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Open Source Streaming, Microservices, and Mission Critical Messaging: Market Shares, Strategies, and Forecasts, 2019 to 2025, Integration Middleware Software and Mega Data Center Orchestration Software Market Driving Forces, Messaging middleware has revolutionized API connectivity within systems software communication. The ability to manage the operating system in a manner that permits cross platform data communication and data connectivity depends on messaging middleware. , Recently orchestration software for mega data centers has begun to supplement and, in some cases, replace messaging middleware because of the support for any node to any node communication within the data center. Mega datacenters support computing access from any node to any node across a 100,000 x 100,001 matrix. This supports real integration at the level of the data center hardware software configuration. , Middleware also represents easy-to-install integration software and limited up-front investment. Middleware generally meets the business requirements for gathering information from mid IR sensors located remotely. , As enterprises work to achieve data center elasticity that provides flexible response to changing market conditions, there is continuing demand for mega data centers and for middleware integration software. There are 24,000 enterprises in need of integration hardware and software for mid IR sensor implementations. Integration hardware and software provides modules of code that can be reused in different ways as market conditions change. , Hyperscale data centers represent the base data center configuration for the big four: Facebook, Google, Microsoft, and Amazon. Google has begun introducing microservices in a mission critical messaging format., , Table of Contents, Mission Critical Messaging and Open Source Streaming: Executive Summary, The study is designed to give a comprehensive overview of the Mission Critical Messaging and Open Source Streaming market segment. Research represents a selection from the mountains of data available of the most relevant and cogent market materials, with selections made by the most senior analysts. Commentary on every aspect of the market from independent analysts creates an independent perspective in the evaluation of the market. In this manner the study presents a comprehensive overview of what is going on in this market, assisting managers with designing market strategies likely to succeed. , , , , Table of Contents, , Mission Critical Messaging and Microservices Executive Summary 37, Mission Critical Messaging Market Shares 37, Superior Application Middleware Delivers Enterprise Agility 41, With IoT, APIs Are Used for Everything 43, Web Transactions Implemented by IBM Blockchain 44, IBM Blockchain Interactions 50, IBM Use Cases for IoT and Blockchain 52, Mission Critical Messaging Market Forecasts 53, 1. Microservices Messaging and Systems Integration Market Definition 57, 1.1 Microservices 57, 1.1.1 Cloud Computing 58, 1.1.2 Google Clos Networks 60, 1.1.3 Microsoft Cloud Business Model: Private Cloud – Unlimited Virtualization Rights 62, 1.2 Typical Mission Critical Messaging Functions 64, 1.2.1 Mission Critical Apache Kafka API Streaming 66, 1.3 Apache Kafka Distributed Streaming Platform 70, 1.3.1 Stream Processing 76, 1.3.2 Apache Event Sourcing 77, 1.4 Private Cloud Computing Model 79, 1.4.1 IBM Open Systems Hybrid Cloud 79, 1.4.2 IBM Microservices Foundation 80, 1.5 Mission Critical Messaging Products 81, 1.5.1 Mission Critical Middleware Messaging 81, 1.6 Mission Critical Messaging As A Base For Secure Application Integration 82, 1.6.1 IBM MQ 83, 1.7 Mission Critical Messaging Market Dynamics 85, 1.7.1 Cloud Model For Consuming And Delivering Business And IT Services 89, 2. Mission Critical Messaging and Streaming Market Shares and Market Forecasts 90, 2.1 Mission Critical is Decoupled Messaging 90, 2.1.1 Superior Application Middleware Delivers Enterprise Agility 95, 2.1.2 IoT Uses APIs for Everything Smart 98, 2.1.3 Web Transactions