The document summarizes the HP 3PAR Utility Storage product. It is next-generation tier 1 utility storage built for cloud computing. It is efficient, reducing costs by 50%, autonomic, increasing storage management efficiency 10 times, and multi-tenant and federated, supporting unpredictable applications and workloads across storage systems without boundaries. The HP 3PAR storage family provides the same technology at any scale from the F200 to the P10000, eliminating storage boundaries.
2. The World Has Changed…
The storage silo era is over
Most storage deployed VIRTUALIZATION
today was designed for the
needs of 20 years ago
NOW
CLOUD
BIG DATA
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3. UNPREDICTABLE DEMAND CAN LEAD
TO UNCONTROLLABLE ANXIETY…
Revealing systemic failures in legacy storage for cloud infrastructure
Will a new application impact Can I migrate rapidly growing
Performance? Security? applications fast enough?
Do I have enough capacity to How do I manage at
deal with explosive growth? massive scale without
massive OpEx?
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4. HP 3PAR Utility Storage
Next-generation Tier 1 Utility Storage for IT-as-a-Service
BUILT FOR THE CLOUD
EFFICIENT
Reduce acquisition and operational costs by 50%
AUTONOMIC
Increase storage management efficiency 10x
MULTI- TENANT and FEDERATED
Support unpredictable new apps and cloud
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5. HP 3PAR: Enterprise Storage Leader
Execution and Fastest Array in Best in Class
Vision Leader the World
Gartner Magic Quadrant for SPC-1 benchmark HP 3PAR F400 ranked
midrange and high-end leadership with HP P10000 Best in Class in DCIG
modular arrays 3PAR 2012 Midrange Buyers
Guide
30
EMC Clarrion
CX3-40
25
NetApp
Response Time (ms) FAS3170
20
IBM DS8300 Turbo HP P10000
15 Oracle Sun 3PAR V800
IBM Storage 6780
Storewize HP 3PAR
Pillar Axiom
V7000
10
600 Series 3 F400 HP 3PAR
HDS AMS 2500
T800 IBM SVC (6 Node Cluster
HDS VSP with 2x DS8700)
5 HDS USP-V
IBM DS8700 Easy Tier with SSD
0
0 50,000 100,000 150,000 200,000 250,000 300,000 350,000 400,000 450,000 500,000
SPC-1 IOPS TM
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6. HP 3PAR: Converged Utility Storage
Next-generation Tier 1 utility storage built for ITaaS
Multi-Tenant Efficient Autonomic Federated
Support Reduce Increase storage Remove storage
unpredictable acquisition and management system
and mixed operational efficiency 10x boundaries
workloads costs by 50%
7. HP 3PAR is Multi-tenant
Multi-tenant Secure Resilient
Massive Consolidation Secure segregation while Sustain service levels
of many different applications preserving the benefits of across any major failure
and lines of business massive parallelism scenarios
Industry leading storage for Cloud and Utility Computing
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8. HP 3PAR is Efficient
Thin Optimized Green
Tier 0 SSD
Tier 1
FC
Tier 2
Nearline
Reduce capacity Policy-based tiering Reduce power
requirements by balances and cooling costs
at least 50% $/GB and $/IOP at least 50%
Reduce the acquisition & operational cost of data center
storage
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9. HP 3PAR is Autonomic
Up Fast Integrated Respond to Change
Quickly
15 Seconds to provision Deploy new applications in Quickly adapt to the
a LUN minutes from client to cloud unpredictable
via integrate storage
provisioning
Reduce storage administration time by 90%
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10. HP 3PAR is Federated
Data Mobility The promise of Thin Built-in tech refresh
Provisioning
Respond to changing demands Remove capacity silos and Change the storage lifecycle.
and map workloads to the right use space where available. Do-it-yourself data migration
resources. without service disruption.
