With the growth of Information technology, your organization needs to struggle with massive under utilization of resources and the capacity to deliver predictable service levels in an unbearably complex IT environment.
Understanding this, Hitachi Data Systems introduced the newly enhanced Hitachi Adaptable Modular Storage 2000 family systems - Hitachi Universal Storage Platform VM and the Hitachi Storage Command Suite which are flexible, industry leading and energy efficient.
As integral components of Services Oriented Storage Solutions from Hitachi Data Systems, the Universal Storage Platform VM provide the architectural foundation for matching application requirements to different classes of storage and helps in reaching previously unattainable levels of consolidation and bringing to reality the virtualization of internal and external heterogeneous storage into one pool via redefining the storage industry. Hitachi Universal Storage Platform VM delivers advanced storage virtualization, cost-optimized tiered storage, dynamic provisioning and continuous data protection for your organization.
Hitachi Adaptable Modular Storage 2000 family combines superior scalability, reliability with 99.999 percent data availability and innovative technologies such as Hitachi Dynamic Load Balancing Controller and SAS architecture to assist you optimize productivity, increase service level agreements and improve IT manageability.
To get more information, visit: www.hds.com/related-information/midrange-storage-portfolio.html
Tuesday, March 10, 2009
Sunday, December 21, 2008
SOSS in action
December 17th, 2008: This week Hitachi made a few announcements to increase performance for the USP V family. Monday we announced the general availability of a flash-based SSD drive option in the USP V and USP VM. While on Tuesday we announced the certification of the USP V and USP VM with the new High Performance FICON (zHPF) enhancements that was announced for the IBM z System.
As you know, flash-based SSDs rely on high-speed memory to store and retrieve data and are designed without any mechanical components, which provide an extremely fast and energy-efficient solution for heavy I/O workloads for high performance enterprise storage applications. HDS is offering this as an internal, high performance tier of storage that is supported by all the dynamic capabilities of the USP virtualization platform – dynamic provisioning, thin provisioning, and tiered storage – which can compliment and optimize the performance and cost of existing disk-based virtualized storage systems.
Why is this so great? While the SSD option is perfect for customers who require high performance for business-critical applications it is much more expensive than spinning disk. With the ability to thin provision the SSD, avoids the waste of allocated unused space as well as the ability to move data to lower cost tiers when high performance is no longer required helps to minimize the cost of this investment, while maximizing the performance benefit across existing assets.
Moving on, High Performance FICON involves architectural changes to the z/Architecture and the FICON interface architecture to reduce overhead and improve performance and RAS (reliability, availability, and serviceability). IBM claims that zHPF can improve throughput through a single DS8000 port by 100%. Our certification with zHPF means that the USP V and USP VM are compatible with ESCON, FICON, FCP and zHPF connectivity on select configurations of IBM System z10, zSeries 990, 890, 900 and 800 running operating systems including z/OS V1.9, z/VM V5.3, z/VSE V4.1 and Linux on System z Novell SUSE SLES 9 and SLES 10. See the Qualification letter which was issued by IBM here.
Many businesses still rely on mainframes for their most performance critical applications. The combination of zHPF channels with flash-based SSDs can provide a major improvement in this environment.
SSD drives will provide the most improvement for intensive random read requests in open or mainframe workloads.
With our Services Oriented Storage Solutions strategy, we are able to leverage these new announcements with existing services to further reduce cost, complexity, and risk for open and mainframe storage requirements.
To get more information, visit: www.hds.com/corporate/webfeeds
As you know, flash-based SSDs rely on high-speed memory to store and retrieve data and are designed without any mechanical components, which provide an extremely fast and energy-efficient solution for heavy I/O workloads for high performance enterprise storage applications. HDS is offering this as an internal, high performance tier of storage that is supported by all the dynamic capabilities of the USP virtualization platform – dynamic provisioning, thin provisioning, and tiered storage – which can compliment and optimize the performance and cost of existing disk-based virtualized storage systems.
Why is this so great? While the SSD option is perfect for customers who require high performance for business-critical applications it is much more expensive than spinning disk. With the ability to thin provision the SSD, avoids the waste of allocated unused space as well as the ability to move data to lower cost tiers when high performance is no longer required helps to minimize the cost of this investment, while maximizing the performance benefit across existing assets.
Moving on, High Performance FICON involves architectural changes to the z/Architecture and the FICON interface architecture to reduce overhead and improve performance and RAS (reliability, availability, and serviceability). IBM claims that zHPF can improve throughput through a single DS8000 port by 100%. Our certification with zHPF means that the USP V and USP VM are compatible with ESCON, FICON, FCP and zHPF connectivity on select configurations of IBM System z10, zSeries 990, 890, 900 and 800 running operating systems including z/OS V1.9, z/VM V5.3, z/VSE V4.1 and Linux on System z Novell SUSE SLES 9 and SLES 10. See the Qualification letter which was issued by IBM here.
Many businesses still rely on mainframes for their most performance critical applications. The combination of zHPF channels with flash-based SSDs can provide a major improvement in this environment.
