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Lithium-Ion Battery Market Shares, Strategies, and Forecasts, Worldwide, 2011 to 2017

October 2011 | 716 pages | ID: L221323AEB4EN
WinterGreen Research

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WinterGreen Research announces that it has a new study on Lithium-Ion Battery, Lithium Polymer Battery, Thin Film Battery And Zinc Air Battery Market Shares and Forecasts, Worldwide, 2011-2017. These products power cell phones, portable electronics, and laptops. They promise to power electric vehicles. They are the base for smarter computing. The 2011 study has 505 pages, 164 tables and figures. Lithium-Ion batteries are evolving. Lithium thin film solid state technology provides vast improvements in energy density and creates units that can be recharged 40,000 times, up from 200 times for traditional batteries.

Li-Ion (Lithium-Ion) batteries are a type of rechargeable battery. Lithium ion batteries are one of the most common rechargeable batteries in portable electronics. Lithium ion batteries have one of the best energy densities, no memory effect, and a slow loss of charge when not in use, in comparison with other chemistries of rechargeable batteries.

Lithium ion batteries are environmentally safe because there is no free lithium metal. They come in a variety of sizes such as AA, AAA, RCR123A, 18650, 9V, 2032 button cells, and more.

Fabrication methods have not yet scaled to large format batteries. This is because the cost of vacuum deposition has been prohibitive. Researchers are working to develop an alternative deposition process. It has the ability to make nanostructured electrolyte and electrode materials with chemistries that work at scale that is the challenge.

Every big automaker, battery maker, national lab and university materials-science department in the world has a team of PhDs whose lives consist of testing countless combinations of elements in an effort to build a thin film battery. There is a fundamental challenge in front of every battery organization to evolve efficient solid state batteries.

In considering the possible application of different batteries, it is important to know how much energy can be delivered at a specified discharge rate or discharge power. Graphs of the energy/cm2 can be delivered at a given power density for the lithium and lithium-ion batteries.

A low temperature deposition process for thin film batteries enables use of flexible, polymer foil as the substrate. This technology largely reduces the production cost of the thin film batteries. Successful development of a low temperature manufacturing process opened up the possibility of using a polymer substrate such as Kapton, thereby significantly reducing manufacturing cost, while gaining flexibility and significantly reducing the overall thickness of the cells.

Lithium-Ion battery market driving forces include business inflection that is achieved by delivering electric vehicle and smart computing technology that supports entirely new capabilities. Sensor networks are creating demand for thin film solid state devices. Vendors doubled revenue and almost tripled production volume from first quarter. Multiple customers are moving into production with innovative products after successful trials.

A strong business pipeline has emerged with customer activity in all target markets. Vendors expect full-year revenue to more than double in 2011. The market focus is shifting from ramping capacity to driving manufacturing efficiencies and achieving margin improvement, indicating increasing market maturity.

The worldwide demand for energy is steadily increasing, doubling every 15 years. The major effort is to sustain growth in the electricity supply without causing irreversible harm to the environment. Solar energy has rapidly grown as a clean, renewable alternative to limited fossil fuels. Recognition of the need to reduce reliance on coal and fossil fuels is driving interest in solar energy.

The need to reduce reliance on coal and fossil fuels is intuitive. The science agrees -- climate change is a reality. Citizens want to do something about climate change. Countries wish to not have dependence on foreign suppliers.

Improved energy density is a significant factor to be considered in development of thin film battery materials. Thin film lithium batteries have the potential to reach an energy density as high as 1000 Wh/l. Cell phones and laptops using these thin film batteries will be capable of running up to four times longer than on other lithium ion batteries having the same physical size.

Lithium-ion categories: are cobalt, manganese, iron-phosphate, polymer and nickel manganese-cobalt. These are the main types of commercialized battery in China. It remains to be seen how thin film batteries utilize these or other materials.

