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VSYYe_^[]USVuh^5MYYh^5MYYj VYYujjhjfBfBSB BMSBBYt8jjh8jVYYdž1e^[]USVuh^5MYYh_5MYYj VYYujjhdfBfBSB BMSBBYt'jjhjVY1e^[]US]t$YSYYǃǃe[]US]t$YSYYǃǃe[]SV\$ |1SX2%tSX20^[SV\$ |_ uOS%u>SYSX2 SX2SX ƃ^0^[USVWuE^VYu&V,YtjjhȔjfV'Yu0ZVj2{YVu3|*V:ˀVV:VEEe_^[]SV\$ tQS|$u9S2#ht"% tƃ\\0^[SV\$t`S|$uHS2#ht1ST$% tƃ\\0^[SVt$ t^h^[USVWuEej\VVEVxEV€E胾~1U9uE% t2E%u&Vx]VƆƆ\\t.Vu%VMYƆ\\tVYƆ\VYVYM}tpVE}tfE%t1Ɔu!*uV%uVzYE% tƆ\\}e_^[]USVWuE.3\VVEVxEV€E胾~1U9uE% t2E%u&Vx]VƆƆ\VYVYM}tpVE}tfE%t1Ɔu!*uV%uVYE% tƆ\\}e_^[]USVW}EEP"JUE;v )UE@ %gE`t&]苷ET.]ET.]ET.]ET.EUE;P&rP&tE;uUEP"uPE}tPPu LJTtEEEEjpW E}u Eur ts G uWPE}[}tPE}u Ƈt uƇe_^[]USVW0uEUE@ %uxVYEE̋E@ %uE@ EԋE}tu džEPU؃$umE@ %EfPU䃾$tvfu)@ Eԋxu_^[SVWUl$t$1FCG;|$r]_^[SVW|$t$C;uFC>u_^[SVW|$t$17 a|z a|z 8}8~ C;\$r1_^[SVWUt$|$L$;uC%%$8Lgvņ ʀ SQfSCCCfC0CfCʀSʀSQ ʀ SQfSʀSʀ$SfCK. ʀ SQfSʀSʀSfCK%%uG"]_^[USVWu]1u #u%jSV F#u`#uuSu Ve_^[]USVWĀEM|E}tȉu ǀM|H@&@"EPEEPxEǀ EPUEPEH ʉUEPE;uE"EEE*Ef}E%u(E%uE%XEPfEE%08EPEPEPxEPut{E}E%t %u EE%E E%%-=v-=v-tE EEu|uN {Et||E|E|Ef@juu E@EE$$MAEm0EB"%t uYEE;u9UUEf8ufAEe(Ef8u EE Mf$EEEEEExEAEЋE PYEEEЉEME;uȋ EM̋Eȉ@ MЉHMfHM H@ @ Eu|@"EȉEEtEx&E pfEPxExxEAEEEEE؋ME;uȋ EME@ MHMfHM H@ @ Eu|@"EEԋEԉtxEEP];:UE+PUE u M싅tHEfttH tH ExtDE$t8E=t-tH@MfHE$u tHETtT||ET|ETTP|E+P8Exv EH$Eur ts E@ EuPEƀe_^[]USVWƅDžDžEƅ(DžDMHHtȉu ǀMH@&@"EP0EPETǀ EPPH ʉ$EPE;uƅ("Dž@ Eƅ(*Dž@f$E%u(E%uE%EPf  %0Y PEP0P(Put,,E%t %uDžE%Dž E%%-=v-=v-tƅ(ƅ(ƅ(@uy {EtEEEf@juu E@! DžXE$$MATT0EB"%tTYTT;uNTPPf8ufAXX4Pf8u DžXDžXMf$XXLL<=t0H@DžXE$$MATT0EB"%tTYTT;uNTPPf8ufAXX4Pf8u DžXDžXMf$XXLL<=t0H@ $Q(,R048^<@&DH{LڭPTXˮ\ `Odh+l[ptx`|zAѴ ʷU(YG'|ACy8m  /$(,0$4l8<@DH>LjPT&X\`d!hlptxm|=L[V.<Q%}/!,.B.&3%67D77 98";@BC Y$[(W[,^0_4"c8f<0i@lDmmHmL|tPtTtX)u\]u`uuduhulup'wt The keyword '%s' is not supported by driver Packet header size = %d (decimal). Packet is too small to be IP. Ethernet and IP header in separate fragments. Ethernet and IP header in same fragment. Protocol is not TCP or UDP. IpBufferPtr = %.8xh, BufferPtr = %.8x FragsNFlags = %4xh NoFragment = %xh MoreFragments Bit = %xh DatagramId = %.4x Packet is fragmented by IP. Packet has options which we cannot handle. IP Header Length = %xh, Layer4Length = %xh Protocol.Word = %xh, Layer4Length (byte swapped) = %xh Src Addr Lo = %.4x, Src Addr Hi = %.4x Dest Addr Lo = %.4x, Dest Addr Hi = %.4x PseudoHdrChecksum = %xh PseudoHdrChecksum AFTER carry logic = %xh TCP TcpBufferPtr = %.8xh, ChecksumOffset = %dd UDP UdpBufferPtr = %.8xh, ChecksumOffset = %dd Overriding default: RxDescriptors set to %d (decimal). Overriding default: TxDescriptors set to %d (decimal). Overriding default: CoalesceBuffers set to %d (decimal). Overriding default: Memory Write and Invalidate set to OFF. Overriding default: Flow Control Highwater mark set to %xh. Overriding default: Flow Control Lowwater mark set to %xh. Overriding default: Flow Control Pause time set to %xh. Overriding default: TX flow control is enabled. Overriding default: Flow Control is completely disabled. Flow control is disabled. TX flow control is enabled. Overriding default: Flow Control is completely disabled. Overriding default: RX flow control is enabled. Overriding default: TX flow control is enabled. RX and TX (Symmetric) flow control is enabled. Overriding default: EEPROM flow control configuration being used. Overriding default: Transmit Interrupt Delay set to %d (decimal). Overriding default: Receive Interrupt Delay set to %d (decimal). Overriding default: Receive Absolute Timer set to %d (decimal). Overriding default: Receive Small Packet Detect set to %d (decimal). Overriding default: MulticastFilter set to %d (decimal). Overriding default: CoalesceSize set to %d (decimal). Overriding default: AppendSize set to %d (decimal). Overriding default: CopySize set to %d (decimal). Overriding default: PMEDisable set to %d (0=enabled 1=disabled). Overriding default: PCI Hot-Plug persistency set to OFF. Overriding default: PCI Hot-Plug persistency set to ON. Jumbo option for this device is limited to 10500 bytes. Setting jumbo parameter to 10500. Overriding default: Auto negotiation disabled. Line speed set to %d Mbps. Overriding default: Link forced to full duplex operation. WARNING: Auto negotiation is disabled. To ensure that link is established correctly you MUST disable auto negotiation on the link partner full and force it to %d Mbps %s duplex operation. Overriding default: Link forced to half duplex operation. WARNING: Auto negotiation is disabled. To ensure that link is established correctly you MUST disable auto negotiation on the link partner half and force it to %d Mbps %s duplex operation. Overriding default: Auto negotiation disabled. Line speed set to %d Mbps. Overriding default: Link forced to full duplex operation. WARNING: Auto negotiation is disabled. To ensure that link is established correctly you MUST disable auto negotiation on the link partner full and force it to %d Mbps %s duplex operation. Overriding default: Link forced to half duplex operation. WARNING: Auto negotiation is disabled. To ensure that link is established correctly you MUST disable auto negotiation on the link partner half and force it to %d Mbps %s duplex operation. Linespeed forced to 1000 Mbps to support Jumbo frames. Overriding default: Auto negotiation disabled. Line speed set to %d Mbps. Auto negotiation enabled. Error: FORCEDUPLEX cannot be used unless SPEED is used also. Using default settings. Overriding default: Auto negotiation will advertise: 10H 10F 100H 100F 1000F WARNING: Improper use of the AUTONEG keyword can prevent normal link operation. Use this keyword with caution. Overriding default: Not waiting for link during initialization. Overriding default: Direct Data Pump mode enabled. Overriding default: Adaptive TX Threshold enabled. Overriding default: Early RX Threshold set to %d. Overriding default: Adaptive IFS disabled. Overriding default: Adaptive IFS enabled with user-specified values. Error: To override Adaptive IFS parameters you must use all four keywords. Parameter ignored. <s<s (((((((((2222222<<<<<<<<<FFFFFFPPPPPPZZZZZZZZZddddddddddddddnnnnnnnnnnnnnnnnnnxxxxxxxxxxqqqqrrrr2Pn   #&) !%),036:=#(,159=ADHKOR(-38=BFKOSW[^beh<BHMRW\`dhloruwySY_dimqtwz|hmrvy|`1 !REPORTTXEARLY=%d1,2BFORCEDUPLEX=%d=22B dSPEED=%d2,33 PMEDISABLE=%d533BAUTONEG=%d34BWAITFORLINK=%d44BEARLYRX=%d44BEARLYTX=%d5p5BADAPTIVEIFS=%d{55BSETATTENTIONSTATE=%d5Z6BPERSIST=%do66BCOPYSIZE=%d6J7 BAPPENDSIZE=%dV77BCOALESCESIZE=%d748BDMAFAIRNESS=%dD88BMULTICASTFILTER=%d8#9BFLOWCONTROL=%d699BHIGHWM=%x9:ȩBLOWWM=%x::BPAUSETIME=%x:: BTXINTDELAY=%d;m;(BRXINTDELAY=%d{;;BRXABSOLUTETIMER=%d;Y<BITR=%dl<<BRXSMALLPKTDETECT=%d<C=BMWI=%dW==BMLT=%d=.>BCOALESCEBUFFERS=%d5>> `BJUMBO=%d>??BIFSTEST=%d!???BIFSMIN=%d??@BIFSMAX=%d@n@@BIFSRATIO=%dx@@BIFSSTEP=%d@TAdBTXDESCRIPTORS=%d_AA `BRXDESCRIPTORS=%dA@B@BTBIFIX=%dQBBBPOLL=%dB+CBPOLLLOOPCOUNT=%d3CC BINTLOOPCOUNT=%dCD BTXSPEEDMODE=%d$DDBDDP=%dDEBTRANSMITMODE=%drEBOEMLOAD=%dEBLOM=%04x]FBRXCHECKSUM=%dFBTXCHECKSUM=%dDGBSENDXON=%dGBVLANTEST=%d-HpBSPURIOUS=%dHBDETECTLINKIMASTERSLAVE=%dIBCARDTYPE=%dI@BEEPROM=%dsJBSPD=%dJBDEBUG=%xTKBMINRXDESCRIPTORS=%dKBE1000EHSM_CSPEC_VERSION: 1.11HW.PersistentDriverShutdownHW.PersistentDriverShutdownReplyHW.PersistentDriverRestartHW.PersistentDriverRestartReplyHW.SetAttentionStateMANCAPppppppHardwareDriverMLID H(AL  M)U{Q| %</!0{Mz(HLIntel(R) PRO/1000 PT Desktop Adapter Intel(R) PRO/1000 PT Dual Port Network Connection Intel(R) PRO/1000 PT Dual Port Server Connection Intel(R) PRO/1000 PT Dual Port Server Adapter HP NC360T PCIe DP Gigabit Server Adapter Intel(R) PRO/1000 PF Dual Port Server Adapter Intel(R) PRO/1000 PB Dual Port Server Connection Intel(R) PRO/1000 PT Server Adapter HP NC110T PCIe Gigabit Server Adapter Intel(R) PRO/1000 PF Server Adapter Intel(R) PRO/1000 PT Quad Port LP Server Adapter HP NC364T PCIe Quad Port Gigabit Server Adapter Intel(R) PRO/1000 EB1 Network Connection Intel(R) PRO/1000 PF Quad Port Server Adapter Intel(R) 82575EB Dual Port Gigabit Ethernet Riser Card Intel(R) 82575EM Dual Port Gigabit Ethernet Backplane Connection Intel(R) Gigabit ET Dual Port Server Adapter HP NC362i Integrated DP Gigabit Server Adapter HP NC360m Dual Port 1GbE BL-c Adapter Intel(R) Gigabit CT Desktop Adapter HP NC112T PCIe Gigabit Server Adapter Intel(R) Gigabit PT Quad Port Server ExpressModule HP NC364m Quad Port 1GbE BL-c Adapter Intel(R) Gigabit EF Dual Port Server Adapter Intel(R) Gigabit ET Quad Port Server Adapter ZZONZZONZZON^^vN^^N^^N^^N^^N^<Dp O_Z8O_Z8O__8O__8O__8O``hO``hO}O}OONON<JpO~O~OPP<KpBP&tP4tPPPPQKQ<?2zQ<QQ<P2Q!R<VR~R,RRIntel(R) PRO/1000 PM Network Connection Intel(R) PRO/1000 PT Network Connection Intel(R) PRO/1000 PT Mobile Connection Intel(R) PRO/1000 PT IDE Intel(R) PRO/1000 PT Serial Intel(R) PRO/1000 PT IPMI/KCS Intel(R) PRO/1000 PF Network Connection Intel(R) PRO/1000 PB Server Connection Intel(R) PRO/1000 PL Network Connection Intel(R) PRO/1000 EB Network Connection Intel(R) PRO/1000 EB Server