PowerPoint Presentation
Eurasia.com 20121Vision for a Sustainable Future in
Telecommunications and IT Data CentresEnzo
AdamoDirector\StrategistManaging Principal MEMA & Italy
Copyright 2011 Hewlett-Packard Development Company, L.P. The
information contained herein is subject to change without notice.
Confidentiality label goes here 2 Climate change is the greatest
threat to our common future. We have a very short period of time to
tackle the problem before it becomes irreversible and out of
control. A lot of progress has been made, but we must now go
further, faster and turn targets into real changeClimate change is
the greatest threat to our common future. We have a very short
period of time to tackle the problem before it becomes irreversible
and out of control. A lot of progress has been made, but we must
now go further, faster and turn targets into real changeChris
Huhne, Secretary of State for Energy & Climate Change UK (May
2010). Copyright 2011 Hewlett-Packard Development Company, L.P. The
information contained herein is subject to change without notice.
Confidentiality label goes here 3
CIOs ChallengesOutcomeIT capacity and availability. Drives
facility suitability decisionsFaster business performanceIntegrate
& convergeIncreasing construction and power costsEffective
growth and efficiency plansNeed for greater flexibility Challenges
conventional thinkingDo more with less Copyright 2011
Hewlett-Packard Development Company, L.P. The information contained
herein is subject to change without notice. Confidentiality label
goes here 4
CIOs Legislative PressuresOutcomeImprove Energy Efficiency.
Reduce Carbon Footprint to ZeroMetricsPUE & DiCEPublishing of
League Tables.Publicise Company Performance Financial Buying
AllowancesImposed PenaltiesEnergy demands > supply capabilities
Copyright 2011 Hewlett-Packard Development Company, L.P. The
information contained herein is subject to change without notice.
Confidentiality label goes here 5CIOs Infrastructure
ProblemsTechnology ServicesKeep my technology running. Always
OnMake efficient use of my infrastructure resources.Energy and
Resource EfficientTransform my infrastructure for the
future.Converged and VirtualizedSimplify and integrate my business
communications. Unified and ConnectedBusiness demands outpacing
capabilities
Copyright 2011 Hewlett-Packard Development Company, L.P. The
information contained herein is subject to change without notice.
Confidentiality label goes here 6VisionTo Create a Data Centre that
consumes NET ZERO energy from non renewable sources over its entire
lifecycle, from initial resources extraction and manufacturing
through operation and end-of-life reclamation
HP LABS Vision And Sustainability Mission Statement Copyright
2011 Hewlett-Packard Development Company, L.P. The information
contained herein is subject to change without notice.
Confidentiality label goes here 7Factors Copyright 2011
Hewlett-Packard Development Company, L.P. The information contained
herein is subject to change without notice. Confidentiality label
goes here 8Water Damage- Flooding- Leaking pipePower Failure-
Blackout/Brownout- UPS failureForce of Nature- Flooding- Hurricane-
Tornado- EarthquakeFireTelecommunications FailureMajor IT Equipment
Failure- Processor failure - Storage failureHuman Interference-
Operator error- Sabotage- Employee strikes- Viruses- Fraud -
TerrorismRisk ProfileAutomation removes most of the human
interference issues. Copyright 2011 Hewlett-Packard Development
Company, L.P. The information contained herein is subject to change
without notice. Confidentiality label goes here 9Sustainable Data
CentreBuilt Infrastructure Design Copyright 2011 Hewlett-Packard
Development Company, L.P. The information contained herein is
subject to change without notice. Confidentiality label goes here
10Hyper Scaled Low Power ServersSuper-dense servers based on Intel
low-power Xeon and Atom chips and Advanced Micro Devices low-power
x86 processors as well as multiple suppliers of ARM-based server
chips.
Copyright 2011 Hewlett-Packard Development Company, L.P. The
information contained herein is subject to change without notice.