According to Susan Eustis, lead author of the study, 'Lithium-Ion batteries bring energy efficient batteries for use in virtually every portable device and electric vehicles. Products will be used in all areas of the world'. Batteries provide very attractive payback.

The global market for lithium-Ion batteries at $9.4 billion in 2011 is expected to reach $18.6 billion by 2017. This market is expected to increase because it enables portable devices, power tools, portable electronics, laptops, cell phones and ultimately electric vehicles. System design is accelerating the value of cloud smarter buildings, roads, appliances, and bridges. All these markets represent tremendous opportunity for growth worldwide.

WinterGreen Research is an independent research organization funded by the sale of market research studies all over the world and by the implementation of ROI models that are used to calculate the total cost of ownership of equipment, services, and software. The company has 35 distributors worldwide, including Global Information Info Shop, Market Research.com, Research and Markets, Bloomberg, and Thompson Financial.
SMART PLANET MARKET SHARES AND MARKET FORECASTS

Smarter Planet Market Driving Forces
Smarter Planet Software
Challenge Requires Innovative Solutions
Smarter Planet Market Shares
IBM Integrated Product Change Management
Smarter Planet Market Forecasts
Comparative Value of Innovation
Smart Computing Software Means Companies Benefit From Having An Ongoing Dialogue On Innovation

1. SMART COMPUTING MARKET DESCRIPTION AND MARKET DYNAMICS

1.1 Smarter Planet Systems
1.2 Accelerated Product Delivery Cycles
  1.2.1 Citizen-Centric Evolution To E-Government Continues
  1.2.2 Smarter Governments
  1.2.3 Collaborative Platform Solutions
1.3 Smarter Healthcare, Social Services, Public Safety And Education Systems
  1.3.1 Improving healthcare
1.4 Smarter Transportation
1.5 SmarterEducation Systems
  1.5.1 Strengthening Education
1.6 Smarter Planet Advancing Environmental Sustainability

2. SMART PLANET MARKET SHARES AND MARKET FORECASTS

2.1 Smarter Planet Market Driving Forces
  2.1.1 Smarter Planet Software
  2.1.2 Challenge Requires Innovative Solutions
2.2 Smarter Planet Market Shares
  2.2.1 IBM Integrated Product Change Management
2.3 IBM Imperatives For A Smarter Planet
  2.3.1 IBM Positions To Support Sensor Networks
  2.3.2 IBM Jazz.net
  2.3.3 Hewlett Packard CeNSE Accelerometer
  2.3.4 Hewlett Packard CeNSE
  2.3.5 Microsoft Innovation Technology
2.4 Smarter Planet Market Forecasts
  2.4.1 Smarter Planet Software Market Industry Segment Forecasts
  2.4.2 Smarter Planet Market Segment Forecasts
  2.4.3 Comparative Value of Innovation
  2.4.4 Smart Computing Software Means Companies Benefit From Having An Ongoing Dialogue On Innovation
  2.4.5 Smart Building Software Modules Support Energy Savings In Buildings
  2.4.6 Smart Grid Software Module Forecasts
  2.4.7 Smart Cards Software Modules Market Forecasts
  2.4.8 RFID Tag Software Modules for Smart Computing Market Forecasts
  2.4.9 Smart Security and Law Enforcement Software Modules Market Forecasts
  2.4.10 Smarter Cities
  2.4.11 Smart Transportation Software Module Market Forecasts
  2.4.12 Smart Computing Location and Navigation Tracking Software Modules Market Forecasts
  2.4.13 Smart Computing Temperature and Climate Market Forecasts
  2.4.14 Smarter Computing Healthcare: Partners Research and Evaluation Team
  2.4.15 Smarter Communications
2.5 Smarter Computing: IBM System z and zEnterprise
  2.5.1 Smarter Computing Leverages System z and zEnterprise System
  2.5.2 IBM Integrated Service Management for zEnterprise
  2.5.3 Smarter Computing: System z End-To-End Lifecycle Approach
2.6 Smarter Planet Regional Analysis

