© 2008 Hewlett-Packard Development Company, L.P.
The information contained herein is subject to change without notice
HP Integrity – The Most Trusted. Always.
HP BCS updateAlex Markov
HP Bulgaria
When a mother dials 911
When a patient needs a doctor
When a bank moves money
When a customer submits an order
When a stock exchange executes a trade
THE STRATEGIC QUESTION IS…
How do you create the infrastructure that will produce the right outcome?
Every time
Virtualized•Resilient•Orchestrated•Optimized•Modular
Converged
Infrastructure
REQUIREMENTS TO BUILD A CONVERGED INFRASTRUCTURE
Delivered
with
Integrity
Resilient
Security and
availability you
can bet your
business on
Integrated
Manage all your
capabilities
holistically
Virtualized
Choose the virtualization
paradigm best suited to
your business
Efficient
Maximize the utilization and
effectiveness of
your environment
Demanding
Workloads
Support for your
mission critical
workloads
DRIVE-ING MISSION CRITICAL ENVIRONMENTS WITH INTEGRITY
6
Performance
1980
Time
20001985 1990 1995
20-30% increase per year
from semiconductor
technologyCISC.3 ins / cycle
RISC
~1 instruction / cycle
60-70%
Superscalar RISC
<4 instructions / cycle
PA-RISC
Alpha
USPARC
MIPS
PowerPC
EPIC: Even greater
instructions / cycle
Explicitly
Parallel
Instruction
Computing
EPIC / IA64
the itanium difference - performance
Poulson
Intel® Itanium® Processor Family Roadmap
Targeted
Segments
Availability
Highlights
Processor
Generation
Future2006-07
Dual Core
KittsonTukwila
Quad Core (2 Billion Transistors)
Ultra Parallel Micro-architecture
Mission-Critical Segment (Database, Business Intelligence, ERP…)
New
Technologies
• 24MB L3 cache
• Hyper-Threading
Technology
• Intel® Virtualization
Technology
• Intel® Cache Safe
Technology
• Lock-step data integrity
technologies (9100
series)
• DBS Power Management
Technology (9100 series)
• Advanced multi-core
architecture
• Hyper-threading
enhancements
• Instruction-level
advancements
• 32nm process
• Large On-Die Cache
• New RAS features
• Scalable buffered
memory
Future
Intel® Itanium®
Processor 9000, 9100
Series
• 30MB On-Die Cache, Hyper-Threading
• QuickPath Interconnect
• Dual Integrated Memory Controllers, 4 Channels
• Mainframe-Class RAS
• Enhanced Virtualization
• Common chipset w/ Next Gen Xeon® processor MP
• Voltage Frequency Mgmt
• ~2x Perf Vs 9100 Series
• Scalable buffered memory
9th Itanium
Generation
Product
• Socket
compatible
with Tukwila
& Poulson
• Scalable
buffered
memory
Begining-2010
8 26 January 2010
HP Servers … Broadest Portfolio in the Industry
Consolidation /
Virtualization
Platforms
Decision Support
&
Business Intelligence
Increasing capacity
Applications
HP ProLiant DL785 G5
Unparalleled
Scalability
Inc
rea
sin
g
Bu
sin
es
s C
riti
ca
lity
Superdome
rx7640
rx8640
rx2660
rx6600
DL380
DL385
DL580
DL585
rx3600
BL870c
BL860c
9 26 January 2010
Scale-in
Shared, virtualized resources
+ Multi-OS
+ High utilization
+ Pay-as-you-grow
+ Automated
+ Scalable
+ Available
+ Software licensing
A
B
C
D
E
F
G
H
I
J
Scalability continuum
Scale-up
More cores
More memory
More I/Os
- Low utilization
- High initial budget
• Availability
• Scalability
+ Management costs
+ Software licensing
Scale-out
More nodes
- Management costs
- Low utilization
- Software licensing
+ Scalability
+ Availability
+ Low initial budget
This is a HP Integrity Superdome computer
with 128 cores, 256 threads
Task Manager with 16 rows and 16 columns
shows 256 logical processors
The SQL load is stabilized across all
256 logical processors
Integrity Superdome w/128 cores/256 threads running
Windows Server 2008 R2 and next-gen SQL Server (Kilimanjaro)
10
Scalable performance leadershipwith Integrity and Windows
OLTP Database • #1 Windows TPC-C¹ with Integrity Superdome at 1.2M+ tpmC1
ERP and SCM
• #1 32p/64c Windows SAP 2-Tier SD with Integrity Superdome5
• #1 16p/32c Windows SAP 2-Tier SD with Integrity Superdome5
• #1 Windows SAP 3-tier SD with Integrity Superdome5
BI and Data Analytics/OLAP
• #1 Windows 10TB TPC-H with Integrity Superdome and SQL Server 20082
• #1 32p/64c Windows 3TB TPC-H with Integrity Superdome8 (SQL Server 2005)
• #1 16p/32c Windows 3TB TPC-H with Integrity rx86407 (Oracle)
• #1 16p/32c Windows 1TB TPC-H with Integrity rx8640 6 (SQL Server 2005)
