Data Center Handbook Plan Design Build and Operations of a Smart Data Center 2nd Edition by Hwaiyu Geng ISBN 9781119597506 1119597501

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ISBN 10: 1119597501
ISBN 13: 9781119597506
Author: Hwaiyu Geng

Written by 59 experts and reviewed by a seasoned technical advisory board, the Data Center Handbook is a thoroughly revised, one-stop resource that clearly explains the fundamentals, advanced technologies, and best practices used in planning, designing, building and operating a mission-critical, energy-efficient, sustainable data center. This handbook, in its second edition, covers anatomy, ecosystem and taxonomy of data centers that enable the Internet of Things and artificial intelligent ecosystems and encompass the following:

Data Center Handbook Plan Design Build and Operations of a Smart Data Center 2nd Edition Table of contents:

PART I: DATA CENTER OVERVIEW AND STRATEGIC PLANNING

1 SUSTAINABLE DATA CENTER: STRATEGIC PLANNING, DESIGN, CONSTRUCTION, AND OPERATIONS WITH EMERGING TECHNOLOGIES

1.1 INTRODUCTION

1.2 ADVANCED TECHNOLOGIES

1.3 DATA CENTER SYSTEM AND INFRASTRUCTURE ARCHITECTURE

1.4 STRATEGIC PLANNING

1.5 DESIGN AND CONSTRUCTION CONSIDERATIONS

1.6 OPERATIONS TECHNOLOGY AND MANAGEMENT

1.7 BUSINESS CONTINUITY AND DISASTER RECOVERY

1.8 WORKFORCE DEVELOPMENT AND CERTIFICATION

1.9 GLOBAL WARMING AND SUSTAINABILITY

1.10 CONCLUSIONS

REFERENCES

FURTHER READING

2 GLOBAL DATA CENTER ENERGY DEMAND AND STRATEGIES TO CONSERVE ENERGY

2.1 INTRODUCTION

2.2 APPROACHES FOR MODELING DATA CENTER ENERGY USE

2.3 GLOBAL DATA CENTER ENERGY USE: PAST AND PRESENT

2.4 GLOBAL DATA CENTER ENERGY USE: FORWARD‐LOOKING ANALYSIS

2.5 DATA CENTERS AND CLIMATE CHANGE

2.6 OPPORTUNITIES FOR REDUCING ENERGY USE

2.7 CONCLUSIONS

REFERENCES

FURTHER READING

3 ENERGY AND SUSTAINABILITY IN DATA CENTERS

3.1 INTRODUCTION

3.2 MODULARITY IN DATA CENTERS

3.3 COOLING A FLEXIBLE FACILITY

3.4 PROPER OPERATING TEMPERATURE AND HUMIDITY

3.5 AVOIDING COMMON PLANNING ERRORS

3.6 DESIGN CONCEPTS FOR DATA CENTER COOLING SYSTEMS

3.7 BUILDING ENVELOPE AND ENERGY USE

3.8 AIR MANAGEMENT AND CONTAINMENT STRATEGIES

3.9 ELECTRICAL SYSTEM EFFICIENCY

3.10 ENERGY USE OF IT EQUIPMENT

3.11 SERVER VIRTUALIZATION

3.12 INTERDEPENDENCY OF SUPPLY AIR TEMPERATURE AND ITE ENERGY USE

3.13 IT AND FACILITIES WORKING TOGETHER TO REDUCE ENERGY USE