3. SMARTER PLANET SOFTWARE INNOVATION PRODUCT DESCRIPTION

3.1 IBM Smarter Planet Operation --Maintenance Of Wireless Sensor And Actuator Networks (WSANs)
  3.1.1 IBM Data-Centric Communication Messaging
  3.1.2 IBM Lightweight Publish/Subscribe Protocol Called 'MQ Telemetry Transport For Sensors' (MQTT-S)
  3.1.3 MQTT-S Wireless Sensor Devices Integrated Into IBM WebSphere Solutions.
  3.1.4 IBM Wireless SA Network Location Sensing
  3.1.5 IBM Wireless SA Network Routing protocols
  3.1.6 IBM Application Servers
  3.1.7 IBM WebSphere Application Server
  3.1.8 IBM - WebSphere Application Server
  3.1.9 IBM - WebSphere Application Server Drives Business Agility
  3.1.10 IBM WebSphere Application Server Speed Delivery Of New Applications And Services
  3.1.11 IBM WebSphere Application Server Improve Operational Efficiency And Reliability
  3.1.12 IBM Rational Integrated Product Change Management For Successful Systems Development
  3.1.13 IBM Rational Integrated Product Change Management Solution Components
  3.1.14 IBM Integrated Product Change Management
  3.1.15 IBM Rational Integrated Product Change Management Solutions
  3.1.16 IBM Rational ClearQuest
  3.1.17 IBM Rational ClearCase
  3.1.18 IBM Rational Team Concert
3.2 Hewlett-Packard Central Nervous System of the Earth (CeNSE)
  3.2.1 Shell Uses CeNSE For Collection Of Oil And Gas Reservoir Information
  3.2.2 Hewlett Packard CeNSE Accelerometer
  3.2.3 HP Leverages Inkjet Printer Cartridge Technology To Manufacture Sensors
  3.2.4 HP Sensing Network Systems
  3.2.5 Hewlett Packard Product Portfolio of ProCurve, 3Com, H3C and TippingPoint
  3.2.6 Hewlett Packard Networking Solutions
  3.2.7 Hewlett Packard Changes the Rules of Networking
  3.2.8 Hewlett Packard CeNSE
  3.2.9 Hewlett Packard (HP) Sustainable Data Centers
  3.2.10 Hewlett Packard HP Auto-On/Auto-Off and Instant-on Technology
3.3 Infosys Integrated Product Management
  3.3.1 Infosys Supply Chain Visibility Approach
  3.3.2 Infosys Supply Chain Business Value Chain
3.4 Ryma Technology Solutions Integrated Product Management
3.5 Microsoft
3.6 Oracle Innovation