Implemented by IBM Blockchain 99, 2.2 Mission Critical Messaging Market Shares 100, 2.2.1 Hyperscale Data Center Containers Hold Real Promise For Application Integration 102, 2.2.2 IBM MQ 107, 2.2.3 Azure from Microsoft 107, 2.2.4 Tibco Transport Layer 107, 2.2.5 Fiorano Enterprise Messaging Backbone 108, 2.2.6 Apache Kafka Usage at Linked IN 108, 2.2.7 Confluent 108, 2.3 Mission Critical Messaging Market Forecasts 109, 2.3.1 Worldwide Mission Critical Messaging Unit Shipments Analysis 115, 2.3.2 Mission Critical Messaging Market Segments Dollars and Units 117, 2.3.3 Cloud 2.0 Mega Data Center Evolution 120, 2.3.4 Middleware Messaging and Microservices Segment Analysis 121, 2.3.5 Worldwide Mission Critical Messaging Unit Shipments 124, 2.3.6 Typical Providers of Industrial IoT Asset Efficiency Solutions 126, 2.3.7 Hitachi Analytics Diagnoses Manufacturing Leveraging Messaging Middleware 126, 2.3.8 Microservices Integration Of E-Business 127, 2.3.9 Market Driving Forces For Real Time Exchange of Information 128, 2.3.10 Mission Critical Messaging Growth Factors 133, 2.3.11 Backbone Connectivity Across All Platforms with Open Systems 136, 2.3.12 Financial Services and Messaging Applications 137, 2.3.13 Azure Microsoft Web Services 141, 2.3.14 Publish Subscribe Messaging 142, 2.3.15 JMS Messaging 143, 2.3.16 SCADA Messaging 143, 2.3.17 Open Systems Backbone Connectivity Across Platforms / Messaging Integrated Across Microsoft 145, 2.3.18 Open Source Distributed Messaging System Description 145, 2.4 Blockchain and Cryptocurrency Market Driving Forces 146, 2.5 Mission Critical Messaging Regional Analysis 151, 3. Microservices Messaging as Systems Integration 154, 3.1 Microservices Definition 154, 3.1.1 To Successfully Adopt Microservices 155, 3.1.2 Microservices Messaging: 157, 3.1.3 Approach to Handle Transactions That Involves More Than One Microservice 157, 3.2 Asynchronous Protocol 158, 3.3 Impact of IBM / Red Hat Merger 158, 3.3.1 Big Four Cloud Providers: 159, 3.3.2 Type Of Customer Buying These Products 160, 3.4 Confluent Kafka 160, 3.4.1 Kafka Streams API Continuous Queries Used To Automate Real-Time Intelligence At Scale 161, 3.4.2 Kafka Streams API Flow Of Data In Real-Time Streams 165, 4. Mission Critical Middleware and Streaming Messaging Technology 168, 4.1 Apache Kafka 168, 4.1.1 Kafka Event-Driven Applications 170, 4.1.2 Enterprise Publish Subscribe Messaging Enhancements 172, 4.1.3 Kafka Streaming Data Integration Tools 173, 4.1.4 Kafka Streaming Enterprise Service Bus 173, 4.1.5 Kafka Streaming Enterprise Service Bus Change Capture Systems 173, 4.1.6 Data Warehouses and Apache Hadoop 174, 4.1.7 Kafka Stream Processing Systems 174, 4.2 Biggest Data Centers 176, 4.3 Mission Critical Messaging Communication Protocols 186, 4.3.1 TradeLens to Drive Transparency in Global Shipping 186, 4.3.2 Communication Protocols 187, 4.3.3 Mission Critical Messaging Middleware Transport Layer 187, 4.3.4 IBM WebSphere MQ Publish / Subscribe Messaging 199, 4.3.5 IBM WebSphere MQ Messaging Provider 200, 4.3.6 WebSphere MQ Asynchronous Message Consumption 200, 4.3.7 IBM WebSphere MQ Message Selection 201, 4.3.8 IBM WebSphere MQ Sharing A Communications Connection 201, 4.3.9 IBM WebSphere MQ Read Ahead On Client Connections 202, 4.3.10 Sending IBM MQ Messages 204, 4.3.11 IBM MQ Channel Exits 204, 4.3.12 IBM MQ Message Properties 205, 4.4 Mission Critical Messaging As A Base For Services Oriented Architecture (SOA) 208, 4.5 Mission Critical Messaging As A Base For Application Integration 211, 4.5.1 IBM MQ 213, 4.6 Open Software Specification Messaging 213, 4.6.1 Open Software Message Queuing Protocol Business Case 214, 4.6.2 Asynchronous Connections 215, 4.6.3 Rich Processing Frameworks 216, 4.7 JSON Web Tokens 216, 4.8 OASIS Secure, Reliable Transaction Web Services Messaging Architecture 217, 4.8.1 Reliable Message-Based Web Services Communication 218, 4.9 Streams For Messaging and Data Access 219, 4.10 Message Queuing 221, 4.10.1 Database Message Queuing 221, 4.10.2 Data and Message Transformation 222, 4.11 Componentization 222, 