Cisco Systems SRW248G4P manual Statistics Rmon Alarms, Statistics Rmon Events

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Chapter 5

Configuring the Switch

Statistics > RMON Alarms

The RMON Alarms screen allows you to record important events and critical network problems.. The RMON Alarm and Event Control Tables are used together to define specific criteria that will generate response events..

Alarms can be set to test data over any specified time interval and can monitor absolute or changing values, such as a statistical counter reaching a specific value, or a statistic changing by a certain amount over a set interval.. Alarms can be set to respond to either rising or falling thresholds..

Statistics > RMON Alarms

The Alarm Control Table allows you to add, update and delete specific index entries..

Interface  The selected interface on the Switch..

Statistics  The traffic statistics to be sampled.. Select from the drop-down list..

Interval  The time interval in seconds over which data is sampled and compared with the rising or falling threshold..

Sample Type  The method of sampling data, either Absolute or Delta.. For an absolute sample the variable will be compared directly to the thresholds.. For a delta sample the last sample is subtracted from the current value and the difference is then compared to the thresholds..

Startup Alarm  How the alarm is activated when the variable is compared to the thresholds.. This can be set to Rising, Falling, or Rising or Falling..

Rising Threshold  An alarm threshold for the sampled variable.. If the current value is greater than or equal to the threshold, and the last sample value was less than the threshold, then an alarm will be generated.. (After a rising event has been generated, another such event will not be generated until the sampled value has fallen below the Rising Threshold and reaches the Falling Threshold..)

Falling Threshold  An alarm threshold for the sampled variable.. If the current value is less than or equal to the threshold, and the last sample value was greater than the threshold, then an alarm will be generated.. (After a falling event has been generated, another such event will not be generated until the sampled value has risen above the Falling Threshold and reaches the Rising Threshold..)

Rising Event Index (0-65535)  The index of the Event that will be used if a rising alarm is triggered.. If there is no corresponding entry in the Event Control Table, or if this number is zero, then no event will be generated..

Falling Event Index (0-65535)  The index of the Event that will be used if a falling alarm is triggered.. If there is no corresponding entry in the Event Control Table, or if this number is zero, then no event will be generated..

Owner  The name of the person who created this entry in the Control Table..

Statistics > RMON Events

An RMON Event determines the action to take when an alarm is triggered.. The response to an alarm can include logging the alarm or sending an SNMP trap message.. If the response corresponding to an alarm has not yet been defined, use the RMON Event screen to configure the Event Setting table..

