Abstract
GBI Research’s new report, “The Energy Efficient IT Equipment
Market to 2020 - Increasing Capital Requirements and Significant
Inefficiencies Boosting Green Data Centers” provides key information and
analysis on the market opportunities in the energy efficient IT equipment. The
report does a detailed assessment of the market forces influencing the energy
efficient IT equipment market. It segments the global energy efficient IT
equipment market into server, storage and networking equipment including
router and switch. The report has a dedicated chapter on the market share and
energy efficient product portfolio of key players in the industry. IT
equipment has traditionally been benchmarked on performance with no clear
metrics for energy efficiency. The manufacturers always focused on performance
and thus, they failed to check the increase in power demand by IT equipment.
Now, data centers are the ‘energy hog’ of an organization. The
networking infrastructure is becoming a growing portion of the energy
footprint in data centers. With rising energy prices affecting every sector of
industry, increasing energy consumption can no longer be kept on the back
burners. Furthermore, these are mounting regulatory pressures from
governmental quarters — the EU Code of Conduct for Data Centers and the
European Commission putting forward the climate action and renewable energy
package of proposals.
This report is built using data and information sourced from proprietary
databases, primary and secondary research and in-house analysis by GBI
Research’s team of industry experts.
Rising Energy Cost and Evolving Regulations and Legislations Draws the
Attention towards Energy Efficient IT Equipment Market
Rising energy cost and evolving regulations and legislations to adopt energy
efficiency by various governments across globe are working in tandem to draw
the attention towards the energy efficient IT equipment. With rising energy
prices affecting every sector of industry, increasing energy consumption can
no longer be kept on the back burner. Furthermore, these are mounting
regulatory pressures from governmental quarters - the EU Code of Conduct for
Data Centers and the European Commission putting forward the climate action
and renewable energy package of proposals. The more energy efficient IT
equipment an enterprise will use, the more competitive it is in a business
environment where energy costs are increasing at record rates. The cost of
electricity production is bound to go on an upward spiral with the rapid
depletion of fossil fuels and huge investment in exploring new oil mines in
the future. Energy efficient IT equipment not only reduces companies’
energy costs but also supports business growth by making the energy previously
used by the physical infrastructure available to power new server, storage and
communications equipment. The annual electricity consumption in US as
estimated by the US Environmental Protection Agency (EPA) under various
scenarios is shown below:
Efforts to reduce carbon emissions have risen multifold and strategies to
mitigate the impact of climate change have reached new dimensions Impeding
regulations are expected to tighten the norms for energy efficiency.
Continuous improvement in energy efficiency standards for Energy Star ratings
would result in huge cost savings. These cost benefits are expected to spur
the investment in green IT. Highly industrialized nations have committed
themselves to slashing their emissions of four greenhouse gases. The
legislatory cap on carbon emissions from businesses will drive corporations to
look for avenues such as green IT to reduce their carbon footprint.
The US, Annual Electricity Use (Billion kWh/year) Scenarios, 2000-2011
Source: GBI Research, U.S. Environmental Protection Agency (EPA)
Base
Data: 2007
Lack of Single Standard Associated with Sustainability - an Area of Concern
The evolution of IT equipment is happening at a global level. However, the
scope of critical standards for green IT is local in nature. The standards
that exist are either inconsistent in their approaches or it is very
challenging to compare products or benchmarks that are accredited under such
standards. Furthermore, lack of industry measure for sustainability which
divulges a clear understanding of such standards is a pressing concern. The
green related product information that does exist is rarely provided to the IT
buyer in an easy to digest fashion. Despite governments’ actions to
tighten the noose on carbon outputs, approximately 80% of IT equipment in the
market lacks green accreditation. Although standards such as Energy Star
provide some strict guidelines, there is no single standard associated with
sustainability — different countries use different standards. There are
a number of different standards such as Blue Angel, Electronic Product
Environmental Assessment Tool (EPEAT), and the government’s own
‘Quick Wins’. The global nature of a standard is essential to
avoid the existence of non-harmonized standards for similar technologies in
different countries, leading to artificial “technical barriers to
trade”. The international characteristics of standards and coordination
are also essential to avoid costly duplication of research and product
development. Close coordination between standardizing bodies becomes
imperative when scaling standards for new technological developments. IT
equipment manufacturers need to conduct due diligence prior to undertaking a
costly assessment of their products. Governments and IT equipment
manufacturers should collaborate to bring forth a unified and measurable
standard associated with sustainability.