3.14 DATA CENTER FACILITIES MUST BE DYNAMIC AND ADAPTABLE

3.15 SERVER TECHNOLOGY AND STEADY INCREASE OF EFFICIENCY

3.16 DATA COLLECTION AND ANALYSIS FOR ASSESSMENTS

3.17 PRIVATE INDUSTRY AND GOVERNMENT ENERGY EFFICIENCY PROGRAMS

3.18 STRATEGIES FOR OPERATIONS OPTIMIZATION

3.19 UTILITY CUSTOMER‐FUNDED PROGRAMS

REFERENCES

FURTHER READING

4 HOSTING OR COLOCATION DATA CENTERS

4.1 INTRODUCTION

4.2 HOSTING

4.3 COLOCATION (WHOLESALE)

4.4 TYPES OF DATA CENTERS

4.5 SCALING DATA CENTERS

4.6 SELECTING AND EVALUATING DC HOSTING AND WHOLESALE PROVIDERS

4.7 BUILD VERSUS BUY

4.8 FUTURE TRENDS

4.9 CONCLUSION

REFERENCES

FURTHER READING

SOURCES FOR DATA CENTER INDUSTRY NEWS AND TRENDS

5 CLOUD AND EDGE COMPUTING

5.1 INTRODUCTION TO CLOUD AND EDGE COMPUTING

5.2 IT STACK

5.3 CLOUD COMPUTING

5.4 EDGE COMPUTING

5.5 FUTURE TRENDS

REFERENCES

FURTHER READING

6 DATA CENTER FINANCIAL ANALYSIS, ROI, AND TCO

6.1 INTRODUCTION TO FINANCIAL ANALYSIS, RETURN ON INVESTMENT, AND TOTAL COST OF OWNERSHIP

6.2 FINANCIAL MEASURES OF COST AND RETURN

6.3 COMPLICATIONS AND COMMON PROBLEMS

6.4 A REALISTIC EXAMPLE

6.5 CHOOSING TO BUILD, REINVEST, LEASE, OR RENT

FURTHER READING

7 MANAGING DATA CENTER RISK

7.1 INTRODUCTION

7.2 BACKGROUND

7.3 REFLECTION: THE BUSINESS CASE

7.4 KNOWLEDGE TRANSFER 1

7.5 THEORY: THE DESIGN PHASE

7.6 KNOWLEDGE TRANSFER 2

7.7 PRACTICE: THE BUILD PHASE

7.8 KNOWLEDGE TRANSFER 3: PRACTICAL COMPLETION

7.9 EXPERIENCE: OPERATION

7.10 KNOWLEDGE TRANSFER 4

7.11 CONCLUSIONS

REFERENCES

PART II: DATA CENTER TECHNOLOGIES

8 SOFTWARE‐DEFINED ENVIRONMENTS

8.1 INTRODUCTION

8.2 SOFTWARE‐DEFINED ENVIRONMENTS ARCHITECTURE

8.3 SOFTWARE‐DEFINED ENVIRONMENTS FRAMEWORK

8.4 CONTINUOUS ASSURANCE ON RESILIENCY

8.5 COMPOSABLE/DISAGGREGATED DATACENTER ARCHITECTURE

8.6 SUMMARY

REFERENCES

9 COMPUTING, STORAGE, AND NETWORKING RESOURCE MANAGEMENT IN DATA CENTERS

9.1 INTRODUCTION

9.2 RESOURCE VIRTUALIZATION AND RESOURCE MANAGEMENT

9.3 CLOUD PLATFORM

9.4 PROGRESS FROM SINGLE‐CLOUD TO MULTI‐CLOUD

9.5 RESOURCE MANAGEMENT ARCHITECTURE IN LARGE‐SCALE CLUSTERS

9.6 CONCLUSIONS

REFERENCES

10 WIRELESS SENSOR NETWORKS TO IMPROVE ENERGY EFFICIENCY IN DATA CENTERS

10.1 INTRODUCTION

10.2 WIRELESS SENSOR NETWORKS

10.3 SENSORS AND ACTUATORS

10.4 SENSOR ANALYTICS

10.5 ENERGY SAVINGS

10.6 CONTROL SYSTEMS

