Cutting costs with pc power management approaches, pitfalls and best practices
1. Cutting Costs With PC Power
Management: Approaches,
Pitfalls And Best Practices
Pat Tiernan, Executive Director
Climate Savers Computing Initiative
April 28, 2010
2. Agenda
• Climate Savers Computing Overview
• The Problem: IT Energy Waste
• Best Practices for Energy-Efficient Computing
• Business Case for PC Power Management
• Overcoming Barriers to deployment of PC Power Management
• Case Studies
• Next Steps
3. Climate Savers Computing Initiative’s Mission
Consumers, businesses and organizations, even market competitors, that have
come together to drive energy efficiency, mitigate emissions and save money!
Objectives Board Members
• Increase the energy efficiency of new computing equipment
• Promote the use of power management to make an impact now
• Shift user base to smart computing practices
Desired results Sponsor Members
• By 2010, improve computing energy efficiency by 50%
$5.5B savings
• Reduce global CO2 emissions from computing platforms by 54
million tons per year
Vision: smart computing practices - highest efficiency possible
4. Taking Action: The CSCI Approach
System, Software &
IT Departments & Component Providers
Consumers • High-efficiency
• Drive policy & components and products
implementation • Energy management
• Embed in procurement capabilities
• Turn on power • Product availability &
management services
• Drive savings • Power management
solutions
Climate Savers
Computing Initiative
• Create awareness and
preference Alliances
• Recruit change agents • Complementary programs
• Drive demand and • Global influence
deployment • Facilitate results
• Develop and eliminate
inhibitors
• Harmonize globally
5. Our Momentum is Creating an Impact:
Moving the market towards greater energy savings, reduced waste and lower emissions.
Increase energy efficiency of computing equipment and promote power management.
Technical Workgroups
• Power Management Design Guide
Marketing: Awareness to Action
• 2009: 445M impressions
Social Media Marketing
• #1: “Most Influential Green IT Twitter Feed”
• 70,000+ views on YouTube
• Engaging programs and conversation
Influence
• Global harmonization of efficiency criteria
• Best practices
Regional Leadership and Alliances
• ~600 Member Orgs in 53+ countries
• Teams, alliances, events in
EMEA, India, Japan,
Asia Pacific, Americas
Effective Programs
• 20 universities, ~20,000 students pledged
• Power Management Assistance
7. The Problem: IT Energy Waste in the US
• Every day 156 million employees in the US, the UK and
Germany decide whether or not to shut down their PCs
• By not shutting down PCs, a US company with 10,000
PCs wastes annually:
• $260,000 annually
• 1,871 tons of CO2 emissions
• 63 percent of US employees feel that their companies
should be doing more to reduce power consumption
• Only 3 percent of US employees shut down their PCs at
night because they were directed by their company to
do so (opportunity here for companies to set policy) PC Energy Report
2009 available in
• Half of US employees who use a PC at work typically Information and
don’t shut their computers down at the end of the day. Resources section
• 11% of US employees say they power down their of our web site
computers to reduce their company’s electricity bill.
8. Energy Waste: Industry Level
This waste adds up quickly.
• The global information and Printers (6%)
communications technology LAN & Office
industry accounts for Telecoms (7%)
approximately 2 percent of
global CO2 emissions1 Mobile
Telecoms PCs &
• Energy costs will be 50 percent
(9%) Monitors
of the average IT budget in just
a few years2 (39%)
Fixed-Line
• By 2010, about half of the
Telecoms
Forbes Global 2000 will spend
(15%)
more on energy than on
hardware3 Servers,
• There are 1 billion+ PCs including cooling
worldwide, projected to be 2.25 (23%)
billion by 20154
1 Source: Gartner, May 2007
2 Source: Mark, Roy, House Green Lights EPA Data Centers Study, Internetnews.com (July 13, 2006)
3 Source: Source: Businessweek.com: CEO Guide To Green Computing. From Gartner
4 Source: Forrester Research
9. Today’s Environment
Improving but with respect to the installed base…
• The average desktop PC wastes
30 Watts 20 Watts
100 Watts
nearly half the power it consumes AC power 50 Watts
• Servers lose approximately one- DC Voltage
third of their power as heat Power
Supply
Regulation
Module
CPU
• 90 percent of desktops do not
utilize power management Computer
motherboard
settings1
Addressing the problem makes fiscal sense!
