Category: Storage Architecture and Access

SAN, NAS, CAS, VTL, Clustered, Block, File, Modular, Grid and other forms of storage architecture options and access methods.

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VCE revisited, now & zen

StorageIO Industry trends and perspectives image

Yesterday VCE and their proud parents announced revenues had reached an annual run rate of a billion dollars. Today VCE announced some new products along with enhancements to others.

Before going forward though, lets take go back for a moment to help set the stage to see where things might be going in the future. A little over a three years ago, back in November 2009 VCE was born and initially named ACADIA by its proud parents (Cisco, EMC, Intel and VMware). Here is a post that I did back then.

Btw the reference to Zen might cause some to think that I don’t how to properly refer to the Xen hypervisor. It is really a play from Robert Plants album Now & Zen and its song Tall Cool One. For those not familiar, click on the link and listen (some will have DejaVu, others might think its new and cool) as it takes a look back as well as present, similar to VCE.

Robert plant now & zen vs. Xen hypervisor

On the other hand, this might prompt the question of when will Xen be available on a Vblock? For that I defer you to VCE CTO Trey Layton (@treylayton).

VCE stands for Virtual Computing Environment and was launched as a joint initiative including products and a company (since renamed from Acadia to VCE) to bring all the pieces together. As a company, VCE is based in Plano (Richardson) Texas just north of downtown Dallas and down the road from EDS or what is now left of it after the HP acquisition  The primary product of VCE has been the Vblock. The Vblock is a converged solution comprising components from their parents such as VMware virtualization and management software tools, Cisco servers, EMC storage and software tools and Intel processors.

Not surprisingly there are many ex-EDS personal at VCE along with some Cisco, EMC, VMware and many other people from other organizations in Plano as well as other cites. Also interesting to note that unlike other youngsters that grow up and stay in touch with their parents via technology or social media tools, VCE is also more than a few miles (try hundreds to thousands) from the proud parent headquarters on the San Jose California and Boston areas.

As part of a momentum update, VCE and their parents (Cisco, EMC, VMware and Intel) announced annual revenue run rate of a billion dollars in just three years. In addition the proud parents and VCE announced that they have over 1,000 revenue shipped and installed Vblock systems (also here) based on Cisco compute servers, and EMC storage solutions.

The VCE announcement consists of:

  • SAP HANA database application optimized Vblocks (two modes, 4 node and 8 node)
  • VCE Vision management tools and middleware or what I have refered to as Valueware
  • Entry level Vblock (100 and 200) with Cisco C servers and EMC (VNXe and VNX) storage
  • Performance and functionality enhancements to existing Vblock models 300 and 700
  • Statement of direction for more specialized Vblocks besides SAP HANA


Images courtesy with permission of VCE.com

While VCE is known for their Vblock converged, stack, integrated, data center in a box, private cloud or among other descriptors, there is more to the story. VCE is addressing convergence of common IT building blocks for cloud, virtual, and traditional physical environments. Common core building blocks include servers (compute or processors), networking (IO and connectivity), storage, hardware, software, management tools along with people, processes, metrics, policies and protocols.

Storage I/O image of cloud and virtual IT building blocks

I like the visual image that VCE is using (see below) as it aligns with and has themes common to what I have discussing in the past.


Images courtesy with permission of VCE.com

VCE Vision is software with APIs that collects information about Vblock hardware and software components to give insight to other tools and management frameworks. For example VMware vCenter plug-in and vCenter Operations Manager Adapter which should not be a surprise. Customers will also be able to write to the Vision API to meet their custom needs. Let us watch and see what VCE does to add support for other software and management tools, along with gain support from others.


Images courtesy with permission of VCE.com

Vision is more than just an information source feed for VMware vCenter or VASA or tools and frameworks from others. Vision is software developed by VCE that will enable insight and awareness into the Vblock and applications, however also confirm and give status of physical and logical component configuration. This means the basis for setting up automated or programmatic remediation such as determining what software or firmware to update based on different guidelines.


Images courtesy with permission of VCE.com

Initially VCE Vision provides (information) inventory and perspective of how those components are in compliance with firmware or software releases, so stay tuned. VCE is indicating that Vision will continue to evolve after all this is the V1.0 release with future enhancements targeted towards taking action, controlling or active management.

StorageIO Industry trends and perspectives image

Some trends, thoughts and perspectives

The industry adoption buzz is around software defined X where X can be data center (SDDC), or storage (SDS) or networking (SDN), or marketing (SDM) or other things. The hype and noise around software defined which in the case of some technologies is good. On the marketing hype side, this has led to some Software Defined BS (SDBS).

Thus, it was refreshing at least in the briefing session I was involved in to hear a minimum focus around software defined and more around customer and IT business enablement with technology that is shipping today.

VCE Vision is a good example of adding value hence what I refer to as Valueware around converged components. For those vendors who have similar solutions, I urge them to streamline, simplify and more clearly articulate their value proposition if they have valueware.

Vendors including VCE continue to evolve their platform based converged solutions by adding more valueware, management tools, interfaces, APIs, interoperability and support for more applications. The support for applications is also moving beyond simple line item ordering or part number skews to ease acquisition and purchasing. Some solutions include VCE Vblock, NetApp FlexPod that also uses Cisco compute servers, IBM PureSystems (PureFlex etc) and Dell vStart among others are extending their support and optimization for various software solutions. These software solutions range from SAP (including HANA), Microsoft (Exchange, SQLserver, Sharepoint), Citrix desktop (VDI), Oracle, OpenStack, Hadoop map reduce along with other little-data, big-data and big-bandwidth applications to name a few.

Additional and related reading:
Acadia VCE: VMware + Cisco + EMC = Virtual Computing Environment
Cloud conversations: Public, Private, Hybrid what about Community Clouds?
Cloud, virtualization, Storage I/O trends for 2013 and beyond
Convergence: People, Processes, Policies and Products
Hard product vs. soft product
Hardware, Software, what about Valueware?
Industry adoption vs. industry deployment, is there a difference?
Many faces of storage hypervisor, virtual storage or storage virtualization
The Human Face of Big Data, a Book Review
Why VASA is important to have in your VMware CASA

Congratulations to VCE, along with their proud parents, family, friends and partners, now how long will it take to reach your next billion dollars in annual run rate revenue. Hopefully it wont be three years until the next VCE revisited now and Zen ;).

Disclosure: EMC and Cisco have been StorageIO clients, I am a VMware vExpert that gets me a free beer after I pay for VMworld and Intel has named two of my books listed on their Recommended Reading List for Developers.

Ok, nuff said, time to head off to vBeers over in Minneapolis.

Cheers gs

Greg Schulz – Author Cloud and Virtual Data Storage Networking (CRC Press, 2011), The Green and Virtual Data Center (CRC Press, 2009), and Resilient Storage Networks (Elsevier, 2004)

twitter @storageio

All Comments, (C) and (TM) belong to their owners/posters, Other content (C) Copyright 2006-2024 Server StorageIO and UnlimitedIO LLC All Rights Reserved

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NetApp EF540, something familiar, something new

StorageIO Industry trends and perspectives image

NetApp announced the other day a new all nand flash solid-state devices (SSD) storage system called the EF540 that is available now. The EF540 has something’s new and cool, along with some things familiar, tried, true and proven.