6 HP rx8640 with Microsoft SQL Server 2005 (SP1), 33,488 QphH @ $27.00/QphH, available 10/06. See www.tpc.org .
7 HP rx8640 Integrity server running Oracle 10gR2 Enterprise Edition with partitioning on Windows Server 2003 Data Center Edition SP1, 37,813 QphH @ $38.00/QphH, available 5/14/07. See www.tpc.org
8 HP Integrity Superdome server running SQL Server 2005 Enterprise Edition SP2 on Windows Server 2003 Datacenter Edition SP1, 60,359 QphH @ $32.60/QphH, available 5/21/07. See www.tpc.org
All results and comparisons as of 11/04/08
1 HP Superdome with Microsoft SQL Server 2005 (SP1), 1,231,433 tpmC @ $4.82/tpmC, available 6/05/06. See www.tpc.org.
2 HP Integrity Superdome server with 32 Intel® Itanium® 9140n processors and SQL Server 2008 Enterprise Edition and Windows Server 2008 for Itanium-based systems, 63,650.9 QphH @ $38.54/QphH, available 8/30/08. See www.tpc.org.
5 For full details on SAP benchmarks, see www.sap.com/benchmark.
6 HP rx8640 with Microsoft SQL Server 2005 (SP1), 33,488 QphH @ $27.00/QphH, available 10/06. See www.tpc.org .
HP Integrity Superdomeunmatched Oracle performance
2.5X better
than IBM
Best Oracle-based TPC-C from HP and IBM
1M
2M
3M
HP Integrity Superdome4,092,799 tpmC
$2.93/tpmC
Avail: 08/23/07
HP-UX 11i v3
IBM p5 5951,601,785 tpmC
$5.05/tpmC
Avail: 04/20/05
AIX 5.3
HP Integrity Superdome1,008,144 tpmC
$8.33/tpmC
Avail: 11/04/03
HP-UX 11i v2
4M
tpmC 4X better
than
previous
Superdome
Results as of 02/27/07, see: www.tpc.org, TPC-C is a trademark of the Transaction Processing Performance Council
First and only 30TB TPC-HHP Integrity goes where no server has gone before
30 TB
The world‟s first and
only 30TB TPC-H
result!
Providing outstanding
HP-UX and Oracle performance
with scalability in a
highly reliable,
standards-based
Integrity server solution• 150,960.5 QphH @30TB
• $46.69/QphH
• Available 6/18/07
Result achieved with
HP Integrity Superdome
(64p/128c Dual-core Intel Itanium2
1.6GHz processors)
with sx2000 chipset and
StorageWorks arrays, running Oracle
10g R2 and HP-UX 11i v3
Results as of 06/19/07, see: www.tpc.org, TPC-H is a trademark of the Transaction Processing Performance Council
Share
Peak
Capacity
Share
Peak
Capacity
Savings:
Systems,
Licenses,
Power,
Cooling,
Floor Space
WHAT‟S THE IMPACT OF INTEGRATION & AUTOMATION WITH DYNAMIC RESOURCES?
Improving staff productivity through intelligent integration and automation!
Most reports put average utilization at approximately 30%
Tremendous amount
of unutilized capacity
Yet these
systems are
unable to
handle the
load
0
20
40
60
80
100
Se
rve
r A
ve
rag
e U
tiliz
atio
n
Servers
Utilization at an actual HP customer
30% avg.
50%+ goal
GET THE MOST FROM SUPERDOME‟S
MASSIVE CAPACITY BY INCREASING
SERVER UTILIZATION
Using HP
VSE and
Systems
Insight
Manager
(SIM)
These
systems can
now handle
the load
30%-50% fewer cores, higher peak capacity
Ma
y
200
8 –
HP
Res
trict
ed.
For
HP
and
cha
nne
l
part
ner
inte
rnal
use
. 15
+ =8 Core Peak
8 Core Peak
12 Core Peak
HP Insight Dynamics – VSE: Capacity planning to optimize utilizationThe new math: 8+8 = 12
• Two workloads each have an 8 CPU peak demand but the peak of their sum is 12 CPUs.
• Peaks for different workloads do not all happen at the same time.