1 Source: US EPA, http://enduse.lbl.gov/info/LBNL-53729_REV.pdf; see also
http://www.energystar.gov/ia/products/power_mgt/North_Thurston_Case_Study.pdf and
http://www.energystar.gov/ia/partners/prod_development/revisions/downloads/computer/Comp
uter-PowerMnmt.pdf for additional comments on the extent of power management usage
11. Portfolio of Energy Savings Actions
Available to Data Center Operators
27% facility
related Lower Power
Processors
High Efficiency Power
Supplies
Power Management
Features
Blade Servers
Server Virtualization
73% IT Supplemental Cooling
415V Power Distribution
related Architecture
Cooling Best Practices
Variable Speed Fan
Drives
Monitoring and Optimiz -
ing Cooling Controls
Source: Emerson Network Power, “Energy Logic”
73 percent of savings potential comes from
IT equipment improvements
12. Energy Demand is Changing the Challenge
for Data Center Operators
Increasing Power Density is
Shifting the Balance of Cost
Yearly
Cost
2010–2015
28x2U Servers 42x1U Servers 6 BladeCenters 6 BladeCenters
2kW Heat Load 6kW Heat Load 24kW Heat Load 30kW Heat Load
Time
Source: IDC
Source: Emerson Network Power/Liebert
Increasing energy demand, and increasing server rack power density, are
shifting the sources of cost
13. Energy Savings by Replacing 4-Year-Old,
Inefficient Servers with Fewer New Servers
2005 184 servers with single- 2009 21 new servers
vintage vintage with quad-core
core CPUs. 4 years old CPUs
By replacing 4-year-old, Up to Annual energy cost
9X 92%
relatively inefficient
servers with new servers
Reduction in # of
servers required estimated reduction
Source: Intel estimates as of Nov 2008. Performance comparison using SPECjbb2005 bops (business operations per second). Results
have been estimated based on internal Intel analysis and are provided for informational purposes only. Any difference in system
hardware or software design or configuration may affect actual performance. For detailed calculations, configurations and
assumptions refer to the legal information slide in backup.
14. Energy Savings by Replacing 4-Year-Old
PC to New Power-Managed Laptop
Estimated Annual Energy Consumption
Four-year-old PC,
Switch from CRT
Replacing
1015 to LCD Display
KWh Consumed per Year
Old Desktop
PC with New
938 Desktop PC
(lower is better)
655 New,
Power-
Managed
Desktop
New,
Power-
229 Managed
Laptop
38
Unmanaged Pentium® D Unmanaged Pentium® D Unmanaged Intel® Managed Intel® Core™2 Managed Intel® Core™2 Duo
Processor 945 with CRT Processor 945 with LCD Core™2 Duo Processor Duo Processor E6550 Processor T9400 mobile
display display E6550 with LCD display with LCD display platform
For system configuration details, please see Appendix. Performance tests/ratings are provided assuming specific computer systems and/or components and reflect the approximate performance
of Intel products as measured by those tests. Any difference in system hardware or software design or configuration may affect actual performance. This data may vary from other material
generated for specific marketing requests.
16. 1
Business Case for PC Power Management
No power mgt. (-) With power mgt. = Annual savings
Total assets 1 1 1
x x x
Hours of
operation 24 8 16 +60%
x x x savings!