What is new is that the EF540 is an all nand flash multi-level cell (MLC) SSD storage system. What is old is that the EF540 is based on the NetApp E-Series (read more here and here) and SANtricity software with hundreds of thousands installed systems. As a refresher, the E-Series are the storage system technologies and solutions obtained via the Engenio acquisition from LSI in 2011.

Image of NetApp EF540 via ntapgeek.com
Image via www.ntapgeek.com

The EF540 expands the NetApp SSD flash portfolio which includes products such as FlashCache (read cache aka PAM) for controllers in ONTAP based storage systems. Other NetApp items in the NetApp flash portfolio include FlashPool SSD drives for persistent read and write storage in ONTAP based systems. Complimenting FlashCache and FlashPool is the server-side PCIe caching card and software FlashAccel. NetApp is claiming to have revenue shipped 36PB of flash complimenting over 3 Exabytes (EB) of storage while continuing to ship a large amount of SAS and SATA HDD’s.

NetApp also previewed its future FlashRay storage system that should appear in beta later in 2013 and general availability in 2014.

In addition to SSD and flash related announcements, NetApp also announced enhancements to its ONTAP FAS/V6200 series including the FAS/V6220, FAS/V6250 and FAS/V6290.

Some characteristics of the NetApp EF540 and SANtricity include:

  • Two models with 12 or 24 x 6Gbs SAS 800GB MLC SSD devices
  • Up to 9.6TB or 19.2TB physical storage in a 2U (3.5 inch) tall enclosure
  • Dual controllers for redundancy, load-balancing and availability
  • IOP performance of over 300,000 4Kbyte random 100% reads under 1ms
  • 6GByte/sec performance of 512Kbyte sequential reads, 5.5Gbyte/sec random reads
  • Multiple RAID levels (0, 1, 10, 3, 5, 6) and flexible group sizes
  • 12GB of DRAM cache memory in each controller (mirrored)
  • 4 x 8GFC host server-side ports per controller
  • Optional expansion host ports (6Gb SAS, 8GFC, 10Gb iSCSI, 40Gb IBA/SRP)
  • Snapshots and replication (synchronous and asynchronous) including to HDD systems
  • Can be used for traditional IOP intensive little-data, or bandwidth for big-data
  • Proactive SSD wear monitoring and notification alerts
  • Utilizes SANtricity version 10.84

Poll, Are large storage arrays day’s numbered?

EMC and NetApp (along with other vendors) continue to sell large numbers of HDD’s as well as large amounts of SSD. Both EMC and NetApp are taking similar approaches of leveraging PCIe flash cards as cache adding software functionality to compliment underlying storage systems. The benefit is that the cache approach is less disruptive for many environments while allowing improved return on investment (ROI) of existing assets.

EMC

NetApp

Storage systems with HDD and SSD

VMAX, VNX

FAS/V, E-Series

Storage systems with SSD cache

FastCache,

FlashCache

All SSD based storage

VMAX, VNX

EF540

All new SSD system in development

Project X

FlashRay

Server side PCIe SSD cache

VFCache

FlashAcell

Partner ecosystems

Yes

Yes

The best IO is the one that you do not have to do, however the next best are those that have the least cost or affect which is where SSD comes into play. SSD is like real estate in that location matters in terms of providing benefit, as well as how much space or capacity is needed.

What does this all mean?
The NetApp EF540 based on the E-Series storage system architecture is like one of its primary competitors (e.g. EMC VNX also available as an all-flash model). The similarity is that both have been competitors, as well as have been around for over a decade with hundreds of thousands of installed systems. The similarities are also that both continue to evolve their code base leveraging new hardware and software functionality. These improvements have resulted in improved performance, availability, capacity, energy effectiveness and cost reduction.

Whats your take on RAID still being relevant?

From a performance perspective, there are plenty of public workloads and benchmarks including Microsoft ESRP and SPC among others to confirm its performance. Watch for NetApp to release EF540 SPC results given their history of doing so with other E-Series based systems. With those or other results, compare and contrast to other solutions looking not just at IOPS or MB/sec (bandwidth), also latency, functionality and cost.

What does the EF540 compete with?
The EF540 competes with all flash-based SSD solutions (Violin, Solidfire, Purestorage, Whiptail, Kaminario, IBM/TMS, up-coming EMC Project “X” (aka XtremeIO)) among others. Some of those systems use general-purpose servers combined SSD drives, PCIe cards along with management software where others leverage customized platforms with software. To a lesser extent, competition will also be mixed mode SSD and HDD solutions along with some PCIe target SSD cards for some situations.

What to watch and look for:
It will be interesting to view and contrast public price performance results using SPC or Microsoft ESRP among others to see how the EF540 compares. In addition, it will be interesting to compare other storage based, as well as SSD systems beyond the number of IOPS. What will be interesting is to keep an eye on latency, as well as bandwidth, feature functionality and associated costs.

Given that the NetApp E-Series are OEM or sold by third parties, let’s see if something looking similar or identical to the EF540 appear at any of those or new partners. This includes traditional general purpose and little-data environments, along with cloud, managed service provider, high performance compute and high productivity compute (HPC), super computer (SC), big data and big bandwidth among others.

Poll, Have SSD been successful in traditional storage systems and arrays

The EF540 could also appear as a storage or IO accelerator for large-scale out, clustered, grid and object storage systems for meta data, indices, key value stores among other uses either direct attached to servers, or via shared iSCSI, SAS, FC and InfiniBand (IBA) SCSI Remote Protocol (SRP).

Keep an eye on how the startups that have been primarily Just a Bunch Of SSD (JBOS) in a box start talking about adding new features and functionality such as snapshots, replication or price reductions. Also, keep an eye and ear open to what EMC does with project “X” along with NetApp FlashRay among other improvements.

For NetApp customers, prospects, partners, E-Series OEMs and their customers with the need for IO consolidation, or performance optimization for big-data, little-data and related applications the EF540 opens up new opportunities and should be good news. For EMC competitors, they now have new competition which also signals an expanding market with new opportunities in adjacent areas for growth. This also further signals the need for diverse ssd portfolios and product options to meet different customer application needs, along with increased functionality vs. lowest cost for high capacity fast nand SSD storage.

Some related reading:

Disclosure: NetApp, Engenio (when LSI), EMC and TMS (now IBM) have been clients of StorageIO.

Ok, nuff said

Cheers gs

Greg Schulz – Author Cloud and Virtual Data Storage Networking (CRC Press, 2011), The Green and Virtual Data Center (CRC Press, 2009), and Resilient Storage Networks (Elsevier, 2004)

twitter @storageio

All Comments, (C) and (TM) belong to their owners/posters, Other content (C) Copyright 2006-2024 Server StorageIO and UnlimitedIO LLC All Rights Reserved

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Tape is still alive, or at least in conversations and discussions

StorageIO Industry trends and perspectives image

Depending on whom you talk to or ask, you will get different views and opinions, some of them stronger than others on if magnetic tape is dead or alive as a data storage medium. However an aspect of tape that is alive are the discussions by those for, against or that simply see it as one of many data storage mediums and technologies whose role is changing.

Here is a link to an a ongoing discussion over in one of the Linked In group forums (Backup & Recovery Professionals) titled About Tape and disk drives. Rest assured, there is plenty of fud and hype on both sides of the tape is dead (or alive) arguments, not very different from the disk is dead vs. SSD or cloud arguments. After all, not everything is the same in data centers, clouds and information factories.