10.7 QUANTIFIABLE ENERGY SAVINGS POTENTIAL

10.8 CONCLUSIONS

REFERENCES

11 ASHRAE STANDARDS AND PRACTICES FOR DATA CENTERS

11.1 INTRODUCTION: ASHRAE AND TECHNICAL COMMITTEE TC 9.9

11.2 THE GROUNDBREAKING ASHRAE “THERMAL GUIDELINES”

11.3 THE THERMAL GUIDELINES CHANGE IN HUMIDITY CONTROL

11.4 A NEW UNDERSTANDING OF HUMIDITY AND STATIC DISCHARGE

11.5 HIGH HUMIDITY AND POLLUTION

11.6 THE ASHRAE “DATACOM SERIES”

11.7 THE ASHRAE HANDBOOK AND TC 9.9 WEBSITE

11.8 ASHRAE STANDARDS AND CODES

11.9 ANSI/ASHRAE STANDARD 90.1‐2010 AND ITS CONCERNS

11.10 THE DEVELOPMENT OF ANSI/ASHRAE STANDARD 90.4

11.11 SUMMARY OF ANSI/ASHRAE STANDARD 90.4

11.12 ASHRAE BREADTH AND THE ASHRAE JOURNAL

REFERENCES

FURTHER READING

12 DATA CENTER TELECOMMUNICATIONS CABLING AND TIA STANDARDS

12.1 WHY USE DATA CENTER TELECOMMUNICATIONS CABLING STANDARDS?

12.2 TELECOMMUNICATIONS CABLING STANDARDS ORGANIZATIONS

12.3 DATA CENTER TELECOMMUNICATIONS CABLING INFRASTRUCTURE STANDARDS

12.4 TELECOMMUNICATIONS SPACES AND REQUIREMENTS

12.5 STRUCTURED CABLING TOPOLOGY

12.6 CABLE TYPES AND MAXIMUM CABLE LENGTHS

12.7 CABINET AND RACK PLACEMENT (HOT AISLES AND COLD AISLES)

12.8 CABLING AND ENERGY EFFICIENCY

12.9 CABLE PATHWAYS

12.10 CABINETS AND RACKS

12.11 PATCH PANELS AND CABLE MANAGEMENT

12.12 RELIABILITY RATINGS AND CABLING

12.13 CONCLUSION AND TRENDS

FURTHER READING

13 AIR‐SIDE ECONOMIZER TECHNOLOGIES

13.1 INTRODUCTION

13.2 USING PROPERTIES OF AMBIENT AIR TO COOL A DATA CENTER

13.3 ECONOMIZER THERMODYNAMIC PROCESS AND SCHEMATIC OF EQUIPMENT LAYOUT

13.4 COMPARATIVE POTENTIAL ENERGY SAVINGS AND REQUIRED TRIM MECHANICAL REFRIGERATION

13.5 CONVENTIONAL MEANS FOR COOLING DATACOM FACILITIES

13.6 A NOTE ON LEGIONNAIRES’ DISEASE

REFERENCES

FURTHER READING

14 RACK‐LEVEL COOLING AND SERVER‐LEVEL COOLING

14.1 INTRODUCTION

14.2 RACK‐LEVEL COOLING

14.3 SERVER‐LEVEL COOLING

14.4 CONCLUSIONS AND FUTURE TRENDS

FURTHER READING

15 CORROSION AND CONTAMINATION CONTROL FOR MISSION CRITICAL FACILITIES

15.1 INTRODUCTION

15.2 DATA CENTER ENVIRONMENTAL ASSESSMENT

15.3 GUIDELINES AND LIMITS FOR GASEOUS CONTAMINANTS

15.4 AIR CLEANING TECHNOLOGIES

15.5 CONTAMINATION CONTROL FOR DATA CENTERS

15.6 TESTING FOR FILTRATION EFFECTIVENESS AND FILTER LIFE

15.7 DESIGN/APPLICATION OF DATA CENTER AIR CLEANING

15.8 SUMMARY AND CONCLUSION

