High Availability High Reliability

Telecommunications Middleware Market Opportunities, Strategies, and Forecasts, 2007 to 2013

Publication Date	December 2007
Publisher	Wintergreen Research
Product Type	Report
Pages	656
ISBN Number	not applicable
Product Code	WIN00009

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Summary

The convergence of IT and communications infrastructure is placing complex high availability, system clustering, and manageability requirements on system development. These requirements create tremendous problems with respect to scalability, development cost, time-to-market, and resources allocated to core competencies.

Middleware is positioned to decrease ongoing maintenance cost associated with infrastructure software. The consumer and corporate demand for more sophisticated telecom services, the viability of standards technologies and the emergence of new competitors are leading industry players to view COTS software as an imperative.

The technical requirements for deploying real-time services over global networks continue to grow. Applications must work in real-time, with low latency, and scale to millions of users. Yet traditional enterprise software solutions have reached their performance limits. Complex legacy applications are difficult, if not impossible, to grow or change.

The growing shift of the telecommunications market to a modular communications platform architecture will enable carriers to more rapidly deploy new services, reduce operating costs, and easily scale with demand. The success of AdvancedTCA solutions is built from interoperable, carrier grade, high-performance off-the-shelf building blocks including Intel processors and high availability middleware.

High availability system development requirements are evolving in the context of the evolution of blade servers. Blade servers are small, dense computers tied together with software that balances the processing workload between them. One refrigerator-size mainframe is more efficient than units that hold more than 300 blade servers. The mainframe is significantly more efficient and reliable than 500 of the smallest servers that can fit in the same-size rack. The mainframe systems are far more efficient than densely packed server systems.

High availability high reliability telecommunications middleware market forecasts indicate that markets of $792.6 million in 2006 are anticipated to reach $2.1 billion by 2013. Markets are anticipated to grow in response to the need of all equipment providers to adapt to open systems replacing current proprietary middleware systems.

Content

Executive Summary
- High Availability Telecom Middleware Market Driving Forces
- High Availability Telecom Middleware Market Shares
- High Availability Telecom Middleware Server Market Forecasts
High Availability High Reliability Telecommunications Middleware Market Description And Market Dynamics
- 1.1 Move To Open Standards For High Availability In Telecommunications
  - 1.1.1 Telecommunications High Availability Solutions
  - 1.1.2 High Availability Concepts
  - 1.1.3 Cross-Platform Portability Central To High Availability
  - 1.1.4 Cluster High Availability Solutions
  - 1.1.5 Beyond The Heartbeat
  - 1.1.6 High Availability Configurations
  - 1.1.7 Extending Mainframe Solutions
- 1.2 High Availability Component Features
  - 1.2.1 High Availability Message Routers
  - 1.2.2 Object Partitioning Application
  - 1.2.3 Customers Want Changes
  - 1.2.4 Over-Engineering
  - 1.2.5 Failover
  - 1.2.6 High Availability Software Functions
- 1.3 Scalability
- 1.4 Standards
  - 1.4.1 Service Availability Forum Hpi (Hardware Platform Interface)
  - 1.4.2 Service Availability Forum Ais (Application Interface Specification)
  - 1.4.3 Integration Time To Implement