4. SMARTER PLANET TECHNOLOGY

4.1 Sensor Units
  4.1.1 Zigbee Standard
4.2 Publish/Subscribe Messaging Model
  4.2.1 IBM WebSphere MQ Publish/Subscribe Messaging
  4.2.2 IBM’s Sensor Network
  4.2.3 Light-Weight Messaging Protocols That Do Not Rely On Full TCP/IP Connectivity
  4.2.4 IBM WebSphere MQ Assured Delivery Functions
  4.2.5 IBM WebSphere MQ
  4.2.6 IBM WebSphere MQ Telemetry Capabilities
  4.2.7 IBM WebSphere MQ Support For Growth
  4.2.8 IBM WebSphere MQ Reliable File Transfer
  4.2.9 IBM WebSphere MQ Integration File Transfer Business Value
4.3 Mission Critical Messaging Middleware Transport Layer
  4.3.1 IBM WebSphere MQ Messaging Provider
  4.3.2 WebSphere MQ Asynchronous Message Consumption
  4.3.3 IBM WebSphere MQ Message Selection
  4.3.4 IBM WebSphere MQ Sharing A Communications Connection
  4.3.5 IBM WebSphere MQ Read Ahead On Client Connections
  4.3.6 Sending IBM WebSphere MQ Messages
  4.3.7 IBM WebSphere MQ Channel Exits
  4.3.8 IBM WebSphere MQ Message Properties
4.4 Mission Critical Messaging As A Base For Services Oriented Architecture (SOA)
4.5 Mission Critical Messaging As A Base For Application Integration
  4.5.1 IBM WebSphere MQ
4.6 OASIS Secure, Reliable Transaction Web Services Messaging Architecture
  4.6.1 Reliable Message-Based Web Services Communication
  4.6.2 WS-RM to OASIS Completed
4.7 Streams For Messaging and Data Access
4.8 Message Queuing
  4.8.1 Database Message Queuing
  4.8.2 Data and Message Transformation
4.9 Application Server Technology
  4.9.1 Java Application Server
  4.9.2 Java and J2EE
  4.9.3 Web Services
  4.9.4 WS-Security
  4.9.5 Open Standards
4.10 Componentization
4.11 Speed, Flexibility, and Scalability
4.12 Mission Critical Message Throughput
  4.12.1 Message Persistence
  4.12.2 Data Format
  4.12.3 Message Flow Complexity
4.13 Message Input To Output Ratio
4.14 Required Message Rate
4.15 Parallel Message Processing
  4.15.1 Serial Message Processing
  4.15.2 Recovery Requirements
4.16 Typical Message Patterns
4.17 Processors Manage Specified Message Flows
4.18 Middleware Messaging Technology Issues
  4.18.1 Report Messages Functions
  4.18.2 Real-Time Technology Issues
4.19 Secure Sockets Layer (SSL)
4.20 Dynamic Systems
4.21 Robust, Enterprise-quality Fault Tolerance
  4.21.1 Cache/Queue
4.22 Multicast
4.23 Performance Optimization
  4.23.1 Fault Tolerance
  4.23.2 Gateways