Confidentiality label goes here 11
HP RedstoneSingle-height ProLiant Half 2U tray server providing
72 Sever nodesHyper Scaled Low Power Servers
HP RedstoneThe trays slide into the 4U version of the ProLiant
SL6500 chassis providing 288 sever nodes Copyright 2011
Hewlett-Packard Development Company, L.P. The information contained
herein is subject to change without notice. Confidentiality label
goes here 12A half rack of Redstone machines and their external
switches implementing 1,600 server nodes has 41 cables, burns 9.9
kilowatts, and costs $1.2m.
A more traditional x86-based cluster doing the same amount of
work would only require 400 two-socket Xeon servers, but it would
take up 10 racks of space, have 1,600 cables, burn 91 kilowatts,
and costs $3.3m. The big, big caveat is, of course, that you need a
workload that can scale well on a modestly clocked (1.1GHz or
1.4GHz), four-core server chip that only thinks in 32-bits and only
has 4GB of memory.Paul Santeler VP/GM Hyperscale Business Group at
HP Hyper Scaled Low Power Servers Copyright 2011 Hewlett-Packard
Development Company, L.P. The information contained herein is
subject to change without notice. Confidentiality label goes here
Converged InfrastructureArchitecture For The Next Decade
Virtual Resource PoolsA common modular infrastructure of
virtualized server, storage, and I/O resources
Data CenterPower ManagementIntelligent energy management across
systems and facilities
FlexNetworkArchitectureConverged networking architecture that
spans from the virtualized data center to the virtual workplace
with integrated security
Matrix Operating EnvironmentA common management platform to
manage and automate from infrastructure-to-application Copyright
2011 Hewlett-Packard Development Company, L.P. The information
contained herein is subject to change without notice.
Confidentiality label goes here 20 March 2012HP Confidential13
Converged InfrastructureThe Storage Architecture For The Next
DecadeDynamic Optimization
Thin ProvisioningMesh-Architecture
T800Technology to maximize storage utilizationAutomatically
optimizes using multiple classes of storageWorkload management and
load balancingAdvanced shared-memory architectureVirtual
Domains
Multi-tenancy for service providers and private cloudsAutonomic
Storage Tiering
Copyright 2011 Hewlett-Packard Development Company, L.P. The
information contained herein is subject to change without notice.
Confidentiality label goes here 20 March 2012HP
Confidential14Simplified and integrated Virtualized Networks
IRFIRFIRFOSAPPOSAPPOSAPPOSAPPOSAPPOSAPPOSAPPOSAPPOSAPPOSAPPOSAPPOSAPPOSAPPOSAPPOSAPPOSAPPOSAPPOSAPPOSAPPOSAPPOSAPPOSAPPOSAPPOSAPPOSAPPOSAPPSingle-device
managementAll links utilized
Seamless recovery85%Complexity reductionIntelligent Resilient
Framework (IRF) Copyright 2011 Hewlett-Packard Development Company,
L.P. The information contained herein is subject to change without
notice. Confidentiality label goes here Another innovative
capability in the HP data center networking arsenal is Intelligent
Resilient Framework - or IRF. IRF runs standard on nearly the
entire line of A-series switching platforms - no licensing hassles.
In a nutshell, IRF is an incredibly powerful switch virtualization
technology that allows customers to simultaneously streamline
management, improve performance, and enhance network
availability.
Before we describe IRF further lets talk about how the
competition builds data center networks. Legacy networks were built
with old technologies like spanning tree and virtual router
redundancy protocol - or VRRP. While these tools work fine for
small-scale, lower performance environments, they hold up the show
in highly virtualized data center environments.
First, customers are stuck with the old switch-by-switch
management model. In a large scale solution we might be talking
about hundreds of discrete devices - to configure, patch, and
maintain. Next those old tools dont do a good job of using all the
performance capacity that would otherwise be available to the
network. We all know about dead links in spanning tree
configurations. In the data center that model is a non-starter - we
need to use all the capacity weve got! Lastly, the sheer complexity
of legacy network designs mean that these protocols dont bounce
back from device and link failure as quickly as necessary. Downtime
is the enemy of any business - and downtime in the data center can
really impact business operations.
