At the end of 2004, the average U.S. Fortune 500 corporation contained around 120 terabytes (TB) of
server disk storage. By yearend 2009, this had increased to more than 700 TB. On current trends, it will
reach more than four petabytes (4,000 TB) by yearend 2014
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COST/BENEFIT CASE FOR IBM SYSTEM STORAGE DS8700: COMPARISONS WITH EMC SYMMETRIX V-MAX SYSTEMS
1. ITG Executive Summary
February 2010
COST/BENEFIT CASE FOR IBM SYSTEM STORAGE DS8700:
COMPARISONS WITH EMC SYMMETRIX V-MAX SYSTEMS
Challenges and Opportunities
At the end of 2004, the average U.S. Fortune 500 corporation contained around 120 terabytes (TB) of
server disk storage. By yearend 2009, this had increased to more than 700 TB. On current trends, it will
reach more than four petabytes (4,000 TB) by yearend 2014.
Capacity growth is not the only challenge that must be met. Enterprise storage environments are growing
more complex and interdependent, demands for cross-organizational access to data continue to expand,
and availability, security and recoverability of critical data are increasingly mandated. Economic
conditions have magnified pressures to control costs.
Technological change offers the potential to address these challenges in new ways. Storage virtualization,
thin provisioning and new automation capabilities provide opportunities to increase capacity utilization.
Solid state drives (SSDs) can help applications realize major performance gains. Tiering can enable users
to allocate capacity to different drive types and media to increase overall cost-effectiveness.
Regardless of how these technologies are exploited, however, organizations will continue to employ high-
end disk systems to support their most performance-sensitive, business-critical workloads. For most users,
these remain the most expensive and functional systems within storage portfolios. They account for a
large part of enterprise storage expenditures. They may represent a major opportunity for cost savings.
This report deals with this opportunity. Specifically, it compares three-year costs for use of EMC
Symmetrix V-Max and IBM System Storage DS8700 systems to support workloads requiring high levels
of performance, availability and recoverability in enterprise organizations.
In three large installations in financial services, manufacturing and IT services companies, costs for use of
IBM System Storage DS8700 systems average 39 percent less than for use of EMC Symmetrix V-Max
equivalents. Figure 1 summarizes these results.
Figure 1
Three-year Costs for Use of EMC V-Max and IBM DS8700 Systems:
Averages for All Installations
EMC V-Max 27,948.4
IBM DS8700 16,935.8
$ Thousands
Hardware Software Software maintenance Facilities
Costs include hardware acquisition, along with license and maintenance costs for key software, and
facilities (primarily energy) costs.
This ITG EXECUTIVE SUMMARY is based upon results and methodology contained in a Management Brief released by the
International Technology Group. 1
2. Software costs for V-Max systems are for the V-Max version of the Enginuity operating system, and
TimeFinder point-in-time copying and PowerPath multipathing tools. Certain configurations are also
equipped with Symmetrix Remote Data Facility/Asynchronous (SRDF/A) or Symmetrix Remote Data
Facility/Synchronous (SRDF/S) for real-time replication.
Software costs for IBM DS8700 systems are for Operating Environment Licenses (OEL), FlashCopy
point-in-time copying and Subsystem Device Driver (SDD) multipathing tools, along with Global Mirror
or Metro Mirror for asynchronous or synchronous real-time replication. SDD is a no-charge feature.
Hardware maintenance costs are not included. V-Max systems are offered with a standard three-year 24x7
warranty, while costs for DS8700 systems are for models offering comparable coverage. IBM also offers
separately priced models with one-, two- and four-year warranties.
There are no software maintenance costs for DS8700 systems, as IBM offers a three-year warranty for the
products included in calculations. In comparison, EMC offers only a 90-day software warranty for its
software products. However, this applies only to defects in the media upon which software is supplied.
Since such defects are rare, no allowance is made for this warranty period in calculations.
Costs allow for annual capacity growth of between 15 percent and 45 percent, depending on installations
and applications supported.