Networking Infrastructure Positioned to Play a Crucial Role in Reducing Energy
Consumption and Greenhouse Gases
IT equipment has traditionally been judged on performance with no clear
metrics for energy efficiency. Manufacturers always focused on performance,
failing to check the increase in power demand by IT equipment. Now, data
centers are the ‘energy hog’ of an organization. The networking
infrastructure is becoming a growing portion of the energy footprint in data
centers. Networked sustainability is becoming an important issue which also
goes hand in hand with energy efficiency and by exploiting Power over Ethernet
(PoE) and management software capability, power management can be automated
for IT and non-IT end points attached to the network. The networking
infrastructure is responsible for between 3-10% of total data center
lifecycle energy use. Thus, the network is uniquely positioned to play a
crucial role in reducing energy consumption and Greenhouse Gas (GHG)
emissions, not only within the infrastructure itself, but throughout the
organization.
Blade Server are Expected to Penetrate the Overall Server Market at a Rapid
Rate
Blade servers, one of the most efficient servers available in the market,
accounted for 12.5% of overall server revenue in 2009. The global blade server
market was valued at $5.4 billion in 2009 as compared to $2.1 billion in 2005.
The blade servers market is driven by the x86 systems which accounted for more
than 87% of the total blade servers’ revenue in 2009. Despite the
economic downturn and tighter budgets, the blade server segment experienced
revenue growth and an increase in average selling price in 2009. Blade servers
provide the benefits of improved asset utilization, IT flexibility and energy
efficiency as compared to the traditional servers. IT customers across the
globe recognize the benefits of consolidation, high density, less space and so
on. Hence, customers are leveraging the platform to deliver a dynamic IT
environment. Blade server vendors in their interviews with GBI Research
support the high growth of blade servers in the years ahead. GBI Research, in
consensus with the industry experts, anticipates the blade server market to
grow at a Compound Annual Growth Rate (CAGR) of 12.4% during the forecast
period 2010-2020.
Global Servers Market Revenue, ($ bn), 2005-2009
Source: GBI
Research
Escalating Storage Needs Coupled with Improved Data Protection will Spur the
Demand of NAS and iSCSI SAN Storage Solutions
The escalating capacity, need for improved data protection, flexible storage
provisioning, data sharing and multiple storage among others are expected to
deploy the energy efficient disk storage market. Networked disk storage
solutions that consist of Network Area Storage (NAS) and Storage Area Network
(SAN) disk storage has made it easier for organizations to implement one
platform for multiple file based and block based storage workloads. Energy
efficient storage disk systems are expanding in new directions to incorporate
devices, policy and multiple data management layers. The energy efficient
network storage devices market grew at a CAGR of 8.2% during 2005-2009
from $10.2 billion in 2005 to $14 billion in 2009. GBI Research anticipates
the energy efficient disk storage market to grow at a CAGR of 12.1% during
2010-2020.
In the small to medium businesses, the energy efficient NAS and iSCSI SAN
storage provides the flexibility to deploy multi-protocol without sacrificing
the environment and performance. Though, the fibre SAN disk storage provides
the best solution to meet the growing requirements of massive scalability and
automated data movement in the new data centers, they are expensive than NAS
and iSCSI SAN storage. Industry experts in their interviews with GBI Research
support the significant growth of NAS and iSCSI storage solutions in small to
medium business organizations and departments in the years ahead. The fibre
SAN will experience a demand from the high end enterprises section.