5. SMARTER PLANET COMPANY PROFILES

5.1 BMC Cloud Positioning
5.2 Cisco, BMC Forge Cloud Infrastructure Partnership
  5.2.1 BMC Software Fiscal 2011 Third Quarter Revenue
5.3 Fujitsu
  5.3.1 Fujitsu OSS/NOS
  5.3.2 Fujitsu SOA 5.3.3 Fujitsu CentraSite SOA Governance
5.4 Hewlett Packard (HP)
  5.4.1 Hewlett Packard HP Acquires Autonomy
  5.4.2 HP Cloud Assure Services
  5.4.3 HP Cloud Assure Types Of Cloud Service Environments Supported
  5.4.4 Hewlett-Packard Revenue
  5.4.5 HP Enterprise Storage and Servers Revenue
  5.4.6 HP Software Revenue
  5.4.7 Hewlett Packard (HP) Focuses On Simplifying Technology
  5.4.8 Hewlett Packard (HP) SOA 5.4.9 Hewlett Packard (HP) SOA Solutions
  5.4.10 Hewlett Packard (HP) SOA Systinet Governance
  5.4.11 HP Products and Services Segments
  5.4.12 Hewlett-Packard Technology Solutions Group
  5.4.13 Hewlett-Packard Enterprise Storage and Servers
  5.4.14 Hewlett-Packard Industry Standard Servers
  5.4.15 Hewlett-Packard Business Critical Systems, Hewlett Packard Halo Telepresence Customers
  5.4.16 Hewlett Packard Computer Industry Market Participant
  5.4.17 Hewlett Packard Global Provider Of Products
  5.4.18 HP POD Benefits
  5.4.19 HP Products and Services: Segment Information
  5.4.20 Hewlett Packard Technology Solutions Group
  5.4.21 Hewlett Packard Enterprise Storage and Servers
  5.4.22 HP and Tower Software
  5.4.23 Hewlett Packard Tower Software TRIM Context
5.5 IBM
  5.5.1 IBM WebSphere
  5.5.2 IBM Business Partnering Strategy
  5.5.3 IBM Strategic Priorities
  5.5.4 IBM BPM Powered By Smart SOA 5.5.5 IBM Delivers Integration and Innovation to Clients
  5.5.6 IBM Business Model
  5.5.7 IBM Unified Communications In The Cloud Architecture
  5.5.8 IBM LotusLive Cloud-Based Portfolio Of Social Networking And Collaboration Services
  5.5.9 IBM Revenue
  5.5.10 IBM Software Capabilities
  5.5.11 IBM Systems and Technology Capabilities
  5.5.12 IBM Worldwide Organizations
  5.5.13 IBM Integrated Supply Chain
  5.5.14 IBM Security
  5.5.15 IBM Cloud Computing
  5.5.16 IBM Business Model
  5.5.17 IBM Business Segments And Capabilities
  5.5.18 IBM GTS Strategic Outsourcing Services Capabilities
  5.5.19 IBM Global Process Services.
  5.5.20 IBM Integrated Technology Services.
  5.5.21 IBM GTS Services Delivery
  5.5.22 IBM Application Management Service
  5.5.23 IBM Software Capabilities
  5.5.24 IBM Systems and Technology
  5.5.25 IBM Global Financing
  5.5.26 IBM Premier Globally Integrated Enterprise
  5.5.27 IBM Integrated Supply Chain
  5.5.28 IBM Software Competition
  5.5.29 IBM 2010 Revenue
  5.5.30 IBM LotusLive Cloud-Based Social Networking And Collaboration
5.6 Information Builders
  5.6.1 Information Builders/iWay Software
  5.6.2 iWay Software
5.7 Infosys
  5.7.1 Infosys Proven Global Delivery Model
  5.7.2 Infosys Commitment to Quality and Process Execution
  5.7.3 Infosys Strong Brand and Long-Standing Client Relationships
5.8 Microsoft
  5.8.1 Selected Microsoft Partners
  5.8.2 Microsoft Software Products
5.9 Oracle
  5.9.1 Oracle Revenues:
  5.9.2 Oracle Acquisitions/Sun, BEA, AmberPoint
  5.9.3 Oracle Fiscal 2011 Acquisitions Including Art Technology Group, Inc. (ATG)
5.10 Progress Software
  5.10.1 Progress Software Products
  5.10.2 Progress Orbix
  5.10.3 Progress ObjectStore
  5.10.4 Enterprise Business Solutions business unit: Progress Responsiveness Process Management
  5.10.5 Progress Control Tower
  5.10.6 Progress Sonic
  5.10.7 Progress Actional
  5.10.8 Progress Apama
5.11 RedHat
  5.11.1 Red Hat
  5.11.2 Red Hat Customers
  5.11.3 Red Hat Key Partners:
  5.11.4 Red Hat Industries Targeted
  5.11.5 Red Hat Revenue:
5.12 Ryma Technology
5.13 Software AG
  5.13.1 Software AG Revenues
  5.13.2 Software AG Key Revenue Figures
  5.13.3 Software AG Enterprise Transaction Systems (ETS)
  5.13.4 Software AG Enterprise Transaction Systems (ETS)
5.14 Tibco
  5.14.1 Tibco SOA 5.14.2 Tibco Business Optimization
  5.14.3 Tibco BPM
  5.14.4 Tibco Professional Services
  5.14.5 Tibco Competition
  5.14.6 Tibco Professional Services
  5.14.7 Tibco Software Revenue

