Enterasys Networks 2000 manual Bytes, Packets, Drop Events, Packet Type, Problems

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Statistics

Ethernet statistics are:

Bytes

Displays the total number of bytes contained in packets processed on the network segment. This number includes bytes contained in error packets.

Packets

Displays the total number of packets processed on the network segment. Again, this number includes error packets.

Drop Events

This field indicates the number of times packets were dropped because the device could not keep up with the flow of traffic on the network. Note that this value does not reflect the number of packets dropped, but only the number of times packets were dropped.

% Load

Displays the network segment load during the sample interval, in hundredths of a percent; this percentage reflects the network segment load compared to the theoretical maximum load (10 Mbps) of an Ethernet network.

Packet Type

 

Multicast

Indicates the number of good packets processed on the network

 

segment that were destined for more than one address. Note that

 

this total does not include broadcast packets.

Broadcast

Indicates the number of good packets processed on the network

 

segment that had the broadcast (FF-FF-FF-FF-FF-FF) destination

 

address.

Unicast

Indicates the number of good packets processed on the network

 

segment that were destined for a single address.

The percentages displayed to the right of the numerical values for these fields indicate what percentage of good packets transmitted on the network segment were multicast, broadcast, and unicast; these percentages will add up to 100. The pie chart in the center of the window provides a graphical view of the percentage breakdown; colors in the pie chart correspond to colors in the percentage display boxes. Values listed to the right of the pie chart indicat peak delta values recorded since the statistics screen was launched, and the date and time they occurred.

Problems

CRC/Alignment Indicates the number of packets processed by the network segment that had a non-integral number of bytes (alignment error) or a bad frame check sequence (Cyclic Redundancy Check, or CRC error).