Remove storage system boundaries
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11. HP 3PAR – A Converged Ecosystem
HP
HP Cloud Converged
HP Virtual System
System Infrastructure
HP Insight Manager
HP Cloud Services
Plug-in for
Virtual Domain VMware VAAI, VASA
vCenter, MS SCOM,
Thin Provisioning
HP 3PAR
Thin Conversion
Recovery Adaptive
Virtual Copy Thin HP X-Series NAS
HP D2D StoreOnce Manager Optimization
Reclamation
Dynamic
Optimization
Virtual Lock Remote Copy
HP Data Protector
HP Cluster Extension and
MetroCluster for 3PAR
3PAR & VMware SRM
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12. HP 3PAR Utility Storage family
One technology at any scale HP P10000 3PAR
F200 F400 T400 T800 V400 V800
2–8
Controller nodes 2 2–4 2–4 2–4 2–8
FC host ports 0 – 12 0 – 24 0 – 64 0 – 128 0 – 96 (8Gbit/s) 0 – 192 (8Gbit/s)
iSCSI host ports 0–8 0 – 16 0 – 16 0 – 32 Post GA (10Gbit/s) Post GA (10Gbit/s)
FCoE host ports n/a n/a n/a n/a Post GA (10Gbit/s) Post GA (10Gbit/s)
Built-in remote copy ports 2 2 2 2 2 2
Control cache
8 GB 8 – 16 GB 8 – 16 GB 8 – 32 GB 32 – 64 GB 64 – 256 GB
Data cache (Adaptive)
12 GB 12 – 24 GB 24 – 48 GB 24 – 96 GB 64 – 128 GB 128 – 512 GB
Disk drives 16 – 192 16 – 384 16 – 640 16 – 1280 16 - 960 16 – 1,920
Maximum capacity 128 TB 384 TB 400 TB 800 TB 800TB 1.6PB
Throughput/ IOPS (from 1,300 (MB/s) / 2,600 (MB/s) / 3,200 (MB/s) / 6,400 (MB/s) / 6,500 (MB/s)/ 13,000 (MB/s)/
disk)* 46,800 93,600 156,000 312,000 180,000 360,000
SPC-1 IOPS: SPC-1 IOPS: SPC-1 IOPS:
Benchmark Result Plans -
93,050 224,990 450,212
* Throughput figures represent
sequential reads/ IOPS figures
Same Firmware (InformOS), Same Features, Same Management Console, Same Replication Software
12 represent Raid 10, random reads
13. HP 3PAR Utility Storage
Eliminating storage boundaries so you can achieve your goals
• Built for unpredictable workloads & multi-
tenancy
• Simple, efficient, and agile storage for
the Instant-On Enterprise
• Leading the industry in Storage Storage
Federation and IT-as-a-Service Without
Boundaries
www.hp.com/go/3PAR
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SLIDE PURPOSE: Start the presentation with setting an expectation that something has to change in the storage worldThe storage industry, more than other IT areas, is currently experiencing a major technology change. You probably realize this through the significant amount of startup companies which have evolved in our industry over the past decade with innovations that have reached a maturity level which are now ready for the mainstream market. This can be followed by the significant amount of M&A activites happening not just by HP. What are the drivers for this?The last significant technology shift happened 15-20 years ago when storage started to be pooled into SAN solutions, no longer direct attached to server. Most storage systems available today are designed in a monolithic way to cope with the IT requirements of these days (different to reality today):Application unique IT silos (Virtualization, Utility )Disparate IT infrastructure (to be converged)Predictable workloads (more and more unpredictable)IT-driven timelines (business driven instant demand)Structured data (unstructured data)How does storage need to change to cope in this new world?Storage of next era of computing needs to be designed to excel alongside the3 megatrends that are driving IT thinking:An end-to-end virtualized infrastructurewithin a IT-as-a-service driven Cloud environmentand with the challenge of Big Data, or even to say ‚Big Everything‘ which accepts that with big data, everything around it gets big as wellAnecdotes:Big Data: In 2005, we generated 150 exabytes of digital information. In 2010, this volume increased eightfold. We rely on technology to help us process and manage this data, serving it up in consumable chunks. By 2015, the total worldwide cumulative digital archive capacity is projected at 300,000 Petabytes. That’s a lot of chunksCloud: In both recessionary times and those of hyper growth, it tends to be technology that drives new buying patterns for goods, lowers barriers to entry for markets, and which provides new opportunities to “leapfrog” over existing business models. For example, new cloud-based service models such as IT-as-a-Service (ITaaS) are driving new purchasing and consumption patterns.
INTENT: Identify key storage considerations for those building cloud infrastructure. Touch on gaps in 20 year old architectures. Setup key differentiators for HP 3PAR.
Enterprises with large data volumes need an efficient storage infrastructure; they will be looking to reduce hardware and associated costs substantially to keep their offering competitive. A key issue has been over-provisioning, with many sites exhibiting up to 75% unused capacity. They also need to get operations and administrative costs under control; in many cases existing teams are being stretched massively as their data farms grow. It is crucial that the data for multiple organizations can be managed securely and independently within the storage infrastructure – known as multi-tenancy. 3PAR meets all these requirements – and as we will see, this is a major understatement…They are Multi-Tenant, able to securely support huge numbers of applications and customers, concurrently. This is crucial for Service Providers, and of course is essential for enterprise applications, particularly in a highly virtualized environment.They are Efficient: case studies show reductions in acquisition and operational costs by up to 50%. 3PAR Thin Provisioning capabilities actually turn the rules of capacity allocation upside down! It allows users to safely allocate more storage capacity to host applications than actually purchased! 3PAR users can postpone physical disk purchases indefinitely, until the true capacity is actually required. They are Autonomic: let’s clarify what we means by Autonomic. A definition helps: autonomic is an adjective, derived from the Greek ‘auto’ = self, and ‘nomos’ = law. Hence Autonomic means self-regulating. Autonomic Storage is like breathing—you don’t even have to think about it. 3PAR simplifies, automates, and expedites storage management by handling storage provisioning, tiering, and change management autonomically—intelligently, at a sub-system level, without administrator intervention. It is this autonomic management of storage capacity that makes 3PAR so easy to manage at the human level. Customer case studies and analyst reports show increased storage management efficiency of up to 10x, or up to 90% saving in administrator costs.
