Mission Critical Messaging Middleware: Market Shares, Strategies, and Forecasts, Worldwide, 2014-2020
WinterGreen Research announces that it has published a new study Mission Critical Middleware Messaging: Market Shares, Strategy, and Forecasts, Worldwide, 2014 to 2020. The 2013 study has 503 pages, 192 tables and figures. Worldwide markets are poised to achieve significant growth as middleware messaging becomes the foundation for cloud computing and enterprise participation in mobile markets. Mobile device messaging and messaging for the Internet of things are driving markets.
According to Susan Eustis, lead author of the WinterGreen Research team that prepared the middleware messaging market research study, “Cloud, mobile, and collaboration are leveraging mission critical messaging. Messaging supports information exchange between mobile devices. The Internet of things is driving messaging uptake. IBM is the dominant vendor, providing reliable messaging for enterprises and tying together open systems software messaging systems with wrappers. It is used to support exchange of information among servers because of the tremendous reliability provided.”
Smart phones and tablets change the markets for IT systems implementation, increasing the need for mission critical decoupled messaging. The communication of data is a demanding task whereby often there is trouble if a message that is sent does not get through or contra-wise if a message that is sent goes through twice. When there is a person on one or both sides of the message sending, human intelligence is able to deal with the problem if the message does not get sent, or if it gets sent twice, but for a machine to machine communication, the anticipation of difficulty has to be built into the system.
Mission critical messaging middleware from IBM is the base for software systems integration projects used to implement smart phone apps, mobile applications for the web, cloud computing, and enterprise collaboration suites. IBM WebSphere MQ is the IT industry defacto standard for mission critical information messaging. The IBM WebSphere MQ product continues to completely dominate the enterprise middleware messaging market.
Mission critical messaging middleware from IBM is the base for software systems integration projects used to implement smart phone apps, mobile applications for the web, cloud computing, and enterprise collaboration suites. IBM WebSphere MQ is the IT industry defacto standard for mission critical information messaging. The IBM WebSphere MQ product continues to completely dominate the enterprise middleware messaging market.
IBM WebSphere MQ is used in the front end distributed systems to interconnect Java messaging when once and only once mission critical capability is needed. It is used on the back end mainframe systems to connect the mainframe to various databases and to distributed systems. IBM WebSphere MQ is a key component used to manage quantum increases in the quantity of data being generated.
Mission critical messaging provides cross platform, cross application support for once and only once delivery of packets of information of files across the network. It is supporting enterprise response to business change. By providing a foundation base for services oriented architecture (SOA), mission critical messaging enables the distributed, globally integrated enterprise to interconnect people and sensors over the Internet.
Decoupled message transport is a significant aspect of modernized IT. It is the base for Cloud, SOA, collaboration tools, and virtualized IT. IBM WebSphereMQ is a defacto industry mission critical messaging standard because it is used quadrillions of times per day worldwide to transport messages between applications. IBM WebSphereMQ is used as a wrapper for other HTTPS, JMS, and SOAP application messaging. It is used to achieve FTP transport.
Mission critical messaging represents a major aspect of IT as data processing moves away from a stack and into an SOA ESB services cloud computing environment that relies on transport. The value of mission critical messaging for SOA is that it leverages a services bus ESB computing environment. Cloud computing is creating new economies of scale for virtualized IT. Data centers are moving away from siloed applications and batch processing to real time systems.
As real time systems are implemented in the cloud, what were scale out distributed server farms for each separate application is giving way to virtualized systems that run simultaneously on one platform. IBM WebSphereMQ becomes a significant aspect of virtualization because it is so good at managing decoupled messages.
This study illustrates the mission critical middleware messaging market driving forces. It describes the principal competitive factors that impact the success of mission critical messaging solutions. Market pitfalls and market opportunities are addressed in the comprehensive market study that lays out strategy considerations in considerable detail: Worldwide mission critical messaging markets at $10.3 billion in 2013 are anticipated to reach $32.7 billion in 2020, indicating growth based on implementation of mobile smart phone network connectivity, tablet use for mobile computing, Internet apps, cloud computing, SOA, and business process management systems (BPM) that support collaboration
According to Susan Eustis, lead author of the WinterGreen Research team that prepared the middleware messaging market research study, “Cloud, mobile, and collaboration are leveraging mission critical messaging. Messaging supports information exchange between mobile devices. The Internet of things is driving messaging uptake. IBM is the dominant vendor, providing reliable messaging for enterprises and tying together open systems software messaging systems with wrappers. It is used to support exchange of information among servers because of the tremendous reliability provided.”
Smart phones and tablets change the markets for IT systems implementation, increasing the need for mission critical decoupled messaging. The communication of data is a demanding task whereby often there is trouble if a message that is sent does not get through or contra-wise if a message that is sent goes through twice. When there is a person on one or both sides of the message sending, human intelligence is able to deal with the problem if the message does not get sent, or if it gets sent twice, but for a machine to machine communication, the anticipation of difficulty has to be built into the system.
Mission critical messaging middleware from IBM is the base for software systems integration projects used to implement smart phone apps, mobile applications for the web, cloud computing, and enterprise collaboration suites. IBM WebSphere MQ is the IT industry defacto standard for mission critical information messaging. The IBM WebSphere MQ product continues to completely dominate the enterprise middleware messaging market.
Mission critical messaging middleware from IBM is the base for software systems integration projects used to implement smart phone apps, mobile applications for the web, cloud computing, and enterprise collaboration suites. IBM WebSphere MQ is the IT industry defacto standard for mission critical information messaging. The IBM WebSphere MQ product continues to completely dominate the enterprise middleware messaging market.
IBM WebSphere MQ is used in the front end distributed systems to interconnect Java messaging when once and only once mission critical capability is needed. It is used on the back end mainframe systems to connect the mainframe to various databases and to distributed systems. IBM WebSphere MQ is a key component used to manage quantum increases in the quantity of data being generated.
Mission critical messaging provides cross platform, cross application support for once and only once delivery of packets of information of files across the network. It is supporting enterprise response to business change. By providing a foundation base for services oriented architecture (SOA), mission critical messaging enables the distributed, globally integrated enterprise to interconnect people and sensors over the Internet.
Decoupled message transport is a significant aspect of modernized IT. It is the base for Cloud, SOA, collaboration tools, and virtualized IT. IBM WebSphereMQ is a defacto industry mission critical messaging standard because it is used quadrillions of times per day worldwide to transport messages between applications. IBM WebSphereMQ is used as a wrapper for other HTTPS, JMS, and SOAP application messaging. It is used to achieve FTP transport.
Mission critical messaging represents a major aspect of IT as data processing moves away from a stack and into an SOA ESB services cloud computing environment that relies on transport. The value of mission critical messaging for SOA is that it leverages a services bus ESB computing environment. Cloud computing is creating new economies of scale for virtualized IT. Data centers are moving away from siloed applications and batch processing to real time systems.
As real time systems are implemented in the cloud, what were scale out distributed server farms for each separate application is giving way to virtualized systems that run simultaneously on one platform. IBM WebSphereMQ becomes a significant aspect of virtualization because it is so good at managing decoupled messages.