RMON Statistics

4-3

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Contents SmartSwitch 2000 User’s Guide Page Virus Disclaimer Restricted Rights Notice Contents Alarm Configuration Chapter Statistics Chapter Managing Ethernet MicroLAN SwitchesChapter HSIM-W87 Configuration Chapter Fddi ApplicationsIndex Introduction Introduction Introduction Introduction Using the SmartSwitch 2000 User’s Guide Using the Mouse Related ManualsSoftware Conventions Left Mouse Button Right Mouse Button Location Common SmartSwitch 2000 Window FieldsDevice Name IP AddressUsing Window Buttons Using On-line HelpGetting Help Getting Help from the Global Technical Assistance Center Accessing On-line DocumentationLogin Introduction Getting Help SmartSwitch 2000 Chassis View Viewing Chassis Information Front Panel InformationConnection Status Time Boot PromPort Status FirmwareMenu Structure SmartSwitch 2000 Chassis View Menu StructureDevice Menu Port Status Menu Fddi Menu Repeater MenuUtilities Menu Help MenuModule Menu Port Menus Port Status Displays Selecting a Port Status ViewStatus Load Type ErrorsMapping SpeedSmartSwitch 2000 Chassis View Port Assignment Errors or Frame SizePort Status Color Codes Chassis Manager WindowDevice Type Viewing Hardware TypesConnection Type Module TypeInterface Description Viewing I/F Summary InformationLogical Status IndexDescription Physical StatusRaw Counts Viewing Interface Detail RateNon-Unicast ErrorAddress UnicastPackets Transmitted Transmit only Unknown Protocol Received onlyPackets Received Received only Transmit Queue Size Transmit onlyComponent Using Device Find Source AddressPort Instance Component Managing the Hub Configuring Ports12. The Port Configuration Window Configuring Standard Ethernet and Fddi PortsStandard Mode Configuring Fast Ethernet Ports on First Generation DevicesFull Duplex 13. The Fast Ethernet Port Configuration Window Link State Current Operational ModeDesired Operational Mode Port TypeRemote Capabilities Advertised AbilitiesFor 100Base-FX ports, options are Setting the Desired Operational ModeConfiguring Ethernet Ports on Second Generation Devices 14. The Ethernet Configuration Window Operational Mode Fields Remote Auto SignalAuto Negotiate Config Auto Negotiate ModeFlow Control DuplexAuto Negotiation Technologies Configuring the COM Port Setting Advertised Abilities for Auto NegotiationCom Port Function Com Port AdminUsing an Uninterruptable Power Supply UPS Accessing the UPS WindowSpeed Selection UPS ID Setting the UPS ID Redirecting Traffic on the SmartSwitch Using the Test OptionUsing the Disconnect Option To access the Port Redirect window Priority Configuration Configuring Priority Queuing Based on Receive Port 18. The Port Priority Configuration Window 19. The MAC Based Priority Configuration Window Configuring Priority Queuing Based on MAC-layer InformationPriority Current Priority EntriesAddress Type Frame TypeTo assign a transmit priority based on MAC-layer information Configuring Priority Queuing Based on Packet Type System Resources Window Nvram Installed Flash Memory InstalledDram Installed Sram InstalledReserving CPU Bandwidth 802.1Q VLANs What is a VLAN?About 802.1Q Vlan Configuration and Operation What is an 802.1Q Port-Based VLAN?1Q Trunk Ingress List OperationEgress List Operation 802.1Q Port TypesConfiguring Your 802.1Q Vlans Setting Vlan Parameters and Operational ModesHybrid Vlan Name Admin StatusDeleting VLANs Creating and Modifying VLANsUpdating Vlan Config Window Information Performing Ingress List ConfigurationEnabling and Disabling VLANs Mode Slot/PortAssigning Vlan Membership to Ports Port Operational ModeDiscard Port DiscardPerforming Egress List Configuration Setting Port Operational ModesSetting Port Frame Discard Formats Updating Vlan Port Config Window InformationName Slot NumberBuilding an Egress List Broadcast SuppressionEgress Ports Egress Untagged ListTime Since Peak Port #Total RX Peak RateThreshold 26. The Edit Time Window Setting the Device Date and TimeEnabling and Disabling Ports SmartSwitch 2000 Chassis View Managing the Hub About Rmon Alarms and Events Alarm ConfigurationAlarm Configuration Basic Alarm ConfigurationRmon Basic Alarm Configuration Window Accessing the Basic Alarm Configuration WindowIf Type Viewing Alarm StatusKilobits Total Errors Broadcasts/Multicasts If NumberRising Action Log/TrapPolling Interval Rising ThresholdCreating and Editing a Basic Alarm Alarm Configuration Disabling a Basic Alarm Viewing the Basic Alarm Log Accessing the Rmon Advanced Alarm/Event List Advanced Alarm ConfigurationRmon Advanced Alarm/Event List Window Alarm Configuration Creating and Editing an Advanced Alarm Rmon Create/Edit Alarms Window Alarm Configuration Alarm Configuration Alarm Configuration Table index.lengthin bytes.instancein decimal format Alarm Configuration Creating and Editing an Event Rmon Create/Edit Events Window Alarm Configuration Adding Actions to an Event Rmon Create/Edit Actions Window Viewing an Advanced Alarm Event Log Deleting an Alarm, Event, or ActionAlarm Configuration How Rising and Falling Thresholds Work Alarm Configuration How Rising and Falling Thresholds Work Statistics Accessing the Statistics WindowsStatistics Rmon StatisticsDrop Events ProblemsBytes PacketsFrame Size Bytes Packets Viewing Total, Delta, and Accumulated Statistics Printing Statistics If StatisticsIf Statistics Discarded Repeater Statistics Managing Ethernet MicroLAN SwitchesStatistics Windows Accessing the Statistics WindowsTo access the port-level Statistics window Broadcasts Hard ErrorsStatistics Defined Active UsersUsing the Total and Delta Option Buttons Soft ErrorsAccessing the Timer Statistics Windows Timer StatisticsTo access the port-level Timer Statistics window Repeater Performance Graphs Setting the Timer Statistics IntervalAccessing the Performance Graph Windows Total Errors Red Percent Load GreenFrames Blue Detail Button Configuring the Performance GraphsFrame Status Breakdown Error BreakdownAccessing the Alarm Limits Windows Alarm LimitsManaging Ethernet MicroLAN Switches Managing Ethernet MicroLAN Switches Collisions Broadcast Packets Errors of TypeConfiguring Alarms Setting the Alarm Limits Time IntervalWithin Trap Selection Setting Alarm LimitsAccessing the Trap Selection Windows Link State Traps Trap DefinitionsSource Address Traps Segmentation TrapsConfiguring Traps Managing Ethernet MicroLAN Switches Fddi Applications Click on Fddi Statistics Concentrator ConfigurationMAC State Concentrator Configuration WindowSMT Version Concentrator Non-M Ports Req. Requested Target Token Rotation TimeNeg. Negotiated Concentrator M PortsConnection Policy Window Ring ConfigurationFddi Applications Number of Nodes Station ListStations Panel Address ModeUpstream Neighbor Fddi PerformanceNode Class TopologyLost Frames Frame ErrorsTransmit Frames Receive FramesPeak KBytes/sec Fddi StatisticsFrames/sec KBytes/secClick on Frame Translation Configuring Fddi Frame Translation SettingsSetting the Fddi Statistics Poll Rate UtilFrame Translation Window Information about Ethernet and Fddi Frame TypesEthernet Ethernet FramesFddi Ethernet 802.3 Ethernet RawEthernet Snap Fddi FramesTranslate all Ethernet Raw frames to Fddi Frame Translation OptionsIP Fragmentation Translate all Non-Novell Fddi Snap frames toAuto Learn Novell Frame Translation Translate all Novell Fddi Snap frames toTranslate all Novell Fddi 802.2 frames to Translate all Novell Fddi MAC frames toAccessing the ATM Connections Window ATM ConfigurationConnection Data SettingsAdd DeleteRefresh Configuring Connections Adding a New ConnectionDeleting a Connection T3 Configuration Window HSIM-W87 ConfigurationValid Intervals Time ElapsedT3 Loop Back T1 Configuration WindowLine Status T3 Line TypeT1 Line Number T1 Frame Type T1 Loop BackT1 Line BuildOut Max Entries Configuring IP PriorityIP Priority Queue Status Number of EntriesHSIM-W87 Configuration Configuring IP Priority Numerics SymbolsIndex-2 Index-3 Index-4 Index-5 Index Index-6
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2000 specifications