Fwiw, I removed tape from my environment about 8 years ago, or I should say directly as some of my cloud providers may in fact be using tape in various ways that I do not see, nor do I care one way or the other as long as my data is safe, secure, protected and SLA’s are meet. Likewise, I consult and advice for organizations where tape still exists yet its role is changing, same with those using disk and cloud.

Storage I/O data center image

I am not ready to adopt the singular view that tape is dead yet as I know too many environments that are still using it, however agree that its role is changing, thus I am not part of the tape cheerleading camp.

On the other hand, I am a fan of using disk based data protection along with cloud in new and creative (including for my use) as part of modernizing data protection. Although I see disk as having a very bright and important future beyond what it is being used for now, at least today, I am not ready to join the chants of tape is dead either.

StorageIO Industry trends and perspectives image

Does that mean I can’t decide or don’t want to pick a side? NO

It means that I do not have to nor should anyone have to choose a side, instead look at your options, what are you trying to do, how can you leverage different things, techniques and tools to maximize your return on innovation. If that means that tape is, being phased out of your organization good for you. If that means there is a new or different role for tape in your organization co-existing with disk, then good for you.

If somebody tells you that tape sucks and that you are dumb and stupid for using it without giving any informed basis for those comments then call them dumb and stupid requesting they come back when then can learn more about your environment, needs, and requirements ready to have an informed discussion on how to move forward.

Likewise, if you can make an informed value proposition on why and how to migrate to new ways of modernizing data protection without having to stoop to the tape is dead argument, or cite some research or whatever, good for you and start telling others about it.

StorageIO Industry trends and perspectives image

Otoh, if you need to use fud and hype on why tape is dead, why it sucks or is bad, at least come up with some new and relevant facts, third-party research, arguments or value propositions.

You can read more about tape and its changing role at tapeisalive.com or Tapesummit.com.

Ok, nuff said.

Cheers gs

Greg Schulz – Author Cloud and Virtual Data Storage Networking (CRC Press, 2011), The Green and Virtual Data Center (CRC Press, 2009), and Resilient Storage Networks (Elsevier, 2004)

twitter @storageio

All Comments, (C) and (TM) belong to their owners/posters, Other content (C) Copyright 2006-2024 Server StorageIO and UnlimitedIO LLC All Rights Reserved

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In the data center or information factory, not everything is the same

StorageIO Industry trends and perspectives image

Sometimes what should be understood, or that is common sense or that you think everybody should know needs to be stated. After all, there could be somebody who does not know what some assume as common sense or what others know for various reasons. At times, there is simply the need to restate or have a reminder of what should be known.

Storage I/O data center image

Consequently, in the data center or information factory, either traditional, virtual, converged, private, hybrid or public cloud, everything is not the same. When I say not everything is the same, is that different applications with various service level objectives (SLO’s) and service level agreements (SLA’s). These are based on different characteristics from performance, availability, reliability, responsiveness, cost, security, privacy among others. Likewise, there are different size and types of organizations with various requirements from enterprise to SMB, ROBO and SOHO, business or government, education or research.

Various levels of HA, BC and DR

There are also different threat risks for various applications or information services within in an organization, or across different industry sectors. Thus various needs for meeting availability SLA’s, recovery time objectives (RTO’s) and recovery point objectives (RPO’s) for data protection ranging from backup/restore, to high-availability (HA), business continuance (BC), disaster recovery (DR) and archiving. Let us not forget about logical and physical security of information, assets and people, processes and intellectual property.

Storage IO RTO and RPO image

Some data centers or information factories are compute intensive while others are data centric, some are IO or activity intensive with a mix of compute and storage. On the other hand, some data centers such as a communications hub may be network centric with very little data sticking or being stored.

SLA and SLO image

Even within in a data center or information factory, various applications will have different profiles, protection requirements for big data and little data. There can also be a mix of old legacy applications and new systems developed in-house, purchased, open-source based or accessed as a service. The servers and storage may be software defined (a new buzzword that has already jumped the shark), virtualized or operated in a private, hybrid or community cloud if not using a public service.

Here are some related posts tied to everything is not the same:
Optimize Data Storage for Performance and Capacity
Is SSD only for performance?
Cloud conversations: Gaining cloud confidence from insights into AWS outages
Data Center Infrastructure Management (DCIM) and IRM
Saving Money with Green IT: Time To Invest In Information Factories
Everything Is Not Equal in the Datacenter, Part 1
Everything Is Not Equal in the Datacenter, Part 2
Everything Is Not Equal in the Datacenter, Part 3

Storage I/O data center image

Thus, not all things are the same in the data center, or information factories, both those under traditional management paradigms, as well as those supporting public, private, hybrid or community clouds.

Ok, nuff said.

Cheers gs

Greg Schulz – Author Cloud and Virtual Data Storage Networking (CRC Press, 2011), The Green and Virtual Data Center (CRC Press, 2009), and Resilient Storage Networks (Elsevier, 2004)

twitter @storageio

All Comments, (C) and (TM) belong to their owners/posters, Other content (C) Copyright 2006-2024 Server StorageIO and UnlimitedIO LLC All Rights Reserved

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January 2013 Server and StorageIO Update Newsletter

StorageIO News Letter Image
January 2013 News letter

Welcome to the January 2013 edition of the StorageIO Update news letter including a new format and added content.

You can get access to this news letter via various social media venues (some are shown below) in addition to StorageIO web sites and subscriptions.

Click on the following links to view the January 2013 edition as (HTML sent via Email) version, or PDF versions.

Visit the news letter page to view previous editions of the StorageIO Update.

You can subscribe to the news letter by clicking here.

Enjoy this edition of the StorageIO Update news letter, let me know your comments and feedback.

Nuff said for now

Cheers
Gs

Greg Schulz – Author Cloud and Virtual Data Storage Networking (CRC Press), The Green and Virtual Data Center (CRC Press) and Resilient Storage Networks (Elsevier)
twitter @storageio

All Comments, (C) and (TM) belong to their owners/posters, Other content (C) Copyright 2006-2024 Server StorageIO and UnlimitedIO LLC All Rights Reserved

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Putting some VMware ESX storage tips together: (Part II)

In the first part of this post I showed how to use a tip from Dunacn Epping to fake VMware into thinking that a HHDD (Hybrid Hard Disk Drive) was a SSD.

Now lets look at using a tip from Dave Warburton to make an internal SATA HDD into an RDM for one of my Windows-based VMs.

My challenge was that I have a VM with a guest that I wanted to have a Raw Device Mapping (RDM) internal SATA HDD accessible to it, expect the device was an internal SATA device. Given that using the standard tools and reading some of the material available, it would have been easy to give up and quit since the SATA device was not attached to an FC or iSCSI SAN (such as my Iomega IX4 I bought from Amazon.com).

Image of internal RDM with vMware
Image of internal SATA drive being added as a RDM with vClient

Thanks to Dave’s great post that I found, I was able to create a RDM of an internal SATA drive, present it to the existing VM running Windows 7 ultimate and it is now happy, as am I.

Pay close attention to make sure that you get the correct device name for the steps in Dave’s post (link is here).

For the device that I wanted to use, the device name was:

From the ESX command line I found the device I wanted to use which is:

t10.ATA_____ST1500LM0032D9YH148_____Z110S6M5

Then I used the following ESX shell command per Dave’s tip to create an RDM of an internal SATA HDD:

vmkfstools -z /vmfs/devices/disks/ t10.ATA_____ST1500LM0032D9YH148_____Z110S6M5
 /vmfs/volumes/dat1/rdm_ST1500L.vmdk

Then the next steps were to update an existing VM using vSphere client to use the newly created RDM.