LIST OF TABLES AND FIGURES

Table ES-1 Smarter Planet Market Driving Forces
Table ES-2 Smarter Planet Product Positioning
Figure ES-3 Smarter Planet Market Shares, Dollars, Worldwide, First Three Quarters 2011
Table ES-4 IBM Integrated Product Change Management Market Driving Forces
Figure ES-5 IBM Definition of Smarter Computing
Figure ES-6 Smart Computing Software Modules Market Forecasts, Dollars, Worldwide, 2011-2017
Figure ES-7 Comparative Value of Innovation
Table 1-1 Smarter Planet Systems
Table 1-2 Smarter Planet Systems Functions
Table 1-3 Corporations and Governments Transform The Manner In Which They Operate
Table 1-4 Accelerated Product Delivery Cycle Aspects
Table 1-5 Smarter Government Examples
Figure 1-6 New York City Crime Percentage
Change from 2001 to 2010
Table 1-7 Smart Computing Key Technology Areas
Table 2-1 Smarter Planet Market Driving Forces
Table 2-2 Smarter Planet Product Positioning
Figure 2-3 Smarter Planet Market Shares, Dollars, Worldwide, First Three Quarters 2011
Table 2-4 Smarter Planet Market Shares, Dollars, Worldwide, First Three Quarters 2011
Table 2-5 IBM Integrated Product Change Management Market Driving Forces
Figure 2-6 IBM Definition of Smarter Computing
Figure 2-7 IBM Imperatives For A Smarter Planet
Table 2-8 IBM Positions To Support Sensor Networks
Figure 2-9 IBM Describes Smarter Plant Solutions Impact on IT
Figure 2-10 IBM Strategic Vision for Innovation
Figure 2-11 Smart Computing Software Modules Market Forecasts, Dollars, Worldwide, 2011-2017
Table 2-12 Smarter Planet Software Market Total Forecast, Dollars, Worldwide, 2011-2017
Table 2-13 Smarter Planet Software Market Industry Segment Forecasts, Dollars, Worldwide, 2011-2017
Table 2-14 Smarter Planet Software Market Industry Segment Forecasts, Percent, Worldwide, 2011-2017
Table 2-15 Smarter Planet Software Segments
Figure 2-16 Comparative Value of Innovation
Figure 2-17 Smart Building Software Module Forecasts, Dollars, Worldwide, 2011-2017
Figure 2-18 Smart Building Software Module Forecasts, Units, Worldwide, 2011-2017
Figure 2-19 Smart Grid Software Module Forecasts, Dollars, Worldwide, 2011-2017
Figure 2-20 Smart Grid Software Module Forecasts, Units, Worldwide, 2011-2017
Table 2-21 Smart Card Applications
Figure 2-22 Smart Cards Software Modules Market Forecasts, Worldwide, Dollars, 2011-2017
Figure 2-23 Smart Cards Software Modules Market Forecasts, Units, Worldwide, 2011-2017
Figure 2-24 RFID Tag Software Modules for Smart Computing Market Forecasts Dollars, Worldwide, 2011-2017
Figure 2-25 RFID Tag Software Modules for Smart Computing Market Forecasts Units, Worldwide, 2011-2017
Figure 2-26 Smart Security and Law Enforcement Software Modules Market Forecasts, Dollars, Worldwide, 2011-2017
Figure 2-27 Smart Security and Law Enforcement Software Modules Market Forecasts, Units, Worldwide, 2011-2017
Table 2-28 Smart Transportation Software Module Market Forecasts Dollars, Worldwide, 2011-2017
Figure 2-29 Smart Computing Location and Navigation Tracking Software Modules Market Forecasts, Dollars, Worldwide, 2011-2017
Figure 2-30 Smart Computing Temperature and Climate Market Forecasts Dollars, Worldwide, 2011-2017
Table 2-31 Smart Computing Integrated Service Management
Figure 2-32 Smart Asset Management Software Module Market Forecasts, Dollars, Worldwide, 2011-2017
Figure 2-33 Communications and Telecommunications Smart Computing Software Module Market Industry Forecasts, Dollars, Worldwide, 2011-2017
Table 2-34 System z and zEnterprise System Smarter Computing Functions