HP Partitioning ContinuumMix & match, to meet customer need
Single Physical Node & OS
Server isolation with HA
HP nPartitions/dynamic nPartitions
Electrical isolation with flexibility
HP Virtual Partitions & HP Integrity Virtual Machines
Adds soft partitioning granularity & flexibility to
server or nPartitions
HP Secure Resource Partitions
(within OS instance) Secure resource partitions for
application stacking
• OS + SW fault isolation
• Dedicated CPU, RAM
vPar 1
• OS + SW fault isolation
• Dedicated CPU, RAM
vPar 2
Hard Partition 1
• OS + SW fault isolation
• Virtual + Shared CPU, I/O
• Virtualized Memory
Virtual Machine 1
Hard Partition 2
• OS + SW fault isolation
• Virtual + Shared CPU, I/O
• Virtualized Memory
Virtual Machine 2
Application 2
Application 3
Application 1
• Guaranteed compute resources (shares orpercentages
Application n
FlexibilityIsolation
Node
• Guaranteed compute resources (shares or percentages)
• Guaranteed compute resources (shares or percentages)
• OS image with HWfault isolation
• Dedicated CPURAM & I/O
nPar 1
• OS image with HW fault isolation
• Dedicated CPURAM & I/O
nPar 2
nPar 3
• OS image with HW fault isolation
• Dedicated CPURAM & I/O
nPar n
HP-UX 11i v3 Dynamic nPartitionsRe-configure on-line
HP-UX 11i v3 Dynamic nPartitions enables the composition of nPartitions to be changed online – while applications continue to deliver service
nPartition 2
P
M
P P P
M M M M M
P
M
P P P
M M M M M
P
M
P P P
M M M M M
P
M
P P P
M M M M M
P
M
P P P
M M M M M
nPartition 1
Cell board
cell on-line add
cell on-line remove
Usage scenarios:
• Online migration of a cell from an underutilized nPartition to an over-utilized nPartition
• Maintenance or upgrade of the hardware on a floating cell
• Online capacity expansion by inserting a new cell board
• Re-integration of a cell into an nPartition after a reboot caused by a hardware fault that de-configured the cell
HP Virtual Server Environment for HP-UX 11i in action today
Control
Virtualized resources
Availability
Automation
Utility pricing
100%: SAP
(5 CPU system)
Unpurchasedprocessors
CPU allocation –consolidated system
6
5
4
3
2
1
0
Va
lue
80% Oracle20% Security
Time – Consolidated Server
SAP Oracle Security
(5 CPU system)(6 CPU system)
x50% SAP40% Oracle10% Security
Dynamic resource flexing with HP VSE and Oracle RAC
vPar vPar
Human Resources
(HR)
Oracle RAC Service Status
Preferred Available
Node 1 Node 2
Database Load VSE Response
Increase in database workload as sales reporting begins
Sense service level breached and scales up –moves CPUs from HR to FA on Node 1
Continued increase in database workload as sales reporting continues
Sense capacity exhausted on Node 1 and scales out– activates FA on Node 2
Sales reporting activity subsides, database workload returns tonormal levels
Sense reduced demand and scales back –deactivates FA on Node 2 and moves CPUs back from FA to HR on Node 1
vPar vPar
Financial Analysis
(FA)
General Ledger (GL)
HP VSE Reference Architectures for HP-UX 11iDocumented best practices that reduce solution
deployment timeDesign Testing Deployment
Timeline without VSE reference architectures**
Timeline using VSE Reference Architectures**
12 to 24 weeks 4 to 8 weeks 1 to 2 weeks
1 to 2 weeks2 to 4 weeks < 1 week
** specific time ranges are illustrative examples, actual times will vary depending on specific environment
Optimize design time:• Proven designs to apply as is or customize rapidly
Speed up testing time:• Valid configurations that minimize testing
Cut down deployment time:• Standardized solutions for easy roll out to multiple servers
Mission-critical computingHow much does downtime cost you?
Source: Meta Group, 10/20000
$500,000
$1,000,000
$1,500,000
$2,000,000
$2,500,000
$3,000,000
Revenue $ Per Hour
Energy
Telecom
Manufacturing
Financial Inst.
Information Tech.
Insurance
Retail
Pharmaceuticals
Banking
Food/Beverage
Consumer Prod
Chemical
Transportation
Utilities
Healthcare
Metals/Nat Res.
Professional Serv.
Electronics
Construction/Eng.