Statistics > RMON Events

48-Port 10/100 + 4-Port Gigabit Switch with WebView and Power over Ethernet

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Contents User Guide Table of Contents ACL Appendix a About Gigabit Ethernet and Fiber Optic Cabling Appendix E Contact InformationCopyright and Trademarks About This GuideIcon Descriptions Online ResourcesChapter Introduction ChapterFront Panel Chapter Product OverviewSide Panel Back PanelPre-Installation Considerations Placement OptionsOverview Rack-Mount Placement Hardware InstallationUplinking the Switch Desktop PlacementConfiguring the HyperTerminal Application Chapter Configuration Using Console InterfaceSystem Configuration LoginSwitch Main Menu System Configuration MenuUser & Password Settings Management SettingsIP Address Settings IP ConfigurationRestore System Default Settings Reboot SystemFile Management Back to Main Menu Port ConfigurationPoE Configuration Port StatusLogout System PoE ConfigurationPort PoE Configuration Port PoE StatusSetup Setup SummaryDevice Information Identification Setup Network SettingsSystem Information PoE InformationSet Time Setup TimePort Management Port Settings Edit Port SettingsPort Management Port Broadcast Control Port Management Link AggregationPort Management Lacp Port Management PoE Power SettingsGlobal Setting Port SettingCreate Vlan Vlan Management Port SettingsVlan Management Vlan Management Create VlanVlan Management Vlan to Ports Vlan Management Ports to VlanStatistics Statistics Rmon StatisticsStatistics Rmon History Statistics Rmon Events Statistics Rmon AlarmsStatistics 802.1x Statistics Statistics Port UtilizationACL MAC based ACL ACL IP based ACLSecurity ACL Binding Security Authentication ServersRadius Server Setting SecurityTacacs Server Setting Security 802.1x SettingsSecurity Ports Security Security Management ACL Security Https SettingsSecurity SSH Host-Key Settings Security SSH SettingsQoS CoS Settings QoSCoS to Queue Port to CoS QoS Queue SettingsQoS Dscp Settings Queue SettingsClass Map QoS DiffServ SettingsPolicy Map Spanning Tree QoS DiffServ Port BindingQoS Bandwidth Spanning Tree Global STP Spanning Tree STP StatusSpanning Tree STP Port Settings Spanning Tree STP Port Settings STP Port Setting Detail Spanning Tree Rstp Port Settings Spanning Tree Mstp Properties Spanning Tree Mstp Instance SettingsSpanning Tree Mstp Interface Settings Multicast Multicast Static Member Ports Multicast Global SettingsMulticast Static Router Ports Multicast Member Ports QueryMulticast Router Ports Query Snmp Global Parameters Snmp Group Profile Snmp ViewsData Privacy User AuthenticationSnmp Group Membership Snmp CommunitiesSNMPv1,2 AdminAdmin User Authentication Snmp Notification RecipientDynamic Address Query Admin Forwarding DatabaseStatic Address Setting Address AgingAdmin Log System LoggingSyslog Smtp Setting Admin Port MirroringAdmin Cable Test Admin PingAdmin Save Configuration Admin Jumbo Frame Admin Firmware UpgradeAdmin Http Upgrade Admin Factory Default Admin RebootAppendix a About Gigabit Ethernet Fiber Optic Cabling Gigabit EthernetFiber Optic Cabling Appendix B Glossary Appendix BGlossary Smtp Simple Mail Transfer Protocol The standard e Appendix B Appendix C Appendix C SpecificationsSpecifications Limited Warranty Appendix D Warranty and Regulatory InformationIC Statement Safety NoticesFCC Statement Industry Canada CanadaDansk Danish Miljøinformation for kunder i EU La Directiva 2002/96/CE de la UE exige que los equipos que Norsk Norwegian Miljøinformasjon for kunder i EU WEB For additional information, please visit Appendix E

SRW248G4P specifications

Cisco Systems SRW248G4P is a high-performance Layer 2 switch designed specifically for small to medium-sized businesses that require robust networking solutions. This switch supports Power over Ethernet (PoE), providing a highly flexible option for powering devices such as IP phones, wireless access points, and surveillance cameras.

One of the standout features of the SRW248G4P is its 48 10/100 Ethernet ports, which ensure ample connectivity for various networked devices. Additionally, it offers four Gigabit Ethernet uplink ports, allowing for seamless integration with existing network infrastructure and facilitating high-speed data transfer. The combination of these ports enables businesses to expand their network capabilities as needed without the immediate requirement for added devices.

The SRW248G4P comes equipped with advanced Layer 2 switching capabilities, including VLAN support, which enables the segmentation of network traffic for improved performance and security. It also supports Spanning Tree Protocol (STP) and Rapid Spanning Tree Protocol (RSTP), which help prevent network loops and ensure redundancy. With features like Link Aggregation Control Protocol (LACP), multiple physical connections can be combined into a single logical link, enhancing bandwidth and providing failover capabilities.

Another critical attribute of the Cisco SRW248G4P is its user-friendly management interface. The switch can be managed through a web-based interface, allowing IT administrators to configure settings, monitor performance, and troubleshoot issues with ease. Additionally, it supports SNMP (Simple Network Management Protocol) for integration with network management systems, further simplifying monitoring tasks.

Power over Ethernet functionality is a significant advantage of the SRW248G4P, providing up to 15.4 watts per port. This capability simplifies installation and reduces the clutter of power cords and outlets. Organizations can deploy PoE-enabled devices in locations that lack power sources, thus enhancing overall flexibility in network design.

In summary, the Cisco Systems SRW248G4P is a feature-rich switch tailored for small to medium-sized enterprises. Its blend of performance, management capabilities, and advanced features like PoE makes it a valuable asset in any organization's networking setup. By ensuring reliable connectivity and ease of management, businesses can focus more on growth and their core objectives rather than worrying about network complexities.