This study illustrates the mission critical middleware messaging market driving forces. It describes the principal competitive factors that impact the success of mission critical messaging solutions. Market pitfalls and market opportunities are addressed in the comprehensive market study that lays out strategy considerations in considerable detail: Worldwide mission critical messaging markets at $10.3 billion in 2013 are anticipated to reach $32.7 billion in 2020, indicating growth based on implementation of mobile smart phone network connectivity, tablet use for mobile computing, Internet apps, cloud computing, SOA, and business process management systems (BPM) that support collaboration
MISSION CRITICAL MESSAGING MIDDLEWAREMARKET SHARES AND MARKET FORECASTS
IBM Decoupled Messaging is Mission Critical
Superior Application Middleware Delivers Enterprise Agility
Mission Critical Messaging Market Shares
Mission Critical Messaging Market Forecasts
1. MISSION CRITICAL MESSAGING MIDDLEWARE MARKET DEFINITION
1.1 Private Cloud Computing Model
1.1.1 IBM WebSphere SOA Open Systems Cloud Foundation
1.1.2 IBM SOA Foundation
1.2 Mission Critical Messaging Products
1.2.1 Mission Critical Middleware Messaging
1.3 Mission Critical Messaging As A Base For Services Oriented Architecture (SOA)
1.4 Mission Critical Messaging As A Base For Secure Application Integration
1.4.1 IBM WebSphere MQ
1.5 OASIS Secure, Reliable Transaction Web Services Messaging Architecture
1.5.1 Reliable Message-Based Web Services Communication
1.6 Mission Critical Middleware Messaging Open Connectivity
1.6.1 Messaging Solutions
1.7 Message Trends
1.8 Mission Critical Messaging Market Dynamics
1.9 SOA Governance Lifecycle
1.9.1 Cloud Model For Consuming And Delivering Business And IT Services
1.9.2 IBM Cloud Computing
1.9.3 IBM Cloud Business Model
1.9.4 Microsoft Cloud Business Model: Private Cloud – Unlimited Virtualization Rights
1.9.5 Comcast Expands Commercial Play With Cloud-Based VoIP, UC offering
2. MISSION CRITICAL MESSAGING MIDDLEWARE MARKET SHARES AND MARKET FORECASTS
2.1 IBM Decoupled Messaging is Mission Critical
2.1.1 Superior Application Middleware Delivers Enterprise Agility
2.2 Mission Critical Messaging Market Shares
2.2.1 IBM WebSphere MQ
2.2.2 .NET MSMQ from Microsoft
2.2.3 Tibco Transport Layer
2.2.4 Fiorano Enterprise Messaging Backbone
2.2.5 FioranoMQ JMS Server
2.3 Mission Critical Messaging Market Forecasts
2.3.1 Worldwide Mission Critical Messaging Unit Shipments Analysis
2.3.2 Worldwide Mission Critical Messaging Unit Shipments
2.3.3 SOA Integration Of E-Business
2.3.4 Market Driving Forces For Real Time Exchange of Information
2.3.5 Mission Critical Messaging Growth Factors
2.3.6 Backbone Connectivity Across All Platforms with Open Systems
2.3.7 Financial Services and Messaging Applications
2.3.8 Database Messaging Market Forecasts
2.3.9 IBM DB2R Integrates With IBM MQ Messaging For Database Applications
2.3.10 Software AG Database Products Integrated With Tibco
2.3.11 NET Microsoft Web Services
2.3.12 Publish Subscribe Messaging
2.3.13 JMS Messaging
2.3.14 SCADA Messaging
2.3.15 Open Systems Backbone Connectivity Across Platforms / Messaging Integrated Across Microsoft
2.4 Mission Critical Messaging Regional Analysis
3. MIDDLEWARE MESSAGING PRODUCT DESCRIPTION
3.1 IBM WebSphere MQ
3.1.1 IBM IT Strategy and Design for Middleware
3.1.2 IBM Speeding Time To Value Through Integrated Solution For Complex, Multiproduct Deployments
3.1.3 IBM Middleware Key Enabler For Integration And Interoperability
3.1.4 IBM WebSphere MQ Defacto Industry Standard
3.1.5 IBM WebSphere MQ
3.1.6 IBM WebSphere MQ Assured Delivery Functions
3.1.7 IBM WebSphere MQ
3.1.8 IBM WebSphere MQ Telemetry Capabilities
3.1.9 IBM WebSphere MQ Support For Growth
3.1.10 IBM WebSphere MQ Reliable File Transfer
3.1.11 IBM WebSphere MQ Integration File Transfer Business Value
3.1.12 IBM WebSphere MQ Clustering
3.1.13 IBM WebSphere MQ Hardware Cluster May Be Set Up In An Active-Passive Mode Or An Active-Active Mode
3.1.14 IBM WebSphere MQ Supports Clustering Through Split Cluster Transmit Queues
3.1.15 IBM WebSphere MQ End-To-End Security
3.1.16 IBM WebSphere MQ Supports Enhanced Security
3.1.17 IBM WebSphere Application Server
3.2 Microsoft Middleware
3.2.1 Microsoft.NET Framework Time-to-Market
3.2.2 Microsoft .NET Framework Performance and User Experience
3.2.3 Microsoft.NET Framework Developer Skills and Productivity
3.2.4 Microsoft Visual Studio and .NET
3.3 Tibco FTL Message Switch
3.3.1 Tibco FTL
3.3.2 Tibco e-FTL Messaging Middleware
3.3.3 Tibco Enterprise Message Service
3.3.4 Tibco Enterprise-Class Messaging Performance
3.3.5 Tibco Reliable, Persistent Messaging
3.3.6 Tibco Rendezvous Publish Subscribe Messaging
3.3.7 Tibco Web Messaging
3.3.8 Tibco Messaging Backbone
3.4 FioranoMQ
3.4.1 FioranoMQ JMS Server
3.4.2 FioranoMQ JMS Server Business Benefits
3.4.3 FioranoMQ JMS Server High Performance
3.4.4 FioranoMQ JMS Server Tight Security
3.5 Software AG webMethods Broker
3.5.1 Software AG Enterprise-Class Messaging Backbone
3.5.2 Software AG webMethods Broker Maximum Messaging Performance
3.5.3 Software AG webMethods Broker Support for Different Messaging Styles
3.5.4 Software AG webMethods Broker Policy-Based Clustering
3.6 Oracle
3.6.1 Oracle Fusion Message Oriented Middleware
3.6.2 Oracle Message Oriented Middleware (MOM)-Based System Asynchronous Exchange Of Messages
3.6.3 Oracle Disadvantages Of Message Loose Coupling
3.6.4 Oracle Message Oriented Middleware
3.6.5 Oracle GlassFish Server
3.6.6 Oracle Business-to-Business Integration
3.6.7 Oracle - WebLogic Suite
3.7 Information Builders / iWay Middleware Software
3.7.1 iWay Enterprise Integration Middleware
3.7.2 iWay Network Computing
3.7.3 Information Builders iWay EDA for Networked Computing
3.7.4 Information Builders iWay Java for Web-Enterprise Convergence
3.7.5 Information Builders / iWay Middleware Provides The Plumbing
3.7.6 Information Builders/iWay SOA, EDA, and ESB Middleware Solutions
3.7.7 iWay SOA Middleware
3.7.8 Information Builders/iWay WebFOCUS Business Intelligence
3.7.9 Information Builders/iWay Software's EIM Server
3.7.10 Information Builders/iWay Service Manager
3.7.11 Information Builders/iWay SoftwareGraphical Service Design Tools.
3.7.12 Information Builders/iWay Software Runtime Engine
3.8 Fujitsu openFT-Enterprise File Transfer
3.8.1 Fujitsu openFT-Enterprise File Transfer Achieve Security Level
3.8.2 Fujitsu Automated File Transfer, Low Cost, Secure
3.8.3 Fujitsu Glovia
3.8.4 Fujitsu Interstage
3.8.5 Fujitsu Automated Process Discovery
3.8.6 Fujitsu Interstage Application Server
3.8.7 Fujitsu Interstage Studio
3.8.8 Fujitsu Application and Service Management Suite
3.8.9 Fujitsu Interstage Software Quality Analyzer
3.9 Progress OpenEdge
3.10 Aurea Software
3.11 Workday Cloud Platform
3.11.1 Workday Integration Cloud Platform Enterprise-Class ESB Grid
3.12 Solace Systems’s Messaging Solution
3.12.1 Solace’s Unicast Advantage
3.12.2 Solace Systems 3200 Series Messaging Appliances
3.12.3 Solace Reliable Messaging
3.12.4 Solace Systems Software API Connects to a Messaging Appliance
3.12.5 Solace Systems Embedded Support For Point-To-Point ‘Unicast’ Distribution
3.12.6 Solace Guaranteed Messaging
3.12.7 Solace Systems Redundant Architecture for HA, FT and DR (1 and 2)
3.12.8 Solace JMS Messaging
3.12.9 Solace Systems Non-Persistent Messaging
3.12.10 Solace Systems Persistent Messaging
3.12.11 Solace Systems Persistent and Non-Persistent on One Appliance
3.12.12 Solace IPC Shared Memory Messaging
3.13 Red Hat JBoss Enterprise Middleware Messaging
3.13.1 Red Hat JBoss Customers
3.13.2 Red Hat AMQP Specification Messaging
3.14 Attachmate / Novell SUSE Support for JBoss
3.14.1 Novell Deploys Comprehensive, Enterprise-Ready Enterprise Application Platform
3.14.2 Novell Accelerates Development And Interoperability
3.14.3 Novell JBoss Enterprise Middleware
3.15 BMC Middleware Management
3.15.1 BMC BladeLogic Middleware Automation
3.15.2 BMC Improves Productivity For Release Process Documentation
3.15.3 BMC Middleware Administration
3.15.4 BMC Middleware Monitoring
3.15.5 BMC Application Transaction Tracing
3.16 GSX Monitor
3.17 Hewlett Packard Database and Middleware Automation
3.18 OpenText Content Middleware
3.18.1 OpenText Comprehensive Information Integration Platform
3.18.2 OpenText Comprehensive Information Integration Value
3.19 Nastel Middleware Monitoring and Management
3.20 NEC RFID Middleware Products
3.20.1 NEC RFID Middleware
3.20.2 NEC WebOTX RFID Manager Middleware