Connection Intel(R) PRO/1000 EB Backplane Connection Intel(R) PRO/1000 IDE Redirection Intel(R) PRO/1000 Serial over LAN Intel(R) 82566DM Gigabit Network Connection Intel(R) 82566DC Gigabit Network Connection Intel(R) 82566MM Gigabit Network Connection Intel(R) 82562V 10/100 Network Connection Intel(R) 82566MC Gigabit Network Connection Intel(R) 82562GT 10/100 Network Connection Intel(R) 82562G 10/100 Network Connection Intel(R) PRO/1000 EB1 Backplane Connection Intel(R) Virtual 82566 Gigabit Network Connection Intel(R) PRO/1000 PT Quad Port Server Adapter Intel(R) 82575EB Gigabit Ethernet FPGA Controller Intel(R) 82575EB Dual Port Gigabit Ethernet Network Connection Intel(R) 82575EB Dual Port Gigabit Ethernet Backplane connection Intel(R) 82575EM Dual Port Gigabit Ethernet Network Connection Intel(R) Gigabit VT Quad Port Server Adapter Intel(R) 82566DM-2 Gigabit Network Connection Intel(R) 82574L Gigabit Network Connection Intel(R) 82574L Network Connection Intel(R) 82576 Gigabit Dual Port Network Connection Intel(R) 82576 Gigabit Dual Port Server Network Connection Intel(R) PRO/1000F 82576 Quad Port Network Connection Intel(R) 82567LM-3 Gigabit Network Connection Intel(R) 82567LF-3 Gigabit Network Connection Intel(R) 82567LM-2 Gigabit Network Connection Intel(R) 82567LF-2 Gigabit Network Connection Intel(R) 82567V-2 Gigabit Network Connection Intel(R) 82567LM-4 Gigabit Network Connection Intel(R)82566DC-2 Gigabit Network Connection TTZT[T^vN_8O`hOaTbUc7U}T~WUUUUU'VUSV'VUVyVSVSVSVSVJVKVIVL'WMSWWWtPWX;XPkXXX#YQdYdYYYYZZKZRZZZ [P[[[L)[RIntel Copyright 1998, all rights reserved PPPPPPIANSBDRXNESL_Service_SuspendNESL_Service_ResumeNESL_MLID_Cable_DisconnectNESL_MLID_Cable_ReconnectE1000E&^_`abc}~IJKLML)DriverInit OEMLoad enabled LOM = %04X DetectLink Option enabled MasterSlave Option %d was chosen by user. Card Type set to 0x%02X. *** Maximum Physical Packet Receive Buffers set too low *** This driver requires the MAXIMUM PHYSICAL RECEIVE PACKET SIZE to be >= 2048. To change this parameter either Edit your STARTUP.NCF or Load MONITOR, select SERVER PARAMETERS, then select COMMUNICATIONS. set MAXIMUM PHYSICAL RECEIVE PACKET SIZE >= 2048. If you use jumbo frames, set this to 16400. Restart NetWare to complete. E1000E found in slot %d E1000E Slot %d with active link , already loaded. E1000E Slot %d without active link Error obtaining E1000E configuration information. Error obtaining E1000E slot information. No E1000E adapters found with link (DetectLink enabled). Configuring for slot=%d No E1000E adapters found. Error Parsing Driver Parameters (1). The specified slot does not contain a valid E1000E card. Error obtaining E1000E HIN information. Error obtaining E1000E configuration information. The BIOS-assigned PCI Interrupt Line is invalid. BAR%d = I/O addr 0x%x The BIOS-assigned PCI Base Register Address is invalid. Executing in client environment. Could not identify device type %x rev %d. ConfigTable->MLIDCFG_LinearMemory0 = %08X ConfigTable->MLIDCFG_LinearMemory1 = %08X DriverParameterBlock.DriverMaxMulticast = %08X Adapter->e1000_hw.mac.mta_reg_count = %08X The selected adapter does not support jumbo frames. Using 1514 byte frames. Jumbo Frames are not supported on the 82544 in PCI-X mode. Using 1514 byte frames. PCI\VEN_%04X&DEV_%04X&SUBSYS_%04X%04X&REV_%02X Eeprom[%d] = 0x%04X Error Parsing Driver Parameters (2). Disabled wake on PME assertion feature Enabled wake on PME assertion feature PCI Memory Access Enable bit was NOT set by the BIOS. PCI Enable Master bit could NOT be set. EEPROM is corrupt. Using LOGICAL fragments with coalescing - DEBUG. Using LOGICAL fragments with coalescing. Using PHYSICAL fragments with no coalescing - DEBUG. Using PHYSICAL fragments with no coalescing. Overriding default: Master Latency Timer set to %xh. Max Frame Size set to %d Max Buffer Size set to %d Adapter memory allocation failed. Overriding default: IEEE VLANs enabled on VLAN ID %d. Overriding default: ISL VLANs enabled on VLAN ID %d. Unable to reset the adapter. This may indicate that you need a newer driver. Please visit http://support.intel.com for the latest drivers. Max Frame Size set to %d Max Frame Size set to %d Smart Power Down enabled. PollOption.Parameter1.Max = %d CMSMGetPollSupportLevel() >= 2 CMSMGetPollSupportLevel() < 2 PollOption.Parameter1.Max = %d Polling is enabled with interrupt backup. Driver configured in interrupt mode. PollLoopCount = %d IntLoopCount = %d Spurious Interrupt reduction is enabled. Spurious Interrupt reduction is disabled. [Slot=%d Memory=%.8x Int=%x] The indicated HIN (%.8xh) does not exist. Unable to alloc memory for EventBlock. Unable to alloc memory for EBP. Error returned from NESLRegistration. Error returned from NESLRegistration. Unable to Register Suspend Event. Unable to Register Resume Event. Overriding default: Allow TCP Checksumming on Transmit set to ON. Overriding default: Allow TCP Checksumming on Receive set to ON. Overriding default: Jumbo frames enabled with max size %d. The Tx checksum option is not relevant for this kind of frame type. The Rx checksum option is not relevant for this kind of frame type. The Tx checksum option is not relevant for this kind of frame type. The Rx checksum option is not relevant for this kind of frame type. Overriding default: Allow TCP Checksumming on Transmit set to ON. Overriding default: Allow TCP Checksumming on Receive set to ON. Adapter->e1000_hw.bus.type = %d Adapter->e1000_hw.bus.width = %d Adapter->e1000_hw.bus.speed = %d Phy Id = %08X Phy Type = %08X ERT = %d DriverMulticastChange mcTable: %d: %02X pmcTable: %d: %02X DriverPromiscuousChange DriverShutdown: ShutdownType = %d; OperationScope = %d Unable to DEREGISTER Consumer1. Error = %x Unable to DEREGISTER Consumer2. Error = %x Unable to DEREGISTER Producer1. Error = %x Unable to DEREGISTER Producer2. Error = %x Unable to DEREGISTER SetAttentionProducer. Error = %x Unable to DEREGISTER Consumer1. Error = %x Unable to DEREGISTER Consumer2. Error = %x Unable to DEREGISTER Producer1. Error = %x Unable to DEREGISTER Producer2. Error = %x Unable to DEREGISTER SetAttentionProducer. Error = %x Link is down. Full DuplexHalf DuplexLink is up. %d Mbs %s DriverCallback - Unable to produce Producer1 event. DriverCallback - Unable to produce Producer2 event. DriverManagement MCECB_CON_GET_CAPABILITIES returning %08X Enabling Tx TCP Checksum Offload at NOS request. Enabling Tx UDP Checksum Offload at NOS request. Enabling Tx IPv4 Checksum Offload at NOS request. Enabling Rx TCP Checksum Offload at NOS request. Enabling Rx UDP Checksum Offload at NOS request. Enabling Rx IPv4 Checksum Offload at NOS request. Disabling Tx TCP Checksum Offload at NOS request. Disabling Tx UDP Checksum Offload at NOS request. Disabling Tx IPv4 Checksum Offload at NOS request. Disabling Rx TCP Checksum Offload at NOS request. Disabling Rx UDP Checksum Offload at NOS request. Disabling Rx IPv4 Checksum Offload at NOS request. Disabling all offload capabilities at NOS request. TX checksumming enabled on frame Ethernet_II for types: TCP UDP IPv4 TX checksumming enabled on frame Ethernet_SNAP for types: TCP UDP IPv4 RX checksumming enabled on frame Ethernet_II for types: TCP UDP IPv4 RX checksumming enabled on frame Ethernet_SNAP for types: TCP UDP IPv4 Error returned from NESLRegistration. Unable to alloc memory for Consumer1 Unable to register Consumer1 as a consumer Unable to alloc memory for Consumer2 Unable to register Consumer2 as a consumer Unable to alloc memory for Producer1 Unable to register Producer2 Unable to alloc memory for Producer2 Unable to register Producer2 Unable to alloc memory for SetAttentionProducer. Unable to register SetAttentionProducer Duplex Mode (1=Half, 2=Full)PCI Mode (0=PCI, 1=PCI-X, 2=PCI-EXPRESS)Bus Clock Rate (MHz) (0=Unavailable)PCIE Maximum Link Width (x)PCIE Negotiated Link Width (x)Flow Control (0=None, 1=Rx, 2=Tx, 3=Rx&Tx)Line Speed (Mbps)Network Link Status (0=Up, 1=Down)Configured Speed (Mbps; 0=Auto)Configured Duplex Mode (0=Auto, 1=Half, 2=Full)Link Status Change CountRx Checksum Good PktsRx Checksum Error PktsRx CRC Error CountAlignment ErrorsRx Symbol Error CountRx Error CountRx Missed Packets CountTx Single Collision CountTx Excessive Collisions CountTx Multiple CollisionTx Late Collisions CountTx Total CollisionsTx DMA UnderrunsTx ThresholdTx Defer CountTx With No CRSRx Sequence Error CountRx Carrier Extension ErrorsRx Length Error CountRx DMA Too EarlyXON Received CountXON Transmitted CountXOFF Received CountXOFF Transmitted CountFlow Control Received Unsupported Count64 Byte Packets Received65-127 Byte Packets Received128-255 Byte Packets Received256-511 Byte Packets Received512-1023 Byte Packets Received>1024 Byte Packets ReceivedGood Packets Received Count (Any Length)Broadcast Packets Received CountMulticast Packets Received CountGood Packets Transmitted Count (Any Length)Good Octets Received Count LOGood Octets Received Count