Posts Tagged ‘disaster recovery’

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Cloud SANs: What the Data Storage Vendors Forgot

Tuesday, November 15th, 2011

Storage area networks (SANs) have become the ubiquitous deployment model for block data storage systems, interconnecting formerly siloed storage arrays with a common high-speed network running standardized protocols such as Fibre Channel or iSCSI. It was over a decade ago that the ability to connect multi-vendor storage arrays into a common network proved revolutionary and changed the way storage arrays were configured and consumed by businesses. However, with continuing advancements in cloud storage solutions, IT administrators are now rethinking the traditional SAN.

As with many mature technologies, SANs have forced IT administrators to accept a number of limitations. The most notable are

  • The traditional 3-5 year lifecycle of storage arrays, resulting in costly upgrades, frequent migrations and the introduction of considerable business risk
  • The inability to scale performance across geographical distances without storage arrays at each site
  • The inability to easily allocate and re-allocate storage capacity across sites
  • Replication and disaster recovery that require double the number of storage arrays and infrastructure

A combined cloud storage and enterprise cloud storage gateway solution, such as CloudArray, easily overcomes all of these limitations. Pay-as-you-go cloud storage breaks the traditional storage lifecycle offering an unlimited tier of data storage without a need for hardware upgrades, while enterprise storage gateway technology enables secure local-speed performance and iSCSI access from virtually any geographic location with the ability to dynamically allocate/reallocate storage across sites as needed.

TwinStrata’s recent launch of CloudArray 3.0 extends these cloud benefits beyond just public and private clouds — to existing data storage. With CloudArray 3.0, it is easier than ever to build a Cloud SAN that transcends the limitations of existing SANs. Companies can enjoy the attributes of cloud storage immediately using their existing storage as the starting point and, when ready, seamlessly expand their existing storage pool with public and/or private cloud storage.

CloudArray Cloud SAN

Cloud SANs eclipse the limitations of traditional SANs by offering high-performance, optimized data access from virtually anywhere, with a very small local footprint. This makes them ideal for remote offices or other distributed environments. Cloud SANs also offer centralized capacity management and centralized disaster recovery for flexible and robust multi-site deployments.

Key benefits of Cloud SANs include

  • Ability to work with public clouds, private clouds and/or existing storage using software or hardware caching appliances, each with access to virtually unlimited capacity
  • Ability to scale local speed performance across sites without distance limitations
  • Ability to allocate/reallocate storage capacity between sites dynamically, simplifying movement of capacity resources to locations that need them most
  • Built-in consolidated replication and disaster recovery for each caching appliance

As ground-breaking as SANs were when they launched over a decade ago, Cloud SANs represent the next revolutionary step in simplifying deployment of data storage for businesses. Whereas traditional SANs are limited in terms of multi-site scale, capacity utilization and cost, Cloud SANs offer robust, cost-effective solutions that scale geographically and optimize data storage utilization.

Find out just how simple it is to get started with a CloudArray Cloud SAN.

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Combining Storage Virtualization with Unprecedented Cloud Storage Flexibility

Tuesday, October 4th, 2011

The business case for storage virtualization software isn’t new. System administrators have always sought best of breed data storage from a choice of storage vendors and a centralized management framework. With a variety of data storage devices available today, ranging from high-performance SSD and Flash cards to low-cost SATA arrays, a seamless way to automatically tier data across the diversity of storage devices and purpose-built arrays can maximize utilization and cost-efficiency. Hardware interchangeability and auto-tiering empower consumers with greater cost controls and buying power. In addition, there are numerous benefits to an enterprise-class software stack that includes data replication and disaster recovery in a footprint that persists across storage system upgrades, with no need to ever change data management interfaces and policies.

DataCore SANsymphony-V is offered by the pioneer and established leader in the storage virtualization segment and is the industry’s first storage hypervisor that provides all of the above benefits and much more. This week, DataCore’s storage virtualization software added the flexibility of Cloud Storage to its list of features with the announcement that every copy of SANsymphony-V now bundles a TwinStrata Cloudarray virtual appliance. The combination enables companies to achieve true ‘open market’ buying power across their portfolio of storage investments; TwinStrata extends the cost-saving value propostion to a broad and impressive selection of public and private cloud storage providers.