Media
Hospitality/Travel
Average
Hourly Average Cost of DowntimeAcross Industries
x86 vs. Integrity RAS
22
Processor
13
Intel
Itanium® 2
Intel
Xeon™ MP
Intel
Xeon™
AMD
Opteron™
Cache parity/ECC Limited Limited Limited
Memory single device error correct (SDEC),
retry double-bit errors
Memory spares
Recover from data bus error (ECC)
Electrical isolated partitions
[1]Enhanced MCA handling & error logging Limited Limited Limited
[2]Dynamic processor resiliency
Instruction Retry APR
Built-in sensors & thermal control
Lockstep support **
Bad data containment
(Data Poisoning & Signaling for Error
Recovery)
Internal logic soft error
checking
Cache-line deletion
(Pellston)
Intel virtualization technology (Silvervale) Future Future
Intel active management technology Future Future Future
Built-in sensors & thermal control
[1]Enhanced MCA handling and Error Logging are tools provided to allow for more granularity of error containment. This allows errors to not propagate and to let recovery to have the least impact as possible[2]Dynamic processor resiliency (DPR) extends the processor RAS features through the operating system
** Itanium feature not implemented in HP Integrity servers
Memory
15
*Integrity
Itanium® 2
Typical
Xeon™ MP
Typical[2]Opteron™
Data Bus ECC protection
Scrubbing
Advanced ECC /Chip Spare / Chip Kill™
Page De-allocation
Double-Chip Spare
Address/Control Bus Parity protection
Redundant Addr/Ctl Interconnect +
[1]Mirror/RAID/DIMM Spare
+Only on Cellular systems[1]Extra DIMMs is an expensive way (in terms of $ and performance) to accomplish the same protection as DMR[2]Opteron memory features are a function of the processor. Other architectures memory features are a function of the CECs, firmware, DIMM types, and the operating systems.
4
Causes of downtime Examples
Planned administrative downtime
Upgrades for hardware components, firmware,
drivers, operating system, and software
applications.
Component failures
Faulty server components, such as memory
chips, fans, system boards, and power supplies.
Faulty storage subsystem components, such as
failed disk drives and disk controllers.
Faulty network components, such as routers and
network cabling.
Software defects or failures
Drive stops responding, operating system stops
responding or reboots, viruses, or file
corruption.
Operator error or malicious usersAccidental or intentional file deletion, unskilled
operation, or experimentation.
System outages or maintenanceSoftware or systems requiring reboot, or system
board failure.
Local disaster Fires, storms, and other localized disasters.
Regional disasterEarthquakes, hurricanes, floods, and other
regional disasters.
Causes of downtime and examples of each cause
http://technet.microsoft.com/en-us/library/aa998704(EXCHG.65).aspxSource: Microsoft:
A closer look
Causes of downtime Examples
Planned
administrative
downtime
Upgrades for hardware components, firmware, drivers,
operating system, and software applications.
Component failures
Faulty server components, such as memory chips, fans,
system boards, and power supplies.
Faulty storage subsystem components, such as failed disk
drives and disk controllers.
Faulty network components, such as routers and network
cabling.
5
How often is an x86/64 server rebooted in the course of a year?
Daily
Weekly
Monthly
other
Local Serviceguard Cluster Metrocluster
Synchronous Replication or
Mirroring
Continentalclusters
Cluster
Heartbeats
(2 clusters)
Asynchronous Replication
app 4 app 3 app 2 app 1app 1app 2app 3app 4
Cut costs by moving to
HP-UX 11i v 3
Cut costs by reducing
management time & effort
Cut costs by reducing
planned downtime
Cut costs by reducing
unplanned downtime
Cluster
Heartbeats
(1 cluster)
Stay available, stay profitable.
HP SERVICEGUARD SOLUTIONS
Inventing Tomorrow – For 25 Years and Counting
HP-UX
• 1983 - First HP-UX systems ship
• On the HP 9000 Series 500 computer
• 1986 - HP-UX creates the UNIX business server market
• HP-UX ships on the first PA-RISC Server
− The HP 9000 Series 840
• 2001- HP-UX ships on HP Integrity Servers
− The first OS to ship on Itanium-based servers
• 2007 – HP-UX 11i v3 ships
• Improved performance, virtualization, availability, security & manageability
• 2009 – HP-UX has thrived in shipping across 4 different
processor architectures
− HP FOCUS
− Motorola 68000
− HP PA-RISC
− Intel Itanium
Data Center Operating Environment (DC-OE)*
High Availability OE (HA-OE)* Virtual Server OE (VSE-OE)
Advanced file system
and volume
management
Goal-based workload
management
Partitioning
Capacity advisor
Virtualization
manager
System performance
analysis
System management
Security
Kernel & application
performance analysis
Base file system and
volume manager
Base OE (BOE)
Superset: HA-OE + VSE-OE, both of which include BOE
Advanced file system
and volume
management
High availability:
Failover cluster
software
and related
toolkits
System performance
analysis
HP-UX 11i v3 OE FUNCTIONALITY
~50%
~30% Lower costs through:
Virtualization; optimized
asset utilization,
availability & control
lowers cost & risk of
unplanned downtime
Security; prevent, detect,
and contain
Availability; clustering,
disaster tolerance &
recovery, dynamic
tunables
Management; seamless
single asset view &
control
WHAT DRIVES AN ECONOMIC VALUE ANALYSIS?