4.12 Speed, Flexibility, and Scalability 224, 4.13 Mission Critical Message Throughput 225, 4.13.1 Message Persistence 226, 4.13.2 Message Size 227, 4.13.3 Data Format 227, 4.13.4 Message Flow Complexity 227, 4.14 Message Input To Output Ratio 228, 4.15 Required Message Rate 229, 4.16 Parallel Message Processing 229, 4.16.1 Serial Message Processing 230, 4.16.2 Recovery Requirements 230, 4.17 Typical Message Patterns 231, 4.18 Processors Manage Specified Message Flows 233, 4.19 Middleware Messaging Technology Issues 234, 4.19.1 Report Messages Functions 236, 4.19.2 Real-Time Technology Issues 237, 4.19.3 MCA Exit Chaining 238, 4.19.4 Remove Channel Process Definition 238, 4.19.5 Improved Stop Channel Command 238, 4.20 Dynamic Systems 238, 4.20.1 Line of Business Loses Control Of Hardware Servers 239, 4.20.2 Cultural Change Needed to Move to Cloud 241, 4.20.3 Adjusting to Rapid Change 243, 4.20.4 Amazon Web Services (AWS) Fully Automatic, Self-Healing, Networked Mega Systems Inside A Building. 244, 4.21 Mega Data Center Market Description and Market Dynamics 245, 4.21.1 Advantages of Mega Data Center Cloud 2.0: Multi-Threading 246, 4.21.2 Advantages of Mega Data Center Cloud 2.0: Scale 247, 4.21.3 Infrastructure Scale 249, 4.21.4 Intense Tide Of Data Causing Bottlenecks 250, 4.21.5 Application Integration Bare Metal vs. Container Controllers 251, 4.22 Robust, Enterprise-Quality Fault Tolerance 251, 4.22.1 Cache / Queue 253, 4.23 Multicast 254, 4.24 Performance Optimization 255, 4.24.1 Fault Tolerance 256, 4.24.2 Gateways 258, 5. Mission Critical Middleware Messaging Company Description 259, 5.1 360 Logica 259, 5.1.1 360logica Microservices Software Testing 259, 5.1.2 360logica Microservices Resources 260, 5.1.3 360logica Software Testing Services 260, 5.1.4 360logica Software Testing Company 264, 5.2 ActiveMQ 265, 5.3 Alphabet Apigee 267, 5.3.1 Apigee Manages Microservices Available as APIs 267, 5.4 AWS Kinesis 269, 5.4.1 Amazon Kinesis Analytics Product Details 270, 5.4.2 Amazon Kinesis Firehose Near Real-Time 274, 5.5 Apache 274, 5.5.1 How ASF And Apache® Projects Grow 276, 5.5.2 How the ASF and Apache Projects Are Governed 276, 5.5.3 Apache Kafka 277, 5.5.4 Kafka 280, 5.5.5 Kafka Streams API 281, 5.5.6 Kafka Streams API included with Apache Kafka and Confluent Enterprise 286, 5.5.7 Apache Storm 290, 5.5.8 Storm Distributed Messaging System 291, 5.5.9 Storm Publish-Subscribe Model 291, 5.5.10 Apache Thrift Communication Framework 292, 5.5.11 Apache Samza 292, 5.6 Bosch 293, 5.6.1 Bosch IoT Suite Services - Internet of Things Scenarios 293, 5.6.2 Bosch Vision for the Internet of Things (IoT) 300, 5.7 CA Technologies 301, 5.7.1 CA / Layer 7 302, 5.7.2 CA / Rally Software 303, 5.7.3 CA / Rally Software Solutions for Organizations 305, 5.8 Cisco Systems 306, 5.8.1 Cisco Business 306, 5.8.2 Strategy and Focus Areas 307, 5.8.3 Cisco Leverages Market Transitions 309, 5.8.4 Cisco Addresses Digital Transformation 310, 5.8.5 Cisco Software-Defined Networking 311, 5.8.6 Cisco Cloud Strategy 312, 5.8.7 Cisco Switching 313, 5.8.8 Cisco Spark 315, 5.8.9 Cisco Data Center 316, 5.8.10 Cisco UCS Mini Edge Of The Network Solution 317, 5.8.11 Cisco Competition 318, 5.8.12 Cisco IoT 321, 5.8.14 Cisco Spark Messaging 321, 5.8.15 Cisco Spark End-to-End Encryption Of Content 322, 5.8.16 Cisco Spark Encryption in Transit 323, 5.8.17 Cisco Spark Authorization and Authentication 323, 5.8.18 Cisco Spark Hybrid Data Security 324, 5.8.19 Cisco IoT 325, 5.9 Confluent 325, 5.13.1 Confluent’s $50M for Open Source 327, 5.9.1 Kafka / Redhat / Cloudera 328, 5.9.2 Confluent Platform 329, 5.9.3 Confluent Growth 330, 5.9.4 Confluent 331, 5.10 Crosscheck Networks 332, 5.10.1 Crosscheck Networks API Testing and API Simulation 332, 5.11 Dell / Boomi 333, 5.13.1 VMWare Virtualizing Oracle / Dell 336, 5.12 Elastic Stack Open Source 336, 5.12.1 Elasticsearch Geo Data on Any Map 337, 5.13 Fabasoft Group 338, 5.14 Flink 339, 5.14.1 Flink Streaming Partitioning 341, 5.15 Fiorano 343, 5.15.1 Fiorano Leadership In Enterprise Middleware 345, 5.15.2 Fiorano Customers