Table 2-35 IBM Service Management Provides Mainframe Support Functions
Table 2-36 IBM Smarter Computing Facilitated By System z
Table 2-37 System z and zEnterprise System Integrated Service Management Smarter Computing Functions
Table 2-38 System z and zEnterprise System Unified Resource Management Smarter Computing Functions
Table 2-39 System z and zEnterprise System Smarter Computing Savings
Figure 2-40 Smarter Planet Innovation Software Regional Market Segments, Dollars, First Three Quarters 2011
Table 2-41 Smarter Planet Innovation Software Regional Market Segments, Dollars, First Three Quarters 2011
Table 3-1 IBM Smarter Planet Data-Centric Communication Messaging Functions
Table 3-2 IBM Smarter Planet Publish/Subscribe Data-Centric Communication Messaging Functions
Figure 3-3 IBM Middleware For Sensor Systems
Figure 3-4 IBM Wireless SA Network
Table 3-5 IBM Wireless SA Network Value
Table 3-6 IBM Wireless SA Network Value to Business Partners
Table 3-7 IBM Smarter Planet Systems Content Navigation
Table 3-8 IBM Service Oriented Architecture (SOA) Modular Product Structure
Table 3-9 IBM SOA Foundation Integration End to End Solutions Stages
Table 3-10 WebSphere Application Server Benefits
Table 3-11 IBM WebSphere Application Server Protocols Supported
Table 3-12 IBM WebSphere Application Server Functions
Table 3-13 IBM WebSphere Application Server Models
Table 3-13 (Continued) IBM WebSphere Application Server Models
Table 3-13 (Continued) IBM WebSphere Application Server Models
Figure 3-14 IBM WebSphere Application Server Realizes Greater TCO
Figure 3-14 (Continued) IBM WebSphere Application Server Realizes Greater TCO
Figure 3-15 IBM Rational Integrated Product Change Management Solution Functions
Table 3-16 IBM Integrated Product Change Management Market Driving Forces
Table 3-17 IBM Integrated Product Change Management Benefits
Table 3-18 IBM Rational integrated Product Change Management Solutions
Table 3-19 IBM Rational integrated Product Change Management Solutions Functions
Table 3-20 IBM Rational ClearQuest Functions
Table 3-21 IBM Rational Team Concert Smarter Planet Functions
Table 3-22 IBM Rational Team Concert Benefits
Figure 3-23 IBM Rational Developer for SOA Construction
Figure 3-24 IBM InfoSphere Guardium Disciplined Agile Delivery Life Cycle
Table 3-25 IBM InfoSphere Guardium Features
Table 3-26 IBM InfoSphere Guardium Functions
Figure 3-27 HP Labs Sensors on Bridges
Figure 3-28 Hewlett Packard HP Lab’s Memristor Technology
Table 3-29 Hewlett Packard Integrated Business Solutions Components
Table 3-30 Hewlett Packard HP FlexNetwork architecture
Figure 3-31 Hewlett Packard HP Wynyard, UK Data Center, HP Designed And Managed
Figure 3-32 HP LaserJet Products With Instant-On Technology
Table 3-33 Infosys Supply Chain Visibility Features
Table 3-34 Infosys Supply Chain Functions
Figure 3-35 Infosys Product Lifecycle Evolution
Figure 3-36 Infosys Process Solution
Figure 3-37 Infosys Product Lifecycle Phases and COst
Figure 3-38 Infosys Supply Chain Lifecycle Integrated Data Sets
Figure 3-39 Ryma Technology Solutions Integrated Product Management
Table 3-40 Ryma Technology Solutions Integrated Product Management IPM Solution Integrated Components
Figure 3-41 Microsoft Innovation Center Locations
Table 4-1 IBM WebSphere MQ Assured Delivery Functions
Figure 4-2 IBM WebSphere MQ WMQ providing a Universal Messaging Backbone
Figure 4-3 IBM WebSphere MQ Goals For Business Resilience in a Sysplex QSG (Queue Sharing Group)
