1 federal government initiatives to reduce data center energy use sustainable computing from the...
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Federal Government Initiatives to Reduce Data Center Energy Use
Sustainable Computing from the Desktop to the Datacenter
Andrew FanaraUnited States Environmental Protection Agency
Climate Protection Partnership DivisionENERGY STAR® Product Specification Development
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Broad Themes We Are Paying Attention to
• Awareness of energy issues and concern for environment and climate change growing among individuals and business globally
• Green economy on our door step -- but lacking a stable foundation• Energy demand associated with our growing digital economy
becoming better understood• Opportunity for tech to improve the energy productivity of many
economic sectors (transportation, manufacturing, products, buildings, lifestyles…)
• US (and growing array of other governments) see efficiency, vs.. supply alone, as a key component national energy strategy
• Datacenter efficiency a prime global opportunity
World Primary Energy DemandBy Major Fuel
Fossil fuels account for 80% of world energy demand and will account for 83% of the increase in overall demand from 2004 -- 2030
0%
10%
20%
30%
40%
50%
60%
70%
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100%
2004 2015 2030
Other Renew ables
Biomass/Waste
Hydro
Nuclear
Gas
Oil
Coal
From the World Energy Outlook 2006, International Energy Agency
Charting Energy Consumption:
A Pattern of Growing Energy Demand
2004 Energy Consumption = ~ 100 quads2004 Energy Expenditures = ~ $910 billion
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1940 1950 1960 1970 1980 1990 2000 2010
In d u s t ria l = re dT ra n s p o rt a t io n = p u rp leR e s id e n t ia l = g re e nC o m m e rc ia l = b lu e
U .S . E ne rgy C o nsump tio n1 9 4 9 - 2 0 0 4
A ll F ue ls (T B T U )
Commercial Sector Energy Consumption (quadrillion Btu)
Source: February 2007 Monthly Energy Review, EIA
Electric Power Sector Energy Use (quadrillion Btu)
Source: February 2007 Monthly Energy Review, EIA
Rising Utility Rates2005 Average by Region
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The Energy Straightjacket
• Deliverability limitations in all markets for all fuels• Oil market restrained by refining capacity• Coal market restrained by rail & mining capacity• Electricity constrained by available fuel
transmission, rising construction cost – high demand taxes grid infrastructure
• Renewables limited by equipment manufacturing• Fuel switching limited by tight markets
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Energy Efficiency: Still the Cheapest Resource
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Levelized Cost of Electricity by Source
Wind @ 29% CF
IGCC w/o CCS
NGCC @ $6 gas
Biomass
NuclearPulverized Coal w/o CCSEnergy Efficiency
Cen
ts p
er K
Wh
Carbon price: Dollars per ton
Source: Noé van Hulst, IEA
Contributing Factors in CO2 Reductions 2004-2030
Energy-Efficient Investments Could be an Even Bigger Business
• ACEEE estimates that, with additional policies and incentives, the rate of decline in energy intensity could grow from a projected rate of 1.8% to 2.5% per annum through 2030.
• If we were to achieve the higher rate of improvement in intensity, annual investments in energy-efficiency technologies could double to $400+ billion or more annually.
• Increased efficiency would reduce projected energy consumption by ~30% at an average payback of ~5 years (perhaps less).
» Source: ACEEE, American Council for an Energy Efficient Economy
• Increased media attention reflects “resurgence in commitment to environmentalism”
Climate Concerns Gaining Momentum
NY Times, February 6, 2007
CNN, April 29, 2007BBC News, October 31, 2006
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What are the Risk to Business?
• Energy Supply, Security & Climate Change
Physical risk to property from extreme weather Financial risk to the health and competitiveness of
firms Reputational risk due to poor public and investor
community perception
• There is a growing demand for energy management strategies designed to mitigate that will provide a competitive advantage
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Where do INFORMATION FACTORIES Fit In?