15.9 APPENDIX 1: ADDITIONAL DATA CENTER SERVICES

15.10 APPENDIX 2: DATA CENTER HISTORY

15.11 APPENDIX 3: Appendix

15.12 APPENDIX 4: Appendix

FURTHER READING

16 RACK PDU FOR GREEN DATA CENTERS

16.1 INTRODUCTION

16.2 FUNDAMENTALS AND PRINCIPLES

16.3 ELEMENTS OF THE SYSTEM

16.4 CONSIDERATIONS FOR PLANNING AND SELECTING RACK PDUs

16.5 FUTURE TRENDS FOR RACK PDUs

FURTHER READING

17 FIBER CABLING FUNDAMENTALS, INSTALLATION, AND MAINTENANCE

17.1 HISTORICAL PERSPECTIVE AND THE “STRUCTURED CABLING MODEL” FOR FIBER CABLING

17.2 DEVELOPMENT OF FIBER TRANSPORT SERVICES (FTS) BY IBM

17.3 ARCHITECTURE STANDARDS

17.4 DEFINITION OF CHANNEL VS. LINK

17.5 NETWORK/CABLING ELEMENTS

17.6 PLANNING FOR FIBER‐OPTIC NETWORKS

17.7 LINK POWER BUDGETS AND APPLICATION STANDARDS

17.8 LINK COMMISSIONING

17.9 TROUBLESHOOTING, REMEDIATION, AND OPERATIONAL CONSIDERATIONS FOR THE FIBER CABLE PLANT

17.10 CONCLUSION

REFERENCE

FURTHER READING

BOOKS

PAPERS

WEB

18 DESIGN OF ENERGY‐EFFICIENT IT EQUIPMENT

18.1 INTRODUCTION

18.2 ENERGY‐EFFICIENT EQUIPMENT

18.3 HIGH‐EFFICIENT COMPUTE SERVER CLUSTER

18.4 PROCESS TO DESIGN ENERGY‐EFFICIENT SERVERS

18.5 CONCLUSION

ACKNOWLEDGEMENT

REFERENCES

FURTHER READING

PERFORMANCE STANDARD

PSU 80 PLUS

GPU

WATER COOLING SEVERS

19 ENERGY‐SAVING TECHNOLOGIES OF SERVERS IN DATA CENTERS

19.1 INTRODUCTION

19.2 ENERGY CONSUMPTION MODELING OF SERVERS IN DATA CENTERS

19.3 ENERGY‐SAVING TECHNOLOGIES OF SERVERS

19.4 CONCLUSIONS

ACKNOWLEDGMENTS

REFERENCES

20 CYBERSECURITY AND DATA CENTERS

20.1 INTRODUCTION

20.2 BACKGROUND OF OT CONNECTIVITY IN DATA CENTERS

20.3 VULNERABILITIES AND THREATS TO OT SYSTEMS

20.4 LEGISLATION COVERING OT SYSTEM SECURITY

20.5 CYBER INCIDENTS INVOLVING DATA CENTER OT SYSTEMS

20.6 CYBERATTACKS TARGETING OT SYSTEMS

20.7 PROTECTING OT SYSTEMS FROM CYBER COMPROMISE

20.8 CONCLUSION

REFERENCES

21 CONSIDERATION OF MICROGRIDS FOR DATA CENTERS

21.1 INTRODUCTION

21.2 DESCRIPTION OF MICROGRIDS

21.3 CONSIDERING MICROGRIDS FOR DATA CENTERS

21.4 U.S. MICROGRID MARKET

21.5 CONCLUDING REMARKS

REFERENCES

FURTHER READING

PART III: DATA CENTER DESIGN & CONSTRUCTION

22 DATA CENTER SITE SEARCH AND SELECTION

22.1 INTRODUCTION

22.2 SITE SEARCHES VERSUS FACILITY SEARCHES

22.3 GLOBALIZATION AND THE SPEED OF LIGHT

22.4 THE SITE SELECTION PROCESS

22.5 INDUSTRY TRENDS AFFECTING SITE SELECTION

ACKNOWLEDGMENT