3.21 Rocket Software Janus Middleware
3.21.1 Rocket Software Encryption
3.21.2 Rocket Software Authentication
3.21.3 Rocket Software Efficiency
3.21.4 Rocket Software Running Secure Model 204 Web Servers
3.22 WSO2 Middleware Platform
3.22.1 WSO2 Message Broker
3.23 VMWare Virtualizing Oracle
3.24 Messaging Middleware Companies
4. MISSION CRITICAL MIDDLEWARE MESSAGING TECHNOLOGY
4.1 Mission Critical Messaging Communication Protocols
4.1.1 Mission Critical Messaging Middleware Transport Layer
4.1.2 IBM WebSphere MQ Publish / Subscribe Messaging
4.1.3 IBM WebSphere MQ Messaging Provider
4.1.4 WebSphere MQ Asynchronous Message Consumption
4.1.5 IBM WebSphere MQ Message Selection
4.1.6 IBM WebSphere MQ Sharing A Communications Connection
4.1.7 IBM WebSphere MQ Read Ahead On Client Connections
4.1.8 Sending IBM WebSphere MQ Messages
4.1.9 IBM WebSphere MQ Channel Exits
4.1.10 IBM WebSphere MQ Message Properties
4.2 Mission Critical Messaging As A Base For Services Oriented Architecture (SOA)
4.3 Mission Critical Messaging As A Base For Application Integration
4.3.1 IBM WebSphere MQ
4.4 AMQP Specification Messaging
4.4.1 Advanced Message Queuing Protocol (AMQP) Business Case
4.4.2 AMQP Makes Practical
4.5 OASIS Secure, Reliable Transaction Web Services Messaging Architecture
4.5.1 Reliable Message-Based Web Services Communication
4.5.2 WS-RM to OASIS Completed
4.6 Streams For Messaging and Data Access
4.7 Message Queuing
4.7.1 Database Message Queuing
4.7.2 Data and Message Transformation
4.8 Componentization
4.9 Speed, Flexibility, and Scalability
4.10 Mission Critical Message Throughput
4.10.1 Message Persistence
4.10.2 Message Size
4.10.3 Data Format
4.10.4 Message Flow Complexity
4.11 Message Input To Output Ratio
4.12 Required Message Rate
4.13 Parallel Message Processing
4.13.1 Serial Message Processing
4.13.2 Recovery Requirements
4.14 Typical Message Patterns
4.15 Processors Manage Specified Message Flows
4.16 Middleware Messaging Technology Issues
4.16.1 Report Messages Functions
4.16.2 Real-Time Technology Issues
4.16.3 MCA Exit Chaining
4.16.4 Remove Channel Process Definition
4.16.5 Improved Stop Channel Command
4.16.6 AMI Objects From LDAP
4.17 Secure Sockets Layer (SSL)
4.18 Dynamic Systems
4.19 Robust, Enterprise-Quality Fault Tolerance
4.19.1 Cache / Queue
4.20 Multicast
4.21 Performance Optimization
4.21.1 Fault Tolerance
4.21.2 Gateways
5. MISSION CRITICAL MIDDLEWARE MESSAGING COMPANY DESCRIPTION
5.1 360 Logica
5.1.1 360logica SOA Software Testing
5.1.2 360logica SOA Resources
5.1.3 360logica Software Testing Services
5.1.4 360logica Software Testing Company
5.2 Actuate
5.2.1 Actuate Core Strengths
5.3 Adobe
5.3.1 Adobe Creative Cloud
5.3.2 Adobe Digital Publishing Suite
5.3.3 5Adobe Photoshop
5.3.4 Adobe Acrobat
5.3.5 Adobe Edge Tools & Services
5.3.6 Adobe Digital Marketing
5.4 AgilePoint
5.5 Appian
5.5.1 Appian Technology
5.6 Aurea
5.7 BigAgi
5.8 BizFlow
5.9 BonitaSoft
5.9.1 Bonita Open Source BPM Software
5.9.2 Bonita Open Source BPM Technology
5.9.3 Bonita Open Solution
5.10 CA Technologies
5.10.1 CA Revenue
5.11 Crosscheck Networks
5.12 EMC
5.12.1 EMC Broad Range of Customers
5.12.2 EMC Strong Leadership Record
5.12.3 EMC Global Presence
5.13 Fabasoft Group
5.14 Fiorano
5.14.1 Fiorano Leadership In Enterprise Middleware
5.14.2 Fiorano Customers Worldwide
5.15 Fujitsu
5.15.1 Fujitsu Revenue
5.15.2 Fujitsu Revenue
5.15.3 Fujitsu Technology Solutions
5.15.4 Fujitsu Personal Computers
5.15.5 Fujitsu Development and Production Facilities
5.15.6 Fujitsu Corporate Strategy
5.15.7 Fujitsu Interstage
5.15.8 Fujitsu Acquires RunMyProcess Cloud Service Provider
5.16 GSX
5.17 Hewlett Packard
5.17.1 Hewlett Packard Revenue
5.17.2 HP Printing and Personal Systems Group
5.17.3 HP Software
5.18 HostBridge
5.19 IBM
5.19.1 IBM Strategy
5.19.2 IBM Capital Investment
5.19.3 IBM Business Segments And Capabilities
5.19.4 IBM Integrated Supply Chain
5.19.5 IBM Cloud Computing
5.19.6 IBM Cloud Computing Model
5.19.7 IBM Business Model
5.19.8 IBM Business Analytics
5.19.9 IBM Innovation
5.19.10 SOA Digital Services
5.19.11 IBM Smarter Planet Strategy
5.19.12 IBM Smarter Planet
5.19.13 IBM Social Business
5.19.14 IBM WebSphere SOA Software Capabilities
5.19.15 IBM Information Management Software
5.19.16 IBM Business Analytics and Optimization Strategy
5.19.17 IBM Watson Solutions
5.19.18 IBM Cloud & Smarter Infrastructure Solutions
5.19.19 IBM Software
5.19.20 IBM System Z Mainframe Software
5.19.21 IBM Social Workforce Software Solutions
5.19.22 IBM Rational Software
5.19.23 IBM Mobile Software
5.19.24 IBM MobileFirst
5.19.25 IBM Systems and Technology (STG)
5.19.26 IBM Revenue
5.19.27 IBM IT Strategy
5.19.28 IBM Business Partners
5.19.29 IBM Messaging Extension for Web Application Pattern
5.19.30 IBM Growth Market Initiatives
5.19.31 IBM Business Revenue Segments And Capabilities
5.19.32 IBM Geographic Revenue
5.20 Informatica
5.20.1 Informatica Master Data Management (MDM)
5.21 Intalio
5.22 iWay Software
5.23 K2
5.24 Kofax
5.25 Layer
5.26 Managed Methods
5.26.1 Managed Methods Solutions
5.27 Mega
5.27.1 Mega Solutions
5.27.2 Mega Solutions Customers
5.28 Mendix
5.29 Microsoft SOA
5.29.1 Microsoft .Net SOA
5.29.2 Microsoft .Net Open Source
5.29.3 Microsoft .NET Framework
5.29.4 Microsoft Key Opportunities and Investments
5.29.5 Microsoft Smart Connected Devices
5.29.6 Microsoft: Cloud Computing Transforming The Data Center And Information Technology
5.29.7 Microsoft Entertainment
5.29.8 Microsoft Search
5.29.9 Microsoft Communications And Productivity
5.29.10 Microsoft Revenue
5.29.11 Microsoft Customers
5.30 Nastel Technologies
5.30.1 Nastel Privately Held Company
5.31 Newgen
5.32 Attachmate / Novell
5.33 OpenText
5.33.1 OpenText / Hummingbird
5.33.2 OpenText Target Markets
5.33.3 OpenText / Cordys
5.34 Crosscheck Networks
5.35 Oracle
5.35.1 Oracle Revenue
5.36 Perceptive Software
5.37 PegaSystems
5.37.1 Pega Exchange' for BPM and SOA-
5.38 Perficient
5.38.1 Perficient Revenue
5.38.2 Perficient ProHealth Care Drives Population Health Management through Epic’s Cogito Data Warehouse
5.39 Pivotal
5.39.1 Pivotal Comprehensive PaaS
5.39.2 Pivotal Speeds Time To Market
5.40 PNM Soft
5.41 Progress Software
5.41.1 Progress Software Revenue
5.42 Rally Software
5.42.1 Rally Software Revenue
5.42.2 Rally Software Solutions for Organizations
5.42.3 Rally Software Revenue
5.43 Red Hat
5.44 SAP
5.44.1 SAP offers NetWeaver
5.44.2 SAP SOA Enterprise Applications
5.44.3 SAP Aligns Solutions With Innovation to Improve Production Process
5.44.4 SAP User Planned Updates
5.44.5 SAP Core Applications
5.44.6 SAP Rapid-Deployment Solutions
5.45 SOALIB
5.45.1 SOALIB and SOASYNC
5.46 SOA Software
5.46.1 SOA Software Customers
5.46.2 SOA Software Product Uses
5.46.3 SOA Software Enterprise API Management and SOA Governance
5.46.4 SOA Software Enterprise API Management Revenue
5.46.5 SOA Software Partners
5.46.6 SOA Software Customers
5.46.7 SOA Software Innovation
5.46.8 SOA Software Products
5.47 Software AG
5.47.1 Software AG Revenue by Segment
5.47.2 Software AG
5.47.3 Software AG Buys Progress® Apama
5.48 Tibco Software
5.48.1 Tibco Revenue
5.48.2 Tibco Software
5.48.3 Tibco
5.48.4 Tibco ActiveMatrix
5.48.5 Tibco Software Customers
5.48.6 Tibco Event-Enabled Enterprise Platform
5.48.7 Tibco Platform
5.48.8 Tibco SOA Development
5.48.9 Tibco Revenue
5.48.10 Tibco Cloud Computing Environments
5.48.11 Tibco Software Acquires Maporama Solutions
5.48.12 Tibco / Maporama Solutions
5.48.13 Tibco Customer Interportpolice Deploys Tibbr As Global Collaboration Platform
5.48.14 Renaissance Capital / Tibco Big Data Opportunity
5.49 VMWare
5.49.1 VMware Network Virtualization Enables User Self- Provisioning And VMWare Support
5.50 WSO2
5.50.1 WSO2 Products
5.50.2 WSO2 Open Source and Standards
5.50.3 SEERC Technology Research Center Uses WSO2 for Governance Registry
IBM Decoupled Messaging is Mission Critical
Superior Application Middleware Delivers Enterprise Agility
Mission Critical Messaging Market Shares
Mission Critical Messaging Market Forecasts
1. MISSION CRITICAL MESSAGING MIDDLEWARE MARKET DEFINITION
1.1 Private Cloud Computing Model
1.1.1 IBM WebSphere SOA Open Systems Cloud Foundation
1.1.2 IBM SOA Foundation
1.2 Mission Critical Messaging Products
1.2.1 Mission Critical Middleware Messaging
1.3 Mission Critical Messaging As A Base For Services Oriented Architecture (SOA)
1.4 Mission Critical Messaging As A Base For Secure Application Integration
1.4.1 IBM WebSphere MQ
1.5 OASIS Secure, Reliable Transaction Web Services Messaging Architecture