  - 1.4.4 High Availability Issues Associated With Billing, Systems Provisioning, And Orchestration
  - 1.4.5 High Availability Management System Elements
  - 1.4.6 Clusters
- 1.5 Heartbeat
  - 1.5.1 High-Availability Linux
  - 1.5.2 Cluster Configuration
  - 1.5.3 Standby Configuration
  - 1.5.4 Takeover Configuration
- 1.6 Real-Time System Definition
  - 1.6.1 Real-Time Linux
  - 1.6.2 Content Digitization
  - 1.6.3 Real-Time Market
  - 1.6.4 Commercial, Off-The-Shelf Building Blocks For Telecom Equipment And Middleware
- 1.7 Integrated Telecommunications Middleware
- 1.8 Simulation
- 1.9 Communications Data Acquisition
- 1.10 Telecommunications Control Systems
  - 1.10.1 Embedded Systems
2. High Availability High Reliability Telecommunications Middleware Market Shares And Market Forecasts
- 2.1 High Availability High Reliability Telecommunications Middleware Market Driving Forces
  - 2.1.1 High Availability High Reliability Telecommunications Middleware Market Shares
  - 2.1.2 High Availability High Reliability Telecommunications Middleware Market Forecasts
  - 2.1.3 Trends In Telecommunications Economic Climate
- 2.2 High Availability High Reliability Embedded Infrastructure Software For Telecommunications Middleware
  - 2.2.1 High Availability High Reliability Embedded Infrastructure Software For Telecommunications Middleware Market Shares
  - 2.2.2 Clovis Solutions Clovis Solutions / Ibm, Nortel And Hp
  - 2.2.3 Goahead Selfreliant
  - 2.2.4 Montavista
  - 2.2.5 Intel
  - 2.2.6 High Availability High Reliability Embedded Infrastructure Software For Telecommunications Middleware Market Forecasts
- 2.3 Carrier Grade Signaling Middleware
  - 2.3.1 Carrier Grade Signaling High Availability Software For Telecommunications Middleware Market Shares
  - 2.3.2 Hewlett Packard Opencall
  - 2.3.3 Stratus
  - 2.3.4 High Availability High Reliability Telecommunications Carrier Grade Signaling Middleware Market Forecasts
- 2.4 Utility Centralized Service Level Management Middleware
  - 2.4.1 High Availability High Reliability Telecommunications Utility Middleware Market Shares
  - 2.4.2 Ibm Websphere Software
  - 2.4.3 Veritas
  - 2.4.4 Sun High Availability For Telecommunications
  - 2.4.5 High Availability High Reliability Telecommunications Utility Middleware Market Forecasts
  - 2.4.6 Outsourcing Providers Move To Implement Utility Computing
  - 2.4.7 Changes In The Outsourcing Delivery Model
  - 2.4.8 Big Shifts In The Conduct Of Business
  - 2.4.9 Utility Computing Models
  - 2.4.10 Supply Side Public Utility Computing Model
  - 2.4.11 The Road To The Public Computing Utility Model: Evolution, Not Revolution
  - 2.4.12 Public Utility Model Evolution Initiative
- 2.5 Wirespeed Messaging Middleware
  - 2.5.1 Keeping Up With Constant Change
  - 2.5.2 Wirespeed Messaging High Availability Software For Telecommunications Middleware Market Shares
  - 2.5.3 High Availability High Reliability Wirespeed Messaging Telecommunications Middleware Market Forecasts
- 2.6 High Availability High Reliability One To N Base Station Telecommunications Middleware Market Shares
  - 2.6.1 High Availability One To N Middleware Software For Wireless Base Station Telecommunications Market Shares
  - 2.6.2 Hughes Aireach
  - 2.6.2 High Availability High Reliability One To N Middleware Software For Wireless Base Station Telecommunications Market Forecasts
- 2.7 High Availability Middleware Telecommunications Regional Market Analysis
3. High Availability High Reliability Telecommunications Middleware Products
- 3.1 High Availability Middleware Software Companies
- 3.2 Fujitsu Siemens Computers
  - 3.2.1 Fujitsu Siemens Middleware Dynamic Data Center Enabling Technology 3-2
  - 3.2.2 Fujitsu Siemens Computer Triole Strategy For A Dynamic Infrastructure 3-3
  - 3.2.3 Fujitsu Siemens Triole Dynamic Data Center