HIGood Octets Transmitted Count LOGood Octets Transmitted Count HIReceive No Buffers CountReceive Undersize CountReceive Fragment CountReceive Oversize CountReceive Jabber CountTotal Octets Received LOTotal Octets Received HITotal Octets Transmitted LOTotal Octets Transmitted HITotal Packets ReceivedTotal Packets Transmitted64 Byte Packets Transmitted65-127 Byte Packets Transmitted128-255 Byte Packets Transmitted256-511 Byte Packets Transmitted512-1023 Byte Packets Transmitted>1024 Byte Packets TransmittedMulticast Packets Transmitted CountBroadcast Packets Transmitted CountJumbo Frames ReceivedJumbo Frames TransmittedCurrent IFS ValueRx Descriptors AllocatedNot SupportedError allocating memory for Transmit Structures. Error allocating memory for Transmit Buffers. Error allocating memory for Receive Packets. Error allocating memory for Receive Structures. Overriding default: Interrupt Throttle Rate set to dynamic. Overriding default: Interrupt Throttle Rate set to %d (decimal). ITR = %d RxAbsoluteTimer = %d RxIntDelay = %d RxSmallPktDetect = %d AllocateRCBs:: Requested: %d Allocated: %d *** Unable to allocate the requested number of Packet Receive Buffers. *** Requested: %d Allocated: %d To correct this: Load MONITOR, select SERVER PARAMETERS, then select COMMUNICATIONS. Set MAXIMUM PACKET RECEIVE BUFFERS >= 2000, set MINIMUM PACKET RECEIVE BUFFERS >= 500 and set MAXIMUM PHYSICAL RECEIVE PACKET SIZE >= 2048. If you use jumbo frames, set this to 16400. Restart NetWare to complete. Ctrl @ address = %.8x Status @ address = %.8x Facl @ address = %.8x Fcah @ address = %.8x FCT @ address = %.8x VET @ address = %.8x Icr @ address = %.8x ICS @ address = %.8x Ims @ address = %.8x Imc @ address = %.8x Rctl @ address = %.8x RDTR @ address = %.8x Rdbal @ address = %.8x Rdbah @ address = %.8x RDLEN @ address = %.8x RDH @ address = %.8x RDT @ address = %.8x Mta @ address = %.8x TCTL @ address = %.8x Tipg @ address = %.8x Tdbal @ address = %.8x Tdbah @ address = %.8x TDLEN @ address = %.8x TDH @ address = %.8x TDT @ address = %.8x Vfta @ address = %.8x Crcerrs @ address = %.8x Symerrs @ address = %.8x Mpc @ address = %.8x Ecol @ address = %.8x Latecol @ address = %.8x COLC @ address = %.8x Dc @ address = %.8x Sec @ address = %.8x Rlec @ address = %.8x Rdfh @ address = %.8x Rdft @ address = %.8x Tdfh @ address = %.8x Tdft @ address = %.8x Pbm @ address = %.8x Ctrl @ address %.8x = %.8x Status @ address %.8x = %.8x Facl @ address %.8x = %.8x Fcah @ address %.8x = %.8x FCT @ address %.8x = %.8x VET @ address %.8x = %.8x Icr @ address %.8x = %.8x ICS @ address %.8x = %.8x Ims @ address %.8x = %.8x Imc @ address %.8x = %.8x Rctl @ address %.8x = %.8x RDTR @ address %.8x = %.8x Rdbal @ address %.8x = %.8x Rdbah @ address %.8x = %.8x RDLEN @ address %.8x = %.8x RDH @ address %.8x = %.8x RDT @ address %.8x = %.8x Mta @ address %.8x = %.8x TCTL @ address %.8x = %.8x Tipg @ address %.8x = %.8x Tdbal @ address %.8x = %.8x Tdbah @ address %.8x = %.8x TDLEN @ address %.8x = %.8x TDH @ address %.8x = %.8x TDT @ address %.8x = %.8x Vfta @ address %.8x = %.8x Crcerrs @ address %.8x = %.8x Symerrs @ address %.8x = %.8x Mpc @ address %.8x = %.8x Ecol @ address %.8x = %.8x Latecol @ address %.8x = %.8x COLC @ address %.8x = %.8x Dc @ address %.8x = %.8x Sec @ address %.8x = %.8x Rlec @ address %.8x = %.8x Rdfh @ address %.8x = %.8x Rdft @ address %.8x = %.8x Tdfh @ address %.8x = %.8x Tdft @ address %.8x = %.8x Pbm @ address %.8x = %.8x CTRL_EXT@ address %.8x = %.8x PBA @ address %.8x = %.8x PBS @ address %.8x = %.8x RXDCTL @ address %.8x = %.8x ****** ConfigTable address = %.8x ****** Signature = %.26s MajorVersion = %d (dec) MinorVersion = %d (dec) MLIDCFG_NodeAddress = %.2x-%.2x-%.2x-%.2x-%.2x-%.2x ModeFlags = %x BoardNumber = %d BoardInstance = %d MaxFrameSize = %d BestDataSize = %d WorstDataSize = %d CardName = %s ShortName = %s FrameTypeString = %s Reserved0 = %x FrameID = %x TransportTime = %x SourceRouting = %x LineSpeed = %d LookAheadSize = %d SGCount = %x Reserved1 = %x PrioritySup = %x Reserved2 = %x DriverMajorVer = %d DriverMinorVer = %d MLIDCFG Flags = %x SendRetries = %x DriverLink = %x SharingFlags = %x Slot = %x IOPort0 = %x IORange0 = %x IOPort1 = %x IORange1 = %x MemoryAddr0 = %x MemorySize0 = %x MemoryAddr1 = %x MemorySize1 = %x Interrupt0 = %x Interrupt1 = %x DMALine0 = %x DMALine1 = %x ResourceTag = %x Config = %x CommandString = %x LogicalName = %s LinearMemory0 = %x LinearMemory1 = %x ChannelNumber = %x DBusTag = %x IOConfigMajorVr = %x IOConfigMinorVr = %x Unable to alloc memory for NESLSuspendProducerPtr Unable to Register NESLSuspendProducerPtr Unable to alloc memory for NESLResumeProducerPtr Unable to register NESLResumeProducerPtr %x Master Enable bit is set. BDRXIANSDriverSendPhysicalTCBDbg FragCount = %d Adapter->TxTcpChecksum = TRUE ProtocolId = %.4x Board EII Board Snap ChecksumStart = %.4x TxChecksum on StackID = %.4x XsumStatus is OK XsumStatus is BAD VlanId = %04X MH TxDescriptor->upper.data = %08X MH TxDescriptor->lower.data = %08X Frag %d TxDescriptor->upper.data = %08X Frag %d TxDescriptor->lower.data = %08X Last TxDescriptor->lower.data = %08X V TxDescriptor->upper.data = %08X V TxDescriptor->lower.data = %08X Tx Head - Tail: %8X - %8X Adapter->JumboTxCount = %08X DriverSendCoalesceLogicalTCBDbg FragCount = %d Adapter->TxTcpChecksum = TRUE ProtocolId = %.4x Board EII Board Snap ChecksumStart = %.4x StackID = %.4x XsumStatus is OK XsumStatus is BAD VlanId = %04X CurrentBuffer = %.8x, Length = %d CurrentFrag = %d, FragCount = %d Fragment %d Address %.8x Length %d Coalesce Current and Next Packet Fragments %d bytes copied from CurrentBuffer Coalesce virtual dest addr is %.8x %d bytes copied from NextBuffer Coalesce virtual dest addr is %.8x Fragment %dAddress %.8x Length %d Append Current Packet buffer to open Coalesce Buffers Copy Faster Lock case %d bytes copied Coalesce virtual dest addr is %.8x Map the Fragment Closing coalesce buffer Coalesce buffer with size = %d Using TxDesc %.8x TxDescriptor pointed to phys address %.8x TxDescriptor->upper.data = %08X TxDescriptor->lower.data = %08X Mapping this fragment Mapping fragment with size = %d TxDescriptor->upper.data = %08X TxDescriptor->lower.data = %08X Mapping fragment from list with size = %d TxDescriptor->upper.data = %08X TxDescriptor->lower.data = %08X Closing coalesce buffer Zero the %d bytes of padding data Coalesce buffer with size = %d Using Tx Descriptor = %.8x, phys address = %.8x TxDescriptor->upper.data = %08X TxDescriptor->lower.data = %08X L TxDescriptor->upper.data = %08X L TxDescriptor->lower.data = %08X V TxDescriptor->upper.data = %08X V TxDescriptor->lower.data = %08X Packet Transmit Summary: %d Fragment(s) in packet %d Coalesce Buffers used %d HW Descriptors Used Tx Head - Tail: %8X - %8X ETHERTSMl^b^X^N^D^:^0^&^^^^]]]]]]]]]]]]]|]r]h]^]T]J]@]6],]"]]]]\\\\\\\\\\\\\x\n\d\Z\P\F\<\2\(\\\}TsTiT_TUTKTAT7T-T#TTTTSSSSSSSSSSSSSySoSeS[SQSGS=S3S)SSS SSRRRCN?N7N3N/N'N#NNNNN NNMMAMKaKJJJI$IH=HGVGFjFEEE EDD(D$DCC7C3CBBUBQBAAcA_A@@|@x@ @@??%?!?>>9>5>==[=W=<<p<l<;;;{; ;;::#::99:96988H8D877Z7V766s6o6555{5 5544"4433=3935322A2=21jXTB>,(|xfbPL:6$  tp^ZHD2.~lhVR@<*&zvd`NJ84" rn\XFB0,|xtplhd`\XTPLHD@<840,($  |xtplhd`\XTPLHD@<840,($  |xtplhd`\XTPLHD@<840,($  |xtplhd`\XTPLHD@<840,($  |xtplhd`\XTPLHD@<840,($  |xtplhd`\XTPLHD@<840,($  |xtplhd`\XTPLHD@<840,($   | x t p l h d ` \ X T P L H D @ < 8 4 0 , ( $       | x t p l h d ` \ X T P L H D @ < 8 4 0 , ( $       | x t p l h d ` \ X T P L H D @ < 8 4 0 , ( $       | x t p l h d ` \ X T P L H D @ < 8 4 0 , ( $       | x t p l h d ` \ X T P L H D @ < 8 4 0 , ( $       |xtplhd`\XTPLHD@<840,($  |xtplhd`\XTPLHD@<840,($  6@@v@V@4@ @@l@I@Ӭ@@@@S@@@m@@ @@@@@r@O@-@4@@@@\@@@@@[@;@ݢ@@@@n@ @@[@ȟ@ƞ@@@@ۜ@@n@@@N@T@m@HD@<84f@y@x@w@}w@Nw@Hw@6w@0w@v@v@Gv@v@v@v@u@bt@;t@t@s@s@s@~s@Ws@0s@ s@r@r@r@mr@Fr@r@q@q@q@q@\q@5q@q@p@p@p@rp@Kp@$p@o@o@o@o@ao@:o@o@n@n@n@zn@Vn@2n@n@m@h@h@h@h@h@vh@]h@Dh@'h@g@g@e@}e@^e@?e@)e@e@d@d@d@d@d@jd@ ^@]@]@i]@|\@f\@[@[@Z@Y@Y@Y@IB@B@B@B@B@B@B@vB@lB@bB@XB@NB@DB@:B@0B@&B@B@B@B@A@A@A@A@A@A@A@A@A@A@A@A@xA@fA@`A@\A@RA@HA@>A@4A@*A@ A@A@ A@A@@@@@@@@@@@@@@@@@@@;@;@ ;@:@:@:@:@:@:@:@:@:@:@:@:@:@}:@s:@i:@_:@U:@K:@A:@7:@-:@#:@:@:@:@9@9@9@9@9@9@9@9@9@9@9@9@9@y9@o9@e9@[9@Q9@G9@=9@39@)9@9@9@ 9@9@8@8@8@8@8@8@8@8@8@8@8@8@8@u8@k8@a8@W8@M8@C8@7@7@6@6@u6@K6@6@5@5@o5@H5@5@4@4@4@Q4@E4+4@4@3@3@3v3@L3@>/@9/5/1/-/)/%/!///.@.@.@-@-@,@,@,@_,@@,@2,@,@+@+@+@t+@Z+@7+@+@*@*@*@*@*@d*@)@)@)@})@-)@)@(@(@5(@#(@'@'@y'@g'@&@&@u&@c&@&@&@}%@k%@%@ %@$@$@M$@3$@#@#@~!@k!@N!@@7@@@h@@@T@@@@@l@+@@@F@2@@@@@@@@@@!@@@@@t@@@@@@R@@@v@`@@@@@@@@]@M@@@@@@@j@W@'@@@@@@@q@a@@@O@@@<@@@@Q@F@;7@!@ @@@@@@Z@7@!@@ @@@@@@@o@f@P@K@:@%@@$@@@@d@E@m@b@N@5@0@@@@@@z@W@@@@@@@@@w@a@O@@i@@@y@<@-@!