• Direct one-time
• Costs
• Hardware – 8%
• Software – 11%
• Support – 11%
• + direct On-going
Costs
• Systems
Management – 28%
• Communication – 6%
• Facilities – 8%
• Changes – 8%
• + indirect Costs
• Availability – 9%
• Security
• Application Development – 11%
~20%
27
Example of TCO advantage of Windows on HP Integrity servers
Bottom line:
$801K savings or 12.4%
TCO Comparison
(Total Three Year Costs)
X86 Based
Servers
HP Integrity
Servers
HP Integrity
Savings
Percentage
Difference
Server Hardware $640,000 $1,842,000 ($1,202,000) -187.8%
Server Software $4,000,445 $2,714,248 $1,286,197 32.2%
Network Equipment $163,125 $26,100 $137,025 84.0%
Administration Labor $1,552,500 $1,035,000 $517,500 33.3%
Facilities (Power & Space) $66,210 $27,990 $38,220 57.7%
Initial Implementation $42,750 $19,00 $23,750 55.6%
Total $6,465,030 $5,664,338 $800,692 12.4%
Source: Alinean, July, 2008
50 x86 servers per location2 Integrity servers per location
206 processors per location40 processors per location
27
Summary
You are dealing with
• High cost
• Low efficiency
• Excessive complexity
• Multiple or ungainly databases
We can help by delivering mission-critical, scalable Windows for the enterprise
• Always scalable− Future-focused to grow with your
needs
− Manage your largest databases• Heavy lifting for SQL server
environments
• Always available− Highly available & disaster tolerant
with MS certified HP cluster extensions
• Compelling TCO (your mileage may vary)
− Lower staffing
− Fewer licenses
− Less floor space
− Easier management
− Fewer systems
− Virtualized for flexibility
HP VSE “Firsts”: We‟ve got proven experience that goes back years
1995
2000
2001
2003
2004
2005
2006
• HP Process Resource Manager – dynamic resource allocation
• HP-UX Workload Manager – FIRST goal-based workload management for UNIX
• HP nPartitions – hard partitions with full electrical isolation
• HP Instant Capacity (iCAP) – FIRST deferred purchasing of inactive server resources
• HP Virtual Partitions (vPars) – soft partitioning for HP-UX
• HP Virtual Server Environment – FIRST integrated server virtualization solution for management, partitions, high availability, and utility pricing
• HP VSE Reference Architectures – FIRST pre-tested, pre-integrated virtualization offering for key applications
• HP global Workload Manager – UNIQUE application- transparent automated resource allocation for large virtualized environments
• HP Integrity Virtual Machines for multi OS – first running HP-UX
• HP Virtualization Manager – EASY visualization and configuration of virtualized and physical environments
• HP Capacity Advisor –FIRST lightweight, integrated tool for ongoing capacity planning
• HP Global Instant Capacity (GiCAP) – FIRST resource optimization tool for moving server resources and software licenses between servers as needed
• HP Capacity Advisor – FIRST to include capacity trending capabilities
• HP Capacity Advisor – UNIQUE “Smart Solver” technology
• HP Global Workload Manager – UNIQUE predictive control
• HP VSE includes logical server capabilities for Integrity Blades
2008
2007
2009
© 2008 Hewlett-Packard Development Company, L.P.
The information contained herein is subject to change without notice
HP Integrity – The Most Trusted. Always.
HP ProLiant DL785 G6 Server
31 26 January 2010
ProLiant DL785 – solves major challenges
IT supply meets business demand
Reduce costs
• Improve utilization
• Improve IT staff productivity
• Lower cost of IT operations
Increase agility
• Make infrastructure more flexible
• Deploy new services rapidly
• Speed in introducing IT change
Improve quality of IT delivery
• Align IT with the business
• Achieve predictable service availability
• Higher quality of service
Consolidate on one platform
• Virtualize smaller applications
• Simplify resource management
• Fewer maintenance contracts & licenses
Expand applications in same server
• More memory & I/O
• Unified Infrastructure Management
• Common ProLiant attributes
Higher performance application support
• Rapid expansion capability
• Unified Infrastructure Management
• Business-critical RAS features
HP ProLiant DL785 G6 – with latest 6-Core AMD Opteron processors!Built to improve utilization and reduce resource sprawl
Ready for growth• Better price/performance and performance per watt
with new six-core Istanbul processors
– Improved AMD-V Features, including HT Assist, Rapid Virtualization Indexing , AMD Core Select & AMD Dual Dynamic Power Management
– In-box upgrade for existing customers