• Data centers are energy intensive facilities– Server racks now designed to carry 25 kW load– Surging demand for data storage– Typical facility ~ 1MW, can be > 20 MW – Nationally 1.5% of US Electricity consumption in 2006
• Could double in next 5 years
• Critical national and global infrastructure– Few options to go “off the grid” or diversify supply– Good candidates for efficiency investments by utilities to reduce
peak loads
• DC operators want help with their energy challenges!
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Where do INFORMATION FACTORIES Fit In?
• Significant data center building boom, – Power and cooling constraints in existing
facilities– Growing demand for compute cycles– Growing computing performance – Commoditized hardware– Declining cost of computing
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Air Movement12%
Electricity Transformer/
UPS10%
Lighting, etc.3%
Cooling25%
IT Equipment50%
Source: EYP Mission Critical Facilities Inc., New York
Other than a common power source they are not connected.
Where Data Center Power Goes
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Power, Space & Cooling
• Over the next five years, power failures and limits on power availability will halt data center operations at more than 90% of all companies
(AFCOM Data Center Institute’s Five Bold Predictions, 2006)
• By 2008, 50% of current data centers will have insufficient power and cooling capacity to meet the demands of high-density equipment
(Gartner press release, 2006)
• Survey of 100 data center operators: 40% reported running out of space, power, cooling capacity without sufficient notice
(Aperture Research Institute)
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The Rising Cost of Ownership
• From 2000 – 2006, computing performance increased 25x but energy efficiency only 8x– Amount of power consumed per $1,000 of server
spending has increased 4x
• Cost of electricity and supporting infrastructure now surpasses capital cost of IT equipment
• Perverse incentives -- IT and facilities costs separateSource: The Uptime Institute, 2007
Industry Action: Climate Savers
• Global non-profit consortium of industry, business, universities, conservation groups, governments, consumers
• Goals:– Accelerate production/distribution of energy efficient computers– Increase use of power management tools
• Desired Results:– Reduce the computing industry’s carbon footprint– Lower TCO for computer users– Make high efficiency the norm for the industry
• Web site: www.climatesaverscomputing.org.
Source: Bill Weihl, Google, Digital Power Forum 2007
Massachusetts Institute of Technology Source: Bill Weihl, Google, Digital Power Forum 2007
Industry Action: Green Grid
• Global consortium dedicated to developing and promoting energy efficiency for data centers by:• Defining meaningful, user-centric models and metrics• Developing standards, measurement methods, best
practices and technologies to improve performance against the defined metrics
• Promoting the adoption of energy efficient standards, processes, measurements and technologies
Green Grid Initiatives• Create shared definitions, benchmarks and metrics to
enable real-time measurement monitoring and control of data center efficiency and productivity
• Create baseline 'state-of-the-industry' documentation including benchmark architectures and a repository of data center efficiency knowledge
• Create a comprehensive technology roadmap for future data center design to maximize efficient and productive operations
• Assess new and alternate data center technologies • Monitor progress on all fronts/provide periodic updates
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What’s the Government’s Role?
• Federal agencies (EPA & DOE) can be catalyst – Stimulate competition on energy efficiency – Foster discussions between key stakeholders– Provide key recommendations (EPA Report to Congress)– Encourage development of standardized test procedures
and metrics to measure energy consumption and make it more transparent
• Promote initiatives globally – Canada, EU, UK, China, India, Australia are showing interest
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Public Law 109-431: EPA Report
• Purpose: assess energy impacts on and from datacenters, identify energy efficiency opportunities, and recommend strategies to drive the market for efficiency
• Goals:– Inform Congress & other policy makers of important
market trends, forecasts, opportunities– Identify and recommend potential short and long term
efficiency opportunities and match them with the right policies
– Identify areas for additional strategic research outside the scope of the report
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EPA Report Findings
Trends in Data Center Energy Use • Sector consumed about 61 billion KWh in 2006
– Equates to ~1.5% total U.S. electricity consumption and ~$4.5 billion
– Federal sector: ~6 billion kWh and ~$450 million
• Projected to increase to 100 billion kWh in 2011– Equates to ~2.5% of total U.S. electricity
consumption and ~$7.4 billion
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Comparison of Projected Electricity UseAll Scenarios 2007 - 2011
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Electricity Use by End-Use2000 to 2006
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Report Findings cont.
