Category Archives: Appliance

More specialized appliances at Oracle OpenWorld

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I was reading the news from Oracle OpenWorld and a slew of news about specialized appliances are on the menu.

Oracle added Big Data Appliance and Oracle Exalytics Business Intelligence Machine to its previous numero uno, Exadata Database Machine. EMC, also announced its Green Plum Data Computing Appliance and also its VNX Unified Storage for Oracle.

As quoted

The EMC VNX Unified Storage for Oracle is a VNX system that has 
Oracle installed in a VMware vSphere virtual machine environment. 
The system is meant to unify all Oracle environments--database over 
Oracle Direct NFS, application servers over NFS, and testing and 
development over NFS--resulting in less disk space used and faster 
testing. EMC says this configuration was made because 50% of Oracle 
customers are virtualizing their systems today.

The VNX Unified Storage for Oracle includes EMC's Fully Automated 
Storage Tiering (FAST) technology, which migrates most frequently 
used data between a primary Fibre Channel drive and solid state drives 
and migrates less frequently used data to Serial ATA (SATA) drives and 
its FAST Cache. In an Oracle environment, FAST is well-suited to 
database applications that generate a large number of random 
inputs-outputs, that experience sudden bursts in user query activity, 
or a high number of user loads and where the entire working set can 
be contained in the solid state drive cache.

Based on testing carried out on an Oracle Real Application Clusters 
(RAC) 11g database that was configured to access the VNX7500 file 
storage over the Network File System (NFS), using the Oracle 
Direct NFS (dNFS) client, results showed an 100% improvement in 
transactions per minute (TPM), 170% improvement in IOPS, and 
a 79% decrease in response time, the company said.

As for GreenPlum, EMC quoted:

The company also is showing off the EMC Greenplum Data Computing 
Appliance(DCA) for Big Data Analytics configuration, which provides 
a new migration path to Greenplum for Oracle Data Warehouse. This 
system includes the Greenplum Data Computing Appliance, EMC's 
Global Data Warehouse, and EMC's IT Business Intelligence Grid 
infrastructure. The EMC Greenplum DCA consists of 8 to 16 segment 
servers running Red Hat Enterprise Linux. Each segment server 
contains 96 to 192 processor cores, with 384 GB to 768 GB of 
memory per segment server. The DCA includes 12 600-GB Serial 
Attached SCSI (SAS) 15K RPM drives for a total useable and 
compressed capacity of 73 TB to 144 TB. The DCA competes with 
Oracle's Exadata Database Machine.

In tests performed with this server/storage configuration and a 
15-TB Oracle Data Warehouse, the DCA processed a 99 million rows 
query in less than 28 seconds vs. seven minutes in a traditional 
Oracle environment and data loads decreased from six days to 29 
minutes

It is getting pretty obvious that specialized appliances are making waves at Oracle OpenWorld but what’s more interesting is the return of a combined and integrated environment of compute and storage as I have mentioned in my previous blog. And I forsee that these specialized appliances will be one of the building blocks of cloud computing together with general purposes platforms such as x86, JBODs and the glue to all these, virtualization, notably VMware.

The rise of the specialized appliance

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Compute and storage are 2 components within the IT infrastructure which are surely converging. SAN and NAS are facing their greatest adversary yet, and could be made insignificant if the cloud and virtualization game had their way. This is giving rise to the a new breed of solution, a specialized appliance where both compute and storage are ONE. Rising from the ashes of shared storage (SAN and NAS, take note), we are beginning to see things going back to way of direct, internal storage.

There were some scuffles in the bushes about 5 years, where Sun (now Oracle) was ahead of its game. The Sun Fire X4500 (aka Thumper) was one of the strong candidates to challenge the SAN/NAS duopoly in this networked storage period. X4500 integrated both the server and the storage components together, using ZFS as a file system and volume manager to deliver a very high throughput on all the JBOD disks very efficiently. ZFS acted as the RAID, so there was no need to have specialized RAID hardware. This proved that a very high performance storage solution can be easily integrated using standard off-the-shelf infrastructure components and the x86 architecture. By combining both compute and storage together, there were hints that the industry was about to rise up to Direct-Attached Storage (DAS) again, despite its perceived weakness against SAN and NAS.