• Enhanced Power management with new Power Supply
• Highly resourced server platform to consolidate and virtualized applications
• Transactional superiority for business intelligence and decision support applications
*SE SKUs consume 105 W ACP, Std SKUs consumes 75 W ACP and HE SKUs consume 55W ACP. ACP (Average CPU Power) which is an AMD metric for power consumption for typical and relevant commercially useful high utilization workloads
2Q08 4Q08 1Q09 2Q09 3Q09
DL785 G5 AMD Barcelona
DL785 G5 AMD Shanghai
DL785 G5 AMD Shanghai
DL785 G5 AMD Shanghai
DL785 G6 AMD Istanbul
2.2, 2.3 GHz std*, 2.4, 2.5 GHz SE*
2.4, 2.5 2.7 GHz std*
2.3 GHz HE*
PC2-6400 DIMMs
nVidia Graphics
3.1 GHz SE*, 2.9 GHz, 2.8 GHz & 2.5
GHz HE* SKUs
2.8GHz SE, 2.4 GHz std & 2.1 GHz HE
6-core Istanbul SKUs
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Six-Core AMD Opteron™ Processor Power features• 50% more cores
− Better performance, bigger workloads
• HT Assist
− helps reduces memory latency and increase overall system performance in multi-socket systems
− Reduces probe traffic & resolves probes more quickly
• CoreSelect
− Greater control, tuned performance
• SmartFetch
− Lower processor power consumption by up to 21%
• AMD PowerNow! with AMD PowerCap
− Allows HP enabled power capping
• Set MHz or Voltage limits
6MB L3 CacheDDR2 HT
Core 3
Core 1 Core 2
Core 4
Core 5 Core 6
6MB L3 CacheDDR2 HT
Core 3
Core 1 Core 2
Core 4
Core 5 Core 6
6MB L3 CacheDDR2 HT
Core 3
Core 1 Core 2
Core 4
Core 5 Core 6
6MB L3 CacheDDR2 HT
Core 3
Core 1 Core 2
Core 4
Core 5 Core 6
26 January 201033
34 26 January 2010
HP ProLiant DL785 G6 – overview
Simply, the most expandable 8s x86 Server available
ProLiant DL785 G6
Processor• 4 or 8 2.8 GHz SE, 2.4 GHz Std and 2.1 Ghz HE Six-Core AMD
Opteron™ processors
Memory• 64 DDR2 DIMM slots
• 512GB max memory
Internal Storage
• 8 (std) + 8 (opt) SFF SAS drive bays
• Up 8.0 TB of Hot Plug SAS with 500GB SAS drives
• Embedded RAID support with optional BBWC, RAID 0/1 support
• 1 removable Slimline DVD/CD-RW Drive
Networking • Dual embedded Gigabit NICs with TCP/IP Offload Engine
I/O• 11 PCIe slots
• 7 PCIe & 2 HTx slot optional upgrade
Management• Integrated Light Out 2 ( iLO 2 )
• Power Monitoring, Power regulation & Power Capping
Form Factor • 7U Rack Mount Server
OS• Windows, Redhat Linux, Suse Linux, Oracle Enterprise Linux,
Sun Solaris
Virtualization • VMWare ESX, Linux Virtualization (Xen), Citrix XenServer, Hyper-V,
Oracle VM
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Virtualization
VMWare
XenSource
RH & SLES XEN
Windows Server 2008 Hyper-V
Windows 2008 - Windows HPC Server 2008
Windows 2008 - Small Business
Windows 2008 - Datacenter Edition
Windows 2008 - Enterprise Edition
Windows 2008 - Standard Edition
26 January 2010
HP ProLiant DL785 G6 OS Support
Linux
RHEL 4.8
RHEL 5.3
Novell SLES 10 (SP2)
Novell SLES 11
OEL 5.3
Solaris 10
35
DL785 award-winning performance
• #1 overall VMmark benchmark result: Virtualization leadership
• #1 non-clustered TPC-H@300GB benchmark result: BI leadership
• #1 8-Processor OS 2-tier SAP® SD Standard Application Benchmark
• #1 8-Processor SPECjbb2005 benchmark result: Java business application performance leadership
• #1 8-Processor SPECpower_ssj2008 benchmark result: Energy-efficiency Leadership
• #1 8-Processor/32 core SPECint_rate2006 benchmark result
• #1 I/O performance on FIO benchmark : Exceeded 1 Million IOPS and 8 GB/s Throughput with Fusion I/O on a single server
• Climate Savers smart-computing compliant: Energy-efficiency Leadership
• HP ProLiant DL785 G5 Wins IT Pro Editor‟s Choice Award
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Results as of 06/02/0926 January 201036
37 26 January 2010
Target workloads for DL785
*TPC-H is a decision support benchmark developed and administered by the Transaction Processing Performance Council (TPC). The test is focused on ad-hoc queries submitted to a data warehouse residing in a relational database at various data volumes. These tests use industry relevant data and queries to simulate real-world workload(s). (www.tpc.org )
Consolidation and virtualization
Decision Support and Business Intelligence
Applications demanding high-performance I/O
• Architected to improve server utilization and reduce server sprawl
• Best x86 server for virtualization. See VMmark benchmark for HP‟s leadership results
• 11 I/O slots and four I/O bridges enable very high I/O throughput and up to 512 GB memory provides ample I/O & memory to support large numbers of virtual machines.