Manufacturer’s Initiatives to Increase Power Efficiency and Improve
Manufacturing Process will fuel the Energy Efficient IT Equipment Market
IT equipment manufacturers across the globe are involved in the technology
advancement and improved manufacturing process to spur the energy efficient IT
equipment market. Usage of state-in-art recycling and waste reduction
programs, energy management systems and speed up process of delivering energy
equipment, are some of the broader strategies adopted by IT manufacturers to
improve the functionality of their products. For instance, Juniper Networks
developed two projects named project Stratus and project Falcon to increase
the energy efficiency of the networking equipment. These projects will deliver
a considerable change in scale, higher performance, simplicity and convergence
of mobility and internet at a lower cost of ownership. 3Com Corporation,
acquired by Hewlett Packard deploys its products with European Union’s
RoHS Directive which restricts the use of certain hazardous substances in
electrical and electronic equipment. 3Com has rolled out power adapters, which
the company claims are 30% more efficient than conventional models.
Alcatel-Lucent, one of the key players in networking equipment is involved in
technology advancement to achieve energy efficiency in its products. Some of
the key areas where the company has gained substantial grounds are innovative
silicon design, continuous advancements in line card efficiency, Integrated
Service Adapter (ISA) technology and dynamic powering. IT equipment
manufacturers in their interviews with GBI Research support high R&D
investments and initiatives for the deployment of energy efficient IT
equipment.
The Energy Efficient IT Equipment Market to 2020 - Increasing Capital
Requirements and Significant Inefficiencies Boosting Green Data Centers
Summary
GBI Research’s clean technology report, “The Energy Efficient IT
Equipment Market to 2020 - Increasing Capital Requirements and Significant
Inefficiencies Boosting Green Data Centers” provides key information and
analysis on the market opportunities in the energy efficient IT equipments in
data centers. The report does a detailed assessment of the market forces
influencing the energy efficient IT equipments market in data centers. It
segments the global energy efficient IT equipments market on the basis of
geography, business segments and end-users. Data Centers, widely considered
the backbones of IT Infrastructure of Global corporations, are undergoing
robust growth globally due to the increasing IT requirements of businesses.
Globally carbon "Cap and Trade" programs are gaining steam with tighter
regulations on businesses emitting greenhouse gases. These are some of the
trends making cases for how conducive the ecosystem is, facilitating the
offtake of Green IT products, services and practices. The report has a
dedicated chapter on the regulatory framework and provides comprehensive
profiles of key players in the industry. IT equipment has traditionally been
benchmarked on performance with no clear metrics for energy efficiency. The
manufacturers always focused on performance and thus, they failed to check the
increase in power demand by IT equipment. Now, data centers are the
‘energy hog’ of an organization. The networking infrastructure is
becoming a growing portion of the energy footprint in data centers. With
rising energy prices affecting every sector of industry, increasing energy
consumption can no longer be kept on the back burners. Furthermore, these are
mounting regulatory pressures from governmental quarters — the EU Code
of Conduct for Data Centers and the European Commission putting forward the
climate action and renewable energy package of proposals.
This report is built using data and information sourced from proprietary
databases, primary and secondary research and in-house analysis by GBI
Research’s team of industry experts.
Scope
- Key geographies such as the United States (US), Canada, the United Kingdom
(UK), Germany, France, Italy, Spain, Japan, China, India, Australia, and
Brazil
- Qualitative analysis of market drivers and restraints for the
global energy efficient IT equipment market.
- Market revenue and unit
shipment of the global blade server market from 2005 to 2009, forecast forward
for 11 years to 2020.
- Market revenues of the global energy efficient
network storage market from 2005 to 2020.
- Market revenues of the global
switch market from 2005 to 2020. It also contains the global switch market
revenue breakdown on the basis of top layer and bottom layer network switch
- Market revenues of the global router market from 2005 to 2020. It
contains the global router market for service provider router and enterprise
router
- Competitive landscape includes the market share and product
portfolio of key players in server, storage, switch and router market for the
year 2009.