Identified Key Barriers to Energy Efficiency• Lack of efficiency definitions for equipment and data centers
– Service output difficult to measure, varies among applications– Need for metrics and more data: How do we account for
computing performance?
• Split incentives– Disconnect between IT and facilities managers
• Risk aversion– Fear of change and potential downtime – energy efficiency
perceived as a change with uncertain value and risk
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Report Recommendations
• Standardized performance measurements for IT equipment and data centers– Development of benchmark/metric for data centers– ENERGY STAR label for servers, considering storage and network
equipment
• Leadership by federal government– Publicly report energy performance of datacenters – Conduct energy efficiency assessments in all datacenters in 2-3
years– Architect of the Capital, implement server-related recommendations
in Greening of the Capital report
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Recommendations cont.
• Private Sector Challenge– CEOs conduct DOE Save Energy Now energy efficiency
assessments, implement measures, and report performance
• Information on Best Practices– Raise awareness and reduce perceived risk of energy efficiency
improvements in datacenter– Government partner with private industry: case studies, best
practices
• Research and Development– Develop technologies and practices for datacenter energy
efficiency (e.g., hardware, software, power conversion)
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ENERGY STAR for Servers
• Server energy demand drives DC power & cooling needs• Goal: Create protocol to measure server energy efficiency to
allow fair competition• Technical specification would have several key elements:
– Definitions of product categories eligible for ENERGY STAR
– Test procedure to measure energy efficiency & computing performance
– Energy efficiency performance levels • Tier 1 may include power supply efficiency and other criteria but
would be phased out in the longer term • Tier 2, would be holistic system efficiency metric
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ENERGY STAR for Servers
Power Supply Efficiency -- A Possible Tier 1• Why higher efficiency for server power supplies?
– Common hardware denominator– Lower HVAC costs >> 1 to 1.5 kWh HVAC savings for every kWh
saved at the plug– More computing space – increase computational density– Reduce CO2 emissions [1kWh ~ 1.6 lbs of CO2]
• Test Procedure developed by Electric Power Research Institute (EPRI)
– Testing and verifying power supply efficiency and reliability performance
– Developing recommendations for 80 Plus program
Source: Brian Fortenbery, EPRI, Digital Power Forum 2007
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Data on Single Voltage Power Supplies for Servers
Efficiency of Single-Output Server Power Supplies
40%
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95%
0% 20% 40% 60% 80% 100%
Percent of Rated DC Power Output (%)
Effici
ency
(%
)
Results of 30 different Single and Multiple Output Server PSUs tested at 230VAC
Source: Brian Fortenbery, EPRI, Digital Power Forum 2007
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Observations on PS Data
• Data shows a large spread of efficiencies at different load points
• Efficiency drops off rapidly below 20% load, but many Server PS operate below 20% - especially in redundant configurations– 10 % test condition included in test procedure
• Single Voltage server supplies generally have higher efficiency than multi-voltage PC supplies– Operates at higher voltage for increased efficiency– Eliminating less efficient 5V and 3.3V buses improves the overall
efficiency of the power supply for the same power rating
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ENERGY STAR for Servers
Source: Brian Fortenbery, EPRI, Digital Power Forum 2007
Other Possible Tier 1 Requirements• Power Management - What does this mean for servers?• Standardized labels for consumers to compare server
capability/energy use– Similar to DOE labels on white goods
• Standard Ethernet protocol for querying power consumption of server components
• Adaptive speed Ethernet (similar to Version 4.0 ENERGY STAR Computer Specification)
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ENERGY STAR for Servers
Server Performance Benchmark – A Possible Tier 2• January 2006 SPEC Power and Performance
Committee began development of benchmark for evaluating energy efficiency of servers
• Working prototype has been developed -- final product by the end of 2007
• Could require reporting of SPEC score in Tier 1 to determine applicability to Tier 2
• More info on progress: www.spec.org/specpower
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Next Steps for Servers