  - 3.2.4 Fujitsu Siemens Adaptive Services Control Center
  - 3.2.5 Fujitsu Siemens It Systems Address It And Data Center Challenges
  - 3.2.6 Fujitsu Siemens Middleware Solution Guards Against Low Utilization Rates 3-15
- 3.3 Hughes
  - 3.3.1 Hughes Airmatch Range And Capacity
  - 3.3.2 Hughes Airmatch Scalability
- 3.4 Clovis Solutions
  - 3.4.1 Clovis Solutions Blade Director (Bd)
  - 3.4.2 Clovis Solutions System Director (Sd):
- 3.5 Ibm Software High Availability Middleware For Telecommunications
- 3.6 Sun High Availability For Telecommunications
  - 3.6.1 Sun Netra High Availability Suite
  - 3.6.2 Sun Solutions Downtime Avoided
  - 3.6.3 Sun Ha/Hac Service Packs
  - 3.6.4 Sun High Availability Reduces Total Cost Of Ownership
  - 3.6.5 Sun Ras Profile Service
  - 3.6.6 Sun Cluster
- 3.7 Goaheadr Software
  - 3.7.1 Goahead Software Supports Service Availability Forum Application Interface Specification
  - 3.7.2 Goahead Selfreliant
  - 3.7.3 Goaheadr Software Commercial Off-The-Shelf High Availability
  - 3.7.4 Goaheadr Software Deployment To Motorola Networks
  - 3.7.5 Goahead Customers
  - 3.7.6 Goahead Products
  - 3.7.7 Goahead Client Services
  - 3.7.8 Goahead Partnerships
  - 3.7.9 Goahead / Intelr Communications Alliance
  - 3.7.10 Goahead Selfreliant
- 3.8 Continuous Computing Trillium Sip Signaling Stack
  - 3.8.1 Continuous Computing Products And Resources
  - 3.8.2 Continuous Computing Trillium Protocol Software
  - 3.8.3 Continuous Computing Advancedtca Product Family
  - 3.8.4 Continuous Computing High Availability
- 3.9 Kabira Real-Time Services On The Network
  - 3.9.1 Kabira Voip End-To-End Ims And Sdp Solutions
  - 3.9.2 Kabira High Availability Middleware
  - 3.9.3 Kabira Infrastructure System Plug-And-Play High Availability
  - 3.9.4 Kabira Transaction-Level High Availability Ha
  - 3.9.5 Kabira Infrastructure System
  - 3.9.6 Kabira Opening Up Legacy Systems For Real-Time, Fault-Tolerant Distributed Applications
  - 3.9.7 Kabira Deliver Next-Generation High Availability
  - 3.9.8 Kabira Built-In Services
- 3.10 Solid / Qnx Software Systems
  - 3.10.1 Solid Competitive Differentiation
  - 3.10.2 Solid And Pinnacle Data Systems Pre-Integrated Advancedtca Solution-Set To Tier One Telecom Equipment Manufacturers
  - 3.10.3 Solid Information Technology Carrier-Grade Performance
  - 3.10.4 Solid Autonomic Data Management Platform
  - 3.10.5 Solid Boostengine 5-Nines Availability Within 3g Networks
- 3.11 Hewlett Packard Opencall
- 3.12 Radisys Expands Its Advancedtcar Solutions
  - 3.12.1 Radisys Promentum Family
- 3.13 Stratus
- 3.14 Ulticom Signalware Sigtran
  - 3.14.1 Ulticom Sigtran Bridging The Traditional And Nexgen Networks
  - 3.14.2 Utilcom Sigtran High Availability
  - 3.14.3 Ulticom Linux
- 3.15 Veritas
  - 3.15.1 Veritas Utility Computing Product Set Description
4. High Availability High Reliability Telecommunications Middleware Network Equipment Provider Uptake
- 4.1 Open Systems Middleware For Telecommunications
  - 4.1.1 Clovis Solutions / Ibm, Nortel, And Hp
- 4.2 Motorola
  - 4.2.1 Motorola Open Specifications For Service Availability
  - 4.2.2 Motorola Platforms To Lower Cost Of Entry And Extend Reach Of Advancedtcar
  - 4.2.3 Motorola Advancedtca Low-Profile Highly Scalable Platforms
  - 4.2.4 Motorola Provides 5-Nines Availability
  - 4.2.5 Goaheadr Software Deployment To Motorola Networks
  - 4.2.6 Continuous Computing
- 4.3 Nortel
- 4.4 Sonim Technologies Instant Communications Solution
  - 4.4.1 Sonim Enabling Voice Over Wireless Data Networks, Push-To-Talk, And Direct Messaging Solutions
- 4.5 Ibm Next Generation On Demand Servers
- 4.6 Sun
  - 4.6.1 Sun E4500 Server
- 4.7 Nec
  - 4.7.1 Nec Four-Way High-Availability Fault Tolerant Server
- 4.8 Alcatel
- 4.9 Concurrent