- Key topics covered include the distribution structure,
technology analysis, regulatory framework including the standards, patents
etc.
Reasons to buy
The report will enhance your decision making capability in a rapid and time
sensitive manner. It will allow you to:
- Develop business strategies by
understanding the trends and developments that are driving the global data
center IT equipment market
- Design and develop your product development,
marketing and sales strategies
- Identify key players best positioned to
take advantage of the emerging market opportunities
- Develop business
strategies and future plans by the region wise understanding of the data
center IT equipment market future trends
- What’s the next big thing
in the data center It equipment market landscape across the world? -
Identify, understand and capitalize
- Make more informed business
decisions from the insightful and in-depth analysis of the data center IT
equipment market and the factors shaping it.
Table of Contents
1 Table of Contents
1 Table of Contents 5
1.1 List of Tables 8
1.2
List of Figures 10
2 Global Energy Efficient IT Equipment Market, Industry
Overview 11
2.1 Market Definition 11
2.1.1 Classification of Servers
11
2.1.2 What are Network Storage Devices? 12
2.1.3 Classification of
Storage Devices 12
2.1.4 What are Routers? 13
2.1.5 Classification of
Routers on the Basis of Product Type 13
2.1.6 Classification of Routers on
the Basis of Customer Segments 14
2.1.7 What are Networking Switches?
14
2.1.8 Classification of Networking Switches 14
3 Global Energy
Efficient IT Equipment Market, Market Force Analysis 15
3.1 Global Energy
Efficient IT Equipment Market, Key Drivers 15
3.1.1 Rising Energy Costs
16
3.1.2 Space Constraints 17
3.1.3 Huge Datacenter Operational Costs
17
3.1.4 Cost Leadership 17
3.1.5 Evolving Energy Efficient
Regulations and Need to Meet Anticipated Legislation and Regulatory Guidelines
18
3.1.6 Growth in Global Internet Subscriptions and Usage 18
3.1.7
Financial Inducements for Green IT Investments 18
3.2 Global Energy
Efficient IT Equipment Market, Key Restraints 19
3.2.1 High Initial
Capital Cost 19
3.2.2 Lack of Corporate Will 20
3.2.3 Shrinking IT
Spending 20
3.2.4 Single Source Suppliers 20
3.2.5 Lack of Single
Standard Associated with Sustainability 21
4 Global Energy Efficient
Servers Market Information, 2005-2020 22
4.1 Global Servers Market
Revenue ($bn), 2005-2009 22
4.2 Global Energy Efficient Servers
Market, Blade Server Revenue ($bn), 2005-2020 23
4.3 Global Energy
Efficient Servers Market, Blade Server Market Unit Shipment (Million Units),
2005-2020 24
4.4 Global Energy Efficient Servers Market, Blade
Server Market Revenue, Key Players Market Share, (%), 2009 26
5 Global
Energy Efficient Network Storage Devices Market Information, 2005-2020
27
5.1 Global Disk Storage Devices Market Revenue ($bn), 2005-2009
27
5.2 Global Energy Efficient Network Storage Devices Market Revenue
($bn), 2005-2020 28
5.3 Global Energy Efficient Network Storage
Devices Market Revenue, Key Players Market Share, (%), 2009 30
6 Global
Energy Efficient Network Equipment Market Information, 2005-2020 31
6.1 Networking Infrastructure Positioned to Play a Crucial Role in Reducing
Energy Consumption and Greenhouse Gases 31
6.2 Global Router Market
