Transcript
Page 1: Improving Energy Efficiency with Atom - Intel

Application NoteIntel® Atom™ Processor An Energy-Efficient

Platform for In-Vehicle Infotainment SolutionsEverycomponentinthecaraffectsfuelconsumption.Weightobviouslyhasanimpactsinceheavier

parts require more energy to move. Perhaps less obvious is the fact that electrical components use fuel

too.Evendaytimerunninglights–aseeminglymodestsafetyfeature–havebeenshowninvarious

studies to increase fuel consumption by as much as three percent.

Thisisaconcernforautomakerswhomustbalancethedemandforfuel-efficient,“green”carswith

customer preference for vehicles that are loaded with electronic features, such as infotainment

systems.Eventhoughthesefeaturesconsumeextrafuel,theyaddtoacar’svalueandcanincrease

demandandprofits.

Thetaskthenistofindwaystointroducestrongcomputingperformanceandrichinteractive

applicationsinthecarwithoutsignificantlystrainingthepowerbudgetofthevehicle.Choosing

hardware with very low total platform power consumption is important, because the greater the power

consumption, the more fuel that will be needed to power the system.

Butperhapsamoreimportantconsiderationthanpowerconsumptionissomethingcalledperformance

perwatt(PPW).Consumersdemandfeaturesthatrequirestrongcomputingperformance,suchas

integrated navigation, video and graphics displays, voice recognition, and reliable Internet and device

connectivity.Andittakesahighperformancecomputingsystemtodeliver.Itisimportantthenfor

automakerstoseekahardwareplatformthatoffersthemaximumPPW,whichisacombinationoflow

power consumption and high performance.

Thisapplicationnotedescribesthepotentialfuel-savingbenefitsofusingahighperforming/ultra-low

power hardware platform. It also explains how hardware integration and silicon process technology

enableInteltodramaticallyreducethepowerconsumptionofitsprocessors–andthereforefuelusage

in next generation cars.

Page 2: Improving Energy Efficiency with Atom - Intel

Application Note Intel® Atom™ Processor

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Table 1 - Sample Platform ConfigurationsPlatform Components Sample Configuration #1 Sample Configuration #2

Processor/chipset/IOH/AutomotiveIO 3watts 4.5watts

A/V DSP with memory included 2 watts

ExternalGraphics(includingmemory) included 13watts

Total media processing power requirement 3 watts 19.5 watts

End-to-endpowersupplyefficiency 75% 75%

Totalpowerrequiredforplatform 4 26componentsat14V

Fuel-to-electricalpowerratio(%fuelconsumption 0.08 0.52differenceper100km,assumingthat150wattsrequires3%ofthefuelconsumptionofthe average car)

Table1showsthepowerrequirementsfortwosamplein-vehicleinfotainmentplatformconfigurations.

Configuration #1 is a highly integrated platform with video decoding, graphics, and memory controller on a

singlesystem-on-a-chip(SoC)solution.Thissolutioncansupportdual-viewanddual-independentdisplaysso

that the driver can use the navigation features while passengers concurrently stream Internet applications or

watchvideosintherearseat.Totalpowerconsumptionforthissolutionis3watts.

Configuration #2 is a conventional architecture platform with discrete chips that each require their own power

and memory, including a host processor, DSP for audio and video and graphics card. It supports the same features

asconfiguration#1,althoughitconsumes19.5wattsofpowertodoso.

Table 2 - Fuel Consumption EstimatesKilometers/year 25,000

Fuelconsumptioninliterper100km 6

Co2ingrams/kilometer 120

Fuelconsumptioninliters/year 1,500

Fuel savings between configuration #1 and #2 in liters/year 6.6(fuelconsumption*differenceinfuel-to-powerratio/100)

Co2 savings between configuration #1 and #2 in grams/kilometer 0.53(Co2ingrams/kilometer*differenceinfuel-to-powerration/100)

Co2 savings over 10 year period in kg 132(Co2savings*25,000km/yr*10/1000)

Table2illustratesthepotentialfuelandCo2savingsachievedbyusingplatformconfiguration#1versus

platformconfiguration#2.

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From Fuel to Power – a Pricey Conversion

The process of converting

chemical energy (fuel)

into electricity in the car is

expensiveandinefficient.

This is because the process

involves multiple steps

where true energy is lost

inthetransfer.Inthefirst

step, chemical energy is

convertedtokineticenergy,

a process that generates

unusableheat.Thiskinetic

energy is then transported

over a belt driving the

generator–andagain

energy is lost through

transfer. As the generator

convertsthekineticenergy

into electricity more power

is lost. Then the electricity

needs to be down

regulated to the different

voltages that are used by

the electronics. Put simply,

ittakes5wattsofchemical

power for each watt of

power needed to run the

vehicle head unit.

Intel® Atom™ Processor Application Note

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Weassumethatittakesapproximatelythreepercentof

avehicle’sfuelconsumptiontogenerateanextra150

watts of electrical power (see sidebar) for the infotainment

system,resultinginafuel-to-electricalpowerratioof0.08

and0.52forconfigurations#1and#2respectively.Using

configuration#1over#2ultimatelytranslatestoa132kg

savingsinCo2overa10yearperiod,asseeninTable2.

