Fujitsu V8.0B10 manual Where

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port number

 

GUISRV_PORT=<port_number>

 

 

 

 

ex: 80

 

 

 

 

 

 

 

callback entry point

 

GUISRV_PATH=<entry_point>

 

 

 

 

standard: /CALLBACK/xpCallback.php

 

 

 

 

 

 

 

DMG Relay

 

 

 

 

 

 

 

 

 

Callback Collector host address

 

COLLECTOR_HOST=<host_address>

 

 

 

 

ex: machine02 or 192.168.1.2

 

 

 

 

 

 

 

Callback Collector port number

 

COLLECTOR_PORT=<port_number>

 

DomMonGui_Collector

 

 

ex: 55003

 

- Callback Collector host

 

 

 

 

 

Request Distributor host

 

DISTRIBUTOR_HOST=<host_address>

 

 

address

 

ex: machine02 or 192.168.1.2

 

 

 

 

 

 

 

 

 

 

 

Request Distributor port

 

 

 

DomMonGui_Distributor

number

 

 

 

- Request Distributor host

 

 

 

 

 

 

 

 

- DMG Server host

 

 

 

 

 

Request Processor

 

 

 

 

 

 

 

 

 

Request processor port number

 

 

 

DomMonGui_Processor

 

 

 

 

- Xprint host

 

 

 

 

- Request Distributor host

 

 

 

 

 

This hidden lrs object can be created and modified using the “DMG_Conf“ graphical tool .

During the installation of the DMG Relay package, the entries DomMonGui_Collector and DomMonGui_Distributor are automatically created in the ..\etc\services file.

Important:

The entry DomMonGui_Processor must be created manually.

After adding this LRS , Xprint must be restarted in order to be taken into account by the callback’s library.

For more information, see the XPRINT V8.0 Domain Monitoring GUI manual.

3.4.5.4 Activating the Event Collection feature

The callback collector can save all the information about the received Xprint events in 'Event Collection' files. To activate this feature, a dedicated valid license must be installed. The license file must be named 'Event_license' and saved in the C:\Programme\DomMonGui\Relay\OSL_LICENCE directory.

The generation of the files is ruled by means of a configuration file.

Callback Collector configuration file for the event collection files:

Below is an example of the definitions required in the configuration file: At installation a configuration file called 'config' is created in the C:\Programme\DomMonGui\Relay directory with the here below definitions. These settings can be modified according to the customer needs.

LOGFNAME="C:\Program Files\DomMonGui\EventCollection"

LOGFSIZE="1000"

LOGFNBR="10"

LOGFCURRENT="5"

where :

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Contents Release Notice General Delivery OrderingDocumentation New features ExplanationSoftware extensions, new functions Snmp Technical information Resource requirementsRequired disk storage Hardware requirements / supportVirtual Memory consumption Product installation/configuration Software configurationHow to configure an Xprint domain Database backupHow must the Xprint Pot-Masters be rebooted GatewaysInstallation of additional components of Xprint Local Xprint administratorMaximum number of devices per supervisor / servers objects Migration aspects when upgrading from former Xprint versions Migration aspects when upgrading from former Xprint V7.0 to Domain Monitoring GUI Relay SnmpHost address GUISRVHOST=hostaddress Where Domain Monitoring GUI Server Keyword Working DomainMonitoringGUI INI/xpIni.ini Daemons Xprint License Product useXprint License Update Bsd filter port options Renaming the hostname in an Xprint domainTest of the printer device address Device selectionLogging Clean up of directories at the start upXpalert Gateway optionsNotification event Standard entriesRequesting the job states with the APIs ContextCooperation with Wprint Options orderWhich PCL is recommended according to a printer Interoperability with LdapExample of a job submission using the Ldap interoperability Configuration 3.5.21.1.1 Configuration fileObsolete functions Incompatibilities Activating the callback libraryRestrictions Maintenance scopeDatabase Xprint fax and mail support Jobs sent to a remote domainWprint Domain Monitoring GUI DMG Server installationMercator FirewallUsing the options -fc and -rw with PCL Postscript Procedure in the event of errorsXPFORCESILENTPRINTING=1 XPFORCEPRINTING=1 Errata for documents and manuals

V8.0B10 specifications

Fujitsu V8.0B10 is an advanced technology platform that represents the cutting edge of Fujitsu's commitment to providing high-performance computing solutions tailored for enterprise-level applications. This version is designed with a focus on efficiency, scalability, and enhanced functionalities, serving as an indispensable tool for businesses seeking to optimize their IT infrastructure.

One of the standout features of Fujitsu V8.0B10 is its robust performance capabilities, which are powered by high-speed processors and extensive memory options. This ensures that complex workloads are handled seamlessly, enabling organizations to run multiple applications concurrently without compromising on speed. The architecture of the V8.0B10 emphasizes parallel processing, making it ideal for data-intensive tasks such as big data analytics and cloud computing.

Another significant characteristic of the Fujitsu V8.0B10 is its scalability. As businesses grow, their computing needs often change; the V8.0B10 can be easily expanded to accommodate increased workloads. This flexibility is crucial for enterprises that aim to maintain efficiency while adapting to evolving market demands. With modular components, organizations can upgrade their systems incrementally, ensuring they are never beset by obsolescence.

The platform also integrates advanced security features, making it suitable for industries with rigorous compliance requirements. Fujitsu emphasizes data protection with multiple layers of security, including encryption and access controls, thereby safeguarding sensitive information against unauthorized access.

To enhance user experience, Fujitsu V8.0B10 supports various cloud environments and hybrid solutions. It allows for seamless integration into existing infrastructures, simplifying transitions to cloud-based systems. This capability makes it a preferred choice for businesses seeking to future-proof their operations by leveraging the benefits of cloud technology.

In addition to performance and flexibility, Fujitsu V8.0B10 is engineered with sustainability in mind. It incorporates energy-efficient technologies that reduce power consumption while maintaining optimal performance levels. This commitment to environmental responsibility aligns with the growing demand for greener IT solutions.

In conclusion, Fujitsu V8.0B10 stands out as a powerful and flexible platform designed for modern enterprises. With its high-performance capabilities, scalable design, robust security features, seamless cloud integration, and sustainable technologies, it offers a comprehensive solution that meets the demands of today's business landscape. Organizations that adopt Fujitsu V8.0B10 can position themselves for success in an increasingly digital world.
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