Table 4-4 IBM WebSphere MQ Telemetry Capabilities
Table 4-5 IBM WebSphere MQ Support For Growth
Table 4-6 IBM WebSphere MQ Reliable File Transfer
Table 4-7 IBM WebSphere MQ Integration Business Value
Table 4-8 IBM WebSphere MQ Middleware Development Facilities
Table 4-9 Web Services Transport Comparison HTTP and IBM WebSphere MQ
Table 4-9 (Continued) Web Services Transport Comparison HTTP and IBM WebSphere MQ
Table 4-9 (Continued) Web Services Transport Comparison HTTP and IBM WebSphere MQ
Figure 4-10 IBM WebSphere MQ Web Services Transport
Figure 4-11 Service Requestor and Service Provider Layers
Figure 4-12 Layered Architecture For IBM JMS Providers
Table 4-13 IBM WebSphere MQ Layered Architecture Objectives:
Figure 4-14 Relationship Between WebSphere MQ Classes for JMS and WebSphere MQ Classes for Java
Table 4-15 Deciding Whether To Use Read Ahead Using IBM WebSphere MQ
Table 4-16 Mission Critical Messaging As A Base For SOA Software Used to Implement Process Flexibility
Table 4-17 Mission Critical Messaging ESB Functions
Table 4-18 Mission Critical Messaging As A Base For Integration Software Provides A Base For Application Connectivity
Table 4-19 Mission Critical Messaging Integration Functions
Table 4-20 Aspects Of Data Streaming Management
Table 4-21 Mission Critical Message Throughput Variables
Table 4-22 Typical Message Flow Characteristics
Table 4-23 Middleware Messaging Technology Issues
Table 4-23 (Continued) Middleware Messaging Technology Issues
Table 4-24 Automatic Detection And Recovery From Network And System Failure
Table 4-24 (Continued) Automatic Detection And Recovery From Network And System Failure
Table 4-26 Fault Tolerance Features
Table 4-26 (Continued) Fault Tolerance Features
Table 5-1 BMC Cloud Planning Offerings
Table 5-2 Cisco, BMC Alliance Key Aims
Table 5-3 Cisco, BMC Alliance Key Separate Offerings
Table 5-4 Fujitsu CentraSite SOA Product Suite Features
Table 5-5 Fujitsu CentraSite SOA Management Information
Table 5-6 HP Cloud Assure Functions
Table 5-7 HP Cloud Assures Types Of Cloud Service Environments Supported
Table 5-8 HP SaaS portfolio partner Positioning:
Table 5-9 Hewlett Packard Product and Services Positioning
Table 5-10 Hewlett Packard Global Positioning
Figure 5-11 HP POD Self Contained Data Center
Figure 5-12 HP POD Benefits
Figure 5-13 HP POD Specifications
Table 5-14 Hewlett Packard Tower Software Global, Vertical Markets
Table 5-15 Hewlett Packard Tower Software Global, Reducing Risk During Litigation
Table 5-16 Hewlett Packard Tower Software Microsoft Office Documents
Table 5-17 Hewlett Packard Tower TRIM Context Features Overview
Figure 5-18 IBM SMB Partner Go to Market Approach
Table 5-19 IBM Strategic Priorities
Table 5-20 iWay Software Integration Provider Solutions
Table 5-21 iWay Products
Table 5-21 (Continued) iWay Products
Table 5-22 iWay Solutions
Table 5-23 iWay Technology
Table 5-24 iWay Adapters for Partners
Table 5-25 iWay Customers
Table 5-25 (Continued) iWay Customers
Table 5-25 (Continued) iWay Customers
Table 5-25 (Continued) iWay Customers
Table 5-25 (Continued) iWay Customers
Table 5-25 (Continued) iWay Customers
Table 5-25 (Continued) iWay Customers
Table 5-26 Progress Software Enterprise SOA Challenges
Table 5-27 Red Hat Customers
Table 5-28 Red Hat Partners
Table 5-29 Red Hat JBoss Operations Network Industries Targeted
Figure 5-30 Software AG (Frankfurt TecDAX: SOW) Revenue By Segment
Table 5-31 Tibco Software Standards-Based Software Offerings


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