Revenue ($bn), 2005-2020 31
6.3 Global Router Market Revenue ($bn)
on the Basis of End-Users Segment, 2005-2020 33
6.3.1 Global Service
Provider Router Market Revenue ($bn), 2005-2020 33
6.3.2 Global
Enterprise Router Market Revenue ($bn), 2005-2020 35
6.4 Global
Energy Efficient Router Market Revenue, Key Players Market Share (%), 2009
37
6.5 Global Energy Efficient Switch Market Revenue ($bn),
2005-2020 38
6.6 Global Energy Efficient Switch Market Revenue ($bn)
on the Basis of Type of Switch, 2005-2020 40
6.6.1 Global Top Layer
Networking Switch Market Revenue ($bn), 2005-2020 40
6.6.2 Global
Bottom Layer Networking Switches Market Revenue ($bn), 2005-2020 42
6.7 Global Energy Efficient Switch Market Revenue, Key Players Market Share
(%), 2009 44
7 Global Energy Efficient Servers Market, Key Players,
Product Portfolio, 2009 45
7.1 Hewlett Packard, Energy Efficient Servers
45
7.1.1 Blade System ProLiant Server Blades 45
7.1.2 HP Integrity
Server Blades 47
7.2 IBM, Energy Efficient Servers 48
7.3 Dell Inc,
Energy Efficient Servers 49
7.3.1 Power Edge M910 50
7.3.2 Power Edge
M710 50
7.3.3 Power Edge M610 50
7.3.4 Power Edge M605 50
7.3.5
Power Edge M805 51
7.3.6 Power Edge M905 51
7.3.7 Power Edge M1000e
52
8 Global Energy Efficient Network Storage Market, Key Players, Product
Portfolio, 2009 53
8.1 EMC Corporation, Energy Efficient Storage Systems
53
8.1.1 EMC Corporation Energy Efficient Storage Solution: Celerra
Family, CLARiiON Family, Symmetrix Family and Iomega 54
8.2 NetApp Inc,
Energy Efficient Storage Systems 56
8.2.1 NetApp Inc. Energy Efficient
Storage Systems: FAS6000, FAS 3000 and FAS 2000 Series. 56
8.3 IBM, Energy
Efficient Storage Systems 57
8.3.1 IBM Express Series Modular Disk Storage
Systems 57
8.4 Hewlett Packard, Energy Efficient Storage Systems 59
8.4.1 HP StorageWorks X300 Data Vault 60
8.4.2 HP StorageWorks X500 Data
Vault 61
8.4.3 HP StorageWorks X1000 Network Storage Systems 62
8.4.4
HP StorageWorks X3000 Network Storage Systems 62
8.4.5 HP StorageWorks
X5000 Network Storage Systems 63
8.4.6 HP StorageWorks X9000 Network
Storage Systems 63
8.5 Dell Inc, Energy Efficient Storage Systems 64
8.5.1 Dell EqualLogic Series Storage Systems 65
8.5.2 Dell PowerVault
Series 65
8.5.3 Dell NX4 Enterprise-class Network Attached Storage 65
8.5.4 Dell EMC NS-120, Dell EMC NS-480 66
8.5.5 Dell Storage - Power
Vault MD3000i SAN Array and PowerVault MD3220i iSCSI SAN 66
8.5.6 Dell
AX4-5F and AX4-5I 66
9 Global Energy Efficient Network Equipment Market,
Key Players, Product Portfolio, 2009 67
9.1 Global Energy Efficient Router
Market, Key Players, Product Portfolio, 2009 67
9.1.1 Cisco Systems, Inc.,
Energy Efficient Routers 67
9.1.2 Juniper Networks, Energy Efficient
Routers 73
9.1.3 Juniper Networks, Key Initiatives 75
9.1.4
Alcatel-Lucent, Energy Efficient Routers 75
9.1.5 Alcatel-Lucent, Key
Initiatives 77
9.1.6 3COM, Energy Efficient Routers 77
9.1.7 3Com
Corporation, Key Initiatives 78
9.1.8 Huawei Technologies Co., Ltd.,
Energy Efficient Routers 78
9.1.9 Huawei Technologies Co., Ltd., Key
Initiatives 79
9.2 Global Energy Efficient Switch Market, Key Players,
Product Portfolio, 2009 81
9.2.1 Cisco Systems, Inc., Energy Efficient
Switches 81
9.2.2 Alcatel-Lucent, Energy Efficient Switches 86
9.2.3
3Com Corporation, Energy Efficient Switches 87