The key implication is that DataCore has opened a path for seamlessly integrating cloud storage into existing storage environments. A cost-effective auto-tiering strategy eliminates the need to orchestrate cumbersome and/or disruptive migrations of existing data –you can take advantage of cloud storage immediately in a manner transparent to existing applications. Recently, I wrote an article entitled Breaking the Storage Array Life Cycle, describing how businesses are using cloud storage to break or extend the rather undesirable 3-5 year life cycle of storage arrays. This joint announcement takes the concept one step further, providing the easiest path to date for offloading data from your expensive on-premise arrays.

With the introduction of cloud as a part of a storage virtualization strategy, there is no longer a need to deploy dedicated off-site infrastructure to move data backups off-premise for disaster recovery. Petabytes of thin-provisioned cloud storage are just a button-click away, all with CloudArray’s robust enterprise-class feature set, including dynamic caching, data reduction, at-rest local key encryption and bandwidth optimization. Augmenting or even replacing an off-site tape strategy is simpler than ever.

As an added benefit, the compelling features of storage virtualization on local storage now apply across multiple cloud storage providers. Concerned about cloud reliability? Just select RAID or mirroring across a choice of cloud storage providers and increase reliability dramatically. You can also virtualize cloud storage along with existing local storage. Want to replicate data in an existing storage array to the cloud? It’s now a simple process — no data to migrate, no APIs, no vendor lock-in and the broadest choice of cloud providers.

Bottom line? Terri McClure from Enterprise Strategy Group may have summed it up best, saying the combined solution “gives companies greater control over storage performance and helps control costs by making it easy to tier their storage across the absolute widest range of resources, from high-performance SSD arrays and legacy disk arrays, to scalable, cost-effective cloud storage.”

Learn more about the unique TwinStrata and DataCore solution today.

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Cloud Storage SLAs versus Architectural Visibility

Wednesday, September 28th, 2011

If you are using or thinking about using cloud storage, you are likely familiar with service level agreements (SLAs) from cloud providers that offer guarantees around the availability of your data and sometimes the durability of your data. The numbers associated with the guarantees are often expressed in 9’s. The table below illustrates how these availability numbers translate into expected yearly downtime. Note the considerable difference in downtime between 2, 3 and 4 9’s.

Availability Annual Downtime
99% 3.65 days
99.9% 8.76 hours
99.99% 52.6 min
99.999% 5.26 min
99.9999% 31.5 sec

Beyond just the numbers, an important aspect of the cloud SLA is understanding how your business is compensated if the terms are not met. Typically, a provider who does not meet the SLA will reimburse a user for the unplanned downtime. This is often in the form of a refund of the service fee for the period of the outage. Some providers may offer to reimburse a multiple of that service fee (i.e. 2X, 3X, etc). That may appear confidence-inspiring, but how does it all add up for your business?

Let’s take a simple example: If your business applications use a Terabyte of cloud storage that costs $150/month, one full day outage is worth approximately $5 in provider fees. If the provider offered a 100% SLA that reimburses 3X downtime, that’s a $15 reimbursement.

Now what is the cost of a day-long outage to your business? Well, there’s possible revenue loss. Perhaps your business makes $2000/day in revenues that you can no longer realize.  If two employees were unproductive the day of the outage, perhaps you lost $1000 or more in productivity. As you can see by now, $15 in compensation does not begin to address the $3000 loss your business has sustained. In practice, cloud SLAs may not address your cost of doing business, unless you happen to customize them specifically to do so – a highly unlikely negotiation for a public cloud service without dramatically impacting the pricing of the service.

Does this make cloud SLAs relatively worthless? Not really – SLAs can be a planning tool if they can be backed by empirical data. On the other hand, SLAs can be misleading if they are merely a thinly-veiled insurance policy that only covers provider costs. In her article SLAs Throttle Cloud Adoption, Pam Baker examines some of the pitfalls of cloud SLAs in more detail.

A more useful tool in planning may be architectural visibility into the cloud storage provider. Although SAS70 Type II and SSAE16 are good starting points for understanding the reliability of the physical data centers that house cloud storage, moving a level further down in visibility to data management policies can assist planning dramatically. For instance, how many copies of data are maintained and across how many data centers? What data protection practices are in place? Is there off-premise data protection? Are there snapshots of data you can roll back to in case of human error? All of these parameters are highly relevant when architecting a local storage solution. They are just as relevant when architecting a storage solution that extends to the cloud.