FURTHER READING

23 ARCHITECTURE

23.1 INTRODUCTION

23.2 FIBER OPTIC NETWORK DESIGN

23.3 OVERVIEW OF RACK AND CABINET DESIGN

23.4 SPACE AND POWER DESIGN CRITERIA

23.5 PATHWAYS

23.6 COORDINATION WITH OTHER SYSTEMS

23.7 COMPUTER ROOM DESIGN

23.8 SCALABLE DESIGN

23.9 CFD MODELING

23.10 DATA CENTER SPACE PLANNING

23.11 CONCLUSION

FURTHER READING

24 MECHANICAL DESIGN IN DATA CENTERS

24.1 INTRODUCTION

24.2 KEY DESIGN CRITERIA

24.3 MECHANICAL DESIGN PROCESS

24.4 DATA CENTER CONSIDERATIONS IN SELECTING KEY COMPONENTS

24.5 PRIMARY DESIGN OPTIONS

24.6 CURRENT BEST PRACTICES

24.7 FUTURE TRENDS

ACKNOWLEDGMENT

REFERENCE

FURTHER READING

25 DATA CENTER ELECTRICAL DESIGN

25.1 INTRODUCTION

25.2 DESIGN INPUTS

25.3 ARCHITECTURE RESILIENCE

25.4 ELECTRICAL DESIGN CHALLENGES

25.5 FACEBOOK, INC. ELECTRICAL DESIGN

FURTHER READING

26 ELECTRICAL

26.1 INTRODUCTION

26.2 PRINCIPAL OF UPS AND APPLICATION

26.3 CONSIDERATIONS IN SELECTING UPS

26.4 RELIABILITY AND REDUNDANCY

26.5 ALTERNATE ENERGY SOURCES: AC AND DC

26.6 UPS PREVENTIVE MAINTENANCE REQUIREMENTS

26.7 UPS MANAGEMENT AND CONTROL

26.8 CONCLUSION AND TRENDS

FURTHER READING

27 STRUCTURAL DESIGN IN DATA CENTERS

27.1 INTRODUCTION

27.2 BUILDING DESIGN CONSIDERATIONS

27.3 EARTHQUAKES

27.4 HURRICANES, TORNADOES, AND OTHER WINDSTORMS

27.5 SNOW AND RAIN

27.6 FLOOD AND TSUNAMI

27.7 COMPREHENSIVE RESILIENCY STRATEGIES

REFERENCES

28 FIRE PROTECTION AND LIFE SAFETY DESIGN IN DATA CENTERS

28.1 FIRE PROTECTION FUNDAMENTALS

28.2 AHJS, CODES, AND STANDARDS

28.3 LOCAL AUTHORITIES, NATIONAL CODES, AND STANDARDS

28.4 LIFE SAFETY

28.5 PASSIVE FIRE PROTECTION

28.6 ACTIVE FIRE PROTECTION AND SUPPRESSION

28.7 DETECTION, ALARM, AND SIGNALING

28.8 FIRE PROTECTION DESIGN & CONCLUSION

REFERENCES

29 RELIABILITY ENGINEERING FOR DATA CENTER INFRASTRUCTURES

29.1 INTRODUCTION

29.2 DEPENDABILITY THEORY

29.3 SYSTEM DYSFUNCTIONAL ANALYSIS

29.4 APPLICATION TO DATA CENTER DEPENDABILITY

FURTHER READING

30 COMPUTATIONAL FLUID DYNAMICS FOR DATA CENTERS

30.1 INTRODUCTION

30.2 FUNDAMENTALS OF CFD

30.3 APPLICATIONS OF CFD FOR DATA CENTERS

30.4 MODELING THE DATA CENTER

30.5 POTENTIAL ADDITIONAL BENEFITS OF A CFD‐BASED DIGITAL TWIN

30.6 THE FUTURE OF CFD‐BASED DIGITAL TWINS

REFERENCES

31 DATA CENTER PROJECT MANAGEMENT

31.1 INTRODUCTION

31.2 PROJECT KICKOFF PLANNING