Worldwide 346, 5.15.3 Fiorano API Management 348, 5.15.4 FioranoMQ 350, 5.15.5 FioranoMQ JMS Server 355, 5.15.6 FioranoMQ JMS Server Business Benefits 355, 5.15.7 FioranoMQ JMS Server High Performance 356, 5.15.8 FioranoMQ JMS Server Tight Security 356, 5.16 Fujitsu 357, 5.16.1 Fujitsu Corporate Strategy 362, 5.16.2 Fujitsu Interstage 363, 5.16.3 Fujitsu Cloud Service 363, 5.16.4 Fujitsu Systemwalker - Integrated Operation Management 366, 5.16.5 Fujitsu open FT-Enterprise File Transfer 366, 5.16.6 Fujitsu openFT-Enterprise File Transfer Achieve Security Level 1 367, 5.16.7 Fujitsu Glovia 368, 5.17 Goldman Sachs 371, 5.18 HostBridge 372, 5.19 IBM 374, 5.19.1 Mission Critical Apache Kafka API Streaming 381, 5.19.2 IBM MQ on AWS Cloud 384, 5.19.3 IBM Strategy 385, 5.19.4 IBM Hybrid Cloud Computing 388, 5.19.5 IBM Middleware Software 405, 5.19.6 IBM Revenue 407, 5.19.7 IBM MQ Enabled for a Multicloud Connectivity 408, 5.19.8 Cloud Based Application Integration 410, 5.19.9 Data Center Architectures Evolving 414, 5.19.10 IBM MQ 415, 5.19.11 IBM MQ 418, 5.19.12 IBM WebSphere MQ Telemetry Capabilities 420, 5.19.13 IBM WebSphere MQ Integration File Transfer Business Value 422, 5.19.14 IBM MQ Clustering 425, 5.19.15 IBM MQ Hardware Cluster May Be Set Up In An Active-Passive Mode Or An Active-Active Mode 426, 5.19.16 IBM MQ Supports Clustering Through Split Cluster Transmit Queues 427, 5.19.17 IBM MQ End-To-End Security 428, 5.19.18 IBM IoT Blockchain Distributed Replication 431, 5.19.19 Web Transactions Implemented by IBM Blockchain 431, 5.19.20 IBM Blockchain Interactions 438, 5.19.21 IBM Blockchain Interactions 445, 5.19.22 IBM Use Cases for IoT and Blockchain 446, 5.19.23 Red Hat 447, 5.19.24 Kafka / Redhat / Cloudera 448, 5.19.25 Red Hat JBoss Enterprise Middleware Messaging 448, 5.19.26 Red Hat Addresses Big Data, the Internet of Things (IoT), and Mobile 450, 5.19.27 JBoss® Enterprise Middleware Messaging 453, 5.19.28 Red Hat JBoss Customers 453, 5.19.29 Red Hat AMQP Specification Messaging 456, 5.20 Informatica 457, 5.20.1 Informatica Master Data Management (MDM) 458, 5.21 Information Builders / iWay Software 458, 5.21.1 Information Builders / iWay Software 459, 5.22 Intalio 459, 5.23 JP Morgan Chase 460, 5.23.1 Blockchain Asset Management 463, 5.24 Microfocus / HPE 465, 5.24.1 Integration of HPE Software into Micro Focus Running A Year Behind 465, 5.24.2 Micro Focus Merger with the Software Business Segment of Hewlett Packard Enterprise (“HPE Software”) 466, 5.24.3 Micro Focus CORBA 468, 5.24.4 Micro Focus Artix 469, 5.24.5 Micro Focus OpenFusion 470, 5.24.6 Micro Focus Orbacus 471, 5.24.7 Micro Focus Orbix 471, 5.24.8 Micro Focus VisiBroker 471, 5.24.9 Microfocus HPE NonStop Middleware and Java 472, 5.24.10 Hewlett Packard Database and Middleware Automation 474, 5.25 Microsoft Azure 476, 5.25.1 Microsoft Azure 477, 5.25.2 Azure Service Fabric 479, 5.25.3 Microsoft Data Center, Dublin, 550,000 Sf 481, 5.25.4 Microsoft Data Center Container Area in Chicago. 482, 5.25.5 Microsoft Quincy Data Centers, 470,000 Square Feet 484, 5.25.6 . Microsoft San Antonio Data Center, 470,000 SF 485, 5.25.7 Microsoft 3rd Data Center in Bexar Could Employ 150 486, 5.25.8 Microsoft Builds the Intelligent Cloud Platform 487, 5.25.9 Microsoft's datacenter footprint 488, 5.25.10 Microsoft Cloud 489, 5.25.11 Microsoft Middleware 490, 5.25.12 Microsoft Windows Server AppFabric 492, 5.25.13 Microsoft Azure 493, 5.25.14 Microsoft BizTalk Server 494, 5.25.15 Microsoft Smart Connected Devices 500, 5.25.16 Microsoft: Cloud Computing Transforming The Data Center And Information Technology 500, 5.25.17 Microsoft Entertainment 501, 5.25.12 Microsoft Architecture Dynamic Modular Processing 502, 5.25.13 Microsoft Azure Cloud Switch 503, 5.25.14 Microsoft Azure CTO Cloud Building 505, 5.25.15 Microsoft Cloud Mega Data Center Multi-Tenant Containers 506, 5.25.16 Microsoft Managed Clustering and Container Management: Docker and Mesos 507, 5.25.17 Kubernetes From Google or Mesos 508, 5.25.18 Microsoft Second Generation Open Cloud Servers 508, 5.25.19 Azure Active