The fact is, many IT managers and administrators are very adept at building systems that conform to a set of best practices around data protection and disaster recovery. Architectural visibility allows administrators to build solutions that extend to the cloud but follow the same best practices used in high-availability on-premise deployments.  For instance, if a cloud storage provider only offers a tier of disk storage with no additional data protection, that may call for a local copy of data on-premise. Perhaps if the storage is replicated across cloud sites, there is still a need for snapshots for continuous data protection (CDP) to avoid corruption of data due of human error, viruses, etc. Even with both replication and CDP policies at the cloud provider, there may still be a need for some last resort backup in case all else fails. Simply put, transparency and visibility provides knowledge that can build better and more robust storage configurations using the cloud. Moreover, it encourages ownership and accountability on the IT administrator’s part, which SLAs do not replace.

So while SLAs are helpful in conveying a cloud provider’s commitment to their offering, they are not a substitute for architectural visibility. As witnessed by some of the cloud outages earlier this year, using cloud is not a substitute for best practices. In the same vein, SLAs are no substitute for the visibility and the insight required to uphold best practices around system design, whether on-premise, in the cloud or hybrid.

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How to simplify off-site backup for virtual environments

Wednesday, September 14th, 2011

If you happen to be managing a virtual server environment, such as VMware or Hyper-V, you are probably aware of the importance of backup software to protect your valuable applications and data in case of disaster. You may also be keenly conscious of the unique needs that virtual server environments pose, such as virtual machine sprawl, contention for server resources and spiraling data growth (often duplicate data), in which case there is probably no need to spend a lot of time touting the benefits of Veeam Backup & Replication.

Over the past few years, Veeam has become the leader in backup for virtual environments offering class-leading consolidated and highly efficient backup and replication that was designed and optimized to handle the special requirements associated with ever-popular virtual machine backups.

Starting with Veeam as a foundation, is it possible to make backup and recovery even simpler? Well, one of the challenges of backup is moving backup data off site for disaster recovery (DR) purposes. You might settle for the manual and rather unreliable process of shipping tapes or media offsite with the hope of getting your data back in a reasonable period of time should a disaster strike. Alternatively, you might build out a disk-to-disk backup infrastructure that extends off site to a secondary or collocation facility, housing additional storage equipment that you own and manage (learn more in my recent article Data Protection and Backup: The Shortcomings of Disk-to-Disk). But perhaps you are looking for a faster, simpler way to achieve your off-site DR objectives, without manual and unreliable processes and without significant capital and administrative investment.

Backup to Cloud

What if you could simply add off-site storage for backups without the need for tapes and without the need for a secondary site? What if at the touch of a button you could access secure off-site cloud storage that is bandwidth optimized with local-key encryption and offers instant recoverability virtually anywhere and a choice of cloud providers. That is TwinStrata CloudArray.

Needless to say, we were recently happy to announce that every copy of Veeam Backup & Replication now comes bundled with a free CloudArray virtual appliance up to 1TB. Backing up virtual server environments just became simpler and the need for tapes and offsite facilities may quickly become a distant memory. Each CloudArray appliance can scale to Petabytes of data with an iSCSI interface that allows seamlessly storing backups or archives. CloudArray also offers additional storage capacity wherever it is needed. If you are a backup administrator considering off-site backup and DR options, consider a better, simpler option that only takes minutes to deploy. Try Veeam with your free CloudArray virtual appliance and let us know how simple off-site backup for your virtual environment can be.

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Cloud Storage for Multi-site Consolidation, Part II: DR Anywhere

Monday, July 11th, 2011

Part I of this series examined how multi-site consolidation of data storage using the cloud can benefit your business, emphasizing consolidated disaster recovery (DR) as one of the key benefits. In this installment, we dig a bit deeper into the benefits of DR with cloud storage.

If your business already spans multiple sites, you may think about using one of your existing sites for DR. However, you may want to think again if you have to double your fixed storage capacity. Enter cloud storage and instead your secondary data copies can reside in the cloud on a pay-as-you-go basis. Using a cloud storage hybrid appliance, like CloudArray, you can instantly access data from any site if a primary site experiences a disaster. With Cloudarray’s automatic and secure configuration backup, a quick download is all it takes to restore access to data from any site — and you are up and running in minutes.