• Draft framework discussion document distributed for stakeholder review – July 2007
• Current: – review of stakeholder comments on framework discussion
document – gathering relevant information
• October 31: ENERGY STAR stakeholder meeting to discuss Draft 1 specification requirements – Following the Uptime Institute 2007 Charette in Santa Fe, NM
October 28-30 www.uptimeinstitute.org/charette• Goal – Tier 1 specification finalized by early 2008
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Data Center Energy Plan
Measure data center using developed / available metrics
Implement changes in operations (eliminate comatose servers, virtualize and
consolidate existing servers, enable available power management, implement other best
practices)
Alter procurement policies for new hardware to emphasize efficiency
Remeasure regularly to determine savings
A simple standard to assess data center energy efficiency
• Compares total power used by the data center to the power used by the technology
• Provides a market comparison
• Demonstrates range for opportunity improvement
(1) Standard supported by Green Grid, originally published by Lawrence Berkley National Laboratory, 2003
Most energy efficient
Least energy efficient
1.5 3.52.0 2.5 3.0
CurrentObjective
Data center energy efficiency assessment
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Opportunities for Energy Savings
• Government will encourage industry to look at all opportunities to improve energy productivity in best practices in DC design, operation and for equipment
• Software will be looked at as both a driver of and a solution to increased energy consumption in the data center
• With more energy transparency due to common metrics, markets can develop to foster fair competition
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Power Mgnt. for Your Desktop
• Get organizations to…– Primary: Activate power management features (will have
numeric goals)– Secondary: Buy ENERGY STAR products– Think about the impact of IT/office equipment on global warming
• Tie together the various ES IT savings opportunities (products & tools) into something larger and more useful to participants– Offer more ways to save energy & money than just CPM– Leverage corporate carbon reduction initiatives– Coordinate with Green Grid and Climate Savers to carry
message
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Final Thoughts and Take Aways
• More attention being paid to the implications of energy supply and demand than ever before
• We are seeing the emergence of a more environmentally sensitive consumer class
• Is government leading or following public sentiment?
• Enterprise wide strategic energy management and planning a competitive must have for every organization
• Voluntary and industry schemes (and claims) to save energy will increasingly be questioned for their effectiveness -- they must be challenging and verifiable to be credible
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Andrew [email protected]
For more information:www.energystar.gov
http://www1.eere.energy.gov/industry/saveenergynow/http://hightech.lbl.gov/datacenters.html
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Energy Efficiency Gives More!
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100
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1970 1976 1982 1988 1994 2000 2006
En
ergy
Ser
vice
s in
Qu
ads
• Since 1970, energy efficiency has met 77% of new energy service demands in the U.S, while new energy supplies have contributed only 23% of new energy service demands.
Energy Service Demand
Energy Supply
1970 Energy Usage
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Diagnose
Get the facts to understand your energy use and opportunities for improvement
2 3
Implement
Implement
virtualized
infrastructure
and exploit
innovative
technologies
BuildPlan,
build, and
update
energy
efficient
data
centers
4
Manage &
Measure
Seize control
with power
management
software
5
Cool
Exploit liquid
cooling
solutions –
inside and
outside of
the data
center
1 2 3 4 5
Market is primed for companies capable of integrating technology, services, and industry expertise to help manage and use energy in a more
cost-effective, efficient, and environmentally-sustainable way
A Roadmap to Better Datacenter Mgnt.?
Power use
Chart and data source: American Power Conversion Corporation white paper, Implementing Energy Efficient Data Centers, by Neil Rasmussen, 2006
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5
0
Chiller/cooling
tower
Informationtechnology
LightingSwitch/gen
Uninterruptiblepower
supply (UPS)
Power distribution
unit
Computerroom air-
conditioner
Humidifier
Cooling systems Electrical and building systems%
of
tota
l d
ata
ce
nte
r e
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tric
ity
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