You’re running an application on-premises due to its dependency on non-x86 hardware and want to use AWS
for data backup. Your backup application is only able to write to POSIX-compatible block-based storage. You
have 140TB of data and would like to mount it as a single folder on your file server Users must be able to
access portions of this data while the backups are taking place. What backup solution would be most
appropriate for this use case?
A.
Use Storage Gateway and configure it to use Gateway Cached volumes.
B.
Configure your backup software to use S3 as the target for your data backups.
C.
Configure your backup software to use Glacier as the target for your data backups.
D.
Use Storage Gateway and configure it to use Gateway Stored volumes.
Explanation:
Gateway-Cached Volume Architecture
Gateway-cached volumes let you use Amazon Simple Storage Service (Amazon S3) as your primary data
storage while retaining frequently accessed data locally in your storage gateway. Gateway-cached volumes
minimize the need to scale your on-premises storage infrastructure, while still providing your applications with
low-latency access to their frequently accessed data. You can create storage volumes up to 32 TiB in size and
attach to them as iSCSI devices from your on-premises application servers. Your gateway stores data that you
write to these volumes in Amazon S3 and retains recently read data in your on-premises storage gateway’s
cache and upload buffer storage.
Gateway-cached volumes can range from 1 GiB to 32 TiB in size and must be rounded to the nearest GiB.
Each gateway configured for gateway-cached volumes can support up to 32 volumes for a total maximum
storage volume of 1,024 TiB (1 PiB).
In the gateway-cached volume solution, AWS Storage Gateway stores all your on-premises application data in
a storage volume in Amazon S3.
The following diagram provides an overview of the AWS Storage Gateway-cached volume deployment.
After you’ve installed the AWS Storage Gateway software appliance—the virtual machine (VM)—on a host in
your data center and activated it, you can use the AWS Management Console to provision storage volumes
backed by Amazon S3. You can also provision storage volumes programmatically using the AWS Storage
Gateway API or the AWS SDK libraries. You then mount these storage volumes to your on-premises
application servers as iSCSI devices.
You also allocate disks on-premises for the VM. These on-premises disks serve the following purposes:
Disks for use by the gateway as cache storage – As your applications write data to the storage volumes in
AWS, the gateway initially stores the data on the on-premises disks referred to as cache storage before
uploading the data to Amazon S3. The cache storage acts as the on-premises durable store for data that is
waiting to upload to Amazon S3 from the upload buffer.
The cache storage also lets the gateway store your application’s recently accessed data on-premises for lowlatency access. If your application requests data, the gateway first checks the cache storage for the data before
checking Amazon S3.
You can use the following guidelines to determine the amount of disk space to allocate for cache storage.
Generally, you should allocate at least 20 percent of your existing file store size as cache storage. Cache
storage should also be larger than the upload buffer. This latter guideline helps ensure cache storage is large
enough to persistently hold all data in the upload buffer that has not yet been uploaded to Amazon S3.
Disks for use by the gateway as the upload buffer – To prepare for upload to Amazon S3, your gateway also
stores incoming data in a staging area, referred to as an upload buffer. Your gateway uploads this buffer data
over an encrypted Secure Sockets Layer (SSL) connection to AWS, where it is stored encrypted in Amazon
S3.
You can take incremental backups, called snapshots, of your storage volumes in Amazon S3. These point-intime snapshots are also stored in Amazon S3 as Amazon EBS snapshots. When you take a new snapshot,
only the data that has changed since your last snapshot is stored. You can initiate snapshots on a scheduled or
one-time basis. When you delete a snapshot, only the data not needed for any other snapshots is removed.
You can restore an Amazon EBS snapshot to a gateway storage volume if you need to recover a backup of
your data. Alternatively, for snapshots up to 16 TiB in size, you can use the snapshot as a starting point for anew Amazon EBS volume. You can then attach this new Amazon EBS volume to an Amazon EC2 instance.
All gateway-cached volume data and snapshot data is stored in Amazon S3 encrypted at rest using server-side
encryption (SSE). However, you cannot access this data with the Amazon S3 API or other tools such as the
Amazon S3 console.
Answer is D. Gateway Storage for back-up solution. Data is hosted on the On-premise server as well.
Gateway-cached volumes can range from 1 GiB to 32 TiB in size
D.
D
Q: What is the AWS Storage Gateway service?
The AWS Storage Gateway service enables hybrid storage between on-premises environments and the AWS Cloud. It seamlessly integrates on-premises enterprise applications and workflows with Amazon’s block and object cloud storage services through industry standard storage protocols. It provides low-latency performance by caching frequently accessed data on premises, while storing data securely and durably in Amazon cloud storage services. It provides an optimized data transfer mechanism and bandwidth management, which tolerates unreliable networks and minimizes the amount of data being transferred. It brings the security, manageability, durability, and scalability of AWS to existing enterprise environments through native integration with AWS encryption, identity management, monitoring, and storage services. Typical use cases include backup and archiving, disaster recovery, moving data to S3 for in-cloud workloads, and tiered storage.
D