Energy draw
per hour (W) 89 89 5
= =
kWh/day
(1,000 W = 1kW) 2.13 .79 = 489 kWh/yr
$/day
($.09/kWh) $0.19 $0.07 = $43.80/yr
CO2/day
(1.34 Lbs./kWh) 2.85 1.06 = 653 Lbs. CO2/yr
1 Source: Doug Washburn, Analyst, Forrester 2009
17. Business Case for PC Power Management
• Labor costs: ~ $5 / seat
o Identifying appropriate solutions
o Testing & troubleshooting exceptions
o Ensuring that sleeping computers do not interfere with administrative
software updates
• Software costs: ~ $0-15 / seat
o Many solutions are free
o Commercial solutions range from roughly $3-15 per PC
• Vs. energy savings of $40-$160 /
seat
Assumptions: 1000 seats; labor costs = 2 weeks of work for one network administrator @ $2,500 per week
19. Overcoming Barriers to Adoption
• On surface, implementing power management would
seem simple:
o Many technical options available to allow network
administrators to activate sleep settings quickly and easily
• However, there are obstacles
o Split incentives in large organizations
o Need to articulate clear ROI
o Myths about power management
o Other concerns…
20. 5 Reasons IT or others may not initially
share your enthusiasm for CPM
1. Energy savings aren’t rewarded in IT’s budget
2. Even a free solution will involve IT staff time to
implement
3. CPM could initially complicate how PCs receive
security patches and anti virus updates
4. Urgent new security threats emerge regularly to absorb
any “free time”
5. Already spending nights and weekends on systems
upgrades and other IT initiatives
21. 5 Ways to Get IT on Board
1. Estimate your potential $ savings
2. Share the savings opportunity with your management
and any “friends” in IT
3. Counter technical objections with “you might be right:
let’s ask an expert”
4. Make one modest request: join a 30 minute call with
CPM tech expert from EPA ENERGY STAR or CSCI
5. Share the glory
22. Common Myths
• MYTH #1: Sleep features can wear out hardware by forcing the
computer to turn on and off several times a day
• MYTH #2: Computers and monitors use more energy with power
management settings activated, due to power surges when cycling
on and off
• MYTH #3: System standby and hibernate features can render a
computer unstable, causing system crashes and/or preventing it
from waking
• MYTH #4: Computer users will complain about having to wait for
their machines to “wake” from system standby or hibernate
1 Source: U.S. EPA ENERGY STAR Low Carbon IT Campaign
23. Common Myths
• MYTH #5: Sleeping computers will not receive important software
updates such as new antivirus definitions and Windows security
patches
• MYTH #6: Because Microsoft ships Win 7 software with computer power
management settings enabled, there is no need to worry about sleep
settings on Win 7 machines
• MYTH #7: My network administrator says our PCs are “enabled for
hibernate,” so we must already be taking advantage of computer power
management features.
• MYTH #8: You’d actually save more energy – and a lot of trouble – if
you simply required people to turn off their computers each night.
1 Source: U.S. EPA ENERGY STAR Low Carbon IT Campaign
25. Case Study: National Instruments
The Challenge
IT was getting requests to support internally-built applications from
multiple departments to remotely turn on their computers at night. ”As conserving the
Employees wanted to shut down at night to save energy but they world's resources
needed/wanted to be able to log-back on from home as needed. 97 becomes more
percent of desktops and 58 percent of laptops did not have a sleep important, National
timeout set at all. 71 percent of PCs were left on overnight Instruments has
recognized the need to
The Solution reduce its
Green Team employees want to encourage more sustainable environmental impact.
business practices. Implemented solution in conjunction with NI worked with Climate
CSCI’s Power Management Incentive Program. Will utilize the Savers Computing… to
Austin rebate of $5 per license and investigate any possible rebates implement a pilot
globally. View the video case study on Climate Savers Computing project to reduce
Initiative’s web site. energy consumption by
computers.”
The Benefits Heidi Baschnagel
•Projected cost savings between 30 – 54 percent Director of Marketing
•Projecting savings equivalent to nearly 3 percent of annual energy National Instruments
usage at headquarters over next 5 years
26. Case Study: Massachusetts
Dept. of Energy Resources
The Challenge
Executive Order No. 484, issued April 2007, requires state
agencies to reduce energy consumption and greenhouse gas
emissions in state facilities.
“Implementation of
The Solution power management
The Commonwealth created Enterprise Desktop Power options during periods
Management Standards as an energy strategy to increase energy of inactivity can reduce a
conservation and reduce plug-loads through technologies, machine’s power
operations & behaviors. The standards include: consumption to less
•Configure workstations to take advantage of available power than 6 watts per
management options when provisioned for employees workstation, an energy
•Shut down workstations during extended period of non use reduction of some 95%,
and save as much as $60
The Benefits or more per computer
•Preliminary energy savings of 13 million kWh per year.”