@@@@@@@@@s@X@0@@@@@@@x@Q@>@(@@@@@@r@e@Y@@@@@@@>@@@@O@@@G@3@@@@Q@=@"@@@@@@@@@@@@@@{@q@c@M@2@(@@ @@@{@`@Q@J@B@6@/@'@@@@@@@@@@@s@i@c@Z@T@>@9@2@@m@h@a@P@@@@@@@@@v@]@D@+@@@@@@@@@@{@b@\@S@L@;@5@@@@@@@@@@@@@@{@M@;@0@@ @@@@@@@@@@@@@@@@@@N@H@@@|yrkd7ʰٜҜ˜Ĝ~wpib[TMF?le^WPIB;4-& x~~~}}}}}}}}}}{}t}m}f}_}X}Q}m@6m@fffmfff_fXfQfJfCf@@@@%@@@@F@Out32u@In32u@ NBIRequest4[@ImportPublicSymbolSw@;w@v@v@CEtherTSMUpdateMulticast@CEtherTSMSendCompleteA@͐@@2@@m@CEtherTSMRegisterHSM @CEtherTSMProcessGetRCB@CMSMWrtConfigSpace16u@@*@@CMSMWrtConfigSpace8]@CMSMUpdateConfigTables7@CMSMSuspendPolling1@@CMSMShutdownMLID[ @CMSMSetHardwareInterrupt@CMSMServiceEvents I@Ր@@:@,@΂@@@m@CMSMSearchAdapter@@CMSMScheduleAES@CMSMScanBusInfoO@ CMSMReturnRCB@l@CMSMReturnDriverResourcesE@@@CMSMResumePollingB@ CMSMResetMLID2@2@ @@@CMSMRegisterMLID@CMSMRegisterHardwareOptions@CMSMRdConfigSpace32@CMSMRdConfigSpace16Ku@@F@@@CMSMRdConfigSpace8y@CMSMPrintString#C@@@f@D@@@|@Y@@@@@c@ @@}@@@@'@ǧ@@@_@=@C@@ѥ@@l@@*@@k@K@@͢@@@~@@k@֞@@@-@@@~@!@@^@y@x@v@Tv@ot@Ht@!t@s@s@s@s@ds@=s@s@r@r@r@zr@Sr@,r@r@q@q@q@iq@Bq@q@p@p@p@p@Xp@1p@ p@o@o@o@no@Go@ o@n@n@n@n@cn@?n@n@m@i@h@h@h@h@h@jh@Qh@4h@h@e@e@ke@Le@!e@^@]@\@[@6@6@.@,@+@)@)@:)@(@B(@'@'@&@&@$&@%@,%@$@Z$@[!@!@ @\@@@a@ @@@@y@8@@@S@@,@ @@@M@.@@@@+@@@@@@@@*@@@}@4@@@@@b@@@@@d@.@@@g@.@@@]@2@1@@w@X@z@@@d@@%@@@@@k@C@@@d@@@@@@Q@(@@@T@Z@@m@@@@K@z@j@Q@8@@@@@o@*@@@Z@o@|@J@@@@v@]@Y@1@@@@r@Y@@@@ @ @ @i @P @7 @ @ @ @ @ @d @2 @ @ @ @` @* @ @ @@@U@@@@g@@CMSMParseSingleParameter@R@@@@\@@f@@T@x@@@@@@@@5@@CMSMParseDriverParameters@@CMSMNESLRegisterProducerx@v@6@5@:5@CMSMNESLRegisterConsumer4@3@CMSMNESLProduceEvent @{ @@Z@CMSMNESLDeRegisterProducerx@Sx@@E@@@]@@CMSMNESLDeRegisterConsumer@@@@CMSMInitParser@ CMSMInitAlloc@CMSMGetPollSupportLevel@CMSMGetPhysListL@H@CMSMGetPhysical E@@@h@k@Eg@7`@/^@\@CMSMGetMicroTimert@t@t@t@CMSMGetInstanceNumberMappingy@CMSMGetInstanceNumber@CMSMGetConfigInfoM@CMSMGetCardConfigInfo@@@CMSMFreex@`x@w@_@u_@T_@,_@ _@@@@p@/@@@@@@@G@@@CMSMEnablePollingu@CMSMECBPhysToLogFrags@;@Z@CMSMDriverRemove@ CMSMCancelAESl@@CMSMAllocateRCB@f@ CMSMAlloc cw@-v@^@]@S]@P\@[@16@U5@4@3@23@i@ E1000EDmiLink`NWSERVER/e1000e.ldi0000755000000000000000000011214710607374212010616 0ustar ;DrIvEr DeScRiPtIoN ;VeRsIoN=1.11 ;CoPyRiGhT=Copyright(c) 1998 - 2006 Intel Corporation. All Rights Reserved. VER: 10.6 SYN: 1.00 ;- File: E1000E.LDI ;- Intel(R) PRO/1000 Network PCI-E Connection Driver Installation Information File DR E1000E { DES: $E1000E_1 HELP: $E1000E_2 PAR: 2.00 ; 82571-based PROD: PCI.8086.105E.*.*.*, PCI.8086.105E.8086.005E.*, PCI.8086.105E.8086.105E.*, PCI.8086.105E.8086.115E.*, PCI.8086.105E.8086.125E.*, PCI.8086.105E.8086.135E.*, PCI.8086.105F.*.*.*, PCI.8086.105F.8086.005F.*, PCI.8086.105F.8086.115F.*, PCI.8086.105F.8086.125F.*, PCI.8086.1060.*.*.*, PCI.8086.1060.8086.0060.*, PCI.8086.107D.*.*.*, PCI.8086.107D.8086.1082.*, PCI.8086.107D.8086.1084.*, PCI.8086.107D.8086.1092.*, PCI.8086.107E.*.*.*, PCI.8086.107E.8086.1084.*, PCI.8086.107E.8086.1085.*, PCI.8086.107E.8086.1094.*, PCI.8086.107F.*.*.*, PCI.8086.109A.*.*.*, PCI.8086.109A.1179.0001.*, PCI.8086.109A.1179.FF00.*, PCI.8086.10B9.*.*.*, PCI.8086.10B9.8086.1083.*, PCI.8086.10B9.8086.1093.*, PCI.8086.10A4.*.*.*, ; 82573-based PCI.8086.108B.*.*.*, PCI.8086.108C.*.*.*, PCI.8086.108C.1014.02F6.*, PCI.8086.108C.1014.02F9.*, PCI.8086.108C.1014.030E.*, PCI.8086.108C.1179.0001.*, PCI.8086.108C.1179.FF00.*, ; 80003-based PCI.8086.1096.*.*.*, PCI.8086.1098.*.*.*, PCI.8086.10BA.*.*.*, PCI.8086.10BB.*.*.*, ; ICH8 PCI.8086.104A.*.*.*, PCI.8086.104B.*.*.*, PCI.8086.104C.*.*.*, PCI.8086.10C4.*.*.*, PCI.8086.10C5.*.*.*, ; Kirkwood LP PCI.8086.10BC.*.*.*, ; Bolton PCI.8086.10A5.*.*.*, ; ICH9 PCI.8086.10BD.*.*.* ;@# Sprod: 'Intel~Intel(R) PRO/1000 PT Dual Port Network Connection', ;@# 'Intel~Intel(R) PRO/1000 PT Dual Port Server Connection', ;@# 'Intel~Intel(R) PRO/1000 PT Dual Port Network Connection', ;@# 'Intel~Intel(R) PRO/1000 PT Dual Port Server Adapter', ;@# 'Intel~Intel(R) PRO/1000 PT Dual Port Server Adapter', ;@# 'Intel~Intel(R) PRO/1000 PT Dual Port Server Adapter', ;@# 'Intel~Intel(R) PRO/1000 PF Dual Port Server Adapter', ;@# 'Intel~Intel(R) PRO/1000 PF Dual Port Server Adapter', ;@# 'Intel~Intel(R) PRO/1000 PF Dual Port Server Adapter', ;@# 'Intel~Intel(R) PRO/1000 PF Dual Port Server Adapter', ;@# 'Intel~Intel(R) PRO/1000 PB Dual Port Server Connection', ;@# 'Intel~Intel(R) PRO/1000 PB Dual Port Server Connection', ;@# 'Intel~Intel(R) PRO/1000 PT Network Connection', ;@# 'Intel~Intel(R) PRO/1000 PT Server Adapter', ;@# 'Intel~Intel(R) PRO/1000 PT Server Adapter', ;@# 'Intel~Intel(R) PRO/1000 PT Server Adapter', ;@# 'Intel~Intel(R) PRO/1000 PF Network Connection', ;@# 'Intel~Intel(R) PRO/1000 PF Server Adapter', ;@# 'Intel~Intel(R) PRO/1000 PF Server Adapter', ;@# 'Intel~Intel(R) PRO/1000 PF Server Adapter', ;@# 'Intel~Intel(R) PRO/1000 PB Server Connection', ;@# 'Intel~Intel(R) PRO/1000 PL Network Connection', ;@# 'Intel~Intel(R) PRO/1000 PL Network Connection', ;@# 'Intel~Intel(R) PRO/1000 PL Network Connection', ;@# 'Intel~Intel(R) PRO/1000 PT Desktop Adapter', ;@# 'Intel~Intel(R) PRO/1000 PT Desktop Adapter', ;@# 'Intel~Intel(R) PRO/1000 PT Desktop Adapter', ;@# 'Intel~Intel(R) PRO/1000 PT Quad Port Server Adapter', ;@# 'Intel~Intel(R) PRO/1000 PM Network Connection', ;@# 'Intel~Intel(R) PRO/1000 PM Network Connection', ;@# 'Intel~Intel(R) PRO/1000 PM Network Connection', ;@# 'Intel~Intel(R) PRO/1000 PM Network Connection', ;@# 'Intel~Intel(R) PRO/1000 PM Network Connection', ;@# 'Intel~Intel(R) PRO/1000 PM Network Connection', ;@# 'Intel~Intel(R) PRO/1000 PM Network Connection', ;@# 'Intel~Intel(R) PRO/1000 EB Network Connection', ;@# 'Intel~Intel(R) PRO/1000 EB Backplane Connection', ;@# 'Intel~Intel(R) PRO/1000 EB1 Network Connection', ;@# 'Intel~Intel(R) PRO/1000 EB1 Backplane Connection', ;@# 'Intel~Intel(R) 82566DM Gigabit Platform LAN Connect', ;@# 'Intel~Intel(R) 82566DC Gigabit Platform LAN Connect', ;@# 'Intel~Intel(R) 82562V 10/100 Platform LAN Connect', ;@# 'Intel~Intel(R) 82562GT 10/100 Network Connection', ;@# 'Intel~Intel(R) 82562G 10/100 Network Connection', ;@# 'Intel~Intel(R) PRO/1000 PT Quad Port LP Server Adapter', ;@# 'Intel~Intel(R) PRO/1000 PF Quad Port Server Adapter', ;@# 'Intel~Intel(R) 82566DM-2 Gigabit Network Connection' ;@# Client: E1000E.LAN, CE1000.LAN ;@# Alias: E1000E.LAN, CE1000.LAN FILE: E1000E.LAN PR SLOT REQ { HELP: $E1000E_3 TYP: DEC (5) VAL: 1 - 65535 DEF: UND } PR NODE OPT { HELP: $E1000E_4 TYP: HEX (12) VAL: 000000000000-FFFFFFFFFFFF DEF: UND Out: 'NODE=%s' } FR FrameSelect { Help: $E1000E_5 CD: $E1000E_6 CH: 'Ethernet_802.2' CD: $E1000E_7 CH: 'Ethernet_802.3' CD: $E1000E_8 CH: 'Ethernet_SNAP' CD: $E1000E_9 CH: 'Ethernet_II' DEF: 1,2,3,4 } PR RXBUFFERS OPT { DES: "RX BUFFERS" TYP: DEC (3) HELP: $E1000E_10 VAL: 8 - 128 DEF: 64 OUT: 'RXDESCRIPTORS=%s' } PR TXBUFFERS OPT { DES: "TX BUFFERS" TYP: DEC (3) HELP: $E1000E_11 VAL: 32 - 128 DEF: 96 OUT: 'TXDESCRIPTORS=%s' } PR SPEED OPT { DES: "SPEED" TYP: DEC (3) HELP: $E1000E_12 VAL: 0, 10, 100 DEF: 0 OUT: 'SPEED=%s' } PR FORCEDUPLEX OPT { DES: "FORCE DUPLEX" HELP: $E1000E_13 TYP: DEC (1) VAL: 0, 1, 2 DEF: 0 OUT: 'FORCEDUPLEX=%s' } PR FLOWCONTROL OPT { DES: "FLOW CONTROL" HELP: $E1000E_14 TYP: DEC (1) VAL: 0, 1, 2, 3 DEF: 3 OUT: 'FLOWCONTROL=%s' } PR PMEDISABLE OPT { DES: "PME DISABLE" HELP: $E1000E_15 TYP: DEC (1) VAL: 0, 1 DEF: 0 OUT: 'PMEDISABLE=%s' } PR COALESCEBUFFERS OPT { DES: "COALESCE BUFFERS" HELP: $E1000E_16 TYP: DEC (3) VAL: 32 - 128 DEF: 96 OUT: 'COALESCEBUFFERS=%s' } } DLANG: 4 ;English $E1000E_1 = "Intel(R) PRO/1000 PCI-E Network Connection Driver" $E1000E_2 = "This driver supports Intel(R) PRO/1000 PCI-E Network Connections.\n\n" $E1000E_3 = "Slot number for the adapter.\n For PCI adapters, this refers to the Device Location." $E1000E_4 = "Specifies the MAC address to be used by the board.\n" $E1000E_5 = "The driver defaults to 802.2 frame format. You may use this default to select from the other 3 options => 802.3, Ethernet II and Ethernet SNAP." $E1000E_6 = "E1000E 802.2" $E1000E_7 = "E1000E 802.3" $E1000E_8 = "E1000E SNAP" $E1000E_9 = "E1000E E_II" $E1000E_10 = "This is to pre-allocate receive adapter resources.\n This value MUST BE in multiples of 8.\n This setting may be affected by the Netware server maximum/minimum packet receive buffer settings." $E1000E_11 = "TX descriptors are used to tell the hardware where the fragments of a transmit packet are in host memory. A transmit packet can use 1 or more descriptors. Most transmits require 3 or 4 descriptors. Each descriptor is 16 bytes." $E1000E_12 = "On copper-based adapters, forces the line speed to the specified value in Mbps. If this parameter is not specified, or is set to 0, the adapter will auto-negotiate to the best possible link based on link partner. Gig speed can only be achieved by auto-negotiation.\n This setting has no effect on fiber adapters which are defined to be 1000 Mbps." $E1000E_13 = "On copper-based adapters, forces the duplex mode.\n 1 - indicates half duplex\n 2 - indicates full duplex\n If this parameter is not specified, or is set to 0, the adapter will auto-negotiate to the best possible link. If it cannot auto-negotiate, it will default to half-duplex.