Hint, Pay very close attention to your device naming, along with what you name the RDM and where you find it. Also, recommend trying or practicing on a spare or scratch device first, if something is messed up. I practiced on a HDD used for moving files around and after doing the steps in Dave’s post, added the RDM to an existing VM, started the VM and accessed the HDD to verify all was fine (it was). After shutting down the VM, I removed the RDM from it as well as from ESX, and then created the real RDM.

As per Dave’s tip, vSphere Client did not recognize the RDM per say, however telling it to look at existing virtual disks, select browse the data stores, and low and behold, the RDM I was looking for was there. The following shows an example of using vSphere to add the new RDM to one of my existing VMs.

In case you are wondering, why I want to make a non SAN HDD as a RDM vs. doing something else? Simple, the HDD in question is a 1.5TB HDD that has backups on that I want to use as is. The HDD is also bit locker protected and I want the flexibility to remove the device if I have to being accessible via a non-VM based Windows system.


Image of my VMware server with internal RDM and other items

Could I have had accomplished the same thing using a USB attached device accessible to the VM?

Yes, and in fact that is how I do periodic updates to removable media (HDD using Seagate Goflex drives) where I am not as concerned about performance.

While I back up off-site to Rackspace and AWS clouds, I also have a local disk based backup, along with creating periodic full Gold or master off-site copies. The off-site copies are made to removable Seagate Goflex SATA drives using a USB to SATA Goflex cable. I also have the Goflex eSATA to SATA cable that comes in handy to quickly attach a SATA device to anything with an eSATA port including my Lenovo X1.

As a precaution, I used a different HDD that contained data I was not concerned about if something went wrong to test to the process before doing it with the drive containing backup data. Also as a precaution, the data on the backup drive is also backed up to removable media and to my cloud provider.

Thanks again to both Dave and Duncan for their great tips; I hope that you find these and other material on their sites as useful as I do.

Meanwhile, time to get some other things done, as well as continue looking for and finding good work a rounds and tricks to use in my various projects, drop me a note if you see something interesting.

Ok, nuff said for now.

Cheers gs

Greg Schulz – Author Cloud and Virtual Data Storage Networking (CRC Press, 2011), The Green and Virtual Data Center (CRC Press, 2009), and Resilient Storage Networks (Elsevier, 2004)

twitter @storageio

All Comments, (C) and (TM) belong to their owners/posters, Other content (C) Copyright 2006-2024 Server StorageIO and UnlimitedIO LLC All Rights Reserved

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Putting some VMware ESX storage tips together (Part I)

Have you spent time searching the VMware documentation, on-line forums, venues and books to decide how to make a local dedicated direct attached storage (DAS) type device (e.g. SATA or SAS) be Raw Device Mappings (RDM)? Part two of this post looks at how to make an RDM using an internal SATA HDD.

Or how about how to make a Hybrid Hard disk drive (HHDD) that is faster than a regular Hard Disk Drive (HDD) on reads, however more capacity and less cost than a Solid State Device (SSD) actually appear to VMware as a SSD?

Recently I had these and some other questions and spent some time looking around, thus this post highlights some great information I have found for addressing the above VMware challenges and some others.

VMware vExpert image

The SSD solution is via a post I found on fellow VMware vExpert  Duncan Epping’s yellow-brick site which if you are into VMware or server virtualization in general, and particular a fan of high-availability in general or virtual specific, add Duncan’s site to your reading list. Duncan also has some great books to add to your bookshelves including VMware vSphere 5.1 Clustering Deepdive (Volume 1) and VMware vSphere 5 Clustering Technical Deepdive that you can find at Amazon.com.

VMware vSphere 5 Clustering Technical Deepdive book image

Duncan’s post shows how to fake into thinking that a HDD was a SSD for testing or other purposes. Since I have some Seagate Momentus XT HHDDs that combine the capacity of a traditional HDD (and cost) with the read performance closer to a SSD (without the cost or capacity penalty), I was interested in trying Duncan’s tip (here is a link to his tip). Essential Duncan’s tip shows how to use esxcli storage nmp satp and esxcli storage core commands to make a non-SSD look like a SSD.

The commands that were used from the VMware shell per Duncan’s tip:

esxcli storage nmp satp rule add –satp VMW_SATP_LOCAL –device mpx.vmhba0:C0:T1:L0 –option “enable_local enable_ssd”
esxcli storage core claiming reclaim -d mpx.vmhba0:C0:T1:L0
esxcli storage core device list –device=mpx.vmhba0:C0:T1:L0

After all, if the HHDD is actually doing some of the work to boost and thus fool the OS or hypervisor that it is faster than a HDD, why not tell the OS or hypervisor in this case VMware ESX that it is a SSD. So far have not seen nor do I expect to notice anything different in terms of performance as that already occurred going from a 7,200RPM (7.2K) HDD to the HHDD.

If you know how to decide what type of a HDD or SSD a device is by reading its sense code and model number information, you will recognize the circled device as a Seagate Momentus XT HHDD. This particular model is Seagate Momentus XT II 750GB with 8GB SLC nand flash SSD memory integrated inside the 2.5-inch drive device.

Normally the Seagate HHDDs appear to the host operating system or whatever it is attached to as a Momentus 7200 RPM SATA type disk drive. Since there are not special device drivers, controllers, adapters or anything else, essentially the Momentus XT type HHDD are plug and play. After a bit of time they start learning and caching things to boost read performance (read more about boosting read performance including Windows boot testing here).

Image of VMware vSphere vClient storage devices
Screen shot showing Seagate Momentus XT appearing as a SSD

Note that the HHDD (a Seagate Momentus XT II) is a 750GB 2.5” SATA drive that boost read performance with the current firmware. Seagate has hinted that there could be a future firmware version to enable write caching or optimization however, I have waited for a year.

Disclosure: Seagate gave me an evaluation copy of my first HHDD a couple of years ago and I then went on to buy several more from Amazon.com. I have not had a chance to try any Western Digital (WD) HHDDs yet, however I do have some of their HDDs. Perhaps I will hear something from them sometime in the future.

For those who are SSD fans or that actually have them, yes, I know SSD’s are faster all around and that is why I have some including in my Lenovo X1. Thus for write intensive go with a full SSD today if you can afford them as I have with my Lenovo X1 which enables me to save large files faster (less time waiting). However if you want the best of both worlds for lab or other system that is doing more reads vs. writes as well as need as much capacity as possible without breaking the budget, check out the HHDDs.

Thanks for the great tip and information Duncan, in part II of this post, read how to make an RDM using an internal SATA HDD.

 

Ok, nuff said (for now)…

Cheers gs

Greg Schulz – Author Cloud and Virtual Data Storage Networking (CRC Press, 2011), The Green and Virtual Data Center (CRC Press, 2009), and Resilient Storage Networks (Elsevier, 2004)

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Thanks for viewing StorageIO content and top 2012 viewed posts

StorageIO industry trends cloud, virtualization and big data

2012 was a busy year (it was our 7th year in business) along with plenty of activity on StorageIOblog.com as well as on the various syndicate and other sites that pickup our content feed (https://storageioblog.com/RSSfull.xml).