• Balanced architecture with ample I/O and memory delivers ideal platform for „read-intensive‟ decision support and business intelligence
• World #1 non-clustered TPC-H@300GB benchmark result with best performance and great price/performance is a proof point.
• Three PCIe x16 slots for high performance I/O for accelerators, visualization, or highspeed communications.
• HTX option and third-party HTx cards allows direct and faster access to the processors
Workhorse
DL785 G6: ULTIMATE CONSOLIDATION
Savings by consolidating G4 servers on to DL785 G6
Lower operating costs
$26,005/yr
Power/cooling savings
Lower software costs
$44,300/yr
OS licensing savings
2005
61 servers
(single-core)
15,555W
Featuring
6-Core AMD Opteron
Assumptions
Consolidating
completely depreciated
61 DL380 G4 servers
on to a DL785 G6
30% & 60% utilization
of G4 and G6
servers respectively
Consolidation ratio and
savings will vary based
on customer scenarios
87654321
UID
21HP
ProLiantDL785G5
Rapid Payback6 month
ROI from G4
2009
1 DL785 G6 server
(six-core)
Data Source: HP ProLiant G6 ROI Calculator (URL: http://intranet.hp.com/tsg/ams-salesportal/proliant/Pages/index.aspx)
Rapid Payback6 month
ROI from G4
Sun New DL785 G6 IBM
Consolidate 10 Sun
SPARC 6800 servers
Running Solaris &
Oracle DB
…and lower your operating costs* by $3,804,864/yr
1 DL785 G6 server Consolidate 27 IBM
x445 servers
Running Windows &
SQL Server
…and lower your operating costs* by $2,699,918/yr
87654321
UID
21HP
ProLiantDL785G5
*Includes power/cooling, floor space, implementation, system admin, OS & database licensing. Data Source: Ideas
International Ltd.
Workhorse
DL785 G6: ULTIMATE CONSOLIDATION
| HP Solution Blocks | Customer Presentation
Rapid PaybackLess than
3 months ROI
Rapid PaybackLess than 3 months ROI
40 26 January 2010
DL785 hits sweet spot with balanced 8-socket architecture
Scala
bili
ty a
nd p
erf
orm
ance
HigherPerformance RAS
Increasing efficiency
Price/Performance
ProLiant DL785ProLiant DL580 G5
ProLiant DL585 G6
Integrity 7640
41 26 January 2010
• Integrity, overcomes risk of downtime concerns− HP‟s SW/OS solutions, HP-UX, HP Serviceguard and Virtual Server Environment, tightly
integrate to the system to enhance overall availability
− Built for the highest level of HW availability with double chip spare memory technology and electrical cell isolation; ideal for mainframe replacement
− With unparalleled scalability, we also offer maximum resource utilization with HP‟s advanced partitioning and sophisticated virtualization capabilities
− Durable and stable infrastructure delivering long-term investment protection
HP Integrity and ProLiant Servers address customer requirements, with different strengths…
• ProLiant, when customers require the economies and standardization of an x86 ecosystem
− Robust infrastructure optimized for price, performance, and feature-set
− Industry standard options, and best-in-class price and price: performance are paramount
− Broadest x86 portfolio, and access to the broadest x64 solution stack, to meet your customers diverse needs
− Industry leading software tools for comprehensive and integrated installation, deployment and management of your IT environment
42 26 January 2010
DL785 G6 vs. DL585 G6 vs. DL580 G5
DL785 G6 DL585 G6 DL580 G5
Processor8 socket/48 core
AMD: Six-core Shanghai
4 socket/24 core
AMD: Six-core Shanghai
4 socket/16/24 cores
Intel: Six-core Dunnington
Max Memory 64 DIMM slots
Max memory: 512GB
32 DIMM slots
Max memory: 256GB
32 DIMM slots
Max Memory: 256GB
Drive Bays 8 SFF SAS bays std, with +8 SFF SAS optional drive cage
8 SFF SAS bays std8 SFF SAS bays std, with +8 SFF SAS optional drive cage
RAID
Embedded P400i
RAID 0, 1, 1+0, 5, 6 w/BBWCStand up card required for 2nd 8 bay drive cage
RAID 0, 1, 1+0, 5, 6 w/BBWC
Embedded P400i
RAID 0, 1, 1+0, 5, 6 w/BBWC
Stand up card required for 2nd 8 bay drive cage
SlotsStandard: 11 slots PCI-e
3 x16 slots, 3 x8 slots, 5 x4 slots 9 slots: 1 used for Array controller
3 x8 PCI-e , 4 x4 PCI-e, 2 PCI-x
Standard: 8 slots – 4 PCIe x4,4 PCIe x8 Optional mezz adds 2 pci-x/100 & 1 PCIx/133 or 3 x8 PCIe
Ports
5 USB 2.0 ports (2 front, 2 rear,1 internal) 1 Serial Port (rear)
PS2 keyboard/Mouse Support (rear)
ES1000 VGA Controller with 2VGA ports (1 front, 1 rear)
iLO2
5 USB 2.0 ports (2 front, 2 rear,1 internal)
1 serial port , 1 front, 1 rear video
Keyboard/mouse support, 2 RJ45