\n This setting has no effect on fiber adapters which are defined to be full duplex." $E1000E_14 = "Controls the ability of the adapter to advertise flow control capabilities. Default is to allow both TX and RX flow control.\n 0 is off, 1 is RX, 2 is TX, 3 is both." $E1000E_15 = "Enables/disables wake-up from APM power management." $E1000E_16 = "Number of buffers available for transmits acceleration." LANG: 6 ;French $E1000E_1 = "Intel(R) PRO/1000 PCI-E Network Connection Driver" $E1000E_2 = "This driver supports Intel(R) PRO/1000 PCI-E Network Connections.\n\n" $E1000E_3 = "Slot number for the adapter.\n For PCI adapters, this refers to the Device Location." $E1000E_4 = "Specifies the MAC address to be used by the board.\n" $E1000E_5 = "The driver defaults to 802.2 frame format. You may use this default to select from the other 3 options => 802.3, Ethernet II and Ethernet SNAP." $E1000E_6 = "E1000E 802.2" $E1000E_7 = "E1000E 802.3" $E1000E_8 = "E1000E SNAP" $E1000E_9 = "E1000E E_II" $E1000E_10 = "This is to pre-allocate receive adapter resources.\n This value MUST BE in multiples of 8.\n This setting may be affected by the Netware server maximum/minimum packet receive buffer settings." $E1000E_11 = "TX descriptors are used to tell the hardware where the fragments of a transmit packet are in host memory. A transmit packet can use 1 or more descriptors. Most transmits require 3 or 4 descriptors. Each descriptor is 16 bytes." $E1000E_12 = "On copper-based adapters, forces the line speed to the specified value in Mbps. If this parameter is not specified, or is set to 0, the adapter will auto-negotiate to the best possible link based on link partner. Gig speed can only be achieved by auto-negotiation.\n This setting has no effect on fiber adapters which are defined to be 1000 Mbps." $E1000E_13 = "On copper-based adapters, forces the duplex mode.\n 1 - indicates half duplex\n 2 - indicates full duplex\n If this parameter is not specified, or is set to 0, the adapter will auto-negotiate to the best possible link. If it cannot auto-negotiate, it will default to half-duplex.\n This setting has no effect on fiber adapters which are defined to be full duplex." $E1000E_14 = "Controls the ability of the adapter to advertise flow control capabilities. Default is to allow both TX and RX flow control.\n 0 is off, 1 is RX, 2 is TX, 3 is both." $E1000E_15 = "Enables/disables wake-up from APM power management." $E1000E_16 = "Number of buffers available for transmits acceleration." LANG: 7 ;German $E1000E_1 = "Intel(R) PRO/1000 PCI-E Network Connection Driver" $E1000E_2 = "This driver supports Intel(R) PRO/1000 PCI-E Network Connections.\n\n" $E1000E_3 = "Slot number for the adapter.\n For PCI adapters, this refers to the Device Location." $E1000E_4 = "Specifies the MAC address to be used by the board.\n" $E1000E_5 = "The driver defaults to 802.2 frame format. You may use this default to select from the other 3 options => 802.3, Ethernet II and Ethernet SNAP." $E1000E_6 = "E1000E 802.2" $E1000E_7 = "E1000E 802.3" $E1000E_8 = "E1000E SNAP" $E1000E_9 = "E1000E E_II" $E1000E_10 = "This is to pre-allocate receive adapter resources.\n This value MUST BE in multiples of 8.\n This setting may be affected by the Netware server maximum/minimum packet receive buffer settings." $E1000E_11 = "TX descriptors are used to tell the hardware where the fragments of a transmit packet are in host memory. A transmit packet can use 1 or more descriptors. Most transmits require 3 or 4 descriptors. Each descriptor is 16 bytes." $E1000E_12 = "On copper-based adapters, forces the line speed to the specified value in Mbps. If this parameter is not specified, or is set to 0, the adapter will auto-negotiate to the best possible link based on link partner. Gig speed can only be achieved by auto-negotiation.\n This setting has no effect on fiber adapters which are defined to be 1000 Mbps." $E1000E_13 = "On copper-based adapters, forces the duplex mode.\n 1 - indicates half duplex\n 2 - indicates full duplex\n If this parameter is not specified, or is set to 0, the adapter will auto-negotiate to the best possible link. If it cannot auto-negotiate, it will default to half-duplex.\n This setting has no effect on fiber adapters which are defined to be full duplex." $E1000E_14 = "Controls the ability of the adapter to advertise flow control capabilities. Default is to allow both TX and RX flow control.\n 0 is off, 1 is RX, 2 is TX, 3 is both." $E1000E_15 = "Enables/disables wake-up from APM power management." $E1000E_16 = "Number of buffers available for transmits acceleration." LANG: 8 ;Italian $E1000E_1 = "Intel(R) PRO/1000 PCI-E Network Connection Driver" $E1000E_2 = "This driver supports Intel(R) PRO/1000 PCI-E Network Connections.\n\n" $E1000E_3 = "Slot number for the adapter.\n For PCI adapters, this refers to the Device Location." $E1000E_4 = "Specifies the MAC address to be used by the board.\n" $E1000E_5 = "The driver defaults to 802.2 frame format. You may use this default to select from the other 3 options => 802.3, Ethernet II and Ethernet SNAP." $E1000E_6 = "E1000E 802.2" $E1000E_7 = "E1000E 802.3" $E1000E_8 = "E1000E SNAP" $E1000E_9 = "E1000E E_II" $E1000E_10 = "This is to pre-allocate receive adapter resources.\n This value MUST BE in multiples of 8.\n This setting may be affected by the Netware server maximum/minimum packet receive buffer settings." $E1000E_11 = "TX descriptors are used to tell the hardware where the fragments of a transmit packet are in host memory. A transmit packet can use 1 or more descriptors. Most transmits require 3 or 4 descriptors. Each descriptor is 16 bytes." $E1000E_12 = "On copper-based adapters, forces the line speed to the specified value in Mbps. If this parameter is not specified, or is set to 0, the adapter will auto-negotiate to the best possible link based on link partner. Gig speed can only be achieved by auto-negotiation.\n This setting has no effect on fiber adapters which are defined to be 1000 Mbps." $E1000E_13 = "On copper-based adapters, forces the duplex mode.\n 1 - indicates half duplex\n 2 - indicates full duplex\n If this parameter is not specified, or is set to 0, the adapter will auto-negotiate to the best possible link. If it cannot auto-negotiate, it will default to half-duplex.\n This setting has no effect on fiber adapters which are defined to be full duplex." $E1000E_14 = "Controls the ability of the adapter to advertise flow control capabilities. Default is to allow both TX and RX flow control.\n 0 is off, 1 is RX, 2 is TX, 3 is both." $E1000E_15 = "Enables/disables wake-up from APM power management." $E1000E_16 = "Number of buffers available for transmits acceleration." LANG: 14 ;Spanish $E1000E_1 = "Intel(R) PRO/1000 PCI-E Network Connection Driver" $E1000E_2 = "This driver supports Intel(R) PRO/1000 PCI-E Network Connections.\n\n" $E1000E_3 = "Slot number for the adapter.\n For PCI adapters, this refers to the Device Location." $E1000E_4 = "Specifies the MAC address to be used by the board.\n" $E1000E_5 = "The driver defaults to 802.2 frame format. You may use this default to select from the other 3 options => 802.3, Ethernet II and Ethernet SNAP." $E1000E_6 = "E1000E 802.2" $E1000E_7 = "E1000E 802.3" $E1000E_8 = "E1000E SNAP" $E1000E_9 = "E1000E E_II" $E1000E_10 = "This is to pre-allocate receive adapter resources.\n This value MUST BE in multiples of 8.\n This setting may be affected by the Netware server maximum/minimum packet receive buffer settings." $E1000E_11 = "TX descriptors are used to tell the hardware where the fragments of a transmit packet are in host memory. A transmit packet can use 1 or more descriptors. Most transmits require 3 or 4 descriptors. Each descriptor is 16 bytes." $E1000E_12 = "On copper-based adapters, forces the line speed to the specified value in Mbps. If this parameter is not specified, or is set to 0, the adapter will auto-negotiate to the best possible link based on link partner. Gig speed can only be achieved by auto-negotiation.\n This setting has no effect on fiber adapters which are defined to be 1000 Mbps." $E1000E_13 = "On copper-based adapters, forces the duplex mode.\n 1 - indicates half duplex\n 2 - indicates full duplex\n If this parameter is not specified, or is set to 0, the adapter will auto-negotiate to the best possible link. If it cannot auto-negotiate, it will default to half-duplex.\n This setting has no effect on fiber adapters which are defined to be full duplex." $E1000E_14 = "Controls the ability of the adapter to advertise flow control capabilities. Default is to allow both TX and RX flow control.\n 0 is off, 1 is RX, 2 is TX, 3 is both." $E1000E_15 = "Enables/disables wake-up from APM power management." $E1000E_16 = "Number of buffers available for transmits acceleration." LANG: 12 ;Portugese $E1000E_1 = "Intel(R) PRO/1000 PCI-E Network Connection Driver" $E1000E_2 = "This driver supports Intel(R) PRO/1000 PCI-E Network Connections.