31.3 PREPARE PROJECT SCOPE OF WORK

31.4 ORGANIZE PROJECT TEAM

31.5 PROJECT SCHEDULE

31.6 PROJECT COSTS

31.7 PROJECT MONITORING AND REPORTING

31.8 PROJECT CLOSEOUT

31.9 CONCLUSION

FURTHER READING

PART IV: DATA CENTER OPERATIONS MANAGEMENT

32 DATA CENTER BENCHMARK METRICS

32.1 INTRODUCTION

32.2 THE GREEN GRID’S PUE: A USEFUL METRIC

32.3 METRICS FOR EXPRESSING PARTIAL ENERGY USE

32.4 APPLYING PUE IN THE REAL WORLD

32.5 METRICS USED IN DATA CENTER ASSESSMENTS

32.6 THE GREEN GRIDS XUE METRICS

32.7 RCI AND RTI

32.8 ADDITIONAL INDUSTRY METRICS AND STANDARDS

32.9 EUROPEAN COMMISSION CODE OF CONDUCT

32.10 CONCLUSION

FURTHER READING

33 DATA CENTER INFRASTRUCTURE MANAGEMENT

33.1 WHAT IS DATA CENTER INFRASTRUCTURE MANAGEMENT

33.2 TRIGGERS FOR DCIM ACQUISITION AND DEPLOYMENT

33.3 WHAT ARE MODULES OF A DCIM SOLUTION

33.4 THE DCIM SYSTEM ITSELF: WHAT TO EXPECT AND PLAN FOR

33.5 CRITICAL SUCCESS FACTORS WHEN IMPLEMENTING A DCIM SYSTEM

33.6 DCIM AND DIGITAL TWIN

33.7 FUTURE TRENDS IN DCIM

33.8 CONCLUSION

ACKNOWLEDGMENT

FURTHER READING

34 DATA CENTER AIR MANAGEMENT

34.1 INTRODUCTION

34.2 COOLING DELIVERY

34.3 METRICS

34.4 AIR CONTAINMENT AND ITS IMPACT ON AIR PERFORMANCE

34.5 IMPROVING AIR PERFORMANCE

34.6 CONCLUSION

REFERENCES

35 ENERGY EFFICIENCY ASSESSMENT OF DATA CENTERS USING MEASUREMENT AND MANAGEMENT TECHNOLOGY

35.1 INTRODUCTION

35.2 ENERGY CONSUMPTION TRENDS IN DATA CENTERS

35.3 COOLING INFRASTRUCTURE IN A DATA CENTER

35.4 COOLING ENERGY EFFICIENCY IMPROVEMENTS

35.5 MEASUREMENT AND MANAGEMENT TECHNOLOGY (MMT)

35.6 MMT‐BASED BEST PRACTICES

35.7 MEASUREMENT AND METRICS

35.8 CONCLUSIONS

REFERENCES

36 DRIVE DATA CENTER MANAGEMENT AND BUILD BETTER AI WITH IT DEVICES AS SENSORS

36.1 INTRODUCTION

36.2 CURRENT SITUATION OF DATA CENTER MANAGEMENT

36.3 AI INTRODUCED IN DATA CENTER MANAGEMENT

36.4 CAPABILITIES OF IT DEVICES USED FOR DATA CENTER MANAGEMENT

36.5 USAGE MODELS

36.6 SUMMARY AND FUTURE PERSPECTIVES

FURTHER READING

37 PREPARING DATA CENTERS FOR NATURAL DISASTERS AND PANDEMICS

37.1 INTRODUCTION

37.2 DESIGN FOR BUSINESS CONTINUITY AND DISASTER RECOVERY

37.3 NATURAL DISASTERS

37.4 THE 2011 GREAT EAST JAPAN EARTHQUAKE

37.5 THE 2012 EASTERN U.S. COAST SUPERSTORM SANDY

37.6 THE 2019 CORONAVIRUS DISEASE (COVID‐19) PANDEMIC

37.7 CONCLUSIONS

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