Excluding traditional media venues, columns, articles, web casts and web site visits (StorageIO.com and StorageIO.TV), StorageIO generated content including posts and pod casts have reached over 50,000 views per month (and growing) across StorageIOblog.com and our partner or syndicated sites. Including both public and private, there were about four dozen in-person events and activities not counting attending conferences or vendor briefing sessions, along with plenty of industry commentary. On the twitter front, plenty of activity there as well closing in on 7,000 followers.

Thank you to everyone who have visited the sites where you will find StorageIO generated content, along with industry trends and perspective comments, articles, tips, webinars, live in person events and other activities.

In terms of what was popular on the StorageIOblog.com site, here are the top 20 viewed posts in alphabetical order.

Amazon cloud storage options enhanced with Glacier
Announcing SAS SANs for Dummies book, LSI edition
Are large storage arrays dead at the hands of SSD?
AWS (Amazon) storage gateway, first, second and third impressions
EMC VFCache respinning SSD and intelligent caching
Hard product vs. soft product
How much SSD do you need vs. want?
Oracle, Xsigo, VMware, Nicira, SDN and IOV: IO IO its off to work they go
Is SSD dead? No, however some vendors might be
IT and storage economics 101, supply and demand
More storage and IO metrics that matter
NAD recommends Oracle discontinue certain Exadata performance claims
New Seagate Momentus XT Hybrid drive (SSD and HDD)
PureSystems, something old, something new, something from big blue
Researchers and marketers dont agree on future of nand flash SSD
Should Everything Be Virtualized?
SSD, flash and DRAM, DejaVu or something new?
What is the best kind of IO? The one you do not have to do
Why FC and FCoE vendors get beat up over bandwidth?
Why SSD based arrays and storage appliances can be a good idea

Moving beyond the top twenty read posts on StorageIOblog.com site, the list quickly expands to include more popular posts around clouds, virtualization and data protection modernization (backup/restore, HA, BC, DR, archiving), general IT/ICT industry trends and related themes.

I would like to thank the current StorageIOblog.com site sponsors Solarwinds (management tools including response time monitoring for physical and virtual servers) and Veeam (VMware and Hyper-V virtual server backup and data protection management tools) for their support.

Thanks again to everyone for reading and following these and other posts as well as for your continued support, watch for more content on the above and other related and new topics or themes throughout 2013.

Btw, if you are into Facebook, you can give StorageIO a like at facebook.com/storageio (thanks in advance) along with viewing our newsletter here.

Ok, nuff said.

Cheers gs

Greg Schulz – Author Cloud and Virtual Data Storage Networking (CRC Press, 2011), The Green and Virtual Data Center (CRC Press, 2009), and Resilient Storage Networks (Elsevier, 2004)

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Summary, EMC VMAX 10K, high-end storage systems stayin alive

StorageIO industry trends cloud, virtualization and big data

This is a follow-up companion post to the larger industry trends and perspectives series from earlier today (Part I, Part II and Part III) pertaining to today’s VMAX 10K enhancement and other announcements by EMC, and the industry myth of if large storage arrays or systems are dead.

The enhanced VMAX 10K scales from a couple of dozen up to 1,560 HDDs (or mix of HDD and SSDs). There can be a mix of 2.5 inch and 3.5 inch devices in different drive enclosures (DAE). There can be 25 SAS based 2.5 inch drives (HDD or SSD) in the 2U enclosure (see figure with cover panels removed), or 15 3.5 inch drives (HDD or SSD) in a 3U enclosure. As mentioned, there can be all 2.5 inch (including for vault drives) for up to 1,200 devices, all 3.5 inch drives for up to 960 devices, or a mix of 2.5 inch (2U DAE) and 3.5 inch (3U DAE) for a total of 1,560 drives.

Image of EMC 2U and 3U DAE for VMAX 10K via EMC
Image courtesy EMC

Note carefully in the figure (courtesy of EMC) that the 2U 2.5 inch DAE and 3U 3.5 inch DAE along with the VMAX 10K are actually mounted in a 3rd cabinet or rack that is part of today’s announcement.

Also note that the DAE’s are still EMC; however as part of today’s announcement, certain third-party cabinets or enclosures such as might be found in a collocation (colo) or other data center environment can be used instead of EMC cabinets.  The VMAX 10K can however like the VMAX 20K and 40K support external storage virtualized similar to what has been available from HDS (VSP/USP) and HP branded Hitachi equivalent storage, or using NetApp V-Series or IBM V7000 in a similar way.

As mentioned in one of the other posts, there are various software functionality bundles available. Note that SRDF is a separate license from the bundles to give customers options including RecoverPoint.

Check out the three post industry trends and perspectives posts here, here and here.

Ok, nuff said.

Cheers gs

Greg Schulz – Author Cloud and Virtual Data Storage Networking (CRC Press, 2011), The Green and Virtual Data Center (CRC Press, 2009), and Resilient Storage Networks (Elsevier, 2004)

twitter @storageio

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EMC VMAX 10K, looks like high-end storage systems are still alive (part III)

StorageIO industry trends cloud, virtualization and big data

This is the third in a multi-part series of posts (read first post here and second post here) looking at what else EMC announced today in addition to an enhanced VMAX 10K and dispelling the myth that large storage arrays are dead (or at least for now).

In addition to the VMAX 10K specific updates, EMC also announced the release of a new version of their Enginuity storage software (firmware, storage operating system). Enginuity is supported across all VMAX platforms and features the following:

  • Replication enhancements include TimeFinder clone refresh, restore and four site SRDF for the VMAX 10K, along with think or thin support. This capability enables functionality across VMAX 10K, 40K or 20K using synchronous or asynchronous and extends earlier 3 site to 4 site and mix modes. Note that larger VMAX systems had the extended replication feature support with VMAX 10K now on par with those. Note that the VMAX can be enhanced with VPLEX in front of storage systems (local or wide area, in region HA and out of region DR) and RecoverPoint behind the systems supporting bi-synchronous (two-way), synchronous and asynchronous data protection (CDP, replication, snapshots).
  • Unisphere for VMAX 1.5 manages DMX along with VMware VAAI UNMAP and space reclamation, block zero and hardware clone enhancements, IPV6, Microsoft Server 2012 support and VFCache 1.5.
  • Support for mix of 2.5 inch and 3.5 inch DAEs (disk array enclosures) along with new SAS drive support (high-performance and high-capacity, and various flash-based SSD or EFD).
  • The addition of a fourth dynamic tier within FAST for supporting third-party virtualized storage, along with compression of in-active, cold or stale data (manual or automatic) with 2 to 1 data footprint reduction (DFR) ratio. Note that EMC was one of early vendors to put compression into its storage systems on a block LUN basis in the CLARiiON (now VNX) along with NetApp and IBM (via their Storwize acquisition). The new fourth tier also means that third-party storage does not have to be the lowest tier in terms of performance or functionality.
  • Federated Tiered Storage (FTS) is now available on all EMC block storage systems including those with third-party storage attached in virtualization mode (e.g. VMAX). In addition to supporting tiering across its own products, and those of other vendors that have been virtualized when attached to a VMAX, ANSI T10 Data Integrity Field (DIF) is also supported. Read more about T10 DIF here, and here.
  • Front-end performance enhancements with host I/O limits (Quality of Service or QoS) for multi tenant and cloud environments to balance or prioritize IO across ports and users. This feature can balance based on thresholds for IOPS, bandwidth or both from the VMAX. Note that this feature is independent of any operating system based tool, utility, pathing driver or feature such as VMware DRS and Storage I/O control. Storage groups are created and mapped to specific host ports on the VMAX with the QoS performance thresholds applied to meet specific service level requirements or objectives.