  - 4.9.1 Alcatel And Concurrent
- 4.10 Intel
- 4.11 Stratus
  - 4.11.1 Stratus Continuum Intelligent Network Applications Implemented
- 4.12 Siemens
  - 4.12.1 Siemens Push To Talk
  - 4.12.2 Siemens Mms Messaging
  - 4.12.3 Siemens Blackberry Support
- 4.13 Fujitsu Siemens Computers
- 4.14 Carrier Grade Linux
  - 4.14.1 Montavista Carrier Grade Linux
- 4.15 Montavista Linux Carrier Grade
  - 4.15.1 Nec
  - 4.15.2 Alcatel
  - 4.15.3 High-Availability Linux
  - 4.15.4 Cluster Configuration
  - 4.15.5 Standby Configuration
  - 4.15.6 Takeover Configuration
  - 4.15.7 Real-Time System Definition
  - 4.15.8 Real-Time Linux
  - 4.15.9 Real-Time Market
  - 4.15.10 Linux And Advancedtca (Atca)
  - 4.15.11 Advancedtca
- 4.16 Service Availability Forum
  - 4.16.1 Service Availability Forum Consortium
  - 4.16.2 Move Away From Proprietary Hardware And Software Toward Cots Technology
  - 4.16.3 Wind River Platform For Network Equipment
  - 4.16.4 Goahead Support For Critical Standards-Based Interfaces
- 4.17 Kabira Infrastructure System Asynchronous Substrate
  - 4.17.1 Kabira High Availability
- 4.18 Windriver
5. High Availability Middleware Software For Telecommunications Company Profiles
- 5.1 Augmentix
- 5.1.1 Augmentix Software
- 5.1.2 Augmentix Hardware And Software Solutions
- 5.2 Clovis Solutions
  - 5.2.1 Clovis Solutions Embedded Software
  - 5.2.2 Clovis Solutions Key Market Elements
  - 5.2.3 Clovis Solutions Product Vision
  - 5.2.4 Clovis Solutions Productivity Development Model
  - 5.2.5 The Clovis Solution Provides Unique Abstraction Layers That Make Sisp Both Hardware And Operating System Independent.
- 5.3 Concurrent Computer
  - 5.3.1 Concurrent Integrated Solutions
- 5.4 Continuous Computing
  - 5.4.1 Continuous Computing Product/Solution:
  - 5.4.2 Continuous Computing Markets
  - 5.4.3 Continuous Computing Network Service-Ready Platforms
- 5.5 Directv Group
  - 5.5.1 Hughes Network Systems
- 5.6 Fuego
- 5.7 Goahead Software
  - 5.7.1 Goahead Customers
  - 5.7.2 Goahead Products
  - 5.7.3 Goahead Client Services
  - 5.7.4 Goahead Partnerships
  - 5.7.5 Goahead / Intel Communications Alliance
- 5.8 Kabira Technologies
  - 5.8.1 Kabira Addresses Convergent Service And Financial Services Network Performance, Scalability,And Complexity Issues
  - 5.8.2 Kabira Solution To It Changing Requirements
  - 5.8.3 Kabira Infrastructure And Service Platforms Built On Models
  - 5.8.4 Kabira Service Platforms Built On Infrastructure
  - 5.8.5 Kabira Keeping Up With Constant Change
  - 5.8.6 Kabira High Availability Ha Component
  - 5.8.7 Kabira High Availability Ha Methodologies
  - 5.8.8 Kabira Transaction-Level High Availability
- 5.9 Montavista Software
  - 5.9.1 Montavista Software Open Source Platform
- 5.10 Nec
  - 5.10.1 Nec It And Networking Technologies
  - 5.10.2 Nec Network Solutions Business
  - 5.10.3 Nec Internet Broadband Network Positioning
  - 5.10.4 Nec Solutions America
- 5.11 Pdsi
- 5.12 Radisys
- 5.13 Qnx Software Systems
- 5.14 Sentito Networks
- 5.15 Solid Information Technology
  - 5.15.1 Solid Customers
  - 5.15.2 Solid Information Technology Next-Generation Autonomic Data Management Platform
- 5.16 Stratus Computer
- 5.17 Ulticom
- 5.18 Veritas Software
  - 5.18.1 Veritas Software / Symantec
  - 5.18.2 Veritas Total Revenue
List Of Tables And Figures
- Table Es-1 High Availability High Reliability Telecommunications Middleware Market Driving Forces
- Figure Es-2 Worldwide High Availability Middleware Software For Telecommunications, License Market Shares, 2004
- Figure Es-3 Worldwide High Availability Middleware Software For Telecommunications, License Market Forecasts, Dollars, 2004
- Table 1-1 The Functions Of High Availability
- Table 1-2 Legacy Concerns With Respect To High Availability
- Table 1-3 Hardware-Independent Infrastructure System Functions