1.5.1 Reliable Message-Based Web Services Communication
1.6 Mission Critical Middleware Messaging Open Connectivity
1.6.1 Messaging Solutions
1.7 Message Trends
1.8 Mission Critical Messaging Market Dynamics
1.9 SOA Governance Lifecycle
1.9.1 Cloud Model For Consuming And Delivering Business And IT Services
1.9.2 IBM Cloud Computing
1.9.3 IBM Cloud Business Model
1.9.4 Microsoft Cloud Business Model: Private Cloud – Unlimited Virtualization Rights
1.9.5 Comcast Expands Commercial Play With Cloud-Based VoIP, UC offering
2. MISSION CRITICAL MESSAGING MIDDLEWARE MARKET SHARES AND MARKET FORECASTS
2.1 IBM Decoupled Messaging is Mission Critical
2.1.1 Superior Application Middleware Delivers Enterprise Agility
2.2 Mission Critical Messaging Market Shares
2.2.1 IBM WebSphere MQ
2.2.2 .NET MSMQ from Microsoft
2.2.3 Tibco Transport Layer
2.2.4 Fiorano Enterprise Messaging Backbone
2.2.5 FioranoMQ JMS Server
2.3 Mission Critical Messaging Market Forecasts
2.3.1 Worldwide Mission Critical Messaging Unit Shipments Analysis
2.3.2 Worldwide Mission Critical Messaging Unit Shipments
2.3.3 SOA Integration Of E-Business
2.3.4 Market Driving Forces For Real Time Exchange of Information
2.3.5 Mission Critical Messaging Growth Factors
2.3.6 Backbone Connectivity Across All Platforms with Open Systems
2.3.7 Financial Services and Messaging Applications
2.3.8 Database Messaging Market Forecasts
2.3.9 IBM DB2R Integrates With IBM MQ Messaging For Database Applications
2.3.10 Software AG Database Products Integrated With Tibco
2.3.11 NET Microsoft Web Services
2.3.12 Publish Subscribe Messaging
2.3.13 JMS Messaging
2.3.14 SCADA Messaging
2.3.15 Open Systems Backbone Connectivity Across Platforms / Messaging Integrated Across Microsoft
2.4 Mission Critical Messaging Regional Analysis
3. MIDDLEWARE MESSAGING PRODUCT DESCRIPTION
3.1 IBM WebSphere MQ
3.1.1 IBM IT Strategy and Design for Middleware
3.1.2 IBM Speeding Time To Value Through Integrated Solution For Complex, Multiproduct Deployments
3.1.3 IBM Middleware Key Enabler For Integration And Interoperability
3.1.4 IBM WebSphere MQ Defacto Industry Standard
3.1.5 IBM WebSphere MQ
3.1.6 IBM WebSphere MQ Assured Delivery Functions
3.1.7 IBM WebSphere MQ
3.1.8 IBM WebSphere MQ Telemetry Capabilities
3.1.9 IBM WebSphere MQ Support For Growth
3.1.10 IBM WebSphere MQ Reliable File Transfer
3.1.11 IBM WebSphere MQ Integration File Transfer Business Value
3.1.12 IBM WebSphere MQ Clustering
3.1.13 IBM WebSphere MQ Hardware Cluster May Be Set Up In An Active-Passive Mode Or An Active-Active Mode
3.1.14 IBM WebSphere MQ Supports Clustering Through Split Cluster Transmit Queues
3.1.15 IBM WebSphere MQ End-To-End Security
3.1.16 IBM WebSphere MQ Supports Enhanced Security
3.1.17 IBM WebSphere Application Server
3.2 Microsoft Middleware
3.2.1 Microsoft.NET Framework Time-to-Market
3.2.2 Microsoft .NET Framework Performance and User Experience
3.2.3 Microsoft.NET Framework Developer Skills and Productivity
3.2.4 Microsoft Visual Studio and .NET
3.3 Tibco FTL Message Switch
3.3.1 Tibco FTL
3.3.2 Tibco e-FTL Messaging Middleware
3.3.3 Tibco Enterprise Message Service
3.3.4 Tibco Enterprise-Class Messaging Performance
3.3.5 Tibco Reliable, Persistent Messaging
3.3.6 Tibco Rendezvous Publish Subscribe Messaging
3.3.7 Tibco Web Messaging
3.3.8 Tibco Messaging Backbone
3.4 FioranoMQ
3.4.1 FioranoMQ JMS Server
3.4.2 FioranoMQ JMS Server Business Benefits
3.4.3 FioranoMQ JMS Server High Performance
3.4.4 FioranoMQ JMS Server Tight Security
3.5 Software AG webMethods Broker
3.5.1 Software AG Enterprise-Class Messaging Backbone
3.5.2 Software AG webMethods Broker Maximum Messaging Performance
3.5.3 Software AG webMethods Broker Support for Different Messaging Styles
3.5.4 Software AG webMethods Broker Policy-Based Clustering
3.6 Oracle
3.6.1 Oracle Fusion Message Oriented Middleware
3.6.2 Oracle Message Oriented Middleware (MOM)-Based System Asynchronous Exchange Of Messages
3.6.3 Oracle Disadvantages Of Message Loose Coupling
3.6.4 Oracle Message Oriented Middleware
3.6.5 Oracle GlassFish Server
3.6.6 Oracle Business-to-Business Integration
3.6.7 Oracle - WebLogic Suite
3.7 Information Builders / iWay Middleware Software
3.7.1 iWay Enterprise Integration Middleware
3.7.2 iWay Network Computing
3.7.3 Information Builders iWay EDA for Networked Computing
3.7.4 Information Builders iWay Java for Web-Enterprise Convergence
3.7.5 Information Builders / iWay Middleware Provides The Plumbing
3.7.6 Information Builders/iWay SOA, EDA, and ESB Middleware Solutions
3.7.7 iWay SOA Middleware
3.7.8 Information Builders/iWay WebFOCUS Business Intelligence
3.7.9 Information Builders/iWay Software's EIM Server
3.7.10 Information Builders/iWay Service Manager
3.7.11 Information Builders/iWay SoftwareGraphical Service Design Tools.
3.7.12 Information Builders/iWay Software Runtime Engine
3.8 Fujitsu openFT-Enterprise File Transfer
3.8.1 Fujitsu openFT-Enterprise File Transfer Achieve Security Level
3.8.2 Fujitsu Automated File Transfer, Low Cost, Secure
3.8.3 Fujitsu Glovia
3.8.4 Fujitsu Interstage
3.8.5 Fujitsu Automated Process Discovery
3.8.6 Fujitsu Interstage Application Server
3.8.7 Fujitsu Interstage Studio
3.8.8 Fujitsu Application and Service Management Suite
3.8.9 Fujitsu Interstage Software Quality Analyzer
3.9 Progress OpenEdge
3.10 Aurea Software
3.11 Workday Cloud Platform
3.11.1 Workday Integration Cloud Platform Enterprise-Class ESB Grid
3.12 Solace Systems’s Messaging Solution
3.12.1 Solace’s Unicast Advantage
3.12.2 Solace Systems 3200 Series Messaging Appliances
3.12.3 Solace Reliable Messaging
3.12.4 Solace Systems Software API Connects to a Messaging Appliance
3.12.5 Solace Systems Embedded Support For Point-To-Point ‘Unicast’ Distribution
3.12.6 Solace Guaranteed Messaging
3.12.7 Solace Systems Redundant Architecture for HA, FT and DR (1 and 2)
3.12.8 Solace JMS Messaging
3.12.9 Solace Systems Non-Persistent Messaging
3.12.10 Solace Systems Persistent Messaging
3.12.11 Solace Systems Persistent and Non-Persistent on One Appliance
3.12.12 Solace IPC Shared Memory Messaging
3.13 Red Hat JBoss Enterprise Middleware Messaging
3.13.1 Red Hat JBoss Customers
3.13.2 Red Hat AMQP Specification Messaging
3.14 Attachmate / Novell SUSE Support for JBoss
3.14.1 Novell Deploys Comprehensive, Enterprise-Ready Enterprise Application Platform
3.14.2 Novell Accelerates Development And Interoperability
3.14.3 Novell JBoss Enterprise Middleware
3.15 BMC Middleware Management
3.15.1 BMC BladeLogic Middleware Automation
3.15.2 BMC Improves Productivity For Release Process Documentation
3.15.3 BMC Middleware Administration
3.15.4 BMC Middleware Monitoring
3.15.5 BMC Application Transaction Tracing
3.16 GSX Monitor
3.17 Hewlett Packard Database and Middleware Automation
3.18 OpenText Content Middleware
3.18.1 OpenText Comprehensive Information Integration Platform
3.18.2 OpenText Comprehensive Information Integration Value
3.19 Nastel Middleware Monitoring and Management
3.20 NEC RFID Middleware Products
3.20.1 NEC RFID Middleware
3.20.2 NEC WebOTX RFID Manager Middleware
3.21 Rocket Software Janus Middleware
3.21.1 Rocket Software Encryption
3.21.2 Rocket Software Authentication
3.21.3 Rocket Software Efficiency
3.21.4 Rocket Software Running Secure Model 204 Web Servers
3.22 WSO2 Middleware Platform
3.22.1 WSO2 Message Broker
3.23 VMWare Virtualizing Oracle
3.24 Messaging Middleware Companies
4. MISSION CRITICAL MIDDLEWARE MESSAGING TECHNOLOGY
4.1 Mission Critical Messaging Communication Protocols
4.1.1 Mission Critical Messaging Middleware Transport Layer
4.1.2 IBM WebSphere MQ Publish / Subscribe Messaging
4.1.3 IBM WebSphere MQ Messaging Provider
4.1.4 WebSphere MQ Asynchronous Message Consumption
4.1.5 IBM WebSphere MQ Message Selection
4.1.6 IBM WebSphere MQ Sharing A Communications Connection
4.1.7 IBM WebSphere MQ Read Ahead On Client Connections
4.1.8 Sending IBM WebSphere MQ Messages
4.1.9 IBM WebSphere MQ Channel Exits
4.1.10 IBM WebSphere MQ Message Properties
4.2 Mission Critical Messaging As A Base For Services Oriented Architecture (SOA)
4.3 Mission Critical Messaging As A Base For Application Integration
4.3.1 IBM WebSphere MQ
4.4 AMQP Specification Messaging
4.4.1 Advanced Message Queuing Protocol (AMQP) Business Case
4.4.2 AMQP Makes Practical
4.5 OASIS Secure, Reliable Transaction Web Services Messaging Architecture
4.5.1 Reliable Message-Based Web Services Communication
4.5.2 WS-RM to OASIS Completed
4.6 Streams For Messaging and Data Access
4.7 Message Queuing
4.7.1 Database Message Queuing