*** Alternative slide from SD Strategy slide. ***Converged utility storage: (3PAR, IBRIX) takes advantage of specialized architectures to deliver unique capabilities such as multitenancy, autonomic management, and autonomic storage tiering to simplify Tier 1 storage and provide massive scalability and performance in a consolidated storage system. These next-generation, Tier 1 utility storage platforms are built on a clustered architecture designed for virtualization, the cloud, and delivering IT-as-a-Service (ITaaS). o Multitenancy enables the creation of Virtual Private Arrays (VPAs) with secure workload segregation for massive consolidation capabilities without sacrificing performance. o Autonomic management and storage tiering capabilities balance cost and performance while dramatically reducing administration time. o Integration with HP CloudSystem Matrix via the HP Storage Provisioning Manager interface provides a simplified path to the cloud. o Storage born for the cloud—designed to boost efficiency in public and private cloud deployments.
3PAR is an ideal platform for shared workload consolidation with performance, scalability and mixed workload support that allows sharing without compromise.And with virtual private array, it provides secure isolation of data in shared environmentsFinally, it’s resilient. Whether adding new workloads, additional capacity or making service level changes – all can be done without impact to existing users.These all make 3PAR utility storage ideal for cloud and utility computing
3PAR is efficient, providing storage that is thin, optimized and green, reducing acquisition and operational costs.With thin technologies, including thin provisioning, thin conversion and thin persistence, 3PAR Utility Storage reduces capacity requirements by eliminating over provisioning and providing fast and simple space reclamation. So instead of buying 100 TBs, for example, 3PAR customers buy on average just 40TBs.With autonomic storage tiering, 3PAR Utility Storage moves data across tiers in a policy based manner, balancing customers investment in capacity optimized vs performance optimized resources.And, 3PAR is a recognized leader in green storage and still the only carbon neutral storage platform in the world.
3PAR is autonomic and reduces storage administration time by 90%. The virtualization and automation built in responds to changing conditions without the need for manual intervention. This means you get a storage system that is up fast – within hours, and sometimes minutes, the system is reading and writing data – rather than in days or weeks. And once it is up, the mesh active architecture means all controllers are active on each and every volume in the array, delivering high performance to all applications even under failure scenarios. The system also responds instantly to changing workloads, performance spikes, etc and does not require human intervention.
You can see here the leading SPC-1 result for HP P10000 3PAR. Again, the point is not to brag or to suggest that the SPC-1 perfectly represents your workload environment. The point is to illustrate (using an open and audited benchmark built from real application traces) not just the scalable levelsof performance of the 3PAR Storage Systems, in particular the new P10000 3PAR, also known as V-Class – necessary for eliminating worries and concerns in a consolidated environment – but the high quality of that performance. That is, this chart is indicative of the low latencies that stem from the 3PAR Architecuture. Response-time sensitive applications like Oracle and other databases and Exchange require this. Other applications and end users like it too! VMWare, which makes extensive use of virtual memory pages (to disk) really loves it, and permits more VMWare instances to be consolidated on a given physical server. 3PAR’s architecture enables you to start small and scale (as you grow) with high and consistent levels of performance – high SPC-1 result and the linear scaling of that result are proof points for performance scalability. And, as you’ll see in the upcoming slides, you don’t need to compromise utilization (e.g. shortstroking) to achieve high performance – proof point: high utilization of configured capacity. You also don’t have to be a PhD to achieve that performance result in your own datacenter. With 3PAR’s autonomic features, you can see this level of performance in your data center with simple and easy configuration -- proof point metric is Command lines per ASU TBWith HP 3PAR, you are able to achieve the highest performance at high levels of utilization (% of ASU capacity used) at lowest cost ($/ASU TB) with ease of use (Cmd lines/TB).ONLY IF a question arises -- Note that we included IBM’s DS8700 Easy Tier as part of the ‘high end’ compares in this chart because of its capabilities. It did not fare well compared to others likely because of this particular SPC configuration, with mixed SSD and SATA drives.Also make sure customer understand that the IBM SVC result actually consists of TWO DS8700 fronted by SIX SVC nodes.
CLX for Linux and MetroCluster for HP-UX planned for Q4 2012.