SSD drives will provide the most improvement for intensive random read requests in open or mainframe workloads.
With our Services Oriented Storage Solutions strategy, we are able to leverage these new announcements with existing services to further reduce cost, complexity, and risk for open and mainframe storage requirements.
To get more information, visit: www.hds.com/corporate/webfeeds
Monday, December 8, 2008
Hitachi Dynamic Provisioning without Thin Provisioning
Hitachi Dynamic Provisioning, HDP, is a feature of the USP V/VM which does virtualization of storage capacity in a pool of storage consisting of multiple RAID array groups. This pool of physical RAID array groups is divided up into 42 MB pages and used on-demand by any of the virtual host volumes using the pool. This enables HDP to provide a number of services.
The first benefit of HDP that everyone thinks of is thin provisioning. Thin Provisioning enables the USP V/VM to fill a request for a LUN allocation, for example 100 GB, with virtual capacity, and thinly provision the LUN with 42 MB pages of real storage capacity as the application starts to write to it. The unused capacity for the 100GB LUN allocation is then available to be used to thinly provision other LUN allocation requests from the same HDP pool. This helps to increase the utilization of storage by eliminating most of the allocated but unused portion of a LUN.
However, the real reason Hitachi calls this feature Dynamic Provisioning is that it does just that. It enables IT to dynamically provision LUNs from this HDP pool by assigning virtual LUN capacity as quickly as drag and drop. Instead of taking hours to provision a new server with LUNs, HDP can dynamically provision a new server in a matter of minutes.
Another service is thin moves and copies. Since HDP know how many pages are assigned to a LUN allocation when it does a move or copy of that LUN, it only moves or copies the actual used pages and not the whole LUN. This reduces operational expense by eliminating the moving or copying of unused capacity.
Since we wide stripe the LUN by using multiple 42 MB pages which in turn use disk spindles across the whole HDP pool, we can increase throughput and decrease response time by employing more disk spindles in the performance of the I/O requests to all the virtual volumes. So wide stripe performance is another benefit.
One large storage user has decided to use HDP but not use thin provisioning. He does not want to run the risk of over subscribing his storage under peak conditions, so he never allocates more capacity than he physically has in the HPD pool. So what is the benefit of this if he is not using thin provisioning?
1. He still gets the benefit of dynamic provisioning, the ability to provision new servers in a matter of minutes.
2. He also has the operational benefit of thin moves and copies. For instance, it takes less time to replicate 42 MB of used capacity than 100GB of allocated capacity.
3. And he still has the performance benefits of wide striping. This equates to eliminating storage performance hot-spots which in the past kept administrators needlessly busy moving application data around the array.
His view is that capacity is cheap and getting cheaper, but his operational expenses are going to continue to increase. So the benefit he sees in HDP is not in thin provisioning but in dynamic provisioning, thin copies and moves, and wide stripe performance.
To get more information about this go to www.hds.com/corporate/webfeeds
The first benefit of HDP that everyone thinks of is thin provisioning. Thin Provisioning enables the USP V/VM to fill a request for a LUN allocation, for example 100 GB, with virtual capacity, and thinly provision the LUN with 42 MB pages of real storage capacity as the application starts to write to it. The unused capacity for the 100GB LUN allocation is then available to be used to thinly provision other LUN allocation requests from the same HDP pool. This helps to increase the utilization of storage by eliminating most of the allocated but unused portion of a LUN.
However, the real reason Hitachi calls this feature Dynamic Provisioning is that it does just that. It enables IT to dynamically provision LUNs from this HDP pool by assigning virtual LUN capacity as quickly as drag and drop. Instead of taking hours to provision a new server with LUNs, HDP can dynamically provision a new server in a matter of minutes.
Another service is thin moves and copies. Since HDP know how many pages are assigned to a LUN allocation when it does a move or copy of that LUN, it only moves or copies the actual used pages and not the whole LUN. This reduces operational expense by eliminating the moving or copying of unused capacity.
Since we wide stripe the LUN by using multiple 42 MB pages which in turn use disk spindles across the whole HDP pool, we can increase throughput and decrease response time by employing more disk spindles in the performance of the I/O requests to all the virtual volumes. So wide stripe performance is another benefit.
One large storage user has decided to use HDP but not use thin provisioning. He does not want to run the risk of over subscribing his storage under peak conditions, so he never allocates more capacity than he physically has in the HPD pool. So what is the benefit of this if he is not using thin provisioning?
1. He still gets the benefit of dynamic provisioning, the ability to provision new servers in a matter of minutes.
2. He also has the operational benefit of thin moves and copies. For instance, it takes less time to replicate 42 MB of used capacity than 100GB of allocated capacity.
3. And he still has the performance benefits of wide striping. This equates to eliminating storage performance hot-spots which in the past kept administrators needlessly busy moving application data around the array.
His view is that capacity is cheap and getting cheaper, but his operational expenses are going to continue to increase. So the benefit he sees in HDP is not in thin provisioning but in dynamic provisioning, thin copies and moves, and wide stripe performance.
To get more information about this go to www.hds.com/corporate/webfeeds
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