Enterasys Networks, a key player in the networking space in 2000, was renowned for its innovative solutions that combined high-performance networking with robust security features. Founded with the vision of providing enterprise-level networking infrastructure, Enterasys positioned itself to cater to the growing demands of business networks during the dot-com boom.

One of the main features of Enterasys Networks was its focus on delivering secure, scalable networking solutions that could seamlessly integrate with existing enterprise systems. The company developed a range of products including switches, routers, and wireless solutions that were designed to optimize performance while ensuring security at every layer. Their core offerings provided businesses with the reliability required to handle increasing volumes of data traffic.

A standout technology of Enterasys was its identity and access management solutions. These technologies allowed organizations to control who could access network resources and under what conditions. This was particularly crucial in a time when cyber threats were on the rise, and businesses were becoming more aware of the need for strict network security protocols. The features included role-based access control and authentication measures, which were fundamental in safeguarding sensitive information.

Enterasys also introduced intelligent networking features, which enabled dynamic traffic management and prioritization. This technology helped organizations optimize their network performance by automatically adjusting to changing workload demands. Such capabilities were essential for businesses relying on bandwidth-intensive applications and services.

The company also embraced the rising trend of wireless networking, providing solutions that combined wired and wireless technologies for a unified experience. Enterasys Wireless LAN solutions were groundbreaking at the time, offering seamless connectivity and security to mobile devices, thereby enhancing productivity and flexibility within enterprise environments.

In addition to hardware, Enterasys developed network management software that simplified the administration of complex networks. This software enabled IT professionals to monitor performance, troubleshoot issues, and implement security policies efficiently.

Overall, Enterasys Networks in 2000 was characterized by its commitment to delivering secure, intelligent networking solutions that catered to the needs of modern enterprises. With its innovative technologies and features, Enterasys played a significant role in shaping the networking landscape, laying the groundwork for future advancements in network security and management.