of unlimited, no limit is imposed on the number of outbound connections.
The value of the MaxOutboundConnections parameter must be greater than or equal to the value of the MaxPerDomainOutboundConnections parameter.
STEPS
1. New-throttlingpolicy limits - messageratelimit 75 Creates a new throttling policy called limits with a limit of 75 email messages per minute being sent to the exchange server
2. $b = get-throttlingpolicy limits Establishes a variable $b with the attributes of the new throttling policy called limits
3. Set-mailbox -identity sales1 - throttlingpolicy $b Attaches the throttling policy named limits to the user named Sales1
New-ThrottlingPolicy: Exchange 2013 Help
Set-ThrottlingPolicyAssociation: Exchange 2013 Help
NEW QUESTION: 4
SensorDataコレクションを設計する必要があります。
何をお勧めしますか?回答するには、回答エリアで適切なオプションを選択します。
注:それぞれの正しい選択には1ポイントの価値があります。
Answer:
Explanation:
Explanation:
Box 1: Eventual
Traffic data insertion rate must be maximized.
Sensor data must be stored in a Cosmos DB named treydata in a collection named SensorData With Azure Cosmos DB, developers can choose from five well-defined consistency models on the consistency spectrum. From strongest to more relaxed, the models include strong, bounded staleness, session, consistent prefix, and eventual consistency.
Box 2: License plate
This solution reports on all data related to a specific vehicle license plate. The report must use data from the SensorData collection.
References:
https://docs.microsoft.com/en-us/azure/cosmos-db/consistency-levels
Topic 2, Case study
Case study
The company identifies the following business requirements:
* External vendors must be able to perform custom analysis of data using machine learning technologies.
* You must display a dashboard on the operations status page that displays the following metrics: telemetry, volume, and processing latency.
* Traffic data must be made available to the Government Planning Department for the purpose of modeling changes to the highway system. The traffic data will be used in conjunction with other data such as information about events such as sporting events, weather conditions, and population statistics. External data used during the modeling is stored in on-premises SQL Server 2016 databases and CSV files stored in an Azure Data Lake Storage Gen2 storage account.
* Information about vehicles that have been detected as going over the speed limit during the last 30 minutes must be available to law enforcement officers. Several law enforcement organizations may respond to speeding vehicles.
* The solution must allow for searches of vehicle images by license plate to support law enforcement investigations. Searches must be able to be performed using a query language and must support fuzzy searches to compensate for license plate detection errors.
Telemetry Capture
The telemetry capture system records each time a vehicle passes in front of a sensor. The sensors run on a custom embedded operating system and record the following telemetry data:
* Time
* Location in latitude and longitude
* Speed in kilometers per hour (kmph)
* Length of vehicle in meters
Visual Monitoring
The visual monitoring system is a network of approximately 1,000 cameras placed near highways that capture images of vehicle traffic every 2 seconds. The cameras record high resolution images. Each image is approximately 3 MB in size.
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 question on 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 sections 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 on 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. If the case study has an All Information tab, note that the information displayed is identical to the information displayed on the subsequent tabs. When you are ready to answer a question, click the Question button to return to the question.
Overview
You develop data engineering solutions for Graphics Design Institute, a global media company with offices in New York City, Manchester, Singapore, and Melbourne.
The New York office hosts SQL Server databases that stores massive amounts of customer dat a. The company also stores millions of images on a physical server located in the New York office. More than 2 TB of image data is added each day. The images are transferred from customer devices to the server in New York.
Many images have been placed on this server in an unorganized manner, making it difficult for editors to search images. Images should automatically have object and color tags generated. The tags must be stored in a document database, and be queried by SQL You are hired to design a solution that can store, transform, and visualize customer data.
Requirements
Business
The company identifies the following business requirements:
* You must transfer all images and customer data to cloud storage and remove on-premises servers.
* You must develop an analytical processing solution for transforming customer data.
* You must develop an image object and color tagging solution.
* Capital expenditures must be minimized.
* Cloud resource costs must be minimized.
Technical
The solution has the following technical requirements:
* Tagging data must be uploaded to the cloud from the New York office location.
* Tagging data must be replicated to regions that are geographically close to company office locations.
* Image data must be stored in a single data store at minimum cost.
* Customer data must be analyzed using managed Spark clusters.
* Power BI must be used to visualize transformed customer data.
* All data must be backed up in case disaster recovery is required.
Security and optimization
All cloud data must be encrypted at rest and in transit. The solution must support:
* parallel processing of customer data
* hyper-scale storage of images
* global region data replication of processed image data