4.7.2 Data and Message Transformation
4.8 Componentization
4.9 Speed, Flexibility, and Scalability
4.10 Mission Critical Message Throughput
4.10.1 Message Persistence
4.10.2 Message Size
4.10.3 Data Format
4.10.4 Message Flow Complexity
4.11 Message Input To Output Ratio
4.12 Required Message Rate
4.13 Parallel Message Processing
4.13.1 Serial Message Processing
4.13.2 Recovery Requirements
4.14 Typical Message Patterns
4.15 Processors Manage Specified Message Flows
4.16 Middleware Messaging Technology Issues
4.16.1 Report Messages Functions
4.16.2 Real-Time Technology Issues
4.16.3 MCA Exit Chaining
4.16.4 Remove Channel Process Definition
4.16.5 Improved Stop Channel Command
4.16.6 AMI Objects From LDAP
4.17 Secure Sockets Layer (SSL)
4.18 Dynamic Systems
4.19 Robust, Enterprise-Quality Fault Tolerance
4.19.1 Cache / Queue
4.20 Multicast
4.21 Performance Optimization
4.21.1 Fault Tolerance
4.21.2 Gateways
5. MISSION CRITICAL MIDDLEWARE MESSAGING COMPANY DESCRIPTION
5.1 360 Logica
5.1.1 360logica SOA Software Testing
5.1.2 360logica SOA Resources
5.1.3 360logica Software Testing Services
5.1.4 360logica Software Testing Company
5.2 Actuate
5.2.1 Actuate Core Strengths
5.3 Adobe
5.3.1 Adobe Creative Cloud
5.3.2 Adobe Digital Publishing Suite
5.3.3 5Adobe Photoshop
5.3.4 Adobe Acrobat
5.3.5 Adobe Edge Tools & Services
5.3.6 Adobe Digital Marketing
5.4 AgilePoint
5.5 Appian
5.5.1 Appian Technology
5.6 Aurea
5.7 BigAgi
5.8 BizFlow
5.9 BonitaSoft
5.9.1 Bonita Open Source BPM Software
5.9.2 Bonita Open Source BPM Technology
5.9.3 Bonita Open Solution
5.10 CA Technologies
5.10.1 CA Revenue
5.11 Crosscheck Networks
5.12 EMC
5.12.1 EMC Broad Range of Customers
5.12.2 EMC Strong Leadership Record
5.12.3 EMC Global Presence
5.13 Fabasoft Group
5.14 Fiorano
5.14.1 Fiorano Leadership In Enterprise Middleware
5.14.2 Fiorano Customers Worldwide
5.15 Fujitsu
5.15.1 Fujitsu Revenue
5.15.2 Fujitsu Revenue
5.15.3 Fujitsu Technology Solutions
5.15.4 Fujitsu Personal Computers
5.15.5 Fujitsu Development and Production Facilities
5.15.6 Fujitsu Corporate Strategy
5.15.7 Fujitsu Interstage
5.15.8 Fujitsu Acquires RunMyProcess Cloud Service Provider
5.16 GSX
5.17 Hewlett Packard
5.17.1 Hewlett Packard Revenue
5.17.2 HP Printing and Personal Systems Group
5.17.3 HP Software
5.18 HostBridge
5.19 IBM
5.19.1 IBM Strategy
5.19.2 IBM Capital Investment
5.19.3 IBM Business Segments And Capabilities
5.19.4 IBM Integrated Supply Chain
5.19.5 IBM Cloud Computing
5.19.6 IBM Cloud Computing Model
5.19.7 IBM Business Model
5.19.8 IBM Business Analytics
5.19.9 IBM Innovation
5.19.10 SOA Digital Services
5.19.11 IBM Smarter Planet Strategy
5.19.12 IBM Smarter Planet
5.19.13 IBM Social Business
5.19.14 IBM WebSphere SOA Software Capabilities
5.19.15 IBM Information Management Software
5.19.16 IBM Business Analytics and Optimization Strategy
5.19.17 IBM Watson Solutions
5.19.18 IBM Cloud & Smarter Infrastructure Solutions
5.19.19 IBM Software
5.19.20 IBM System Z Mainframe Software
5.19.21 IBM Social Workforce Software Solutions
5.19.22 IBM Rational Software
5.19.23 IBM Mobile Software
5.19.24 IBM MobileFirst
5.19.25 IBM Systems and Technology (STG)
5.19.26 IBM Revenue
5.19.27 IBM IT Strategy
5.19.28 IBM Business Partners
5.19.29 IBM Messaging Extension for Web Application Pattern
5.19.30 IBM Growth Market Initiatives
5.19.31 IBM Business Revenue Segments And Capabilities
5.19.32 IBM Geographic Revenue
5.20 Informatica
5.20.1 Informatica Master Data Management (MDM)
5.21 Intalio
5.22 iWay Software
5.23 K2
5.24 Kofax
5.25 Layer
5.26 Managed Methods
5.26.1 Managed Methods Solutions
5.27 Mega
5.27.1 Mega Solutions
5.27.2 Mega Solutions Customers
5.28 Mendix
5.29 Microsoft SOA
5.29.1 Microsoft .Net SOA
5.29.2 Microsoft .Net Open Source
5.29.3 Microsoft .NET Framework
5.29.4 Microsoft Key Opportunities and Investments
5.29.5 Microsoft Smart Connected Devices
5.29.6 Microsoft: Cloud Computing Transforming The Data Center And Information Technology
5.29.7 Microsoft Entertainment
5.29.8 Microsoft Search
5.29.9 Microsoft Communications And Productivity
5.29.10 Microsoft Revenue
5.29.11 Microsoft Customers
5.30 Nastel Technologies
5.30.1 Nastel Privately Held Company
5.31 Newgen
5.32 Attachmate / Novell
5.33 OpenText
5.33.1 OpenText / Hummingbird
5.33.2 OpenText Target Markets
5.33.3 OpenText / Cordys
5.34 Crosscheck Networks
5.35 Oracle
5.35.1 Oracle Revenue
5.36 Perceptive Software
5.37 PegaSystems
5.37.1 Pega Exchange' for BPM and SOA-
5.38 Perficient
5.38.1 Perficient Revenue
5.38.2 Perficient ProHealth Care Drives Population Health Management through Epic’s Cogito Data Warehouse
5.39 Pivotal
5.39.1 Pivotal Comprehensive PaaS
5.39.2 Pivotal Speeds Time To Market
5.40 PNM Soft
5.41 Progress Software
5.41.1 Progress Software Revenue
5.42 Rally Software
5.42.1 Rally Software Revenue
5.42.2 Rally Software Solutions for Organizations
5.42.3 Rally Software Revenue
5.43 Red Hat
5.44 SAP
5.44.1 SAP offers NetWeaver
5.44.2 SAP SOA Enterprise Applications
5.44.3 SAP Aligns Solutions With Innovation to Improve Production Process
5.44.4 SAP User Planned Updates
5.44.5 SAP Core Applications
5.44.6 SAP Rapid-Deployment Solutions
5.45 SOALIB
5.45.1 SOALIB and SOASYNC
5.46 SOA Software
5.46.1 SOA Software Customers
5.46.2 SOA Software Product Uses
5.46.3 SOA Software Enterprise API Management and SOA Governance
5.46.4 SOA Software Enterprise API Management Revenue
5.46.5 SOA Software Partners
5.46.6 SOA Software Customers
5.46.7 SOA Software Innovation
5.46.8 SOA Software Products
5.47 Software AG
5.47.1 Software AG Revenue by Segment
5.47.2 Software AG
5.47.3 Software AG Buys Progress® Apama
5.48 Tibco Software
5.48.1 Tibco Revenue
5.48.2 Tibco Software
5.48.3 Tibco
5.48.4 Tibco ActiveMatrix
5.48.5 Tibco Software Customers
5.48.6 Tibco Event-Enabled Enterprise Platform
5.48.7 Tibco Platform
5.48.8 Tibco SOA Development
5.48.9 Tibco Revenue
5.48.10 Tibco Cloud Computing Environments
5.48.11 Tibco Software Acquires Maporama Solutions
5.48.12 Tibco / Maporama Solutions
5.48.13 Tibco Customer Interportpolice Deploys Tibbr As Global Collaboration Platform
5.48.14 Renaissance Capital / Tibco Big Data Opportunity
5.49 VMWare
5.49.1 VMware Network Virtualization Enables User Self- Provisioning And VMWare Support
5.50 WSO2
5.50.1 WSO2 Products
5.50.2 WSO2 Open Source and Standards
5.50.3 SEERC Technology Research Center Uses WSO2 for Governance Registry
LIST OF TABLES AND FIGURES
Table ES-1 Messaging Middleware Market Driving Forces
Table ES-2 Middleware Messaging Market Factors
Figure ES-3 Middleware Messaging and Collaboration Infrastructure Market Shares, Dollars, Worldwide, 2013
Figure ES-4 Mission Critical Middleware Messaging and Collaboration Forecasts Dollars, Worldwide, 2014-2020
Figure 1-1 IBM SOA Foundation Business, Infrastructure, and Data Information Architecture
Table 1-2 Mission Critical Messaging As A Base For SOA Software Used to Implement Process Flexibility
Table 1-3 Mission Critical Messaging ESB Functions
Table 1-4 Mission Critical Messaging As A Base For Integration Software Provides A Base For Application Connectivity
Table 1-5 Mission Critical Messaging Integration Functions
Table 1-6 Messaging Middleware Messaging Trends
Table 1-7 Mission Critical Messaging Market Dynamics
Figure 1-8 IBM SOA Governance Lifecycle
Figure 1-9 Private Cloud Attributes
Table 1-10 Private Cloud Computing Model Characteristics
Table 2-1 Messaging Middleware Market Driving Forces
Table 2-2 Middleware Messaging Market Factors
Figure 2-3 Middleware Messaging and Collaboration Infrastructure Market Shares, Dollars, Worldwide, 2013
Table 2-4 Middleware Messaging and Collaboration Market Shares Dollars, Worldwide, 2013
Figure 2-5 Mission Critical Middleware Messaging and Collaboration Forecasts Dollars, Worldwide, 2014-2020
Table 2-6 Middleware Messaging Market Totals, Dollars, Worldwide, 2014-2020
Table 2-7 Mission Critical Messaging Market Segments Dollars and Units, Worldwide, 2014-2020
Figure 2-8 Mission Critical Middleware Messaging Forecasts, Distributed Systems, Units, Worldwide, 2014-2020
Figure 2-9 Mission Critical Middleware Messaging Forecasts, System z, Units, Worldwide, 2014-2020
Figure 2-10 Mission Critical Middleware Messaging Forecasts, Total, Units, Worldwide, 2014-2020
Table 2-11 Mission Critical Messaging and Collaboration Infrastructure Units Shipped, Worldwide, 2014-2020
Table 2-12 Market Driving Forces For Real Time Computing
Table 2-13 Market Driving Forces For SOA
Table 2-14 Mission Critical Messaging Growth Factors