- Table 1-4 High Availability Network Upgrade Issues
- Table 1-5 Real-Time Processing High Availability System Functions
- Table 1-6 General Purpose Computer Systems Real-Time Capabilities
- Table 1-7 Simulation Applications For Real-Time Systems
- Table 1-8 Data Acquisition Applications For Real-Time Systems
- Table 2-1 Requirements Functions Needed To Address Convergence Of It And Communications Infrastructure
- Table 2-2 High Availability System Development Requirements Issues
- Table 2-3 High Availability High Reliability Telecommunications Middleware Market Driving Forces
- Figure 2-4 Worldwide High Availability Middleware Software For Telecommunications, License Market Shares, Dollars, 2004
- Table 2-5 Worldwide High Availability Middleware Software For Telecommunications, License Market Shares, Dollars, 2004
- Figure 2-6 Worldwide High Availability Middleware Software For Telecommunications, License Market Forecasts, Dollars, 2004
- Table 2-7 Worldwide High Availability Middleware Software Segments For Telecommunications, License Market Forecasts, Dollars, 2004
- Table 2-8 Worldwide High Availability Middleware Software For Telecommunications, License Market Forecasts, Dollars, 2004
- Table 2-9 Trends In Telecommunications Economic Climates
- Figure 2-10 Worldwide High Availability Middleware Embedded Infrastructure Software For Telecommunications License Market Shares, Dollars, 2004
- Table 2-11 Worldwide High Availability Middleware Embedded Infrastructure Software For Telecommunications License Market Shares, Dollars, 2004
- Figure 2-12 Worldwide High Availability Middleware Embedded Infrastructure Software For Telecommunications License Market Forecasts, Dollars, 2004
- Table 2-13 Worldwide High Availability Middleware Embedded Infrastructure Software For Telecommunications License Market Forecasts, Dollars, 2004
- Figure 2-14 Worldwide High Availability Middleware Embedded Infrastructure Software For Telecommunications License Market Forecasts, Units, 2004
- Figure 2-10 Worldwide High Availability Middleware Embedded Infrastructure Software For Telecommunications License Market Shares, Dollars, 2004
- Table 2-11 Worldwide High Availability Middleware Embedded Infrastructure Software For Telecommunications License Market Shares, Dollars, 2004
- Figure 2-12 Worldwide High Availability Middleware Embedded Infrastructure Software For Telecommunications License Market Forecasts, Dollars, 2004
- Table 2-13 Worldwide High Availability Middleware Embedded Infrastructure Software For Telecommunications License Market Forecasts, Dollars, 2004
- Figure 2-14 Worldwide High Availability Middleware Embedded Infrastructure Software For Telecommunications License Market Forecasts, Units, 2004
- Figure 2-15 Worldwide High Availability Middleware Carrier Grade Signaling Software For Telecommunications License Market Shares, Dollars, 2004
- Table 2-16 Worldwide High Availability Middleware Carrier Grade Signaling Software For Telecommunications License Market Shares, Dollars, 2004
- Figure 2-17 Worldwide High Availability Middleware Carrier Grade Signaling Software For Telecommunications License Market Forecasts, Dollars, 2004
- Table 2-18 Worldwide High Availability Middleware Carrier Grade Signaling Software For Telecommunications License Market Forecasts, Dollars, 2004
- Figure 2-19 Worldwide High Availability Middleware Carrier Grade Signaling Software For Telecommunications License Market Forecasts, Units, 2004
- Figure 2-20 Worldwide High Availability Middleware Utility Centralized Service Level Infrastructure Software For Telecommunications License Market Shares, Dollars, 2004
- Table 2-21 Worldwide High Availability Middleware Utility Centralized Service Level Infrastructure Software For Telecommunications License Market Shares, Dollars, 2004