10 Appendix 93
10.1
About GBI Research 93
10.2 Abbreviations 93
10.3 Methodology 95
10.3.1 Coverage 95
10.3.2 Secondary Research 96
10.3.3 Primary
Research 96
10.3.4 Expert Panel Validation 96
10.4 Contact Us 96
10.5 Disclaimer 97
1.1 List of Tables
Table 1: Global Energy
Efficient IT Equipment Market, Key Drivers 15
Table 2: The US, Annual
Electricity Use (Billion kWh/year) Scenarios, 2000-2011 17
Table 3: Global
Energy Efficient IT Equipment Market, Key Restraints 19
Table 4: Global
Servers Market Revenue, ($ bn), 2005-2009 22
Table 5: Global Energy
Efficient Server Market, Blade Server Market Revenue, ($ bn), 2005-2020
24
Table 6: Global Energy Efficient Server Market, Blade Server Market
Unit Shipment, (Million Units), 2005-2020 25
Table 7: Global Blade
Server Market, Key Players Market Share (%), 2009 26
Table 8: Global Disk
Storage Market Revenue ($bn), 2005-2009 27
Table 9: Global Energy
Efficient Network Disk Storage Devices Market Revenue ($bn), 2005-2020
29
Table 10: Global Router Market Revenue,($bn), 2005-2020 32
Table 11: Global Service Provider Router Market Revenue,($bn), 2005-2020
34
Table 12: Global Enterprise Router Market Revenue,($bn),
2005-2020 36
Table 13: Global Router Market Revenue, Key Players
Market Share, (%), 2009 37
Table 14: Global Switch Market, Revenue ($bn),
2005-2020 39
Table 15: Global Top Layer Switch Market, Revenue
($bn), 2005-2020 41
Table 16: Global Bottom Layer Switch Market,
Revenue ($bn), 2005-2020 43
Table 17: Global Switch Market, Key
Players Market Share (%), 2009 44
Table 18: Hewlett Packard, Energy
Efficient Servers, 2009 45
Table 19: HP ProLiant BL200c Server Blades,
Specifications, 2009 46
Table 20: HP ProLiant BL400c Server Blades,
Specifications, 2009 46
Table 21: HP ProLiant BL600c Server Blades,
Specifications, 2009 47
Table 22: HP Integrity Server Blades,
Specifications, 2009 47
Table 23: IBM, Energy Efficient Blade Servers,
Description, 2009 48
Table 24: IBM, Blade Server Benefits (%) 49
Table
25: Dell Inc, Energy Efficient Servers, 2009 49
Table 26: Performance
Comparison of Dell Power Edge M605 Server with Conventional Server 51
Table 27: Comparison of Dell Power Edge M905 Server with Conventional Server
on the Basis of Performance Business Operations per Second, 2009 52
Table
28: Comparison of Dell Power Edge M905 Server with Conventional Server on the
Basis of Normalized Performance Per Watt 52
Table 29: EMC Corporation,
Energy Efficient Storage Systems, 2009 53
Table 30: Performance Efficiency
Comparison of EMC CLARiiON CX Series with Conventional Storage on the Basis of
Input/Output Operations Per Second (IOPS) Per Watt 54
Table 31: Bandwidth
(Per Watt) Comparison of EMC CLARiiON CX Series with Conventional Storage
55
Table 32: NetApp Inc, Energy Efficient Storage Systems, 2009 56
Table 33: NetApp Inc., Energy Efficient Storage Systems, Brief Description,
2009 56
Table 34: IBM, Energy Efficient Storage Systems, 2009 57
Table
35: IBM Express Series Modular Disk Storage Systems, Specifications, 2009
58
Table 36: HP Storage Systems, Benefits (%) 59
Table 37: Hewlett
Packard, Energy Efficient Storage Systems, 2009 60
Table 38: HP Storage
Works X300 Data vault, Specifications, 2009 60
Table 39: HP StorageWorks
X500 Data Vault, Specifications 2009 61
Table 40: HP StorageWorks X1000