Table 2-15 Mission Critical Messaging Benefits
Table 2-16 Messaging Middleware Market Components
Table 2-17 Mission Critical Messaging Financial Services Applications
Table 2-18 Mission critical Messaging Security Aspects
Table 2-19 Mission Critical Telecommunications Messaging Applications
Table 2-20 Mission Critical Government Messaging Applications
Figure 2-21 Mission Critical Middleware Messaging and Collaboration Tools Regional Market Segments, 2013
Table 2-22 Mission Critical Middleware Messaging and Collaboration Tools Regional Market Segments Dollars, 2013
Table 3-1 IBM IT Strategy and Design for Middleware
Table 3-2 IBM Middleware Highlights
Table 3-3 IBM WebSphere MQ Benefits
Table 3-4 IBM WebSphere MQ Functions:
Table 3-5 IBM WebSphere MQ Versatile Messaging Integration From Mainframe To Mobile
Table 3-6 IBM WebSphere MQ Message Delivery With Security-Rich Features
Table 3-7 IBM WebSphere MQ High-Performance Message Transport
Table 3-8 IBM WebSphere MQ Administrative Features
Table 3-9 IBM WebSphere MQ Open Standards Development Tools
Table 3-10 IBM WebSphere MQ Benefits
Table 3-11 IBM WebSphere MQ Assured Delivery Benefits
Table 3-12 IBM WebSphere MQ Assured Delivery Functions
Figure 3-13 IBM WebSphere MQ WMQ providing a Universal Messaging Backbone
Figure 3-14 IBM WebSphere MQ Goals For Business Resilience in a Sysplex QSG (Queue Sharing Group)
Table 3-15 IBM WebSphere MQ Telemetry Capabilities
Table 3-16 IBM WebSphere MQ Support For Growth
Table 3-17 IBM WebSphere MQ Reliable File Transfer
Table 3-18 IBM WebSphere MQ Integration Business Value
Table 3-19 IBM WebSphere MQ Middleware Development Facilities
Table 3-20 IBM WebSphere MQ Remote Network Administration And Configuration
Table 3-21 IBM WebSphere MQ Clustering
Table 3-22 IBM WebSphere MQ Time-Independent Processing
Table 3-23 IBM WebSphere MQ End-To-End Security
Table 3-24 IBM WebSphere MQ Web Services
Table 3-25 IBM WebSphere MQ Integration Supported Environments
Table 3-26 Microsoft Middleware Foundation Developer Frameworks
Table 3-27 Microsoft Middleware Foundation Modules
Table 3-28 Microsoft Infrastructure Middleware Offerings Key Elements
Table 3-29 Microsoft Infrastructure Middleware Modules
Table 3-30 Microsoft.NET Framework Benefits
Table 3-31 Tibco FTL Benefits
Table 3-32 Tibco e-FTL Message Middleware Benefits
Table 3-33 TIBCO's Messaging Software Benefits
Table 3-34 Tibco Messaging Solutions Value
Table 3-35 TIBCO's Messaging Software Advantages
Table 3-36 Tibco FTL Message Switch Benefits
Table 3-37 Tibco Rendezvous Publish Subscribe Messaging Benefits
Table 3-38 TIBCO Web Messaging Benefits
Table 3-39 TIBCO Enterprise Message Functions
Table 3-40 Tibco Messaging Solutions Positioning
Figure 3-41 Tibco Common Backbone for Services and Real Time Information Flow
Figure 3-42 FioranoMQ® Java Message Service (JMS) Compliant Platform
Table 3-42 Fiorano enterprise Messaging Middleware Backbone Features
Table 3-43 Fiorano Messaging Middleware Features
Table 3-44 Fiorano Messaging Middleware Continuous Availability
Table 3-45 Fiorano Messaging Middleware Linear Scalability
Table 3-46 Fiorano Messaging Middleware Robust Security
Table 3-47 Fiorano Messaging Middleware Global Manageability
Table 3-48 Software AG Enterprise-Class Messaging Styles:
Table 3-49 Software AG webMethods Broker Messages Configuration
Table 3-50 Software AG webMethods Broker Message Types
Table 3-51 Software AG webMethods Broker Messaging Quality-Of-Service Requirements Features
Figure 3-52 Oracle Middleware Messaging
Table 3-53 Oracle Middleware Category Groups
Figure 3-54 Oracle Message Oriented Middleware (MOM)-Based System Asynchronous Exchange Of Messages 3-55 Oracle Combining RPC and MOM Systems
Table 3-56 iWay Middleware, EDA Software Glue
Table 3-57 Information Builders / iWay WebFOCUS Process
Figure 3-58 Information Builders/iWay SOA, EDA, and ESB Middleware Solutions
Table 3-59 iWay Software Technology Functions:
Table 3-60 Information Builders / iWay WebFOCUS BI Functions:
Table 3-61 Fujitsu openFT Features
Table 3-62 Fujitsu Glovia Functions
Figure 3-63 Progress Software BPM Solutions
Table 3-64 Workday Integration Cloud Platform Functions:
Table 3-65 Workday’s Integration Cloud Platform Components
Table 3-66 Workday’s Integration Cloud Platform
Figure 3-67 Workday ESB Process Flows
Figure 3-68 Solace Middleware Functions
Figure 3-69 Solace Peer to Peer Messaging
Table 3-70 Solace Systems Embedded Support For Point-To-Point ‘Unicast’
Figure 3-71 Solace Guaranteed Messaging
Table 3-72 Solace Systems Appliance
Table 3-73 Solace High-Performance JMS Messaging Solution
Table 3-74 Solace IPC Shared Memory Messaging
Table 3-75 Benefits of Solace’s High-Performance Messaging Solution
Table 3-76 Red Hat JBoss Enterprise Middleware Messaging Functions
Table 3-77 Red Hat JBoss Open Source Choice Functions
Figure 3-78 Red Hat JBoss Portal Platform Services
Table 3-79 Red Hat® Enterprise MRG Messaging Enterprise Requirements Features And Performance
Table 3-80 BMC BladeLogic Middleware Automation
Table 3-81 BMC Reduces Application Release Cycles From Weeks To Hours
Table 3-82 BMC Solution Functions:
Table 3-83 BMC Middleware Administration Functions
Table 3-84 BMC Middleware Management Features
Table 3-85 BMC Middleware Management Solution Function:
Table 3-86 BMC Middleware Management Solution Features:
Table 3-87 BMC Application Transaction Tracing Functions:
Table 3-88 GSX Monitor Features
Table 3-89 GSX Monitor Functions
Table 3-90 GSX Monitor Benefits
Table 3-91 HP Database And Middleware Automation (DMA) Functions
Table 3-92 HP Middleware Automation Key benefits
Table 3-93 Nastel AutoPilot Solution Features
Table 3-94 Nastel AutoPilot Solution Functions
Table 3-95 RFID Product Metrics
Table 3-96 NEC RFID Middleware Product Tracking Industry Segments
Figure 3-97 NEC WebOTX RFID Manager Enterprise Characteristics
Figure 3-98 Rocket Software Janus TCP/IP Base
Figure 3-99 Rocket Software Janus TCP/IP Functions
Figure 3-100 Rocket Software Janus Network Security Architecture
Table 3-101 WSO2 Middleware Open Source Benefits
Table 3-102 VMWare Virtualization Messaging Capabilities
Table 4-1 Web Services Transport Comparison HTTP and IBM WebSphere MQ
Table 4-1 (Continued) Web Services Transport Comparison HTTP and IBM WebSphere MQ
Table 4-1 (Continued) Web Services Transport Comparison HTTP and IBM WebSphere MQ
Figure 4-2 IBM WebSphere MQ Web Services Transport
Figure 4-3 Service Requestor and Service Provider Layers
Figure 4-4 Layered Architecture For IBM JMS Providers
Table 4-5 IBM WebSphere MQ Layered Architecture Objectives:
Figure 4-6 Relationship Between WebSphere MQ Classes for JMS and WebSphere MQ Classes for Java
Table 4-7 Deciding Whether To Use Read Ahead Using IBM WebSphere MQ
Table 4-8 Mission Critical Messaging As A Base For SOA Software Used to Implement Process Flexibility
Table 4-9 Mission Critical Messaging ESB Functions
Table 4-10 Mission Critical Messaging As A Base For Integration Software Provides A Base For Application Connectivity
Table 4-11 Mission Critical Messaging Integration Functions
Table 4-12 Advanced Message Queuing Protocol (AMQP) Key Capabilities
Table 4-13 Advanced Message Queuing Protocol (AMQP) Business Case
Table 4-14 Advanced Message Queuing Protocol (AMQP) Key Features
Figure 4-15 Advanced Message Queuing Protocol (AMQP) Enterprise and Business Sharing of Information
Table 4-16 AMQP Open Internet Protocol Standard for Message-Queuing Communications
Table 4-17 AMQP As A Collective Work
Table 4-18 AMQP Use Cases
Table 4-19 Aspects Of Data Streaming Management
Table 4-20 Mission Critical Message Throughput Variables
Table 4-21 Typical Message Flow Characteristics
Table 4-22 Middleware Messaging Technology Issues
Table 4-22 (Continued) Middleware Messaging Technology Issues
Table 4-23 Automatic Detection And Recovery From Network And System Failure
Table 4-23 (Continued) Automatic Detection And Recovery From Network And System Failure
Table 4-25 Fault Tolerance Features
Table 4-25 (Continued) Fault Tolerance Features
Table 5-1 360logica SOA Services:
Table 5-2 360logica SOA Target Markets:
Table 5-3 360logica SOA Services Positioning:
Table 5-4 Adobe Digital Marketing Cloud solutions:
Table 5-5 Adobe Digital Marketing Facts:
Table 5-6 Adobe Digital Media Aspects:
Table 5-7 Appian Technology Innovation Leadership
Figure 5-8 Fujitsu Main Products
Figure 5-9 Fujitsu Global Business
Figure 5-10 Fujitsu Geographical Market Participation
Figure 5-11 Fujitsu Global Alliances
Figure 5-11 Fujitsu Mixed IT Environments Forecasts
Table 5-12 Fujitsu Facts
