Ruby Tech GS-1224L manual Flow Control

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User Manual

3-3. Flow Control

Flow control is a mechanism to tell the source device stopping sending frame for a specified period of time designated by target device until the PAUSE time expires. This is accomplished by sending a PAUSE frame from target device to source device. When the target is not busy and the PAUSE time is expired, it will send another PAUSE frame with zero time-to-wait to source device. After the source device receives the PAUSE frame, it will again transmit frames immediately. PAUSE frame is identical in the form of the MAC frame with a pause-time value and with a special destination MAC address 01-80-C2-00-00-01. As per the specification, PAUSE operation can not be used to inhibit the transmission of MAC control frame.

Normally, in 10Mbps and 100Mbps Ethernet, only symmetric flow control is supported. However, some switches (e.g. 24-Port GbE Web Smart Switch) support not only symmetric but asymmetric flow controls for the special application. In Gigabit Ethernet, both symmetric flow control and asymmetric flow control are supported. Asymmetric flow control only allows transmitting PAUSE frame in one way from one side, the other side is not but receipt-and-discard the flow control information. Symmetric flow control allows both two ports to transmit PASUE frames each other simultaneously.

Inter-frame Gap time

After the end of a transmission, if a network node is ready to transmit data out and if there is no carrier signal on the medium at that time, the device will wait for a period of time known as an inter-frame gap time to have the medium clear and stabilized as well as to have the jobs ready, such as adjusting buffer counter, updating counter and so on, in the receiver site. Once the inter-frame gap time expires after the de-assertion of carrier sense, the MAC transmits data. In IEEE802.3 specification, this is 96-bit time or more.

Collision

Collision happens only in half-duplex operation. When two or more network nodes transmit frames at approximately the same time, a collision always occurs and interferes with each other. This results the carrier signal distorted and un- discriminated. MAC can afford detecting, through the physical layer, the distortion of the carrier signal. When a collision is detected during a frame transmission, the transmission will not stop immediately but, instead, continues transmitting until the rest bits specified by jamSize are completely transmitted. This guarantees the duration of collision is enough to have all involved devices able to detect the collision. This is referred to as Jamming. After jamming pattern is sent, MAC stops transmitting the rest data queued in the buffer and waits for a random period of time, known as backoff time with the following formula. When backoff time expires, the device goes back to the state of attempting to transmit frame. The backoff time is determined by the formula below. When the times of collision is increased, the backoff time is getting long until the collision times excess 16. If this happens, the frame will be discarded and backoff time will also be reset.

where

k = min (n, 10)

Publication date: March, 2007

Revision A1

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Contents Page Page GS-1224L Duration of Hardware Warranty Iii Table of Contents 100 Revision History 02/10/2007 03/13/2007Vii Electronic Emission Notices Federal Communications Commission FCC StatementAbout this user’s manual Overview of 24-Port GbE Web Smart Switch Key Features in the DeviceVlan Hardware ChecklistFeatures ManagementPublication date March View of 24-Port GbE Web Smart Switch User Interfaces on the Front Panel Button, LEDs and PlugsSystem LED LED IndicatorsUser Interfaces on the Rear Panel 10/100/1000Ethernet TP Port 1 to 24 LEDView of the Optional Modules Front View of 1000Base-SX/LX LC, SFP Fiber TransceiverStarting 24-Port GbE Web Smart Switch Up Hardware and Cable InstallationConnecting the SFP Module to the Chassis Cabling Requirements TP Port and Cable InstallationPower On Firmware LoadingCabling Requirements for TP Ports Cabling Requirements for 1000SX/LX SFP Module1000Base-X TP, Fiber 100Base-TX TP 100Base-FX Fiber Typical Network Topology in DeploymentNo Vlan Configuration Diagram Case 2b Port-based Vlan See -4 Publication date March Managing 24-Port GbE Web Smart Switch through Ethernet Port Port GBE WEB Smart SwitchLogin Screen for Web IP Address Assignment110 10000000.00000001.00000010.1 Prefix Length No. of IP matched No. of Addressable IP Publication date March Typical Applications 10 Network Connection between Remote Site and Central Site11 Peer-to-peer Network Connection Basic Concept Management What’s the EthernetIEEE802.3 CSMA/CD MAC Snap STP BpduARP Media Access Control MAC SAP FormatPRE SFD FCSPublication date March How does a MAC work? Bytes DTE Flow Control Publication date March Revision A1 Bits How does a switch work? Collision Domain Publication date March Revision A1 Publication date March Virtual LAN Publication date March CFI Tag FormatPublication date March Publication date March Revision A1 VID Link Aggregation 10 Example of Link Aggregation Application Operation of Web-based Management Web Management Home Overview Information of Page Layout Lacp Rstp SnmpSystem Configuration Function descriptionPublication date March Publication date March Revision A1 Ports Configuration ON/OFFVlan Mode Configuration Port ConfigurationSelect Vlan Mode Vlan Group Configuration VIDAdd or Remove Vlan Member Port-Based Vlan Configuration 10 Aggregation/Trunking Configuration Aggregation11 Lacp Port Configuration LacpRstp Rstp Port Configuration Publication date March Publication date March Revision A1 Publication date March Port Mode Port Control Authentication Port Status Radius IP 16 802.1X Configuration 802.1x Parameters Igmp Snooping Vlan IDMirror Configuration 20 Mirror ports configurationQoSQuality of Service Configuration 21 QoS ConfigurationQoS Configuration Dscp Setting Filter Dhcp24 Filter Configuration 25 Rate Limit Configuration Rate Limit26 Storm Control Configuration Storm ControlPublication date March Snmp Parameters description27 Snmp Configuration Monitoring Statistics Overview28 Statistics Overview for all ports Detailed Statistics Publication date March 29 Detailed Statistics for each port Lacp Status 30 Lacp StatusRstp Status 31 Rstp Status Igmp Status Ping Status 32 Igmp Status33 Ping Maintenance Warm Restart 34 Warm RestartFactory Default Software Upgrade 36 Software UpgradeConfiguration File Transfer Function descriptionLogout Resolving No Link Condition Q&AAppendix a Technical Specifications MAC Address and Self-learning 8K MAC address Network InterfaceSFP Cable and Maximum LengthAmbient Temperature Diagnostic LEDPower Requirement DimensionsManagement Software Specifications From RFC1155-SMI PRIVATE-GS1224L-MIB Definitions = Begin ImportsFrom RFC1213-MIB OBJECT-TYPE