•Projected cost savings of $2 million
Executive Office for
Administration and Finance,
Commonwealth of
Massachusetts
27. Case Study: CSC
The Challenge
Budget pressures and challenges: Rising energy costs
begging for relief. Accepting Board of Directors position with
Climate Savers Computing Initiative meant taking our
leadership in Power Management seriously. “Using this [1E] tool will
help us significantly
The Solution reduce our energy use,
Deployed 1E’s “NightWatchman” Desktop solution: Single which is good for
SQL server supporting 60K clients in global corporation. business and good for the
Overcame challenges of regional rules, regulations, and planet. This is a wonderful
energy costs. Provided users with processes for exception. collaboration between two
CSC Sustainability program sponsored by OCIO, facilities members of the Climate
budget benefits. Savers Computing
Initiative to achieve our
The Benefits mutual goal of reducing
•Energy savings from power management policies = 40% power consumption to
improve the environment.
•Valuable insight into fleet energy usage supports Green
Supply Chain TCO purchasing decisions John Glowacki, Chief
•Changes to bonus structure benefit all corporate good Technology Officer, CSC and
behavior. Board Director, CSCI
28. Case Study: City University of New York
The Challenge
With 23 institutions and over 400,000 students spread out
across 19 campuses, CUNY is constantly under pressure to
reduce costs. However, environmental leadership has been
a strength of theirs in appealing to new students and
alumnae alike. Combined they afford the University to focus
it’s resources on the highest quality of education delivered.
“With the current
technology available, a
The Solution project like this is
Use of Verdiem’s Surveyor with an innovative program with easier to implement than
the New York Power Authority to effectively manage over many energy conservation
30,000 clients. measures, with a faster
payback.“
The Benefits
• $600K annual savings Art Fasolino,
Chief Engineer
• 4M metric tons CO2 annual reduction CUNY
• Increased visibility, control and management of IT assets
29. Case Study: BC Hydro
The Challenge
BC hydro has vast expertise in energy conservation and had
already invested heavily in IT energy efficiency gains. Their
desktop infrastructure was already very efficient relative to most. ”2008 will be
But they knew they could do more! remembered as the
year PC Power
The Solution Management Came
Implemented solution using Faronics Power Save which analyzes of Age.”
CPU, application activity, disk, keyboard, and mouse status
Dave Rogers,
before taking power management actions and delivers enterprise-
Technology Advisory
wide desktop computer energy management. BC Hydro
The Benefits
•Over 1M KWhrs saved annually
•Greater perceived performance of network by users interviewed
•Enhancements in desktop infrastructure management
•Leveraged experience to utility incentive programs
30. Case Study: Ford
The Challenge FORD MOTOR
Different regions can have different power costs and
savings. Implementation costs are centralized but power COMPANY
costs are distributed. Different user types, different regions
means managing profiles will not be easy, start simple “In the past, as many as
60 percent of Ford’s PC
users haven’t shut their
The Solution
PCs off at the end of the
1E NightWatchman PC Power Management rolled out to
business day, resulting in
Ford computer users across the U.S. and migrated to Ford
wasted energy. Going
operations around the world later in the year.
forward, we’ll be able to
manage PC power
The Benefits consumption more
•The savings on power cost expected to top $1.2 million efficiently while
annually when the system is fully implemented. minimizing interruptions
•By reducing PC power consumption, Ford also stands to during the working day as
reduce its carbon footprint by an estimated 16,000 to 25,000 a result of software
metric tons annually. updates.”