Directory 508, 5.25.20 Microsoft Customers 509, 5.26 Mulesoft 509, 5.26.1 MuleSoft 510, 5.27 Nastel Technologies 512, 5.27.1 Nastel Privately Held Company 514, 5.28 Newgen 514, 5.29 Oracle 515, 5.29.1 Oracle Customers and Cloud Infrastructure 515, 5.29.2 Oracle Mobile Platform 516, 5.29.3 Oracle Fusion Message Oriented Middleware 518, 5.29.4 Oracle Message Oriented Middleware (MOM)-Based System Asynchronous Exchange Of Messages 521, 5.29.5 Oracle Disadvantages Of Message Loose Coupling 522, 5.29.6 Oracle Message Oriented Middleware 523, 5.29.7 Oracle GlassFish Server 524, 5.29.8 Oracle Business-to-Business Integration 525, 5.29.9 Oracle - WebLogic Suite 526, 5.30 Pivotal 527, 5.30.1 Pivotal Comprehensive PaaS 527, 5.30.2 Pivotal Speeds Time To Market 527, 5.30.3 Pivotal / RabbitMQ 528, 5.30.4 Pivotal RabbitMQ 531, 5.30.5 Pivotal RabbitMQ Clustering 533, 5.31 SnapLogic 535, 5.32 SOALIB 535, 5.32.1 SOALIB and SOASYNC 537, 5.33 Software AG 538, 5.33.1 Software AG Revenue 539, 5.33.2 Software AG 541, 5.33.3 Software AG Buys Progress® Apama 542, 5.33.4 Software AG webMethods Integration 542, 5.33.5 Software AG Enterprise Service Bus 543, 5.33.6 Software AG Enterprise-Class Messaging Backbone 544, 5.33.7 Software AG webMethods Broker Maximum Messaging Performance 546, 5.33.8 Software AG webMethods Broker Support for Different Messaging Styles 547, 5.33.9 Software AG webMethods Broker Policy-Based Clustering 547, 5.34 Solace Systems Messaging Solution 548, 5.34.1 Solace Enterprise Messaging 548, 5.34.2 Solace Systems Qualities Of Service 549, 5.34.3 Solace’s Unicast Advantage 552, 5.34.4 Solace Systems 3200 Series Messaging Appliances 552, 5.34.5 Solace Reliable Messaging 553, 5.34.6 Solace Systems Software API Connects to a Messaging Appliance 554, 5.34.7 Solace Systems Embedded Support For Point-To-Point ‘Unicast’ Distribution 556, 5.34.8 Solace Guaranteed Messaging 558, 5.34.9 Solace Systems Redundant Architecture for HA, FT and DR (1 and 2) 559, 5.34.10 Solace JMS Messaging 561, 5.34.11 Solace Systems Non-Persistent Messaging 562, 5.34.12 Solace Systems Persistent Messaging 563, 5.34.13 Solace Systems Persistent and Non-Persistent on One Appliance 563, 5.34.14 Solace IPC Shared Memory Messaging 564, 5.35 Tibco Software 566, 5.35.1 TIBCO ActiveSpaces® 568, 5.35.2 TIBCO BusinessEvents® 569, 5.35.3 TIBCO® Messaging 569, 5.35.4 Tibco / Change Healthcare Claims And Payments Network On Amazon Web Services 571, 5.35.5 TIBCO Software Mashery Professional API Management Solution 572, 5.35.6 Tibco Software Functionality Provided by the Tibco ActiveMatrix 573, 5.35.7 Tibco Revenue 574, 5.35.8 Tibco Software 575, 5.35.9 Tibco Software Customers 581, 5.35.10 Tibco Event-Enabled Enterprise Platform 581, 5.35.11 Tibco Platform 582, 5.35.12 Tibco Microservices Development 582, 5.35.13 Tibco Cloud Computing Environments 584, 5.35.14 Tibco FTL 584, 5.35.15 Tibco e-FTL Messaging Middleware 585, 5.35.16 Tibco Enterprise Message Service 589, 5.35.17 Tibco Enterprise-Class Messaging Performance 591, 5.35.18 Tibco Reliable, Persistent Messaging 591, 5.35.19 Tibco Rendezvous Publish Subscribe Messaging 593, 5.35.20 Tibco Web Messaging 595, 5.35.21 Tibco Messaging Backbone 598, 5.36 Tray.io 600, 5.37 UIB 608, 5.38 WSO2 609, 5.38.1 WSO2 Products 610, 5.38.2 WSO2 Open Source and Standards 610, 5.38.3 SEERC Technology Research Center Uses WSO2 for Governance Registry 611, 5.38.4 WSO2 Middleware Platform 611, 5.38.5 WSO2 Message Broker 612, 5.39 Selected Messaging Middleware Companies 615, 6. Business Process Management Company Profiles 618, 6.1 Adobe 618, 6.1.1 Adobe Creative Cloud 619, 6.1.2 Adobe Digital Publishing Suite 621, 6.1.3 Adobe Photoshop 621, 6.1.4 Adobe Acrobat 622, 6.1.5 Adobe Edge Tools & Services 622, 6.1.6 Adobe Digital Marketing 622, 6.2 AgilePoint 623, 6.3 Appian 624, 6.4 Aurea 625, 6.4.1 Aurea Software 626, 6.5 BigAgi 627, 6.6 BizFlow 627, 6.7 BMC Middleware Management 628, 6.7.1 BMC BladeLogic Middleware Automation 631, 6.7.2 BMC Improves Productivity For Release Process Documentation 632, 6.7.3 BMC Middleware Administration 632, 