\n\n" $E1000E_3 = "Slot number for the adapter.\n For PCI adapters, this refers to the Device Location." $E1000E_4 = "Specifies the MAC address to be used by the board.\n" $E1000E_5 = "The driver defaults to 802.2 frame format. You may use this default to select from the other 3 options => 802.3, Ethernet II and Ethernet SNAP." $E1000E_6 = "E1000E 802.2" $E1000E_7 = "E1000E 802.3" $E1000E_8 = "E1000E SNAP" $E1000E_9 = "E1000E E_II" $E1000E_10 = "This is to pre-allocate receive adapter resources.\n This value MUST BE in multiples of 8.\n This setting may be affected by the Netware server maximum/minimum packet receive buffer settings." $E1000E_11 = "TX descriptors are used to tell the hardware where the fragments of a transmit packet are in host memory. A transmit packet can use 1 or more descriptors. Most transmits require 3 or 4 descriptors. Each descriptor is 16 bytes." $E1000E_12 = "On copper-based adapters, forces the line speed to the specified value in Mbps. If this parameter is not specified, or is set to 0, the adapter will auto-negotiate to the best possible link based on link partner. Gig speed can only be achieved by auto-negotiation.\n This setting has no effect on fiber adapters which are defined to be 1000 Mbps." $E1000E_13 = "On copper-based adapters, forces the duplex mode.\n 1 - indicates half duplex\n 2 - indicates full duplex\n If this parameter is not specified, or is set to 0, the adapter will auto-negotiate to the best possible link. If it cannot auto-negotiate, it will default to half-duplex.\n This setting has no effect on fiber adapters which are defined to be full duplex." $E1000E_14 = "Controls the ability of the adapter to advertise flow control capabilities. Default is to allow both TX and RX flow control.\n 0 is off, 1 is RX, 2 is TX, 3 is both." $E1000E_15 = "Enables/disables wake-up from APM power management." $E1000E_16 = "Number of buffers available for transmits acceleration." LANG: 9 ;Japanese $E1000E_1 = "Intel(R) PRO/1000 PCI-E Network Connection Driver" $E1000E_2 = "This driver supports Intel(R) PRO/1000 PCI-E Network Connections.\n\n" $E1000E_3 = "Slot number for the adapter.\n For PCI adapters, this refers to the Device Location." $E1000E_4 = "Specifies the MAC address to be used by the board.\n" $E1000E_5 = "The driver defaults to 802.2 frame format. You may use this default to select from the other 3 options => 802.3, Ethernet II and Ethernet SNAP." $E1000E_6 = "E1000E 802.2" $E1000E_7 = "E1000E 802.3" $E1000E_8 = "E1000E SNAP" $E1000E_9 = "E1000E E_II" $E1000E_10 = "This is to pre-allocate receive adapter resources.\n This value MUST BE in multiples of 8.\n This setting may be affected by the Netware server maximum/minimum packet receive buffer settings." $E1000E_11 = "TX descriptors are used to tell the hardware where the fragments of a transmit packet are in host memory. A transmit packet can use 1 or more descriptors. Most transmits require 3 or 4 descriptors. Each descriptor is 16 bytes." $E1000E_12 = "On copper-based adapters, forces the line speed to the specified value in Mbps. If this parameter is not specified, or is set to 0, the adapter will auto-negotiate to the best possible link based on link partner. Gig speed can only be achieved by auto-negotiation.\n This setting has no effect on fiber adapters which are defined to be 1000 Mbps." $E1000E_13 = "On copper-based adapters, forces the duplex mode.\n 1 - indicates half duplex\n 2 - indicates full duplex\n If this parameter is not specified, or is set to 0, the adapter will auto-negotiate to the best possible link. If it cannot auto-negotiate, it will default to half-duplex.\n This setting has no effect on fiber adapters which are defined to be full duplex." $E1000E_14 = "Controls the ability of the adapter to advertise flow control capabilities. Default is to allow both TX and RX flow control.\n 0 is off, 1 is RX, 2 is TX, 3 is both." $E1000E_15 = "Enables/disables wake-up from APM power management." $E1000E_16 = "Number of buffers available for transmits acceleration." LANG: 10 ;Korean $E1000E_1 = "Intel(R) PRO/1000 PCI-E Network Connection Driver" $E1000E_2 = "This driver supports Intel(R) PRO/1000 PCI-E Network Connections.\n\n" $E1000E_3 = "Slot number for the adapter.\n For PCI adapters, this refers to the Device Location." $E1000E_4 = "Specifies the MAC address to be used by the board.\n" $E1000E_5 = "The driver defaults to 802.2 frame format. You may use this default to select from the other 3 options => 802.3, Ethernet II and Ethernet SNAP." $E1000E_6 = "E1000E 802.2" $E1000E_7 = "E1000E 802.3" $E1000E_8 = "E1000E SNAP" $E1000E_9 = "E1000E E_II" $E1000E_10 = "This is to pre-allocate receive adapter resources.\n This value MUST BE in multiples of 8.\n This setting may be affected by the Netware server maximum/minimum packet receive buffer settings." $E1000E_11 = "TX descriptors are used to tell the hardware where the fragments of a transmit packet are in host memory. A transmit packet can use 1 or more descriptors. Most transmits require 3 or 4 descriptors. Each descriptor is 16 bytes." $E1000E_12 = "On copper-based adapters, forces the line speed to the specified value in Mbps. If this parameter is not specified, or is set to 0, the adapter will auto-negotiate to the best possible link based on link partner. Gig speed can only be achieved by auto-negotiation.\n This setting has no effect on fiber adapters which are defined to be 1000 Mbps." $E1000E_13 = "On copper-based adapters, forces the duplex mode.\n 1 - indicates half duplex\n 2 - indicates full duplex\n If this parameter is not specified, or is set to 0, the adapter will auto-negotiate to the best possible link. If it cannot auto-negotiate, it will default to half-duplex.\n This setting has no effect on fiber adapters which are defined to be full duplex." $E1000E_14 = "Controls the ability of the adapter to advertise flow control capabilities. Default is to allow both TX and RX flow control.\n 0 is off, 1 is RX, 2 is TX, 3 is both." $E1000E_15 = "Enables/disables wake-up from APM power management." $E1000E_16 = "Number of buffers available for transmits acceleration." LANG: 1 ;Chinese (S) $E1000E_1 = "Intel(R) PRO/1000 PCI-E Network Connection Driver" $E1000E_2 = "This driver supports Intel(R) PRO/1000 PCI-E Network Connections.\n\n" $E1000E_3 = "Slot number for the adapter.\n For PCI adapters, this refers to the Device Location." $E1000E_4 = "Specifies the MAC address to be used by the board.\n" $E1000E_5 = "The driver defaults to 802.2 frame format. You may use this default to select from the other 3 options => 802.3, Ethernet II and Ethernet SNAP." $E1000E_6 = "E1000E 802.2" $E1000E_7 = "E1000E 802.3" $E1000E_8 = "E1000E SNAP" $E1000E_9 = "E1000E E_II" $E1000E_10 = "This is to pre-allocate receive adapter resources.\n This value MUST BE in multiples of 8.\n This setting may be affected by the Netware server maximum/minimum packet receive buffer settings." $E1000E_11 = "TX descriptors are used to tell the hardware where the fragments of a transmit packet are in host memory. A transmit packet can use 1 or more descriptors. Most transmits require 3 or 4 descriptors. Each descriptor is 16 bytes." $E1000E_12 = "On copper-based adapters, forces the line speed to the specified value in Mbps. If this parameter is not specified, or is set to 0, the adapter will auto-negotiate to the best possible link based on link partner. Gig speed can only be achieved by auto-negotiation.\n This setting has no effect on fiber adapters which are defined to be 1000 Mbps." $E1000E_13 = "On copper-based adapters, forces the duplex mode.\n 1 - indicates half duplex\n 2 - indicates full duplex\n If this parameter is not specified, or is set to 0, the adapter will auto-negotiate to the best possible link. If it cannot auto-negotiate, it will default to half-duplex.\n This setting has no effect on fiber adapters which are defined to be full duplex." $E1000E_14 = "Controls the ability of the adapter to advertise flow control capabilities. Default is to allow both TX and RX flow control.\n 0 is off, 1 is RX, 2 is TX, 3 is both." $E1000E_15 = "Enables/disables wake-up from APM power management." $E1000E_16 = "Number of buffers available for transmits acceleration." LANG: 16 ;Chinese (T) $E1000E_1 = "Intel(R) PRO/1000 PCI-E Network Connection Driver" $E1000E_2 = "This driver supports Intel(R) PRO/1000 PCI-E Network Connections.\n\n" $E1000E_3 = "Slot number for the adapter.\n For PCI adapters, this refers to the Device Location." $E1000E_4 = "Specifies the MAC address to be used by the board.\n" $E1000E_5 = "The driver defaults to 802.2 frame format. You may use this default to select from the other 3 options => 802.3, Ethernet II and Ethernet SNAP." $E1000E_6 = "E1000E 802.2" $E1000E_7 = "E1000E 802.3" $E1000E_8 = "E1000E SNAP" $E1000E_9 = "E1000E E_II" $E1000E_10 = "This is to pre-allocate receive adapter resources.