Motorola 6806800C44B manual Service Extensions, Implementation Notes, Configuration

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Introduction

Service Extensions

 

 

The following information can be found in the referenced document:

zService concept definitions and descriptions

zFunctional behaviors and relationships

zA complete set of service data types exposed to the service user

zThe set of Service APIs available to the service user

An application managed by AvSv is provided with APIs to perform the following:

zComponent registration and unregistration

zPassive monitoring of processes of a component

zComponent health monitoring

zComponent service instance management

zComponent life cycle management

zProtection group management

zError reporting

An application also provides certain "Component Life Cycle" commands that are used by AvSv to instantiate, terminate, and clean it up. Applications can also use the APIs specified in Section

3 of the SAI-AIS-CLM-B.01.01 document to track and get information related to the nodes in the cluster.

1.2.5Service Extensions

AvSv’s AvM service is proprietary to Motorola. All functionality and associated behaviors identified in this documentation are supported, as explained in this document.

1.2.6Implementation Notes

The MIB rows whose "row status" is "not active" are lost on failover or switchover of the active system management host. The configuration being performed when the failover/switchover occurs should be redone.

1.2.7Configuration

An application managed by AvSv to provide high service availability must be modeled in terms of logical entities in accordance with the structure of the "System Model". Further, the application must implement the state models and callback interfaces according to the AMF specification.

Availability Service provides a management interface to configure the System Model and to perform runtime administrative operations. The System Model configuration can be done either using SNMP or XML, while the runtime administrative operations can be performed using SNMP or CLI.

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Availability Service Programmer’s Reference (6806800C44B)

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Contents Availability Service Trademarks Contents Contents Sample ApplicationList of Tables List of Tables Availability Service Subparts List of FiguresList of Figures About this Manual Overview of ContentsAbbreviations Notation Description ConventionsAbout this Manual Abbreviation Definition BoldAbout this Manual Summary of ChangesComments and Suggestions Part Number Publication Date DescriptionAbout this Manual Introduction OverviewModels and Concepts Service Structure OverviewIntroduction Models and Concepts Availability Service Subparts Service Structure Overview IntroductionIntroduction Compliance Report Compliance ReportSection Description Supported Compliance ReportIntroduction Section Description SupportIntroductionCompliance Report SaAmfSGMaxActiveSIspeSaAmfSUsperSIRankTabl IntroductionCompliance Report Service Dependency Service Definition DocumentsAvailability Service Dependencies DependenciesIntroduction Service Extensions Service ExtensionsConfiguration Implementation NotesNCS-AVSV-MIB Management InterfaceManagement Information Base MIB MIB Table ID\Trap ID DescriptionManagement InterfaceNCS-AVM-MIB NCS-AVM-MIBMIB Table ID/Object ID Description SAF-AMF-MIB SAF-AMF-MIBSAF-CLM-MIB Example MIB OperationsManagement Interface Example MIB Operations Install an Application Component on a Sample Node Management Interface AvSv Traps AvSv TrapsAvSv Traps Filter Description7 XML Command Line Interface1 set Admin reset Management InterfaceAdmin lock Admin lockManagement Interface Admin lock Admreq /2/9/ operation shutdownAdmswitch AdmswitchAdmswitch Sample Application Sequence of Events in the Sample ApplicationConfiguration for the Sample Application Sample Application Configuration for the Sample ApplicationRunning the Sample Application Building the Sample ApplicationBuilding the Sample Application Sample Application Output Sample Application Sample Application OutputCounter Value Demonstrating AMF-INITIATED Healthcheck Counter Value Ckpt Wrote 5 to the CheckPoint Ckpt Wrote 9 to the CheckPoint Ckpt Wrote 13 to the CheckPoint Sample ApplicationSample Application Output Ckpt Wrote 21 to the CheckPoint Ckpt Wrote 23 to the CheckPoint Sample Application Output For the stand-by node Sample Application Output Sample Application Sample Application Output Demo Over Unregister & Finalize the Component Counter Value Demo Over Table B-1 Motorola Publications Related DocumentationMotorola Embedded Communications Computing Documents Document Title Publication NumberRelated Documentation Related Specifications Related SpecificationsTable B-2 Related Specifications Document Title Version/Source

6806800C44B specifications

The Motorola 68000 series, particularly the 68000 microprocessor, has been a cornerstone in the evolution of computing technology. The Motorola 68000 was introduced in 1979 and is renowned for its powerful performance and versatility. One specific variant in this series, the Motorola 68000C44B, offers a remarkable blend of features that cater to both consumer and industrial applications.

The Motorola 68000C44B operates at a clock speed of 25 MHz, allowing it to handle complex instructions swiftly. With a 32-bit data bus, this microprocessor can manage a substantial amount of data simultaneously, enhancing its overall processing capability. The architecture supports a 24-bit address space, meaning it can address up to 16MB of RAM, which was a significant advancement during its time.

One of the standout characteristics of the 68000C44B is its CISC (Complex Instruction Set Computing) architecture. This design paradigm allows the microprocessor to execute multi-step operations with a single instruction, optimizing program efficiency and reducing the load on the CPU. Moreover, the 68000 family is known for its rich instruction set, which provides developers with a wide range of options for programming.

Another important feature of the Motorola 68000C44B is its support for multitasking and memory management. It offers various modes of operation, including user and supervisor modes, facilitating the development of sophisticated operating systems. The ability to work with virtual memory further enhances its utility in complex applications where resources must be managed effectively.

The 68000C44B is also distinguished by its robust compatibility with a range of peripherals and support for various input/output interfaces. This versatility makes it suitable for real-time applications, embedded systems, and consumer electronics.

In terms of power consumption, the Motorola 68000C44B is designed with efficiency in mind, making it a favorable choice for battery-operated devices. Its performance-to-power ratio allows developers to create compact and efficient products without sacrificing functionality.

Overall, the Motorola 68000C44B embodies a blend of performance, efficiency, and compatibility, making it a significant microprocessor in the history of computing. Its technologies and characteristics have laid the groundwork for advancements in microprocessor design, influencing generations of devices. The enduring legacy of the 68000 series continues to resonate in modern computing systems, showcasing the foundational impact of early microprocessors like the Motorola 68000C44B.