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Lecture 4: Power Provisioning. Prof. Fred Chong 290N Green Computing. Power Provisioning. $10-22 per deployed IT Watt Given 10 year depreciation cycle $1-2.20 per Watt per year Assume $0.07 per kilowatt-hr and PUE 2.0 8766 hours in a year (8766 / 1000) * $0.07 * 2.0 = $1.22724
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Lecture 4: Power Provisioning Prof. Fred Chong 290N Green Computing
Power Provisioning • $10-22 per deployed IT Watt • Given 10 year depreciation cycle • $1-2.20 per Watt per year • Assume $0.07 per kilowatt-hr and PUE 2.0 • 8766 hours in a year • (8766 / 1000) * $0.07 * 2.0 = $1.22724 • Up to 2X cost in provisioning • eg. 50% full datacenter = 2X provisioning cost
Workloads • Websearch – high request throughput and large data size • Webmail – high I/O • Mapreduce – large offline batch jobs
Time at Power Level 80 servers 800 servers 8000 servers
Oversubscription Opportunity • 7% for racks (80) • 22% for PDUs (800) • 28% for clusters (8000) • Could have hosted almost 40% more machines
Underdeployment • New facilities plan for growth • Also discretization of capacity • Eg 2.5kW circuit may have four 520W servers • 17% underutilized, but can’t have one more
Modeling Costs TCO = datacenter depreciation + datacenter opex + server depreciation + server opex
Case A • Dell 2950 III EnergySmart • 16GB of RAM and 4 disks • 300 Watts • $6K
Assumptions • The cost of electricity is the 2006 average US industrial rate ay 6.2 cents/kWh. • The interest rate a business must pay on their loans is 12%. • The cost of datacenter construction is $15/W amortized over 12 years. • Datacenter opex is $0.03/W/month. • The datacenter has a PUE of 2.0. • Server lifetime is 4 years, and server repair and maintenance is 5% of capex per year. • The server’s average power draw is 75% of peak power.
Case B • higher-powered server • 500W • $2K • energy cost of $0.10/kWh • datacenter related costs rise to 46% of the total • energy costs to 25% • server costs falling to 31%. • hosting cost of such a server, i.e., the cost of all infrastructure and power to house it, is more than twice the cost of purchasing and maintaining the server.
Utilization • CPU Utilization of 50% => 75% Peak Power • Nameplate 500W server • with all options (max mem, disk, PCI cards) • but more commonly 300W • Thus 60% utilized => 1.66x OPEX • Vendor power calculator assumes 100% CPU utilization
Power Provisioning Problems • Assume 30% CPU utilization and provision power accordingly • 200W instead of 300W • Variations could cause server to overhead or trip a breaker • Adding memory or disk would require physical decompaction of racks • Thus 20-50% slack space common • Eg 10MW provisioned power => 4-6 MW actual power (plus PUE overhead)
Partial Utilization Costs • Partially utilized servers use less power • Appear to cost less in OPEX cost per server • But produce less value in terms of applications • Need metric for application value • Eg number of transactions, number of web searches • Divide TCO by metric • Eg TCO = $1M/month, 100M transactions/month => 1 cent / transaction • Eg TCO = $1M/month, 50M transactions/month => 2 cents / transaction (2X cost)