\n This value MUST BE in multiples of 8.\n This setting may be affected by the Netware server maximum/minimum packet receive buffer settings." $E1000E_11 = "TX descriptors are used to tell the hardware where the fragments of a transmit packet are in host memory. A transmit packet can use 1 or more descriptors. Most transmits require 3 or 4 descriptors. Each descriptor is 16 bytes." $E1000E_12 = "On copper-based adapters, forces the line speed to the specified value in Mbps. If this parameter is not specified, or is set to 0, the adapter will auto-negotiate to the best possible link based on link partner. Gig speed can only be achieved by auto-negotiation.\n This setting has no effect on fiber adapters which are defined to be 1000 Mbps." $E1000E_13 = "On copper-based adapters, forces the duplex mode.\n 1 - indicates half duplex\n 2 - indicates full duplex\n If this parameter is not specified, or is set to 0, the adapter will auto-negotiate to the best possible link. If it cannot auto-negotiate, it will default to half-duplex.\n This setting has no effect on fiber adapters which are defined to be full duplex." $E1000E_14 = "Controls the ability of the adapter to advertise flow control capabilities. Default is to allow both TX and RX flow control.\n 0 is off, 1 is RX, 2 is TX, 3 is both." $E1000E_15 = "Enables/disables wake-up from APM power management." $E1000E_16 = "Number of buffers available for transmits acceleration." LANG: 13 ;Russian $E1000E_1 = "Intel(R) PRO/1000 PCI-E Network Connection Driver" $E1000E_2 = "This driver supports Intel(R) PRO/1000 PCI-E Network Connections.\n\n" $E1000E_3 = "Slot number for the adapter.\n For PCI adapters, this refers to the Device Location." $E1000E_4 = "Specifies the MAC address to be used by the board.\n" $E1000E_5 = "The driver defaults to 802.2 frame format. You may use this default to select from the other 3 options => 802.3, Ethernet II and Ethernet SNAP." $E1000E_6 = "E1000E 802.2" $E1000E_7 = "E1000E 802.3" $E1000E_8 = "E1000E SNAP" $E1000E_9 = "E1000E E_II" $E1000E_10 = "This is to pre-allocate receive adapter resources.\n This value MUST BE in multiples of 8.\n This setting may be affected by the Netware server maximum/minimum packet receive buffer settings." $E1000E_11 = "TX descriptors are used to tell the hardware where the fragments of a transmit packet are in host memory. A transmit packet can use 1 or more descriptors. Most transmits require 3 or 4 descriptors. Each descriptor is 16 bytes." $E1000E_12 = "On copper-based adapters, forces the line speed to the specified value in Mbps. If this parameter is not specified, or is set to 0, the adapter will auto-negotiate to the best possible link based on link partner. Gig speed can only be achieved by auto-negotiation.\n This setting has no effect on fiber adapters which are defined to be 1000 Mbps." $E1000E_13 = "On copper-based adapters, forces the duplex mode.\n 1 - indicates half duplex\n 2 - indicates full duplex\n If this parameter is not specified, or is set to 0, the adapter will auto-negotiate to the best possible link. If it cannot auto-negotiate, it will default to half-duplex.\n This setting has no effect on fiber adapters which are defined to be full duplex." $E1000E_14 = "Controls the ability of the adapter to advertise flow control capabilities. Default is to allow both TX and RX flow control.\n 0 is off, 1 is RX, 2 is TX, 3 is both." $E1000E_15 = "Enables/disables wake-up from APM power management." $E1000E_16 = "Number of buffers available for transmits acceleration." ;DrIvEr DeScRiPtIoN EnD NWSERVER/e1000q.lan0000755000000000000000000056012211366261100010626 0ustar NetWare Loadable Module E1000Q.LAN0Ҫ۪^ S4@?4Intel(R) PRO/1000 PCI-E Q Network Connections Driver LONGDEFAULTVeRsIoN# )CoPyRiGhT=>Copyright 1998 - 2007 Intel Corporation. All Rights Reserved.MeSsAgEsLaStMoDi Thu Apr 29 12:41:02 2010 SVWt$(tY(u-fdž(fdž((fdž(Pfdž( fdž(Ɔ(VX:VX:(t8|$u džo& džo&Ɔ(^0o&_^[SVW\$|$((T$9vMƃ(f(f;(spf(uf(f(1f(f(!(u=w5fǃ(ƃ(SX2( ֋SX2_^[SVWt$|$(o&uH|$tAo&v8((T$'uo&^0o&Ɔ(tHƆ(o& o&vdžo&V01^0o&_^[USVWhE}E2][EX][EDX][EDXE}?|u )YE P}YE PYE}uEEoUk t-fe>fjPh%j=>t-f>fjPh&j=?t-f?fjPhT&j=;t);jh&j=:t):jh&j=@:t)@:jh'j=9 t)9jhL'j=6t&ƆujuPh'j=8t 8 V9, , ujjh'j, ujjh(j|V% uE=A|xto t t u/=A)~#A)jjh@(jAS(fJ"5=5d5- t-Z-,}tjj h(jƆ=(5umƆ}qjjh(jjjh0)jjjh)jh)j h)Ɔ}jjh*jjjhP*jjjh*jh*j h*}tjjdh0+jƆ=(5umƆ}hjjh+jjjh+jjjh,jh\,jdhd,Ɔ}jjh,jjjh,jjjh0-jh|-jdh-=A~jjh-ujjh-gjjhL.j=(5t}tjjhh.j=6)Ɔf6fn} h.EP虞YYn%th/EPžYYn%th /EP袞YYn%th/EP肞YYn%th/EPbYYn% th$/EPBYYh,/EP2YYjjEPjjjh0/jjjhx/j= 7t% 7~jjh/j=~Gt%~G&jjh/j=7Eu =7Eu ƆoƆoS=7t%7(jjh40j=|7t)|7(j(hl0j=Btf8fBf(f8((ujjh0=zBu=Bu=`Cu =C=zBte=Bt\=`CtS=CtJfBf(fzBf(fCf(f`Cf(Ɔ(jjh0 jjh1je^[]USVW}1jt CPCH2CL$Clfǃ/CtdCPCC aC,CCC$C0C4C<CC 4C(kC@ZC"WYƁ{p Ate_^[]SVWUl$ӋU$fC>fC:S(C(-t -tfC@ fC<PfC@fC<B$%t D$ D$D$fC@$%tf{YVYDžu&VVEV賛Ylje_^[]USVWuVUVpYV]SYEV]SYEfPVYYfEUVRfEUEf;rVSHYEV(8:A׋V(8:V(9:A׋V(9:V:V:V:V:V:V:V_:V_:ƆEPjV EuE% =uƆVYEe_^[]SV\$ tS(82@S(82S(92@S(92S@82jtS@82S@92S%tS@92^[USVWuӀEPjUV DžfMfMujUV. 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DžXE&&MATT0EB"%tTYTT;ИuNTPPf8ufAXX4Pf8u DžXDžXMf&XXLL<=t0H@DžXE&&MATT0EB"%tTYTT;ИuNTPPf8ufAXX4Pf8u DžXDžXMf&XXLL<=t0H@(@,@0jA4B8C<D@7DD|DHDLDP$ETGEXE\ F`;FdlFhFlGpGtJIxI|JNKKLLsNpO PPPPQISTV WWXX Y%YYZZs[[\3^T_ The keyword '%s' is not supported by driver Packet header size = %d (decimal). Packet is too small to be IP. Ethernet and IP header in separate fragments. Ethernet and IP header in same fragment. Protocol is not TCP or UDP. IpBufferPtr = %.8xh, BufferPtr = %.8x FragsNFlags = %4xh NoFragment = %xh MoreFragments Bit = %xh DatagramId = %.4x Packet is fragmented by IP. Packet has options which we cannot handle. IP Header Length = %xh, Layer4Length = %xh Protocol.Word = %xh, Layer4Length (byte swapped) = %xh Src Addr Lo = %.4x, Src Addr Hi = %.4x Dest Addr Lo = %.4x, Dest Addr Hi = %.4x PseudoHdrChecksum = %xh PseudoHdrChecksum AFTER carry logic = %xh TCP TcpBufferPtr = %.8xh, ChecksumOffset = %dd UDP UdpBufferPtr = %.8xh, ChecksumOffset = %dd Overriding default: RxDescriptors set to %d (decimal). Overriding default: TxDescriptors set to %d (decimal). Overriding default: CoalesceBuffers set to %d (decimal). Overriding default: Memory Write and Invalidate set to OFF. Overriding default: Flow Control Highwater mark set to %xh. Overriding default: Flow Control Lowwater mark set to %xh. Overriding default: Flow Control Pause time set to %xh. Overriding default: TX flow control is enabled. Overriding default: Flow Control is completely disabled. Flow control is disabled. TX flow control is enabled. Overriding default: Flow Control is completely disabled. Overriding default: RX flow control is enabled. Overriding default: TX flow control is enabled. RX and TX (Symmetric) flow control is enabled. Overriding default: EEPROM flow control configuration being used. Overriding default: Transmit Interrupt Delay set to %d (decimal). Overriding default: Receive Interrupt Delay set to %d (decimal). Overriding default: Receive Absolute Timer set to %d (decimal). Overriding default: Receive Small Packet Detect set to %d (decimal). Overriding default: MulticastFilter set to %d (decimal). Overriding default: CoalesceSize set to %d (decimal). Overriding default: AppendSize set to %d (decimal). Overriding default: CopySize set to %d (decimal). Overriding default: PMEDisable set to %d (0=enabled 1=disabled). Overriding default: PCI Hot-Plug persistency set to OFF. Overriding default: PCI Hot-Plug persistency set to ON. Jumbo option for this device is limited to 10500 bytes. Setting jumbo parameter to 10500. Overriding default: Auto negotiation disabled. Line speed set to %d Mbps. Overriding default: Link forced to full duplex operation. WARNING: Auto negotiation is disabled. To ensure that link is established correctly you MUST disable auto negotiation on the link partner full and force it to %d Mbps %s duplex operation. Overriding default: Link forced to half duplex operation. WARNING: Auto negotiation is disabled. To ensure that link is established correctly you MUST disable auto negotiation on the link partner half and force it to %d Mbps %s duplex operation. Overriding default: Auto negotiation disabled. Line speed set to %d Mbps. Overriding default: Link forced to full duplex operation. WARNING: Auto negotiation is disabled. To ensure that link is established correctly you MUST disable auto negotiation on the link partner full and force it to %d Mbps %s duplex operation. Overriding default: Link forced to half duplex operation. WARNING: Auto negotiation is disabled. To ensure that link is established correctly you MUST disable auto negotiation on the link partner half and force it to %d Mbps %s duplex operation. Linespeed forced to 1000 Mbps to support Jumbo frames. Overriding default: Auto negotiation disabled. Line speed set to %d Mbps. Auto negotiation enabled. Error: FORCEDUPLEX cannot be used unless SPEED is used also. Using default settings. Overriding default: Auto negotiation will advertise: 10H 10F 100H 100F 1000F WARNING: Improper use of the AUTONEG keyword can prevent normal link operation. Use this keyword with caution. Overriding default: Not waiting for link during initialization. Overriding default: Direct Data Pump mode enabled. Overriding default: Adaptive TX Threshold enabled. Overriding default: Early RX Threshold set to %d. Overriding default: Adaptive IFS disabled. Overriding default: Adaptive IFS enabled with user-specified values. Error: To override Adaptive IFS parameters you must use all four keywords. Parameter ignored. <s<s (((((((((2222222<<<<<<<<<FFFFFFPPPPPPZZZZZZZZZddddddddddddddnnnnnnnnnnnnnnnnnnxxxxxxxxxxqqqqrrrr$H#F2Pn   #&) !