iLO2
2 Gigabit NICs with TOE
2 front USB; Front Video
iLO2
Form Factor 7U 4U 4U
DL785 is for customers looking for more compute, I/O and memory resources for their databases , enterprise applications and x86 virtualization allowing headroom and expandability
43 26 January 2010
Competitive comparison
HP
DL785 G6
IBM xSeries
x3950 M2
Sun
X4600 M2
Proc. Type Six Core Opteron Six Core Xeon Six Core Opteron
Proc. Capacity8 processors/
48 core
4 procs/24 cores per chassis;
one to four chassis per system
8 processors/32 cores
Int. Storage8 standard;
expandable to 164 per chassis 4 standard
Max. Memory 512GB 256GB per chassis 256GB
I/O11 PCIe (x16, x8 & x4) or
7 PCIe & 2 HTx slots
7 PCIe (x8 only)
per chassis
6 PCIe (x8 & x4)
and 2 PCIx
Form factor 7U 4U per chassis 4U
Warranty 3 year NBD 3 year NBD 3 year NBD
ProLiant DL785 advantage: The industry‟s 8 socket workhorse delivering leading headroom and expandability for enterprise applications and x86 virtualization.
© 2008 Hewlett-Packard Development Company, L.P.
The information contained herein is subject to change without notice
HP Integrity – The Most Trusted. Always.
HP BladeSystem Matrix introduction/overview
45 26 January 2010
Yesterday‟s infrastructureBuilt one server at a time
Line of business
selects application
Get purchase
approvals Order serverProject planning
meetingsAnd more
meetings
Server delivery unpack inventory Move to
test centerBuild process
server network storage facilities
Change control
approvals
Move to
production
environment Re-cable and move
into production
• Many people
• Many manual steps
• Many weeks
• Human error
46 26 January 2010
Today‟s integrated infrastructureProvisioned when needed
Line of business
selects
application
Verify resource allocation
(self-service portal)Tool determines available
resources and when
Push
“go”
Workflow starts
automatically
A full application
infrastructure up
and running!
• Less people
• A few automated steps
• Integrated information
• Same functionality for virtualand physical servers – no compromises!
Choose infrastructure
application template
(right size?, right app?)
47 26 January 2010
HP BladeSystem MatrixCollapses cost & complexity for any workload
One managed domain across 1000 physical servers and VMs
Affordable failover & Disaster Recovery-ready for all apps
OS and hypervisorssupported equally
Open choice of Integrity, ProLiant, core network and SANResource Pool
ERP CRM DataWarehouse
Database
Mail and Messaging
File, Print, Infrastructure
48 26 January 2010
Ideal usages for BladeSystem Matrix
1. IT consolidation platform
− Unified physical and virtual platform – perfect fit, including power/cooling efficiency
2. Data Center transformation (AI), utility compute
− Organizations moving to shared services models
3. Service providers – dedicated, virtual and cloud
4. Test/Dev automation
− HP IO designer with self-service portal and scheduling ideal fit
5. Internal cloud/Compute Pool
− HP IO designer with self-service portal and scheduling ideal fit
− Connections to external clouds
49 26 January 2010
Ready for business in 108 minutes
• 5 minutes of ONE administrator time to initiate
• 5 minutes approval time
• 38 minutes to provision infrastructure
• 60 minutes to install/configure applications
Typical process for this customer was 33 days.
50 26 January 2010
A service-ready infrastructure delivered to your data centerBest practice design becomes best practice operations
• Infrastructure provisioning in minutes instead of weeks, identically for virtual as physical servers
• Establish and enforce consistent architectural standards
• Extensible with existing workflows
• Works with existing typical IT processes
Visual interface
App template library
Push-button deploy; self-service portal
51 26 January 2010
Matrix is the integration point to deliver the business-ready infrastructure
A
B
C
D
A
B
C D
B
A
C
D
BA
C
D
SAN/iQ
Cluster
V
S
A
VSA
Log
os
Infrastructure convergence Partner integration Business-ready infrastructure
• Add converged storage support
• VC + network integration
• More management integration
• Build application template library
• 3rd party network and business service integration
• Increased HP Software, service & facility integration
© 2008 Hewlett-Packard Development Company, L.P.
The information contained herein is subject to change without notice
HP Integrity – The Most Trusted. Always.
Thank You