Table 5-13 HostBridge Mainframe CICS Integration Functions
Table 5-14 IBM Business Goals
Table 5-15 IBM Marketing Transformation Functions
Figure 5-16 IBM Cloudbased App Offerings
Table 5-17 IBM Cloud & Smarter Infrastructure Featured Solutions
Table 5-18 Managed Methods Functions
Figure 5-19 Mega Operational Excellence for Customers
Table 5-20 Microsoft Service Orientated Architecture SOA Functions
Table 5-21 OpenText Target Markets
Table 5-22 Oracle Systems Positioning
Figure 5-17 Rally Software Platform Functions
Table 5-23 SAP SOA Enterprise Applications Market Metrics
Table 5-24 SAP User Planned Updates
Table 5-25 SAP Core Applications
Table 5-26 SAP Rapid-Deployment Solutions
Table 5-27 Tibco Products
Table 5-28 Tibco SOA Benefits
Table ES-1 Messaging Middleware Market Driving Forces
Table ES-2 Middleware Messaging Market Factors
Figure ES-3 Middleware Messaging and Collaboration Infrastructure Market Shares, Dollars, Worldwide, 2013
Figure ES-4 Mission Critical Middleware Messaging and Collaboration Forecasts Dollars, Worldwide, 2014-2020
Figure 1-1 IBM SOA Foundation Business, Infrastructure, and Data Information Architecture
Table 1-2 Mission Critical Messaging As A Base For SOA Software Used to Implement Process Flexibility
Table 1-3 Mission Critical Messaging ESB Functions
Table 1-4 Mission Critical Messaging As A Base For Integration Software Provides A Base For Application Connectivity
Table 1-5 Mission Critical Messaging Integration Functions
Table 1-6 Messaging Middleware Messaging Trends
Table 1-7 Mission Critical Messaging Market Dynamics
Figure 1-8 IBM SOA Governance Lifecycle
Figure 1-9 Private Cloud Attributes
Table 1-10 Private Cloud Computing Model Characteristics
Table 2-1 Messaging Middleware Market Driving Forces
Table 2-2 Middleware Messaging Market Factors
Figure 2-3 Middleware Messaging and Collaboration Infrastructure Market Shares, Dollars, Worldwide, 2013
Table 2-4 Middleware Messaging and Collaboration Market Shares Dollars, Worldwide, 2013
Figure 2-5 Mission Critical Middleware Messaging and Collaboration Forecasts Dollars, Worldwide, 2014-2020
Table 2-6 Middleware Messaging Market Totals, Dollars, Worldwide, 2014-2020
Table 2-7 Mission Critical Messaging Market Segments Dollars and Units, Worldwide, 2014-2020
Figure 2-8 Mission Critical Middleware Messaging Forecasts, Distributed Systems, Units, Worldwide, 2014-2020
Figure 2-9 Mission Critical Middleware Messaging Forecasts, System z, Units, Worldwide, 2014-2020
Figure 2-10 Mission Critical Middleware Messaging Forecasts, Total, Units, Worldwide, 2014-2020
Table 2-11 Mission Critical Messaging and Collaboration Infrastructure Units Shipped, Worldwide, 2014-2020
Table 2-12 Market Driving Forces For Real Time Computing
Table 2-13 Market Driving Forces For SOA
Table 2-14 Mission Critical Messaging Growth Factors
Table 2-15 Mission Critical Messaging Benefits
Table 2-16 Messaging Middleware Market Components
Table 2-17 Mission Critical Messaging Financial Services Applications
Table 2-18 Mission critical Messaging Security Aspects
Table 2-19 Mission Critical Telecommunications Messaging Applications
Table 2-20 Mission Critical Government Messaging Applications
Figure 2-21 Mission Critical Middleware Messaging and Collaboration Tools Regional Market Segments, 2013
Table 2-22 Mission Critical Middleware Messaging and Collaboration Tools Regional Market Segments Dollars, 2013
Table 3-1 IBM IT Strategy and Design for Middleware
Table 3-2 IBM Middleware Highlights
Table 3-3 IBM WebSphere MQ Benefits
Table 3-4 IBM WebSphere MQ Functions:
Table 3-5 IBM WebSphere MQ Versatile Messaging Integration From Mainframe To Mobile
Table 3-6 IBM WebSphere MQ Message Delivery With Security-Rich Features
Table 3-7 IBM WebSphere MQ High-Performance Message Transport
Table 3-8 IBM WebSphere MQ Administrative Features
Table 3-9 IBM WebSphere MQ Open Standards Development Tools
Table 3-10 IBM WebSphere MQ Benefits
Table 3-11 IBM WebSphere MQ Assured Delivery Benefits
Table 3-12 IBM WebSphere MQ Assured Delivery Functions
Figure 3-13 IBM WebSphere MQ WMQ providing a Universal Messaging Backbone
Figure 3-14 IBM WebSphere MQ Goals For Business Resilience in a Sysplex QSG (Queue Sharing Group)
Table 3-15 IBM WebSphere MQ Telemetry Capabilities
Table 3-16 IBM WebSphere MQ Support For Growth
Table 3-17 IBM WebSphere MQ Reliable File Transfer
Table 3-18 IBM WebSphere MQ Integration Business Value
Table 3-19 IBM WebSphere MQ Middleware Development Facilities
Table 3-20 IBM WebSphere MQ Remote Network Administration And Configuration
Table 3-21 IBM WebSphere MQ Clustering
Table 3-22 IBM WebSphere MQ Time-Independent Processing
Table 3-23 IBM WebSphere MQ End-To-End Security
Table 3-24 IBM WebSphere MQ Web Services
Table 3-25 IBM WebSphere MQ Integration Supported Environments
Table 3-26 Microsoft Middleware Foundation Developer Frameworks
Table 3-27 Microsoft Middleware Foundation Modules
Table 3-28 Microsoft Infrastructure Middleware Offerings Key Elements
Table 3-29 Microsoft Infrastructure Middleware Modules
Table 3-30 Microsoft.NET Framework Benefits
Table 3-31 Tibco FTL Benefits
Table 3-32 Tibco e-FTL Message Middleware Benefits
Table 3-33 TIBCO's Messaging Software Benefits
Table 3-34 Tibco Messaging Solutions Value
Table 3-35 TIBCO's Messaging Software Advantages
Table 3-36 Tibco FTL Message Switch Benefits
Table 3-37 Tibco Rendezvous Publish Subscribe Messaging Benefits
Table 3-38 TIBCO Web Messaging Benefits
Table 3-39 TIBCO Enterprise Message Functions
Table 3-40 Tibco Messaging Solutions Positioning
Figure 3-41 Tibco Common Backbone for Services and Real Time Information Flow
Figure 3-42 FioranoMQ® Java Message Service (JMS) Compliant Platform
Table 3-42 Fiorano enterprise Messaging Middleware Backbone Features
Table 3-43 Fiorano Messaging Middleware Features
Table 3-44 Fiorano Messaging Middleware Continuous Availability
Table 3-45 Fiorano Messaging Middleware Linear Scalability
Table 3-46 Fiorano Messaging Middleware Robust Security
Table 3-47 Fiorano Messaging Middleware Global Manageability
Table 3-48 Software AG Enterprise-Class Messaging Styles:
Table 3-49 Software AG webMethods Broker Messages Configuration
Table 3-50 Software AG webMethods Broker Message Types
Table 3-51 Software AG webMethods Broker Messaging Quality-Of-Service Requirements Features
Figure 3-52 Oracle Middleware Messaging
Table 3-53 Oracle Middleware Category Groups
Figure 3-54 Oracle Message Oriented Middleware (MOM)-Based System Asynchronous Exchange Of Messages 3-55 Oracle Combining RPC and MOM Systems
Table 3-56 iWay Middleware, EDA Software Glue
Table 3-57 Information Builders / iWay WebFOCUS Process
Figure 3-58 Information Builders/iWay SOA, EDA, and ESB Middleware Solutions
Table 3-59 iWay Software Technology Functions:
Table 3-60 Information Builders / iWay WebFOCUS BI Functions:
Table 3-61 Fujitsu openFT Features
Table 3-62 Fujitsu Glovia Functions
Figure 3-63 Progress Software BPM Solutions
Table 3-64 Workday Integration Cloud Platform Functions:
Table 3-65 Workday’s Integration Cloud Platform Components
Table 3-66 Workday’s Integration Cloud Platform
Figure 3-67 Workday ESB Process Flows
Figure 3-68 Solace Middleware Functions
Figure 3-69 Solace Peer to Peer Messaging
Table 3-70 Solace Systems Embedded Support For Point-To-Point ‘Unicast’
Figure 3-71 Solace Guaranteed Messaging
Table 3-72 Solace Systems Appliance
Table 3-73 Solace High-Performance JMS Messaging Solution
Table 3-74 Solace IPC Shared Memory Messaging
Table 3-75 Benefits of Solace’s High-Performance Messaging Solution
Table 3-76 Red Hat JBoss Enterprise Middleware Messaging Functions
Table 3-77 Red Hat JBoss Open Source Choice Functions
Figure 3-78 Red Hat JBoss Portal Platform Services
Table 3-79 Red Hat® Enterprise MRG Messaging Enterprise Requirements Features And Performance
Table 3-80 BMC BladeLogic Middleware Automation
Table 3-81 BMC Reduces Application Release Cycles From Weeks To Hours
Table 3-82 BMC Solution Functions:
Table 3-83 BMC Middleware Administration Functions
Table 3-84 BMC Middleware Management Features
Table 3-85 BMC Middleware Management Solution Function:
Table 3-86 BMC Middleware Management Solution Features:
Table 3-87 BMC Application Transaction Tracing Functions:
Table 3-88 GSX Monitor Features
Table 3-89 GSX Monitor Functions
Table 3-90 GSX Monitor Benefits
Table 3-91 HP Database And Middleware Automation (DMA) Functions
Table 3-92 HP Middleware Automation Key benefits
Table 3-93 Nastel AutoPilot Solution Features
Table 3-94 Nastel AutoPilot Solution Functions