Network Storage Systems, Specifications, 2009 62
Table 41: HP Storage
Works X1000 Network Storage Systems, Specifications, 2009 62
Table 42: HP
StorageWorks X5000 Network Storage Systems, Specifications, 2009 63
Table
43: HP StorageWorks X9000 Network Storage Systems, Specifications, 2009 63
Table 44: Dell Inc, Energy Efficient Storage Systems, 2009 64
Table 45:
Dell EqualLogic Series, Description, 2009 65
Table 46: Dell PowerVault
Series, Description, 2009 65
Table 47: Dell EMC Series, Description, 2009
66
Table 48: Cisco Systems, Inc., Energy Efficient Routers, 2009 67
Table 49: Cisco 3945 Integrated Service Router Power Consumption,(Watts)
68
Table 50: Cisco 2911 and 2951 Integrated Service Routers Power
Consumption (Watts) 70
Table 51: Annual Cost ($) Comparison of Cisco
Integrated Service Routers versus Conventional Routers 71
Table 52: Cisco
Integrated Service Routers, Power Output (Watts) 72
Table 53: Juniper
Networks, Energy Efficient Routers 73
Table 54: Juniper Networks, T Series
Routers Power Consumption (Watts), Operating Temperature (°C), Maximum
Forwarding Rate (Bpps) 73
Table 55: T1600 Core Router Power consumption
(Watts) and Energy Consumption Rating (Watts/GBPS) 74
Table 56: Juniper
Networks, MX Series Router, Specification, 2009 75
Table 57: Projects
Developed By Juniper for Increasing Energy Efficiency as of 2009 75
Table
58: Alcatel-Lucent, Energy Efficient Routers 76
Table 59: Alcatel-Lucent
Service Router Power Consumption (Watts) and Operating Temperature (°C)
76
Table 60: Alcatel-Lucent Initiatives 77
Table 61: 3Com
Corporation, Energy Efficient Routers 77
Table 62: 3com 6080 and 5012
Router Power Consumption (Watts) and Operating Temperature (°C) 78
Table 63: Huawei Technologies Co., Ltd. Energy Efficient Routers 78
Table
64: Huawei Technology NE 5000 E Core Router and NE 40E Universal Service
Router Power Consumption (Watts), Working Temperature (°C) 79
Table
65: Huawei Technologies Co., Ltd., Improving Energy Efficiency through ASIC
80
Table 66: Cisco Systems, Inc., Energy Efficient Switches, 2009 81
Table 67: Power Consumption at Power Supply Rated Maximum by Cisco Catalyst
3560 in v2 Series Switches (Watts) 82
Table 68: Cisco Nexus 5000 series
switch, Maximum Power Consumption (Watts) 83
Table 69: Alcatel-Lucent
versus Conventional Switch, Total Energy Consumption (MWh) 86
Table 70:
Alcatel-Lucent, Energy Efficient Switches, 2009 87
Table 71: 3 Com
Corporation, Energy Efficient Switches, 2009 88
Table 72: H3C 5800 Series
Switches, Power Consumption at Idle (Watts)) 89
Table 73: H3C 5800 Series
Switches, Annual Cost ($), 2009 89
Table 74: H3C S5800 Series Switches
Power Consumption Relative to Industry Average 90
Table 75: Comparison of
Current and Old Generation 3Com Corporation Fast Ethernet Switches 91
Table 76: Comparison of Current and Old Generation 3Com Corporation Gigabit
Ethernet Switches 92
Table 77: Abbreviation 93
1.2 List of
Figures
Figure 1: Classification of IT Equipment Market 11
Figure 2:
Global Energy Efficient IT Equipment Market, Key Drivers 15
Figure 3: The
US, Annual Electricity Use (Billion kWh/year) Scenarios, 2000-2011
16
Figure 4: Global Energy Efficient IT Equipment Market, Key Restraints
19
Figure 5: Global Servers Market Revenue, ($ bn), 2005-2009 22
Figure 6: Global Energy Efficient Server Market, Blade Server Revenue, ($ bn),