As both vendors tend to discount heavily in individual bids, calculations for hardware, license and (in the
case of V-Max systems) software maintenance costs are based on “street” prices; i.e., discounted prices
paid by users in the organizations upon which installations are based.
Details of installations, configurations and cost structures, along with sources of data and methodology
employed for calculations, may be found in the Detailed Data section of this report.
Platform Choices
EMC’s V-Max and IBM DS8700 are the latest chapter in a 20-year rivalry in high-end disk systems.
However, their vendors characterize them in very different terms:
• V-Max platform, according to EMC, replaces Symmetrix DMX, the first models of which were
introduced in 2003. The most recent generation of DMX-4 systems was introduced in 2007.
V-Max systems implement a subset of EMC Virtual Matrix Architecture that, according to EMC,
is designed to support up to 256 V-Max engines, “hundreds of petabytes” of virtualized disk
storage and “tens of millions of IOPS.”
Although Virtual Matrix Architecture incorporates a number of ambitious concepts, the V-Max
system employs a more conventional system design that draws upon DMX-4 features and
hardware packaging techniques employed in the company’s CLARiiON midrange systems.
The Enginuity 5874 operating system also builds upon its Enginuity 5773 predecessor for DMX-
4 systems, although there are extensive changes in code content.
V-Max systems support larger cache sizes than DMX-4 systems – up to 1,024 GB physical (512
GB effective) compared to 512 GB physical (256 GB effective) cache – and faster host interfaces
than DMX-4 equivalents.
The DMX-4 design, which employs channel and disk directors connected to a set of cache
boards, has been replaced by “engines,” each containing redundant Intel Xeon-based integrated
directors, along with cache, and I/O and disk ports. Up to eight engines may be configured in a V-
Max frame. Communications between engines are through RapidIO external interconnects.
International Technology Group 2
3. This structure is illustrated in figure 2.
Figure 2
EMC V-Max Engine Structure
Disk enclosure ports
Cache Cache
Integrated Integrated
RapidIO director director RapidIO
2 processors 2 processors
8 cores 8 cores
Front-end ports
EMC also offers an entry-level model, the V-Max SE, which is built around a single system
engine and supports up to 128 GB physical (64 GB effective) cache and 360 disk drives. V-Max
SE systems cannot be upgraded to larger V-Max configurations.
According to EMC, “the V-Max system provides more than three times the performance (of)
Symmetrix DMX-4 systems.” The basis of this claim, however, is unclear. The base system
appears, for the reasons detailed later in this report, to offer incremental rather than radical
improvements in performance over DMX-4 equivalents.
V-Max systems support use of EMC Fully Automated Storage Tiering (FAST) software, which is
designed to automate reallocation of data to solid state, Fibre Channel (FC) and Serial ATA
(SATA) drives on the same V-Max frame.
(EMC refers to solid state drives as Enterprise Flash Drives (EFDs). SSDs, a more commonly
employed term, is used in this report.)
A first FAST offering, FAST version 1, was delivered by EMC in December 2009. However, this
version cannot allocate capacity to different tiers in increments of less than a logical volume.
According to EMC that capability will be included in FAST version 2, which is scheduled for
“mid-2010” or the third quarter of 2010.
According to EMC, DMX hardware will not be upgradeable to V-Max systems. DMX scripts
may run on V-Max systems, but will not support new functionality specific to the V-Max
Enginuity operating system.
• DS8700 platform is presented by IBM as the third hardware generation of the IBM DS8000
platform, the first models of which were introduced in 2004. A second generation of DS8000
Turbo systems was introduced in 2006.
Compared to the previous generation of DS8000 Turbo systems, DS8700 systems incorporate
faster IBM POWER processors (POWER6 4.7 GHz compared to POWER5+ 2.2 GHz), increased
cache (384 GB compared to 256 GB), and higher-speed internal connects and device adapters.
DS8700 systems also incorporate improved reliability, availability and serviceability (RAS),
security and energy efficiency features.
International Technology Group 3