For discussion (or entertainment) purpose, how about the question of if Enginuity qualifies or can be considered as a storage hypervisors (or storage virtualization or virtual storage)? After all, the VMAX is now capable of having third-party storage from other vendors attached to it, something that HDS has done for many years now. For those who feel a storage hypervisor, virtual storage or storage virtualization requires software running on Intel or other commodity based processors, guess what the VMAX uses for CPU processors (granted, you can’t simply download Enginuity software and run on a Dell, HP, IBM, Oracle or SuperMicro server).

I am guessing some of EMC competitors and their surrogates or others who like to play the storage hypervisor card game will be quick to tell you it is not based on various reasons or product comparisons, however you be the judge.

 

Back to the question of if, traditional high-end storage arrays are dead or dying (from part one in this series).

IMHO as mentioned not yet.

Granted like other technologies that have been declared dead or dying yet still in use (technology zombies), they continue to be enhanced, finding new customers, or existing customers using them in new ways, their roles are evolving, this still alive.

For some environments as has been the case over the past decade or so, there will be a continued migration from large legacy enterprise class storage systems to midrange or modular storage arrays with a mix of SSD and HDD. Thus, watch out for having a death grip not letting go of the past, while being careful about flying blind into the future. Do not be scared, be ready, do your homework with clouds, virtualization and traditional physical resources.

Likewise, there will be the continued migration for some from traditional mid-range class storage arrays to all flash-based appliances. Yet others will continue to leverage all the above in different roles aligned to where their specific features best serve the applications and needs of an organization.

In the case of high-end storage systems such as EMC VMAX (aka formerly known as DMX and Symmetrix before that) based on its Enginuity software, the hardware platforms will continue to evolve as will the software functionality. This means that these systems will evolve to handling more workloads, as well as moving into new environments from service providers to mid-range organizations where the systems were before out of their reach.

Smaller environments have grown larger as have their needs for storage systems while higher end solutions have scaled down to meet needs in different markets. What this means is a convergence of where smaller environments have bigger data storage needs and can afford the capabilities of scaled down or Right-sized storage systems such as the VMAX 10K.

Thus while some of the high-end systems may fade away faster than others, for those that continue to evolve being able to move into different adjacent markets or usage scenarios, they will be around for some time, at least in some environments.

Avoid confusing what is new and cool falling under industry adoption vs. what is productive and practical for customer deployment. Systems like the VMAX 10K are not for all environments or applications; however, for those who are open to exploring alternative solutions and approaches, it could open new opportunities.

If there is a high-end storage system platform (e.g. Enginuity) that continues to evolve, re-invent itself in terms of moving into or finding new uses and markets the EMC VMAX would be at or near the top of such list. For the other vendors of high-end storage system that are also evolving, you can have an Atta boy or Atta girl as well to make you feel better, loved and not left out or off of such list. ;)

Ok, nuff said for now.

Disclosure: EMC is not a StorageIO client; however, they have been in the past directly and via acquisitions that they have done. I am however a customer of EMC via my Iomega IX4 NAS (I never did get the IX2 that I supposedly won at EMCworld ;) ) that I bought on Amazon.com and indirectly via VMware products that I have, oh, and they did sent me a copy of the new book Human Face of Big Data (read more here).

Ok, nuff said (for now).

Cheers gs

Greg Schulz – Author Cloud and Virtual Data Storage Networking (CRC Press, 2011), The Green and Virtual Data Center (CRC Press, 2009), and Resilient Storage Networks (Elsevier, 2004)

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EMC VMAX 10K, looks like high-end storage systems are still alive (part II)

StorageIO industry trends cloud, virtualization and big data

This is the second in a multi-part series of posts (read first post here) looking at if large enterprise and legacy storage systems are dead, along with what todays EMC VMAX 10K updates mean.

Thus on January 14 2013 it is time for a new EMC Virtual Matrix (VMAX) model 10,000 (10K) storage system. EMC has been promoting their January 14 live virtual event for a while now. January significance is that is when (along with May or June) is when many new systems, solutions or upgrades are made on a staggered basis.

Historically speaking, January and February, along with May and June is when you have seen many of the larger announcements from EMC being made. Case in point, back in February of 2012 VFCache was released, then May (2012) in Las Vegas at EMCworld there were 42 announcements made and others later in the year.

Click here to see images of the car stuffing or click here to watch a video.

Let’s not forget back in February of 2012 VFCache was released, and go back to January 2011 there was the record-setting event in New York City complete with 26 people being compressed, deduped, singled instanced, optimized, stacked and tiered into a mini cooper (Coop) automobile (read and view more here).

Now back to the VMAX 10K enhancements

As an example of a company, product family and specific storage system model, still being alive is the VMAX 10K. Although this announcement by EMC is VMAX 10K centric, there is also a new version of the Enginuity software (firmware, storage operating system, valueware) that runs across all VMAX based systems including VMAX 20K and VMAX 40K. Read here, here and here and here to learn more about VMAX and Enginuity systems in general.

Some main themes of this announcement include Tier 1 reliability, availability and serviceability (RAS) storage systems functionality at tier 2 pricing for traditional, virtual and cloud data centers.

Some other themes of this announcement by EMC:

  • Flexible, scalable and resilient with performance to meet dynamic needs
  • Support private, public and hybrid cloud along with federated storage models
  • Simplified decision-making, acquisition, installation and ongoing management
  • Enable traditional, virtual and cloud workloads
  • Complement its siblings VMAX 40K, 20K and SP (Service Provider) models

Note that the VMAX SP is a model configured and optimized for easy self-service and private cloud, storage as a service (SaaS), IT as a Service (ITaaS) and public cloud service providers needing multi-tenant capabilities with service catalogs and associated tools.

So what is new with the VMAX 10K?

It is twice as fast (per EMC performance results) as earlier VMAX 10K by leveraging faster 2.8GHz Intel westmere vs. earlier 2.5GHz westmere processors. In addition to faster cores, there are more, from 4 to 6 on directors, from 8 to 12 on VMAX 10K engines. The PCIe (Gen 2) IO busses remain unchanged as does the RapidIO interconnect.  RapidIO  used for connecting nodes and engines,  while PCIe is used for adapter and device connectivity. Memory stays the same at up to 128GB of global DRAM cache, along with dual virtual matrix interfaces (how the nodes are connected). Note that there is no increase in the amount of DRAM based cache memory in this new VMAX 10K model.

This should prompt the question of for traditional cache centric or dependent for performance storage systems such as VMAX, how much are they now CPU and their associated L1 / L2 cache dependent or effective? Also how much has the Enginuity code under the covers been enhanced to leverage the multiple cores and threads thus shifting from being cache memory dependent processor hungry.