2005-2020 23
Figure 7: Global Energy Efficient Server Market, Blade
Server Market Unit Shipment, (Million Units), 2005-2020 25
Figure 8:
Global Blade Server Market, Key Players Market Share (%), 2009 26
Figure
9: Global Disk Storage Market Revenue ($bn), 2005-2009 27
Figure 10:
Global Energy Efficient Network Disk Storage Devices Market Revenue ($bn),
2005-2020 28
Figure 11: Global Energy Efficient Network Storage
Market, Key Players Market Share, 2009 30
Figure 12: Global Router Market
Revenue,($bn), 2005-2020 32
Figure 13: Global Service Provider
Router Market Revenue,($bn), 2005-2020 33
Figure 14: Global
Enterprise Router Market Revenue, ($bn), 2005-2020 35
Figure 15:
Global Router Market Revenue, Key Players Market Share, (%), 2009 37
Figure 16: Global Switch Market, Revenue ($bn), 2005-2020 38
Figure
17: Global Top Layer Switch Market, Revenue ($bn), 2005-2020 40
Figure 18: Global Bottom Layer Switch Market, Revenue ($bn), 2005-2020
42
Figure 19: Global Switch Market, Key Players Market Share (%), 2009
44
Figure 20: IBM, Blade Server Benefits (%) 49
Figure 21: Performance
Comparison of Dell Power Edge M605 Server with Conventional Server 50
Figure 22: Comparison of Dell Power Edge M905 Server with Conventional Server
on the Basis of Performance Business Operations per Second, 2009 51
Figure
23: Comparison of Dell Power Edge M905 Server with Conventional Server on the
Basis of Normalized Performance Per Watt 52
Figure 24: Performance
Efficiency Comparison of EMC CLARiiON CX Series with Conventional Storage on
the Basis of Input/Output Operations per Second (IOPS) Per Watt 54
Figure
25: Bandwidth (Per Watt) Comparison of EMC CLARiiON CX Series with
Conventional Storage 55
Figure 26: HP Storage Systems, Benefits (%) 59
Figure 27: Cisco 3945 Integrated Service Router Power Consumption,(Watts)
68
Figure 28: Cisco 2911 and 2951 Integrated Service Routers Power
Consumption (Watts) 69
Figure 29: Annual Cost ($) Comparison of Cisco
Integrated Service Routers versus Conventional Routers 71
Figure 30: Cisco
Integrated Service Routers, Annual Cost Comparison ($) 72
Figure 31:
Juniper Networks, T1600 Core Router Benefits 74
Figure 32: Huawei
Technologies Co., Ltd., Improving Energy Efficiency through ASIC (Watt) 80
Figure 33: Cisco Catalyst 3560 V2 Series Switches, Power Consumption at Power
Supply Rated Maximum (Watts) 82
Figure 34: Cisco Nexus 5000 series switch,
Maximum Power Consumption (Watts) 83
Figure 35: Cisco Catalyst 6509 versus
Conventional Switches, Power Consumption (Watts) 84
Figure 36: Cisco
Catalyst 4507 R-E versus Conventional Switch, Power Consumption (Watts) 84
Figure 37: Cisco Catalyst 3750E-48PD versus Conventional Switch, Power
Consumption (Watts) 85
Figure 38: Alcatel-Lucent versus Conventional
Switch, Total Energy Consumption (MWh) 86
Figure 39:3Com Corporation H3C
5800 Series Switches, Power Consumption at Idle (Watts) 88
Figure 40: H3C
5800 Series Switches, Annual Cost ($), 2009 89
Figure 41: H3C S5800 Series
Switches Power Consumption Relative to Industry Average (Watts) 90
Figure
42: Comparison of Current and Old Generation 3Com Corporation Fast Ethernet
Switches 91
Figure 43: Comparison of Current and Old Generation 3Com
Corporation Gigabit Ethernet Switches 92
Figure 44: GBI Research
Methodology 95