Table 3-95 RFID Product Metrics
Table 3-96 NEC RFID Middleware Product Tracking Industry Segments
Figure 3-97 NEC WebOTX RFID Manager Enterprise Characteristics
Figure 3-98 Rocket Software Janus TCP/IP Base
Figure 3-99 Rocket Software Janus TCP/IP Functions
Figure 3-100 Rocket Software Janus Network Security Architecture
Table 3-101 WSO2 Middleware Open Source Benefits
Table 3-102 VMWare Virtualization Messaging Capabilities
Table 4-1 Web Services Transport Comparison HTTP and IBM WebSphere MQ
Table 4-1 (Continued) Web Services Transport Comparison HTTP and IBM WebSphere MQ
Table 4-1 (Continued) Web Services Transport Comparison HTTP and IBM WebSphere MQ
Figure 4-2 IBM WebSphere MQ Web Services Transport
Figure 4-3 Service Requestor and Service Provider Layers
Figure 4-4 Layered Architecture For IBM JMS Providers
Table 4-5 IBM WebSphere MQ Layered Architecture Objectives:
Figure 4-6 Relationship Between WebSphere MQ Classes for JMS and WebSphere MQ Classes for Java
Table 4-7 Deciding Whether To Use Read Ahead Using IBM WebSphere MQ
Table 4-8 Mission Critical Messaging As A Base For SOA Software Used to Implement Process Flexibility
Table 4-9 Mission Critical Messaging ESB Functions
Table 4-10 Mission Critical Messaging As A Base For Integration Software Provides A Base For Application Connectivity
Table 4-11 Mission Critical Messaging Integration Functions
Table 4-12 Advanced Message Queuing Protocol (AMQP) Key Capabilities
Table 4-13 Advanced Message Queuing Protocol (AMQP) Business Case
Table 4-14 Advanced Message Queuing Protocol (AMQP) Key Features
Figure 4-15 Advanced Message Queuing Protocol (AMQP) Enterprise and Business Sharing of Information
Table 4-16 AMQP Open Internet Protocol Standard for Message-Queuing Communications
Table 4-17 AMQP As A Collective Work
Table 4-18 AMQP Use Cases
Table 4-19 Aspects Of Data Streaming Management
Table 4-20 Mission Critical Message Throughput Variables
Table 4-21 Typical Message Flow Characteristics
Table 4-22 Middleware Messaging Technology Issues
Table 4-22 (Continued) Middleware Messaging Technology Issues
Table 4-23 Automatic Detection And Recovery From Network And System Failure
Table 4-23 (Continued) Automatic Detection And Recovery From Network And System Failure
Table 4-25 Fault Tolerance Features
Table 4-25 (Continued) Fault Tolerance Features
Table 5-1 360logica SOA Services:
Table 5-2 360logica SOA Target Markets:
Table 5-3 360logica SOA Services Positioning:
Table 5-4 Adobe Digital Marketing Cloud solutions:
Table 5-5 Adobe Digital Marketing Facts:
Table 5-6 Adobe Digital Media Aspects:
Table 5-7 Appian Technology Innovation Leadership
Figure 5-8 Fujitsu Main Products
Figure 5-9 Fujitsu Global Business
Figure 5-10 Fujitsu Geographical Market Participation
Figure 5-11 Fujitsu Global Alliances
Figure 5-11 Fujitsu Mixed IT Environments Forecasts
Table 5-12 Fujitsu Facts
Table 5-13 HostBridge Mainframe CICS Integration Functions
Table 5-14 IBM Business Goals
Table 5-15 IBM Marketing Transformation Functions
Figure 5-16 IBM Cloudbased App Offerings
Table 5-17 IBM Cloud & Smarter Infrastructure Featured Solutions
Table 5-18 Managed Methods Functions
Figure 5-19 Mega Operational Excellence for Customers
Table 5-20 Microsoft Service Orientated Architecture SOA Functions
Table 5-21 OpenText Target Markets
Table 5-22 Oracle Systems Positioning
Figure 5-17 Rally Software Platform Functions
Table 5-23 SAP SOA Enterprise Applications Market Metrics
Table 5-24 SAP User Planned Updates
Table 5-25 SAP Core Applications
Table 5-26 SAP Rapid-Deployment Solutions
Table 5-27 Tibco Products
Table 5-28 Tibco SOA Benefits
This is the 598th report in a series of primary market research reports that provide forecasts in communications, telecommunications, the Internet, computer, software, telephone equipment, health equipment, and energy. Automated process and significant growth potential are priorities in topic selection.
The project leaders take direct responsibility for writing and preparing each report. They have significant experience preparing industry studies. Forecasts are based on primary research and proprietary data bases.
The primary research is conducted by talking to customers, distributors and companies. The survey data is not enough to make accurate assessment of market size, so WinterGreen Research looks at the value of shipments and the average price to achieve market assessments. Our track record in achieving accuracy is unsurpassed in the industry. We are known for being able to develop accurate market shares and projections.
The analyst process is concentrated on getting good market numbers. This process involves looking at the markets from several different perspectives, including vendor shipments. The interview process is an essential aspect as well. We do have a lot of granular analysis of the different shipments by vendor in the study and addenda prepared after the study was published if that is appropriate.
Forecasts reflect analysis of the market trends in the segment and related segments. Unit and dollar shipments are analyzed through consideration of dollar volume of each market participant in the segment.
Installed base analysis and unit analysis is based on interviews and an information search. Market share analysis includes conversations with key customers of products, industry segment leaders, marketing directors, distributors, leading market participants, opinion leaders, and companies seeking to develop measurable market share.
Over 200 in depth interviews are conducted for each report with a broad range of key participants and industry leaders in the market segment. We establish accurate market forecasts based on economic and market conditions as a base. Use input/output ratios, flow charts, and other economic methods to quantify data. Use in-house analysts who meet stringent quality standards.
Interviewing key industry participants, experts and end-users is a central part of the study. Our research includes access to large proprietary databases. Literature search includes analysis of trade publications, government reports, and corporate literature.
Findings and conclusions of this report are based on information gathered from industry sources, including manufacturers, distributors, partners, opinion leaders, and users. Interview data was combined with information gathered through an extensive review of internet and printed sources such as trade publications, trade associations, company literature, and online databases. The projections contained in this report are checked from top down and bottom up analysis to be sure there is congruence from that perspective.
The base year for analysis and projection is 2010. With 2010 and several years prior to that as a baseline, market projections were developed for 2011 through 2017. These projections are based on a combination of a consensus among the opinion leader contacts interviewed combined with understanding of the key market drivers and their impact from a historical and analytical perspective.
The analytical methodologies used to generate the market estimates are based on penetration analyses, similar market analyses, and delta calculations to supplement independent and dependent variable analysis.
All analyses are displaying selected descriptions of products and services.
This research includes referencde to an ROI model that is part of a series that provides IT systems financial planners access to information that supports analysis of all the numbers that impact management of a product launch or large and complex data center. The methodology used in the models relates to having a sophisticated analytical technique for understanding the impact of workload on processor consumption and cost.
WinterGreen Research has looked at the metrics and independent research to develop assumptions that reflect the actual anticipated usage and cost of systems. Comparative analyses reflect the input of these values into models. The variables and assumptions provided in the market research study and the ROI models are based on extensive experience in providing research to large enterprise organizations and data centers.
The ROI models have lists of servers from different manufacturers, Systems z models from IBM, and labor costs by category around the world. This information has been developed from WinterGreen research proprietary data bases constructed as a result of preparing market research studies that address the software, energy, healthcare, telecommunicatons, and hardware businesses.