6.7.4 BMC Middleware Monitoring 634, 6.7.5 BMC Application Transaction Tracing 635, 6.8 BonitaSoft 637, 6.8.1 Bonita Open Source BPM Software 637, 6.8.2 Bonita Open Solution 5 638, 6.9 Kofax 638, 6.10 Information Builders WebFOCUS 639, 6.10.1 Information Builders / iWay Middleware Software 641, 6.10.2 iWay Enterprise Integration Middleware 641, 6.10.3 iWay Network Computing 642, 6.10.4 Information Builders iWay EDA for Networked Computing 643, 6.10.5 Information Builders iWay Java for Web-Enterprise Convergence 644, 6.10.6 Information Builders / iWay Middleware Provides The Plumbing 645, 6.10.7 Information Builders/iWay SOA, EDA, and ESB Middleware Solutions 648, 6.11 Managed Methods 649, 6.11.1 Managed Methods Solutions 650, 6.12 Mega 652, 6.12.1 Mega Solutions 653, 6.12.2 Mega Solutions Customers 654, 6.13 Mendix 654, 6.14 Nastel AutoPilote 655, 6.14.1 Nastel Middleware Monitoring and Management 656, 6.15 NEC RFID Middleware Products 658, 6.15.1 NEC RFID Middleware 660, 6.15.2 NEC WebOTX RFID Manager Middleware 662, 6.16 OpenText Content Middleware 664, 6.16.1 OpenText Platform 664, 6.16.2 OpenText Comprehensive Information Integration Platform 665, 6.16.3 OpenText Comprehensive Information Integration Value 666, 6.16.4 OpenText GSX B2B Integration Network 666, 6.16.5 GSX Monitor 669, 6.16.6 OpenText Actuate 674, 6.16.7 Actuate Core Strengths 675, 6.16.8 OpenText Target Markets 675, 6.16.9 OpenText / Cordys 676, 6.16.10 OpenText Acquisition of GXS Group 676, 5.32.7 GSX 677, 6.17 PegaSystems 679, 6.17.1 Pega Exchange' for BPM and SOA- 680, 6.18 Perficient 680, 6.18.1 Perficient ProHealth Care Drives Population Health Management through Epic’s Cogito Data Warehouse 681, 6.19 PNM Soft 684, 6.20 Progress Software 684, 6.21 Rocket Software Janus Middleware 685, 6.21.1 Rocket Software Encryption 688, 6.21.2 Rocket Software Authentication 689, 6.21.3 Rocket Software Efficiency 689, 6.21.4 Rocket Software Running Secure Model 204 Web Servers 689, 6.22 SAP Application Software Leverages IBM MQ 691, 6.23 Workday Cloud Platform 692, 6.23.1 Workday Partnership with Microsoft Leverages Systems Integration 692, 6.23.2 Cloud Orchestration Platform Used for Integrations To And From Workday 693, 6.23.3 Workday Integration Cloud Platform Enterprise-Class ESB Grid 694, WinterGreen Research, 697, WinterGreen Research Methodology 698, , , List of Figures, , Figure 1. Mission Critical Messaging and Microservices Market Shares, Dollars, 2018 54, Figure 2. Messaging Middleware Market Driving Forces 55, Figure 3. Middleware Messaging Market Factors 58, Figure 4. Web Transactions Implemented by IBM Blockchain 60, Figure 5. A Distributed IoT Shared Ledger Built On IBM Blockchain Offers Visibility, Trust, And Permanence 63, Figure 6. A Shared Ledger Built on Blockchain Offers Visibility, Trust, and Permanence 63, Figure 7. Blockchain Attributes Framework: 64, Figure 8. IBM Blockchain Interactions 66, Figure 9. Middleware Messaging Market Totals, Dollars, Worldwide, 2019-2025 72, Figure 10. Google Clos Multistage Switching Network 77, Figure 11. Typical Mission Critical Messaging Functions 81, Figure 12. Kafka API Streaming Functions 83, Figure 13. Kafka API Message Streaming Platform 84, Figure 14. Apache Kafka Distributed Streaming Platform Key Capabilities 86, Figure 15. Internet of Things (IoT) Market Driving Forces 88, Figure 16. Key Areas Of The IoT Market 91, Figure 17. Kafka Core APIs: 93, Figure 18. Kafka Cluster: 94, Figure 19. IBM Microservices Foundation Business, Infrastructure, and Data Information Architecture 96, Figure 20. Mission Critical Messaging As A Base For Integration Software Provides A Base For Application Connectivity 98, Figure 21. Mission Critical Messaging Integration Functions 98, Figure 22. Messaging Middleware Messaging Trends 100, Figure 23. Mission Critical Messaging Market Dynamics 102, Figure 24. Private Cloud Attributes 103, Figure 25. Private Cloud Computing Model Characteristics 104, Figure 26. Messaging Middleware Market Driving Forces 110, Figure 27. Middleware Messaging Market Factors 112, Figure 28. Mission