However, even with a secondary copy of data in the cloud, using one of your existing sites for DR may not be a viable option for a number of reasons, including:

  • Insufficient bandwidth/scale to aggregate replicated updates or provide access during a disaster
  • Insufficient dedicated servers to bring up all critical applications during a disaster
  • Lack of administrative staff to build and support a secondary site

With these constraints, using the cloud as the DR site can be a very compelling alternative. Recovering applications in the cloud means no dedicated DR infrastructure: no servers, no storage, and no staff to maintain that infrastructure. Since CloudArray runs in the cloud, accessing your data in the cloud is just a simple as accessing from a new location.

Is there a catch to using the cloud for DR? One consideration is the process of restarting your applications in the cloud. In a virtual environment, if your cloud provider runs the same hypervisor you run on-premise, the process of recovering applications involves moving virtual machines. On the other hand, if the cloud provider runs a different type of hypervisor or you are operating in a physical server environment, conversion utilities or third party software may be necessary to restart applications in the cloud. Either way, DR in the cloud is an option worth considering.

So what’s next beyond consolidated DR? How about multiple access points to your data across sites or the cloud for other use cases? Stay tuned for Part III…

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Cloud storage for multi-site consolidation – Part I

Thursday, June 30th, 2011

Multi-site configuration

Imagine running a business where data storage is distributed across 20 geographically separated sites. How do you efficiently manage those sites? What happens when one site runs out of storage capacity? What if one site were hit with a disaster or flood? Surely there ought to be a centralized disaster site to protect against site outage or data loss, right? And who manages each site? Would there be an administrator at each site or traveling from site to site?

If these questions give you the impression that multi-site storage management across sites can be a headache, you are right. What can you do to ease this management burden?

For starters, you can use cloud storage in place of a traditional siloed storage infrastructure. Here are some of the key benefits cloud storage can deliver to simplify your multi-site infrastructure:

1) Accessibility to an unlimited pool of storage from each site that grows on demand– meaning never having to worry about running out of capacity
2) A centralized disaster site with unlimited bandwidth and multi-datacenter redundancy, network optimization and data security — a very complex undertaking to build out yourself
3) A centralized portal that can monitor and proactively alert you on the health status of each site — without an onsite presence

How can cloud storage do this? Via software or hardware hybrid storage appliances like CloudArray, that provides optimized data access from each site combined with a central point of management. What’s more, CloudArray lets you recover your data virtually anywhere– on-premise, off-premise or even in the cloud using pay-as-you-go compute resources, all in minutes.

There is indeed a better way to manage growing data storage needs across multiple locations. Are there even more benefits? Stay tuned to learn more in Part II of this series.

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Cloud storage: Why the whole is greater than the sum of parts, Part I

Monday, May 16th, 2011

When you spend twenty years in the data storage industry, you’re no stranger to disaster recovery plans and their importance. A disaster recovery plan is an essential best practice when building a data storage environment because, let’s face it, disks may fail, storage arrays may fail, entire data centers may fail and, yes, even a cloud provider may fail; but these occurrences are neither controversial or shocking.

It so happens that cloud storage is an excellent way to enhance and augment your disaster recovery plan. A storage architecture that follows best practices does not rely on a single data center. With cloud enabling technology, like CloudArray, cloud storage is a simple and secure off-site extension of your data center. When combined with an existing data center, the cloud enables a multi-site data protection and DR strategy that rivals those of large enterprise companies. A virtual disaster recovery site is a very compelling use case for cloud storage where the resulting “whole” really is greater than the sum of its parts; the availability of the combined data center facility is greater than the availability of either your existing data center or the cloud.

Now given the extent of public outcry around the recent AWS outage, one can mistakenly conclude that the unthinkable has happened or, alternatively, one can see a case for maintaining best practices that “design for failure.” Using cloud is not an excuse to abandon best practices or to push the burden of the availability of your business to a cloud provider. Unless your SLA specifies the cloud provider is taking full financial responsibility for business loss from outages, you are responsible for an “off-cloud” disaster recovery strategy, whether that strategy involves using more than one cloud provider or using your local premise as the other site.

Cloud storage is a way to enable tremendous advantages for your business. A good starting point is using the cloud to enhance/augment rather than replace existing infrastructure. If you do, I’m certain you will be pleased with the results.

Still not a believer? Look for part II of this series, where our CTO, John Bates, gives you a technical lowdown of why the whole is greater than the sum of parts…

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