- Figure 2-22 Worldwide High Availability Middleware Utility Centralized Service Level Software For Telecommunications License Market Forecasts, Dollars, 2004
- Table 2-23 Worldwide High Availability Middleware Utility Centralized Service Level Software For Telecommunications License Market Forecasts, Dollars, 2004
- Figure 2-24 Worldwide High Availability Middleware Utility Centralized Service Level Software For Telecommunications License Market Forecasts, Units, 2004
- Table 2-25 Principles To Ensure Long Term, Successful Outsourcing Relationships
- Table 2-26 Private Utility Computing Model
- Table 2-27 Shared Utility Computing Model
- Table 2-28 Internet
- Table 2-29 Supply Side Public Utility Model Evolution
- Table 2-30 Demand Side Public Utility Model Evolution
- Table 2-31 Public Utility Model Evolution Goals
- Table 2-32 Public Utility Model Evolution Benefits
- Table 2-33 Public Utility Model Evolution Strategies
- Table 2-34 Wirespeed Messaging Product Functions
- Table 3-35 Mainframe Solutions Legacy Concerns
- Table 2-36 Wirespeed Messaging Systems Capabilities
- Figure 2-37 Worldwide High Availability Middleware Wirespeed Messaging Infrastructure Software For Telecommunications License Market Shares, Dollars, 2004
- Table 2-38 Worldwide High Availability Middleware Wirespeed Messaging Infrastructure Software For Telecommunications License Market Shares, Dollars, 2004
- Figure 2-39 Worldwide High Availability Middleware Wirespeed Messaging Infrastructure Software For Telecommunications License Market Forecasts, Dollars, 2004
- Table 2-40 Worldwide High Availability Middleware Wirespeed Messaging Infrastructure Software For Telecommunications License Market Forecasts, Dollars, 2004
- Figure 2-41 Worldwide High Availability Middleware Wirespeed Messaging Infrastructure Software For Telecommunications License Market Forecasts, Units, 2004
- Table 2-42 Worldwide High Availability Middleware One To N Base Station Infrastructure Software For Telecommunications License Market Shares, Dollars, 2004
- Table 2-43 Worldwide High Availability Middleware One To N Base Station Infrastructure Software For Telecommunications License Market Shares, Dollars, 2004
- Figure 2-44 Worldwide High Availability Middleware One To N Base Station Infrastructure Software For Telecommunications License Market Forecasts, Dollars, 2004
- Table 2-45 Worldwide High Availability Middleware One To N Base Station Infrastructure Software For Telecommunications License Market Forecasts, Dollars, 2004
- Figure 2-46 Worldwide High Availability Middleware One To N Base Station Infrastructure Software For Telecommunications License Market Forecasts, Units, 2004
- Figure 2-47 High Availability Middleware Telecommunications Regional Market Analysis
- Table 2-48 High Availability Middleware Telecommunications Regional Market Analysis
- Table 3-1 Selected Companies Offering High Availability Middleware To The Telecommunications Markets
- Table 3-2 Fujitsu Siemens Triole Dynamic Data Center Core Technologies
- Table 3-3 Fujitsu Siemens It Systems Management Responsibilities
- Table 3-4 Fujitsu Siemens It Systems Fail-Safe Functions
- Table 3-4 (Continued) Fujitsu Siemens It Systems Fail-Safe Functions
- Table 3-5 Fujitsu Siemens Challenges To Address It Systems Low Utilization
- Table 3-5 (Continued) Fujitsu Siemens Challenges To Address It Systems Low Utilization
- Table 3-6 Fujitsu Siemens Challenges To Address It Systems Lower Quality Service
- Table 3-7 Fujitsu Siemens Challenges To Address Frequent Reconfiguration
- Table 3-8 Fujitsu Siemens Positioning To Improve It Systems Low Utilization
- Table 3-8 (Continued) Fujitsu Siemens Positioning To Improve It Systems Low Utilization
- Table 3-9 Fujitsu-Siemens Addresses The Effect Of Discrete Siloed Services