Unfortunately, the applications were not ready for DAS then. Besides ZFS, applications such as databases, emails and file servers were not ready to jump into the DAS bandwagon and watch them ride into the sunset. But the fairy tale seems to be retold again, and this time, the evidence that DAS could rise again is much stronger.

The catalyst to this disruptive force? Virtualization!

I mentioned that VMware is the silent storage killer a few blogs ago. Needless to say, that ruffled a few featheres among the readers. I have no doubt that virtualization is changing how we storage guys look at SAN and NAS. In a traditional setup, the SAN or NAS is setup to provision LUNs or mount points to the data storage for VMFS volumes in the VMware environment. It will then be the storage array to provide snapshots, replications, thin provisioning and so on.

Perhaps VMware is nit picking that managing storage arrays for VMFS volumes is difficult. From the VMware administrators view, they are right. They don’t want to know what’s going on below the VM-level. All they want is storage, any kind of storage and VMware will manage the volumes, snapshots, replication and thin  provisioning. Indeed they were already doing that since vStorage API was introduced. In the new release of VMware version 5.0, the ante has been upped even higher, making networked storage less and less significant.

If you want to know about vStorage API and stuff, below is a diagram of the integration of the various components at the VMware API level.

 

VMware can now use direct, internal storage look like shared storage. The Virtual Storage Appliance (VSA) does just that. VMware already has a thriving market from the community and hobbists for VMware Appliances.

The appliance market has now evolved into new infrastructure too. Using x86 architecture, off-the-shelf infrastructure components (sounds familiar?), companies such as Nutanix and Tintri are taking advantage of this booming trend to introduce specialized VMware appliances as shown in their advertisements on their respective web sites.

Here’s the Nutanix Ad:

 

Here’s the Tintri Ad:

 

Both Tintri and Nutanix are a new breed of appliances – specialized appliances for VMware.

At the same time, other applications are building these specialized appliances as well. I have mentioned Oracle Exadata many times in the past and Oracle Exadata is the perfect example an a fine-tuned, hardcore database engine to make the Oracle run at the best performance possible.

Likewise HP has announced their E5000 Messaging System for Microsoft Exchange. The E5000 is a specialized appliance optimized and well-tuned for the Microsoft Exchange Server 2010. From the words of HP,

“HP E5000 Messaging System is the industry’s first fully self-contained platform built for the next-generation of Microsoft Exchange to deliver enterprise-class messaging to businesses of all sizes. Built as a turnkey solution that can be up and running in a few hours vs. days, the HP E5000 Messaging System gives business users the experience they want most: large mailboxes, centralized archiving of mailboxes files and 24×7 access from any device. IT staffs benefit the solutions simplicity to setup, scale and manage and to meet new demands affordably. Ideal for multi-site enterprises as well as branch office and remote office environments, each HP Messaging System delivers greater simplicity and accelerates deployment with preconfigured solutions starting at 500 mailboxes up to 3000 mailboxes, while delivering large, 1 to 2.5GB mailbox sizes. Clients can grow by adding storage capacity or more appliances within the environment up from hundreds to thousands of mailboxes.”

What are the specs of this E5000 box, you say? Here you go:

 

And look at Row#2 in the table above … Direct, Internal Disks! Look at Row #4, Xeon CPUs! Both Compute and Storage in the same appliance!

While the HP E5000 announcement was recently, Hitachi Data Systems were already in the game early with their Unified Compute Platform and their Converged Platform for Microsoft Exchange with relatively the same idea – specialized appliances.

Perhaps the HDS solutions aren’t exactly direct, internal storage but the concept is still the same – specialized appliance. HDS Unified Compute Platform (UCP) has these components.

 

HDS Converged Platform for MS Exchange provides their specialized “appliance” with Reference Architectures that can support up to 68,000 Microsoft Exchange mailboxes. Here’s an architecture diagram of their “appliance”

 

There’s no denying that the networked storage landscape is changing. So are the computing platforms. We are already seeing the compute and storage components being integrated together, tighter than ever. The wave is rising for specialized appliances and it can only get more intense from now on.

No wonder HP’s Converged Infrastructure vision is betting on x86 architecture, simple storage platforms with SAS/SATA disks and Virtualization. Other vendors are doing the same as well – Cisco, NetApp and VMware with their FlexPod solution and EMC with their VBlocks of VMware, Cisco and EMC Storage.

Hail to the Rise of the Specialized Appliance!