According to a variety of industry reports, the number of

newlightvehiclesalesisexpectedtobecloseto60million

in2011.Ifjust2%ofthesenewvehiclesimplementeda

low-powerplatformconfigurationsimilarto#1,theCo2

savingscouldapproach158.4millionkg,or174,000tons.

The impact on our environment has the potential to be quite

significant.Becauseyouneedabout67,000acresofmature,

healthytreestoremovethatmuchCo2fromtheaireach

year,choosinglowpowerIVIislikeplantingtrees.Infact,if

twopercentofthenewcarssoldin2011usealowpower

platform,youcanthinkofitasifyouhadplantedtwotrees

for every one of them.1

Customer Requirements for IVI SystemsIn-vehicleinfotainmentsystemsarequicklybecoming

must-havefeaturesinmid-to-high-endcarsandtrucks.

Solutionstodayincludeafairlybasicpackagethatprovides

navigation,videoplayback,andtheabilitytoconnect

consumer electronic devices in the car. And consumers are

hooked.Theywanttoexperiencetheirdigitallifestyleinthe

car, including all of the familiar ways they access personal

connections, entertainment, business systems, etc.

Automakerswillcontinuetoexpandonthesedemandsby

delivering future systems that offer a more extensive array

ofapplicationsusingmultiplekindsofconnectivityincluding

USB,Bluetooth*,external/Internet(3G,Wi-Fi,WiMAX,GPS,

etc.),andin-vehiclenetworkssuchasCAN*,FlexRay*,MOST*

andEthernetAVBasamultimediabackboneinthevehicle.

Customerstooarerequiringcarsthataregreenerand

moreenergyefficient.Althoughtheymaynotcomprehend

the connection between infotainment systems and fuel

consumption, automotive manufacturers can deliver these

robustsolutionsinamorefuel-efficientmannerusing

low-power computing platforms.

1 October 1, 2009, http://www.coloradotress.org/benefits.htm

Engine

Converter Belt

Generator

Electronic Transistor

3W

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Application Note Intel® Atom™ Processor

Why Intel?The Intel® Atom™ processor delivers the optimum combination of high performance, low power, and integrated

graphics and video capabilities that are needed to power this next generation of in-vehicle infotainment

solutions. The Intel Atom processor enables the automotive industry to develop products that incorporate

connectivity, up-to-the-minute navigation/location information, radio, and rear-seat entertainment (gaming, DVD,

streaming video, satellite TV) in a single integrated system.

Technologies that Reduce Power and Enhance Performance in the Intel® Atom™ Processor

• Intel’shafnium-based45nmHi-kmetalgatesilicontechnologyreducespowerconsumption,increases

switchingspeed,andsignificantlyincreasestransistordensityoverprevious65nmtechnology.

• Multiplemicro-opsperinstructionarecombinedintoasinglemicro-opandexecutedinasinglecycle,resulting

inimprovedperformanceandpowersavingsandhigherschedulingefficiency.

• In-orderexecutioncoreconsumeslesspowerthanout-of-orderexecution.

• Intel®HyperThreadingTechnology2 (available in designated SKUs) provides high performance-per-watt

efficiencyinanin-orderpipeline,increasingsystemresponsivenessinmulti-taskingenvironments.One

execution core is seen as two logical processors, and parallel threads are executed on a single core with

shared resources.

• NewC6state(DeepPower-DownTechnology)removespowerfromprocessorcoreandcaches,resultingin

lessleakagethanC4state.Thistechnologyistransparenttotheoperatingsystemandmeetsexistingmobile

C-stateexitlatencies.

• SplitVTTrailremovespowerfrom~90percentoftheI/O,reducingC6stateleakageandachievinga

significantlyloweridlepower.

• CMOSdriversusedonmanyoftheFSBsignalsforlowerI/Opowerconsumption.

• DynamicL2cachesizingreducesleakageduetotransistorsleepmode.

• SSE3instructionsetenablessoftwaretoacceleratedataprocessinginspecificareas,suchascomplex

arithmetic and video decoding.

• EnhancedIntelSpeedStep®technologyreducesaveragesystempowerconsumption.

ConclusionThein-vehicleinfotainmentsystemisagame-changerfortheautomotiveindustryandawayforautomakers

andafter-marketmanufacturerstofurtherdifferentiatetheirproductsfromcompetitors.Butinterestingfeatures

aren’ttheonlyelementtoconsider;platformperformanceandpowerconsumptionarecriticaltomeetingthe

“green” standards demanded by consumers today.

Intel leads the silicon industry in the development of ultra-low power computing components, including the Intel

Atomprocessor.Togetherwe’reworkingontheenvironmentallyfriendlysolutionsthatarevitaltoagreenfuture

for us all.

2 Hyper-Threading Technology (HT Technology) requires a computer system with an Intel processor supporting HT Technology, and an HT Technology-enabled chipset, BIOS, and operating system.

* Other names and brands may be claimed as the property of others.

Copyright © 2009 Intel Corporation. All rights reserved.

Intel, the Intel logo, Atom and SpeedStep are trademarks of Intel Corporation in the U.S. and other countries.

Printed in USA 1109/LS/DM2 C Please Recycle 322857-001 US


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