With IRF customer can overcome ALL these limitations. First IRF
give customers single IP mgmt of multiple physical switches - up to
nine A-series fixed port switches and two A-series modular
switches. This significantly reduces management complexity and
streamlines operations. Now, there is nothing new about single IP
mgmt - any stacking technology worth paying for provides this. But
IRF goes beyond traditional stacking by allowing customers to fully
utilize ALL links in the network design. Fully utilized pipes mean
higher performance - plain and simply. Lastly IRF provides for
reliable millisecond-scale recovery from link and device
failure.
When you step back from the technology specifics you get in
touch with what IRF enables at the network level - flatter network
designs and higher performance, direct server-to-server
connections. Now Virtual Machines have direct, high performance
paths between servers and customers can build flatter, simpler,
more scalable network designs.
When you think of traditional networks built with old tools you
get a four-stop flight with security checks at every stop. With IF,
think of a direct flight with ONE security check.
20 March 2012HP Confidential1516Monitoring & Management
SystemsBMS + Security + Life System MonitoringServer Power
ManagementApplication and Network ManagementUtility and Rack Power
management
Copyright 2011 Hewlett-Packard Development Company, L.P. The
information contained herein is subject to change without notice.
Confidentiality label goes here Server Power Monitoring &
ManagementPower and cool only whats in use or running hot
Balanced ModeHigh Efficiency Mode
32 Smart Temp. Sensors
Auto fan and I/O controlRegulate CPU clock speed based on
workload intensityOptimum power efficiency even under light
loadsPower Supply High Efficiency ModeIntelligent Fan and I/O
ControlPower Regulation Copyright 2011 Hewlett-Packard Development
Company, L.P. The information contained herein is subject to change
without notice. Confidentiality label goes here 20 March 2012HP
Confidential17Application and Network Monitoring &
Management
Copyright 2011 Hewlett-Packard Development Company, L.P. The
information contained herein is subject to change without notice.
Confidentiality label goes here 20 March 2012HP
Confidential18Utility Power Monitoring & Management
Copyright 2011 Hewlett-Packard Development Company, L.P. The
information contained herein is subject to change without notice.
Confidentiality label goes here 20 March 2012HP Confidential19BMS +
Security + Life System Monitoring
Data Center Fire Alarm Systems Data Center BMSData Center
Security SystemsData Center Main System Integrated management
SystemTo Rack environmental & Utility Power Management
Copyright 2011 Hewlett-Packard Development Company, L.P. The
information contained herein is subject to change without notice.
Confidentiality label goes here 20 March 2012HP Confidential20Built
Infrastructure Copyright 2011 Hewlett-Packard Development Company,
L.P. The information contained herein is subject to change without
notice. Confidentiality label goes here 20 March 2012HP
Confidential21
22Free CoolingASHRAE Environmental Conditions for a Class A1
Enterprise Data Center
Allowable 15 32 Deg C, 20 - 80% RH
--------------------------------------------ASHRAE TC 9.9 2011
Thermal Guidelines for Data Processing Environments Copyright 2011
Hewlett-Packard Development Company, L.P. The information contained
herein is subject to change without notice. Confidentiality label
goes here 23Power Conversion
X86 ServersAC72-74%UPS Room AC DC - ACData Center PDU (208
ac)Actual AC Distribution PracticePower InUtility 380 415v AC
(ROW)X86 Servers
HVDC80-88%Industry Discussed HVDC Distribution
x86 Servers
UPS RoomAC - DC
HVDC to the loadUtility Power In380 415v AC (ROW)
Blade System (c-Class)w/ Thermal Logic Technology
N+N Pooled PowerDynamic Power SaverImproved
EfficiencyLine-InteractiveUPS and PDR
AC Distribution today with BladesUtility Power In380 415v AC
(ROW)AC83-85% Copyright 2011 Hewlett-Packard Development Company,
L.P. The information contained herein is subject to change without
notice. Confidentiality label goes here 24Intelligent Control
R E C L A I MR E D U C EE X T E N D
Building SystemsUtility power ManagementServer Power
ManagementApplications & NetworkIntelligent Management System
Copyright 2011 Hewlett-Packard Development Company, L.P. The
information contained herein is subject to change without notice.
