LIFE CYCLE CONCERNS - Carnegie Mellon...
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LIFE CYCLECONCERNS
18-849b Dependable Embedded SystemsPhil Koopman
1/19/99
Required Reading: Goldberg, “The Advent of ‘Green’ Computer Design”IEEE Computer, Sept. 1998, pp. 16-19
Books: Kirk & Dell'Isola, Life Cycle Costing for Design ProfessionalsChristopher, Logistics: the strategic issuesBurall, Green design
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SYSTEMLIFE
CYCLE
DesignProcess/
Market
VERIFICATION/VALIDATION/
CERTIFICATION
Maintenanceand
Reliability
Manufacturing/Quality
ShoddySpares &Customer
Circumvention
PROFIT$ &BUSINESSMODELS
End-of-LifeWearout &Retirement
Ultra-Dependability
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Overview: Life Cycleu Introduction
• “Dotted Line” relationship to technical areas
u Key concepts• Green Design• Life cycle product/process engineering• Life cycle cost optimization• Logistics
u Tools / techniques / metrics• Mostly business metrics available
u Conclusions & future work
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Life Cycle View -- Not Just Developmentu Optimize considering all phases of product life
• Compare to “development,” which ends when product ships
PRODUCTDESIGN
NEED/OPPORTUNITY
CONCEPTDEVELOPMENT
MANUFACTURINGPROCESSDESIGN
PRODUCTION
DEPLOYMENT
SUPPORT/MAINTENANCE
UPGRADES
RETIREMENT/DISPOSAL
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“Life Cycle Cost”u This is the economic/financial view
• Optimize total cost of ownership– Key factors: purchase cost, energy, maintenance, upgrades, administrative,
debt service, staffing (degree of automation), downtime (opportunity cost)
• Optimize total cost to society– Disposal costs, infrastructure costs
u People’s behavior is a problem• Consumers are impatient, and have cash flow problems
– Value low purchase price even if life cycle cost is high
• People are modeled to behave to maximize utility– But, may not have up-front money to invest– But, may not have any personal incentive to reduce
societal costs
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Logisticsu Keeping supplies flowing
• By type of item:– Manufacturing components– Finished goods– Spare parts
• By activity:– Delivery– Inventory
• Optimize using linear programming/flow optimization
u Problems with support• Not perceived to delivery functionality (“overhead” cost)• Costs more to play catch-up after product is fielded
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“Life Cycle Assessment”u This is the “Green Design” interpretation
• Analyze product design with view to ultimateimpact of scrapping, disposal, or consumption
• ISO 14000 series -- ISO 14040 Life Cycle Assessment
u Impact on embedded systems• IBM estimates that discarded computers will occupy 2 million
tons of US landfill space by 2000. [Goldberg98]• Use low power design
– Reduce energy/resource consumption– Reduce battery requirements (disposable & rechargeable)
• Design for access/separability/longevity– Dis-assembly for recycling– Ready repairability– Better upgradability
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Tools / Techniquesu CAD Tools for Green Design
• Tracking materials through disposal• Design for dis-assembly as well as assembly• “Spreadsheet” approach to tallying total cost to environment
u Classical logistics optimization• Network flow problem/linear programming
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Relationship To Other Topic Areasu Not really “related” to topic areas as much as an
overlay concept• But, must keep life cycle optimization in mind for each area
u Profits & Business Models• Want to optimize business profits over various life cycles
– Product itself– Manufacturing process– Support/logistics cost
• Business issue in terms of maximizing own profit at cost to others– Cost of pollution, government subsidy of technologies, resource depletion– Usual solution is for government to create taxes (e.g., with freon)
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Conclusions & Future Worku “Life Cycle” has many meanings
• Most mature areas are life cycle cost analysis and logistics• Green Design is a sub-area to emphasize ecological costs
u This is a big, broad, nebulous area -- it’s not feasible tocover absolutely everything• Writeup will discuss general concepts• Give a few pointers to a few good starting points; not exhaustive• Not a lot of hard-core engineering papers available
– Mostly management & economics– Green Design is an exception -- receiving engineering attention
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PAPER: “Green” Computer Designu Cool idea: “Self-dismantling computer”u Green design is good; but there are obstacles
• Reduce resource usage, energy usage, manufacturing waste• Cost of recycling can exceed cost of building new• Dynamic tension between building a upgradable product and
making profit on selling replacement products
u No key technical contribution -- it’s a high-level“popular” discussion