Critical Messaging and Micro Services Market Driving Forces 113, Figure 29. Mission Critical Messaging and Microservices Market Shares, Dollars, 2018 117, Figure 30. Mission Critical Messaging and Cloud API Integration Streaming Tools, Dollars, Worldwide, 2018 121, Figure 31. Mission Critical Messaging and Cloud API Integration Streaming Tools, Dollars, Worldwide, 2018 122, Figure 32. Middleware Messaging Market Totals, Dollars, Worldwide, 2019-2025 128, Figure 33. Middleware Messaging Market Totals, Dollars, Worldwide, 2019-2025 129, Figure 34. Mission Critical Messaging Market Segments, Dollars and Units, Worldwide, 2019-2025 130, Figure 35. Mission Critical Messaging Market Segments Dollars and Units, Worldwide, 2019-2025 134, Figure 36. Middleware Messaging Applications Market Segments, Dollars, Worldwide, 2019-2025 137, Figure 37. Middleware Messaging Applications Market Segments, Percent, Worldwide, 2019-2025 138, Figure 38. Mission Critical Messaging Market Units, Worldwide, 2019-2025 141, Figure 39. Market Driving Forces For Real Time Computing 147, Figure 40. Market Driving Forces For microservices 148, Figure 41. Mission Critical Messaging Growth Factors 150, Figure 42. Mission Critical Messaging Benefits 151, Figure 43. Messaging Middleware Market Components 151, Figure 44. Mission Critical Messaging Financial Services Applications 154, Figure 45. Mission Critical Messaging Security Aspects 155, Figure 46. Mission Critical Telecommunications Messaging Applications 156, Figure 47. Mission Critical Government Messaging Applications 157, Figure 48. Blockchain Ledger Market Driving Forces 164, Figure 49. Major Growth Drivers Of The Blockchain Market 165, Figure 50. Mission Critical Messaging and API Integration Streaming Tools Regional Markets, 2018 168, Figure 51. Mission Critical Messaging and API Integration Streaming Tools Regional Market Segments, 2018 169, Figure 52. Microservices Compute Options 172, Figure 53. Confluent Kafka Supports Continuous Queries 176, Figure 54. Kafka Streams API Continuous Transformations 178, Figure 55. Kafka Streams API Event Triggered Processes 179, Figure 56. Kafka Streams API Apps and Services 180, Figure 57. Kafka Streaming Platform Design 182, Figure 58. . Kafka Messaging System, Provides A Structured Commit Log Of Updates 184, Figure 59. Kafka Architecture Persistence 185, Figure 60. Kafka LinkedIn Capture Of A Stream Of Views To Jobs 187, Figure 61. Kafka Streaming Enterprise Publish Subscribe Messaging Enhancements 188, Figure 62. Kafka Streaming System Provides Built-In Stream Processing Capabilities 190, Figure 63. Supernap, Las Vegas, 407,000 sf 192, Figure 64. DuPONT FABROS CH1, ELK GROVE VILLAGE, Ill. 485,000 SF 193, Figure 65. 538,000SF: i/o Data Centers and Microsoft Phoenix One, Phoenix, Ariz. 194, Figure 66. Phoenix, Arizona i/o Data Center Design Innovations 195, Figure 67. Next Generation Data Europe, Wales 750,000 SF 196, Figure 68. NAP Of The Americas, Miami, 750,000 SF 197, Figure 69. QTS Metro Data Center, Atlanta, 990,000 SF 198, Figure 70. 350 East Cermak, Chicago, 1.1 Million Square Feet 199, Figure 71. Lakeside Technology Center 200, Figure 72. Data Center Multiple-Facility Campuses Feature Half Million SF 201, Figure 73. Web Services Transport Comparison HTTP and IBM MQ 205, Figure 74. IBM WebSphere MQ Web Services Transport 207, Figure 75. Service Requestor and Service Provider Layers 208, Figure 76. Layered Architecture For IBM JMS Providers 210, Figure 77. IBM WebSphere MQ Layered Architecture Objectives: 211, Figure 78. Relationship Between WebSphere MQ Classes for JMS and WebSphere , MQ Classes for Java 214, Figure 79. Deciding Whether To Use Read Ahead Using IBM WebSphere MQ 219, Figure 80. Mission Critical Messaging As A Base For microservices Software Used to Implement Process Flexibility 226, Figure 81. Mission Critical Messaging ESB Functions 226, Figure 82. Mission Critical Messaging As A Base For Integration Software Provides A Base For Application Connectivity 228, Figure 83. Mission Critical Messaging Integration Functions 228, Figure 