Also new with the updated VMAX 10K include:

  • Support for dense 2.5 inch drives, along with mixed 2.5 inch and 3.5 inch form factor devices with a maximum of 1,560 HDDs. This means support for 2.5 inch 1TB 7,200 RPM SAS HDDs, along with fast SAS HDDs, SLC/MLC and eMLC solid state devices (SSD) also known as electronic flash devices (EFD). Note that with higher density storage configurations, good disk enclosures become more important to counter or prevent the effects of drive vibration, something that leading vendors are paying attention to and so should customers.
  • EMC is also with the VMAX 10K adding support for certain 3rd party racks or cabinets to be used for mounting the product. This means being able to mount the VMAX main system and DAE components into selected cabinets or racks to meet specific customer, colo or other environment needs for increased flexibility.
  • For security, VMAX 10K also supports Data at Rest Encryption or (D@RE) which is implemented within the VMAX platform. All data encrypted on every drive, every drive type (drive independent) within the VMAX platform to avoid performance impacts. AES 256 fixed block encryption with FIPS 140-2 validation (#1610) using embedded or external key management including RSA Key Manager. Note that since the storage system based encryption is done within the VMAX platform or controller, not only is the encrypt / decrypt off-loaded from servers, it also means that any device from SSD to HDD to third-party storage arrays can be encrypted. This is in contrast to drive based approaches such as self encrypting devices (SED) or other full drive encryption approaches. With embedded key management, encryption keys kept and managed within the VMAX system while external mode leverages RSA key management as part of a broader security solution approach.
  • In terms of addressing ease of decision-making and acquisition, EMC has bundled core Enginuity software suite (virtual provisioning, FTS and FLM, DCP (dynamic cache partitioning), host I/O limits, Optimizer/virtual LUN and integrated RecoverPoint splitter). In addition are bundles for optimization (FAST VP, EMC Unisphere for VMAX with heat map and dashboards), availability (TimeFinder for VMAX 10K) and migration (Symmetrix migration suite, Open Replicator, Open Migrator, SRDF/DM, Federated Live Migration). Additional optional software include RecoverPoint CDP, CRR and CLR, Replication Manager, PowerPath, SRDF/S, SRDF/A and SRDF/DM, Storage Configuration Advisor, Open Replicator with Dynamic Mobility and ControlCenter/ProSphere package.

Who needs a VMAX 10K or where can it be used?

As the entry-level model of the VMAX family, certain organizations who are growing and looking for an alternative to traditional mid-range storage systems should be a primary opportunity. Assuming the VMAX 10K can sell at tier-2 prices with a focus of tier-1 reliability, feature functionality, and simplification while allowing their channel partners to make some money, then EMC can have success with this product. The challenge however will be helping their direct and channel partner sales organizations to avoid competing with their own products (e.g. high-end VNX) vs. those of others.

Consolidation of servers with virtualization, along with storage system consolidation to remove complexity in management and costs should be another opportunity with the ability to virtualize third-party storage. I would expect EMC and their channel partners to place the VMAX 10K with its storage virtualization of third-party storage as an alternative to HDS VSP (aka USP/USPV) and the HP XP P9000 (Hitachi based) products, or for block storage needs the NetApp V-Series among others. There could be some scenarios where the VMAX 10K could be positioned as an alternative to the IBM V7000 (SVC based) for virtualizing third-party storage, or for larger environments, some of the software based appliances where there is a scaling with stability (performance, availability, capacity, ease of management, feature functionality) concerns.

Another area where the VMAX 10K could see action which will fly in the face of some industry thinking is for deployment in new and growing managed service providers (MSP), public cloud, and community clouds (private consortiums) looking for an alternative to open source based, or traditional mid-range solutions. Otoh, I cant wait to hear somebody think outside of both the old and new boxes about how a VMAX 10K could be used beyond traditional applications or functionality. For example filling it up with a few SSDs, and then balance with 1TB 2.5 inch SAS HDD and 3.5 inch 3TB (or larger when available) HDDs as an active archive target leveraging the built-in data compression.

How about if EMC were to support cloud optimized HDDs such as the Seagate Constellation Cloud Storage (CS) HDDs that were announced late in 2012 as well as the newer enterprise class HDDs for opening up new markets? Also keep in mind that some of the new 2.5 inch SAS 10,000 (10K) HDDs have the same performance capabilities as traditional 3.5 inch 15,000 (15K) RPM drives in a smaller footprint to help drive and support increased density of performance and capacity with improved energy effectiveness.

How about attaching a VMAX 10K with the right type of cost-effective (aligned to a given scenario) SSD or HDDs or third-party storage to a cluster or grid of servers that are running OpenStack including Swift, CloudStack, Basho Riak CS, Celversafe, Scality, Caringo, Ceph or even EMCs own ATMOS (that supports external storage) for cloud storage or object based storage solutions? Granted that would be thinking outside of the current or new box thinking to move away from RAID based systems in favor or low-cost JBOD storage in servers, however what the heck, let’s think in pragmatic ways.

Will EMC be able to open new markets and opportunities by making the VMAX and its Enginuity software platform and functionality more accessible and affordable leveraging the VMAX 10K as well as the VMAX SP? Time will tell, after all, I recall back in the mid to late 90s, and then again several times during the 2000s similar questions or conversations not to mention the demise of the large traditional storage systems.

Continue reading about what else EMC announced on January 14 2013 in addition to VMAX 10K updates here in the next post in this series. Also check out Chucks EMC blog to see what he has to say.

Ok, nuff said (for now).

Cheers gs

Greg Schulz – Author Cloud and Virtual Data Storage Networking (CRC Press, 2011), The Green and Virtual Data Center (CRC Press, 2009), and Resilient Storage Networks (Elsevier, 2004)

twitter @storageio

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EMC VMAX 10K, looks like high-end storage systems are still alive

StorageIO industry trends cloud, virtualization and big data

This is the first in a multi-part series of posts looking at if large enterprise and legacy storage systems are dead, along with what todays EMC VMAX 10K updates means.

EMC has announced an upgrade, refresh or new version of their previously announced Virtual matrix (VMAX) 10,000 (10K), part of the VMAX family of enterprise class storage systems formerly known as DMX (Direct Matrix) and Symmetrix. I will get back to more coverage on the VMAX 10K and other EMC enhancements in a few moments in part two and three of this series.

Have you heard the industry myth about the demise or outright death of traditional storage systems? This has been particularly the case for high-end enterprise class systems, which by the way which were first, declared dead back in the mid-1990s then at the hands of emerging mid-range storage systems.

Enterprise class storage systems include EMC VMAX, Fujitsu Eternus DX8700, HDS, HP XP P9000 based on the HDS high-end product (OEM from HDS parent Hitachi Ltd.). Note that some HPers or their fans might argue that the P10000 (formerly known as 3PAR) declared as tier 1.5 should also be on the list; I will leave that up to you to decide.

Let us not forget the IBM DS8000 series (whose predecessors was known as the ESS and VSS before that); although some IBMers will tell you that XIV should also be in this list. High-end enterprise class storage systems such as those mentioned above are not alone in being declared dead at the hands of new all solid-state devices (SSD) and their startup vendors, or mixed and hybrid-based solutions.

Some are even declaring dead due to new SSD appliances or systems, and by storage hypervisor or virtual storage array (VSA) the traditional mid-range storage systems that were supposed to have killed off the enterprise systems a decade ago (hmm, DejaVu?).

The mid-range storage systems include among others block (SAN and DAS) and file (NAS) systems from Data Direct Networks (DDN), Dell Complement, EqualLogic and MD series (Netapp Engenio based), EMC VNX and Isilon, Fujitsu Eternus, and HDS HUS mid-range formerly known as AMS. Let us not forget about HP 3PAR or P2000 (DotHill based) or P6000 (EVA which is probably being put out to rest). Then there are the various IBM products (their own and what they OEM from others), NEC, NetApp (FAS and Engenio), Oracle and Starboard (formerly known as Reldata). Note that there are many startups that could be in the above list as well if they were not considering the above to be considered dead, thus causing themselves to also be extinct as well, how ironic ;).

What are some industry trends that I am seeing?