- Table 3-10 Fujitsu-Siemens Addresses The Differences In Resource Utilization
- Table 3-11 Fujitsu-Siemens Addresses The Effects That High Load Have On Resource Utilization
- Table 3-12 Fujitsu-Siemens Addresses The Virtualization Of Systems To Improve Resource Utilization
- Table 3-13 Hughes Aireachr Network's Flexible Underlying Transport
- Table 3-14 Clovis Solutions Critical Feature Set
- Table 3-15 Clovis Solutions Telco Blade Feature Set Functions
- Table 3-16 Clovis Sisp Modular Platform Elements
- Table 3-17 Clovis Solutions Standards Supported
- Table 3-18 Ibm Mission Critical Messaging Strengths
- Table 3-19 Sun Netra High Availability Suite Key Features
- Table 3-20 Sun High Availability Solutions Packs Return On Investment
- Table 3-21 Sun High Availability Software Cluster File System Key Benefits
- Table 3-22 Sun High Availability Software Cluster File System Key Modules
- Table 3-23 Goahead Software High Availability Middleware Features And Functionality
- Table 3-23 (Continued) Goahead Software High Availability Middleware Features And Functionality
- Table 3-24 Goahead Software High Availability Middleware Performance Enhancements
- Table 3-24 (Continued) Goahead Software High Availability Middleware Performance Enhancements
- Table 3-25 Goahead Software High Availability Middleware Positioning
- Table 3-26 Goahead Selfreliant Enhancements
- Table 3-27 Goahead Selfreliant Features
- Table 3-27 (Continued) Goahead Selfreliant Features
- Table 3-28 Continuous Computing Trillium Software Key Categories Applications
- Table 3-29 Continuous Computing Advancedtca Product Common Feature Set
- Table 3- 30 Continuous Computing High Availability Upsuite Platform Management
- Table 3-31 Continuous Computing High Availability Key Features
- Table 3-32 Benefits Of Kabira Ha Node
- Table 3-33 Functions Of Kabira Ha Node
- Table 3-34 Kabira High Availability (Ha) Component Features
- Table 3-35 Kabira Ha Methodologies Availability Downtime
- Table 3-36 Benefits Of Adding A Kabira Node
- Table 3-37 Kabira Deliver Next-Generation High Availability
- Table 3-37 (Continued) Kabira Deliver Next-Generation High Availability
- Table 3-38 Integration Of The Qnx Neutrino Rtos And The Solid Boostengine Functions
- Table 3-39 Solid Carrier-Grade Reliability, Availability, And Scalability Business Value
- Table 3-40 Hewlett Packard Opencall Features
- Table 3-41 Utilcom Sigtran High Availability Process
- Table 4-1 Goahead Software High Availability Middleware Features And Functionality
- Table 4-2 Goahead Software High Availability Middleware Performance Enhancements
- Table 4-3 Nortel Open Systems Middleware Architecture Key Features:
- Table 4-4 Ibm High Availability Hacmp Clusters
- Table 4-5 Stratus Continuum Intelligent Network Applications Implemented
- Table 4-6 Montavista Network Server Framework
- Table 4-7 Real-Time Processing High Availability System Functions
- Table 4-8 General Purpose Computer Systems Real-Time Capabilities
- Table 4-9 Fault Tolerant Systems
- Table 4-10 Advantages Of Wind River Carrier Grade Linux
- Table 5-1 Augmentix A+Hpi Software Package Product Specifications, Pricing
- Table 5-2 Continuous Computing Products:
- Table 5-3 Continuous Computing High Availability Product Line
- Table 5-4 Continuous Computing Highly Integrated Solution Benefits
- Table 5-5 Products Enabled By Continuous Computing Trillium Sip Technology
- Table 5-6 Kabira Investors
- Table 5-7 Kabira Integrated Product And Service Stack
- Table 5-8 Kabira Service Platforms
- Table 5-9 Kabira Technical Advantage
- Table 5-10 Kabira Infrastructure System Integrated High Availability Features
- Table 5-11 Solid Information Technology Platforms
- Table 5-12 Stratus Systems Key Telecommunications Applications Targeted
- Table 5-13 Veritas Software Product Areas