84. Open Systems Message Queuing Protocol Key Capabilities 229, Figure 85. Messaging Open Software Business Case 230, Figure 86. Advanced Message Queuing Key Features 230, Figure 87. Aspects Of Data Streaming Management 236, Figure 88. Mission Critical Message Throughput Variables 242, Figure 89. Typical Message Flow Characteristics 248, Figure 90. Middleware Messaging Technology Issues 250, Figure 91. Middleware Messaging Technology Management 251, Figure 92. AWS Market Leader In Cloud Computing 259, Figure 93. Key Challenges of Enterprise IT Datacenters: 261, Figure 94. Multi-threading Manages Pathways From One Node To Another Node 262, Figure 95. Google Mega Data Center Scale 263, Figure 96. Key Advantage of Cloud 2.0 Mega IT Datacenters: 264, Figure 97. NTT RagingWire Ashburn Va2 Data Center 265, Figure 98. AWS Region Diagram 266, Figure 99. Automatic Detection And Recovery From Network And System Failure 268, Figure 100. High Performance And Real-Time Message Throughput 272, Figure 101. Messaging Fault Tolerance Features 273, Figure 102. 360logica Microservices Services: 277, Figure 103. 360Logica Microservices Target Markets 278, Figure 104. 360logica microservices Services Positioning: 279, Figure 105. Apache ActiveMQ Features 281, Figure 106. Apigee Hybrid Capabilities: 284, Figure 107. Amazon Kinesis Analytics Key Features 287, Figure 108. Amazon Kinesis Firehose 289, Figure 109. Apache Kafka Distributed Messaging System Designed For Streams 293, Figure 110. Apache Kafka Enterprise Messaging Package 295, Figure 111. Internet of Things (IoT) Applications Market Generating Log Messages 299, Figure 112. Kafka Request Response Enterprise Service Bus Application 301, Figure 113. Streams API in Kafka: The Power without the Weight 303, Figure 114. Streams API in Kafka Functions 304, Figure 115. Confluent Kafka Stream-Based Microservices 305, Figure 116. Software Services of the Bosch IoT Suite 310, Figure 117. Bosch IoT Suite Connecting Five Million Devices And Machines 311, Figure 118. Bosch IoT Suite Services 312, Figure 119. Bosch IoT Suite Device Connection Features 313, Figure 120. Bosch IoT Suite Device Connection Functions 314, Figure 121. Bosch IoT Global System Integrator Partnerships 314, Figure 122. Bosch IoT Technology Partners: 315, Figure 123. Bosch IoT Memberships 315, Figure 124. Bosch IoT Joint Research Ventures 316, Figure 125. Rally Software Platform Functions 320, Figure 126. Cisco Technology Foundation For Digital Transformation 327, Figure 127. Cisco Unified Computing System Portfolio Of Solutions Functions 333, Figure 128. Cisco Spark Functions 338, Figure 129. Confluent Partners 342, Figure 130. Confluent Kafka Ecosystem Of Data Pipelines And Topology 347, Figure 131. Dell Boomi Customer Base 351, Figure 132. VMWare Virtualization Messaging Capabilities 352, Figure 133. Kibana Core Ships With The Classics: Histograms, Line Graphs, Pie Charts, Sunbursts. Leverage Aggregation Capabilities Of Elasticsearch 353, Figure 134. Elasticsearch Visualizes Geo Data on Any Map 354, Figure 135. Firoano Microservices Architecture 360, Figure 136. Fiorano API Management Platform Functions: 366, Figure 137. FioranoMQ® Java Message Service (JMS) Compliant Platform 367, Figure 138. Fiorano enterprise Messaging Middleware Backbone Features 368, Figure 139. Fiorano Messaging Middleware Features 369, Figure 140. Fiorano Messaging Middleware Continuous Availability 369, Figure 141. Fiorano Messaging Middleware Linear Scalability 369, Figure 142. Fiorano Messaging Middleware Robust Security 370, Figure 143. Fiorano Messaging Middleware Global Manageability 370, Figure 144. Fujitsu Global Alliances 376, Figure 145. Fujitsu Facts 378, Figure 146. Fujitsu openFT Features 383, Figure 147. GLOVIA G2 or GLOVIA OM manufacturing ERP software 385, Figure 148. Fujitsu Glovia Functions 386, Figure 149. HostBridge Mainframe CICS Integration Functions 389, Figure 150. IBM Business Goals 392, Figure 151. IBM MQ Messaging Functions 394, Figure 152. IBM MQ Functions: 395, Figure 153. Typical Mission Critical Messaging Functions 396,