Confidentiality label goes here 25Renewable & Waste Energy
RecoveryReturn heat plus solar heated water can be used to power
micro steam turbinesSome return air can be used to improve inlet
air quality using Heat wheels Photo Voltaic panelsDue to
localization, cooling of Data room space is not so
essentialReturning hot air from Data Room heats water and used to
power Adsorption Chillers Copyright 2011 Hewlett-Packard
Development Company, L.P. The information contained herein is
subject to change without notice. Confidentiality label goes
here
Solar produced Super Heated Steam
Mojave dessert354 MWe total capacity
1,600 acres (6.5 km2)
936,384 parabolic mirrors extending over 229 miles (370 km)
30 MW construction cost $90 million in 2002
OPEX $3 million per year (4.6 cents per kilowatt hour)
Copyright 2011 Hewlett-Packard Development Company, L.P. The
information contained herein is subject to change without notice.
Confidentiality label goes here 20 March 2012HP
Confidential2627
Adsorption Chillers
This process uses a source of heat to provide the energy needed
to drive the cooling process.AdsorptionThe absorption cooling cycle
can be described in three phases:
Evaporation: A liquid refrigerant evaporates in a low partial
pressure environment, thus extracting heat from its surroundings
the refrigerator.
Absorption: The gaseous refrigerant is absorbed dissolved into
another liquid - reducing its partial pressure in the evaporator
and allowing more liquid to evaporate.
Regeneration: The refrigerant-laden liquid is heated, causing
the refrigerant to evaporate out. It is then condensed through a
heat exchanger to replenish the supply of liquid refrigerant in the
evaporator.
Copyright 2011 Hewlett-Packard Development Company, L.P. The
information contained herein is subject to change without notice.
Confidentiality label goes here An absorption refrigerator is a
refrigerator that uses a heat source (e.g., solar, kerosene-fueled
flame, waste heat from factories or district heating systems) to
provide the energy needed to drive the cooling system. Absorption
refrigerators are a popular alternative to regular compressor
refrigerators where electricity is unreliable, costly, or
unavailable, where noise from the compressor is problematic, or
where surplus heat is available (e.g., from turbine exhausts or
industrial processes, or from solar plants).For example, absorption
refrigerators powered by heat from the combustion of liquefied
petroleum gas are often used for food storage in recreational
vehicles. Absorptive refrigeration can also be used to
air-condition buildings using the waste heat from a gas turbine or
water heater. This use is very efficient, since the gas turbine
produces electricity, hot water and air-conditioning (called
trigeneration).Both absorption and compressor refrigerators use a
refrigerant with a very low boiling point (less than 0 F/18 C). In
both types, when this refrigerant evaporates (boils), it takes some
heat away with it, providing the cooling effect. The main
difference between the two types is the way the refrigerant is
changed from a gas back into a liquid so that the cycle can repeat.
An absorption refrigerator changes the gas back into a liquid using
a different method that needs only heat, and has no moving
parts.[1] The other difference between the two types is the
refrigerant used. Compressor refrigerators typically use an HCFC or
HFC, while absorption refrigerators typically use ammonia or
water.27Eurasia.com 201228Q&AEnzo
AdamoDirector\StrategistManaging Principal MEMA & ItalyMobile
No +971 56 [email protected] Copyright 2011 Hewlett-Packard
Development Company, L.P. The information contained herein is
subject to change without notice. Confidentiality label goes
here