  • Some vendors and products might be nearing the ends of their useful lives
  • Some vendors, their products and portfolios continue to evolve and expand
  • Some vendors and their products are moving into new or adjacent markets
  • Some vendors are refining where and what to sell when and to who
  • Some vendors are moving up market, some down market
  • Some vendors are moving into new markets, others are moving out of markets
  • Some vendors are declaring others dead to create a new market for their products
  • One size or approach or technology does not fit all needs, avoid treating all the same
  • Leverage multiple tools and technology in creative ways
  • Maximize return on innovation (the new ROI) by using various tools, technologies in ways to boost productivity, effectiveness while removing complexity and cost
  • Realization that cutting cost can result in reduced resiliency, thus look for and remove complexity with benefit of removing costs without compromise
  • Storage arrays are moving into new roles, including as back-end storage for cloud, object and other software stacks running on commodity servers to replace JBOD (DejaVu anyone?).

Keep in mind that there is a difference between industry adoption (what is talked about) and customer deployment (what are actually bought and used). Likewise there is technology based on GQ (looks and image) and G2 (functionality, experience).

There is also an industry myth that SSD cannot or has not been successful in traditional storage systems which in some cases has been true with some products or vendors. Otoh, some vendors such as EMC, NetApp and Oracle (among others) are having good success with SSD in their storage systems. Some SSD startup vendors have been more successful on both the G2 and GQ front, while some focus on the GQ or image may not be as successful (or at least yet) in the industry adoption vs. customer deployment game.

For the above mentioned storage systems vendors and products (among others), or at least for most of them there is still have plenty of life in them, granted their role and usage is changing including in some cases being found as back-end storage systems behind servers running virtualization, cloud, object storage and other storage software stacks. Likewise, some of the new and emerging storage systems (hardware, software, valueware, services) and vendors have bright futures while others may end up on the where are they now list.

Are high-end enterprise class or other storage arrays and systems dead at the hands of new startups, virtual storage appliances (VSA), storage hypervisors, storage virtualization, virtual storage and SSD?

Are large storage arrays dead at the hands of SSD?

Have SSDs been unsuccessful with storage arrays (with poll)?

 

Here are links to two polls where you can cast your vote.

Cast your vote and see results of if large storage arrays and systems are dead here.

Cast your vote and see results of if SSD has not been successful in storage systems.

So what about it, are enterprise or large storage arrays and systems dead?

Perhaps in some tabloids or industry myths (or that some wish for) or in some customer environments, as well as for some vendors or their products that can be the case.

However, IMHO for many other environments (and vendors) the answer is no, granted some will continue to evolve from legacy high-end enterprise class storage systems to mid-range or to appliance or VSA or something else.

There is still life many of the storage systems architectures, platforms and products that have been declared dead for over a decade.

Continue reading about the specifics of the EMC VMAX 10K announcement in the next post in this series here. Also check out Chucks EMC blog to see what he has to say.

Ok, nuff said (for now).

Cheers gs

Greg Schulz – Author Cloud and Virtual Data Storage Networking (CRC Press, 2011), The Green and Virtual Data Center (CRC Press, 2009), and Resilient Storage Networks (Elsevier, 2004)

twitter @storageio

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Many faces of storage hypervisor, virtual storage or storage virtualization

StorageIO industry trends cloud, virtualization and big data

Storage hypervisors were a 2012 popular buzzword bingo topic with plenty of industry adoption and some customer deployment. Separating the hype around storage hypervisors reveals conversations around backup, restore, BC, DR and archiving.

backup, restore, BC, DR and archiving
Cloud and virtualization components

Storage virtualization along with virtual storage and storage hypervisors have a theme of abstracting underlying physical hardware resources like server virtualization. The abstraction can be for consolidation and aggregation, or for enabling agility, flexibility, emulation and other functionality.

backup, restore, BC, DR and archiving

Storage virtualization can be implemented in different locations, in many ways with various functionality and focus. For example the abstraction can occur on a server, in an virtual or physical appliance (e.g. tin wrapped software), in a network switch or router, as well as in a storage system. The focus can be for aggregation, or data protection (HA, BC, DR, backup, replication, snapshot) on a homogeneous (all one vendor) or mixed vendor basis (heterogeneous).

backup, restore, BC, DR and archiving

Here is a link to a guest post that I recently did over at The Virtualization Practice looking at storage hypervisors, virtual storage and storage virtualization. As is the case with virtual storage, storage virtualization, storage for virtual environments, depending on your views, spheres of influence, preferences among other factors what you call a storage hypervisor will probably vary.

Additional related material:

  • Are you using or considering implementation of a storage hypervisor?
  • Cloud, virtualization, storage and networking in an election year
  • EMC VPLEX: Virtual Storage Redefined or Respun?
  • Server and Storage Virtualization – Life beyond Consolidation
  • Should Everything Be Virtualized?
  • How many degrees separate you and your information?
  • Cloud and Virtual Data Storage Networking (CRC)
  • The Green and Virtual Data Center (CRC)
  • Resilient Storage Networks (Elsevier)
  • backup, restore, BC, DR and archiving

    • Btw, as a special offer for viewers, I have some copies of Resilient Storage Networking: Designing Flexible Scalable Data Infrastructures (Elsevier) available for $19.95, shipping and handling included. Send me an email or tweet (@storageio) to learn more and get your copy (Major credit cards and Pay pal accepted).

    Ok, nuff said (for now)

    Cheers gs

    Greg Schulz – Author Cloud and Virtual Data Storage Networking (CRC Press, 2011), The Green and Virtual Data Center (CRC Press, 2009), and Resilient Storage Networks (Elsevier, 2004)

    twitter @storageio

    All Comments, (C) and (TM) belong to their owners/posters, Other content (C) Copyright 2006-2024 Server StorageIO and UnlimitedIO LLC All Rights Reserved

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    Cloud conversation, Thanks Gartner for saying what has been said

    StorageIO industry trends cloud, virtualization and big data

    Thank you Gartner for your statements concurring and endorsing the notion of clouds can be viable, however do your homework, welcome to the club.

    Why am I thanking Gartner?

    Simple, I appreciate Gartner now saying what has been said for a couple of years hoping it will help to amplify the theme to the Gartner followers and faithful.

    Gartner: Cloud storage viable option, but proceed carefully


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    Sounds like Gartner has come to the same conclusion on what has been said for several years now in posts, articles, keynotes, presentations, webinars and other venues which is when it comes to IT clouds, don’t be scared. However do your homework, be prepared, do your due diligence, proof of concepts.

    Image of clouds, cloud and virtual data storage networking book

    Here are some related materials to prepare and plan for IT clouds (public and private):

    What is your take on IT clouds? Click here to cast your vote and see what others are thinking about clouds.

    Now for those who feel that free information or content is not worth its price, then feel free to go to Amazon and buy some Book copies here, or subscribing to the Kindle version of the StorageIOblog, or contact us for an advisory consultation or other project. For everybody else, enjoy and remember, don’t be scared of clouds, do your homework, be prepared and keep in mind that clouds are a shared responsibility.

    Disclosure: I was a Gartner client when I working in an IT organization and then later as a vendor, however not anymore ;).

    Ok, nuff said.

    Cheers gs

    Greg Schulz – Author Cloud and Virtual Data Storage Networking (CRC Press, 2011), The Green and Virtual Data Center (CRC Press, 2009), and Resilient Storage Networks (Elsevier, 2004)

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