Keith Forte, IT Project
Supervisor, Ford
32. Call to Action:
Move to energy efficient computing approach
•Action #1: Evaluate and
deploy power management
•Action #2: Show your
support by joining Climate
Savers Computing
•Action #3: Upgrade to high
efficiency solutions from CSCI
Product Catalog
•Action #4: Invite colleagues,
friends and family to join our
effort
www.climatesaverscomputing.org
33. Tools & Resources
1. Estimate Power Management Savings Potential
o Annual and 3-yr savings www.energystar.gov/lowcarbonit
o Enterprise Interactive Toolkit to calculate potential savings
www.climatesaverscomputing.org/enterprise-interactive-toolkit
2. Case Studies
o Watch video about deploying computer power management
www.climatesaverscomputing.org/learn/information-and-resources/video-
case-study
o Read enterprise case studies about power management deployment
www.climatesaverscomputing.org/learn/information-and-resources/
3. Enterprise Desktop Power Management Standards
o Massachusetts Power Management Standards At-A-Glance
www.mass.gov/Eoeea/docs/eea/lbe/ComputerStandardsFinal_200809.pdf
4. Report on PC Energy Consumption
o www.climatesaverscomputing.org/docs/1E_PC_Energy_Report_2009_US
.pdf
5. 5 Reasons to Consider PC Power Management
o Research from Forrester Analyst Doug Washburn
www.climatesaverscomputing.org/docs/1E_PC_Energy_Report_2009_US
.pdf
36. Technical Specifications
July ‘07 – July ’08 – July ’09 – July ’10 –
June ‘08 June ‘09 June ‘10 June ‘11
Base: 80% efficient PSU*
+ most recent version of ENERGY 100% 100% 100% 100%
STAR
PC spec
Bronze: 85% efficient PSU*
+ most recent version of ENERGY ≥20% ≥80% 100%
STAR
PC spec
Silver: 88% efficient PSU*
PCs + most recent version of ENERGY ≥20% ≥80%
STAR
PC spec
Gold: 90% efficient PSU*
+ most recent version of ENERGY ≥20%
STAR
PC spec
Advanced Power 100% 100% 100% 100%
Management
Bronze: 85% efficient PSU*
+ most recent version of ENERGY ≥20% ≥80% ≥80% 100%
STAR server spec, when available
Silver: 89% efficient PSU*
Servers + most recent version of ENERGY ≥20% ≥40% 100%
STAR server spec, when available
Gold: 92% efficient PSU*
+ most recent version of ENERGY ≥20%
STAR server spec, when available
*Efficiency ratings for 50% loading.
37. Benefits of Membership
•Joint Marketing •Regional Leadership
•Logo Promotion •Networking with Key Groups
•Case Studies •Workgroup Participation
•Press Releases
•Brand Leadership
•Outreach
Marketing and
Awareness Stakeholder
Engagement
Commit to energy Conservation and
efficient computing energy efficiency
to create value and are drivers of
make an impact. innovation.
Environmental Market
Leadership Influence
•Leadership Recognition
•Spec Development
•Associate with Leaders
•Insights and influence of
•Value Alignment market trends
•Organizing Events •Program Authority
•Board Voting Rights
38. CSCI Governance
Functional Overview
Board of Directors
Advisory Council Executive Director
Alliances & Membership Marketing ( & N. America) Technical Workgroups Region Deployment
Member Communications AC/DC Energy Efficiency EMEA
Web Power Management India
Programs & Deployment Specs, standards, harmonization Japan
Asia Pacific
South America
USA Metro Regions
Board: ultimate approval, decision & direction authority
Sponsors: workgroup participation, voting members
Workgroups: balanced between users, producers and 3 rd parties
39. Where We’ve Been, Where We’re Headed
CSCI moves the industry (change agent)
- YR1: 8x membership growth, hundreds of compliant products
- YR2: ~60% membership growth, 000’s of products, social/viral carbon-reduction tactics
- 2010: Expansion into potential additional product domains beyond IT, geographic expansion
Technical workgroup leads the way (industry enabler)
- YR1: Energy efficiency specs/criteria, EPA/80+ alignment, scope power management
- YR2: Platinum spec, Servers & storage expansion, power management design guide
- 2010: Networking, Pwr Management software security, spec dev w/ alliances
Increase amplitude of our voice (strong global presence)
- YR1: Expansion into EMEA & Asia Pacific, strong alliances created, media momentum
- YR2: Expansion & alliances (e.g., India, Belgium), deployment programs, increased
awareness
- 2010: New channels deployment, Additional regional and alliance programs
Accelerate specification adoption (worldwide alignment)
- YR1: EPA, CEESC, GIPC, NGA alignment
- YR2: India BEE, EU (lot 3 – 7), scoped AUS/NZ/KOREA
- 2010: Additional influential alliances (e.g., government) in expansion geographies
40. High Efficiency Solutions in
CSCI Product Catalog
Climate Savers Computing Product Catalog High Efficiency Computing Equipment
features high energy efficiency solutions − Desktop
− Search for Products CSCI Bronze, Silver
− Browse the Climate Savers Computing − Server
Product Catalog CSCI Bronze, Silver, Gold
− Select Manufacturer, Product, Region, − Laptops
CSCI Efficiency Level