%),036:=#(,159=ADHKOR(-38=BFKOSW[^beh<BHMRW\`dhloruwySY_dimqtwz|hmrvy|3 !REPORTTXEARLY=%d,44BFORCEDUPLEX=%d4 5B dSPEED=%d555 PMEDISABLE=%d56BAUTONEG=%d6{6BWAITFORLINK=%d66BEARLYRX=%d6e7BEARLYTX=%dp77BADAPTIVEIFS=%d7K8BSETATTENTIONSTATE=%dZ88BPERSIST=%d8?9BCOPYSIZE=%dJ99 BAPPENDSIZE=%d9&:BCOALESCESIZE=%d4::BDMAFAIRNESS=%d:;BMULTICASTFILTER=%d#;;BFLOWCONTROL=%d;<BHIGHWM=%x<}<ȩBLOWWM=%x<<BPAUSETIME=%x<`= BTXINTDELAY=%dm==(BRXINTDELAY=%d=K>BRXABSOLUTETIMER=%dY>>BITR=%d>= 2048. To change this parameter either Edit your STARTUP.NCF or Load MONITOR, select SERVER PARAMETERS, then select COMMUNICATIONS. set MAXIMUM PHYSICAL RECEIVE PACKET SIZE >= 2048. If you use jumbo frames, set this to 16400. Restart NetWare to complete. E1000Q found in slot %d E1000Q Slot %d with active link , already loaded. E1000Q Slot %d without active link Error obtaining E1000Q configuration information. Error obtaining E1000Q slot information. No E1000Q adapters found with link (DetectLink enabled). Configuring for slot=%d No E1000Q adapters found. Error Parsing Driver Parameters (1). The specified slot does not contain a valid E1000Q card. Error obtaining E1000Q HIN information. Error obtaining E1000Q configuration information. The BIOS-assigned PCI Interrupt Line is invalid. BAR%d = I/O addr 0x%x The BIOS-assigned PCI Base Register Address is invalid. Executing in client environment. Could not identify device type %x rev %d. ConfigTable->MLIDCFG_LinearMemory0 = %08X ConfigTable->MLIDCFG_LinearMemory1 = %08X DriverParameterBlock.DriverMaxMulticast = %08X Adapter->e1000_hw.mac.mta_reg_count = %08X The selected adapter does not support jumbo frames. Using 1514 byte frames. Jumbo Frames are not supported on the 82544 in PCI-X mode. Using 1514 byte frames. PCI\VEN_%04X&DEV_%04X&SUBSYS_%04X%04X&REV_%02X Eeprom[%d] = 0x%04X Error Parsing Driver Parameters (2). Disabled wake on PME assertion feature Enabled wake on PME assertion feature PCI Memory Access Enable bit was NOT set by the BIOS. PCI Enable Master bit could NOT be set. EEPROM is corrupt. Using LOGICAL fragments with coalescing - DEBUG. Using LOGICAL fragments with coalescing. Using PHYSICAL fragments with no coalescing - DEBUG. Using PHYSICAL fragments with no coalescing. Overriding default: Master Latency Timer set to %xh. Max Frame Size set to %d Max Buffer Size set to %d Adapter memory allocation failed. Overriding default: IEEE VLANs enabled on VLAN ID %d. Overriding default: ISL VLANs enabled on VLAN ID %d. Unable to reset the adapter. This may indicate that you need a newer driver. Please visit http://support.intel.com for the latest drivers. Max Frame Size set to %d Max Frame Size set to %d Smart Power Down enabled. PollOption.Parameter1.Max = %d CMSMGetPollSupportLevel() >= 2 CMSMGetPollSupportLevel() < 2 PollOption.Parameter1.Max = %d Polling is enabled with interrupt backup. Driver configured in interrupt mode. PollLoopCount = %d IntLoopCount = %d Spurious Interrupt reduction is enabled. Spurious Interrupt reduction is disabled. [Slot=%d Memory=%.8x Int=%x] The indicated HIN (%.8xh) does not exist. Unable to alloc memory for EventBlock. Unable to alloc memory for EBP. Error returned from NESLRegistration. Error returned from NESLRegistration. Unable to Register Suspend Event. Unable to Register Resume Event. Overriding default: Allow TCP Checksumming on Transmit set to ON. Overriding default: Allow TCP Checksumming on Receive set to ON. Overriding default: Jumbo frames enabled with max size %d. The Tx checksum option is not relevant for this kind of frame type. The Rx checksum option is not relevant for this kind of frame type. The Tx checksum option is not relevant for this kind of frame type. The Rx checksum option is not relevant for this kind of frame type. Overriding default: Allow TCP Checksumming on Transmit set to ON. Overriding default: Allow TCP Checksumming on Receive set to ON. Adapter->e1000_hw.bus.type = %d Adapter->e1000_hw.bus.width = %d Adapter->e1000_hw.bus.speed = %d Phy Id = %08X Phy Type = %08X ERT = %d DriverMulticastChange mcTable: %d: %02X pmcTable: %d: %02X DriverPromiscuousChange DriverShutdown: ShutdownType = %d; OperationScope = %d Unable to DEREGISTER Consumer1. Error = %x Unable to DEREGISTER Consumer2. Error = %x Unable to DEREGISTER Producer1. Error = %x Unable to DEREGISTER Producer2. Error = %x Unable to DEREGISTER SetAttentionProducer. Error = %x Unable to DEREGISTER Consumer1. Error = %x Unable to DEREGISTER Consumer2. Error = %x Unable to DEREGISTER Producer1. Error = %x Unable to DEREGISTER Producer2. Error = %x Unable to DEREGISTER SetAttentionProducer. Error = %x Link is down. Full DuplexHalf DuplexLink is up. %d Mbs %s DriverCallback - Unable to produce Producer1 event. DriverCallback - Unable to produce Producer2 event. DriverManagement MCECB_CON_GET_CAPABILITIES returning %08X Enabling Tx TCP Checksum Offload at NOS request. Enabling Tx UDP Checksum Offload at NOS request. Enabling Tx IPv4 Checksum Offload at NOS request. Enabling Rx TCP Checksum Offload at NOS request. Enabling Rx UDP Checksum Offload at NOS request. Enabling Rx IPv4 Checksum Offload at NOS request. Disabling Tx TCP Checksum Offload at NOS request. Disabling Tx UDP Checksum Offload at NOS request. Disabling Tx IPv4 Checksum Offload at NOS request. Disabling Rx TCP Checksum Offload at NOS request. Disabling Rx UDP Checksum Offload at NOS request. Disabling Rx IPv4 Checksum Offload at NOS request. Disabling all offload capabilities at NOS request. TX checksumming enabled on frame Ethernet_II for types: TCP UDP IPv4 TX checksumming enabled on frame Ethernet_SNAP for types: TCP UDP IPv4 RX checksumming enabled on frame Ethernet_II for types: TCP UDP IPv4 RX checksumming enabled on frame Ethernet_SNAP for types: TCP UDP IPv4 Error returned from NESLRegistration. Unable to alloc memory for Consumer1 Unable to register Consumer1 as a consumer Unable to alloc memory for Consumer2 Unable to register Consumer2 as a consumer Unable to alloc memory for Producer1 Unable to register Producer2 Unable to alloc memory for Producer2 Unable to register Producer2 Unable to alloc memory for SetAttentionProducer. Unable to register SetAttentionProducer Duplex Mode (1=Half, 2=Full)PCI Mode (0=PCI, 1=PCI-X, 2=PCI-EXPRESS)Bus Clock Rate (MHz) (0=Unavailable)PCIE Maximum Link Width (x)PCIE Negotiated Link Width (x)Flow Control (0=None, 1=Rx, 2=Tx, 3=Rx&Tx)Line Speed (Mbps)Network Link Status (0=Up, 1=Down)Configured Speed (Mbps; 0=Auto)Configured Duplex Mode (0=Auto, 1=Half, 2=Full)Link Status Change CountRx Checksum Good PktsRx Checksum Error PktsRx CRC Error CountAlignment ErrorsRx Symbol Error CountRx Error CountRx Missed Packets CountTx Single Collision CountTx Excessive Collisions CountTx Multiple CollisionTx Late Collisions CountTx Total CollisionsTx DMA UnderrunsTx ThresholdTx Defer CountTx With No CRSRx Sequence Error CountRx Carrier Extension ErrorsRx Length Error CountRx DMA Too EarlyXON Received CountXON Transmitted CountXOFF Received CountXOFF Transmitted CountFlow Control Received Unsupported Count64 Byte Packets Received65-127 Byte Packets Received128-255 Byte Packets Received256-511 Byte Packets Received512-1023 Byte Packets Received>1024 Byte Packets ReceivedGood Packets Received Count (Any Length)Broadcast Packets Received CountMulticast Packets Received CountGood Packets Transmitted Count (Any Length)Good Octets Received Count LOGood Octets Received Count HIGood Octets Transmitted Count LOGood Octets Transmitted Count HIReceive No Buffers CountReceive Undersize CountReceive Fragment CountReceive Oversize CountReceive Jabber CountTotal Octets Received LOTotal Octets Received HITotal Octets Transmitted LOTotal Octets Transmitted HITotal Packets ReceivedTotal Packets Transmitted64 Byte Packets Transmitted65-127 Byte Packets Transmitted128-255 Byte Packets Transmitted256-511 Byte Packets Transmitted512-1023 Byte Packets Transmitted>1024 Byte Packets TransmittedMulticast Packets Transmitted CountBroadcast Packets Transmitted CountJumbo Frames ReceivedJumbo Frames TransmittedCurrent IFS ValueRx Descriptors AllocatedNot SupportedError allocating memory for Transmit Structures. Error allocating memory for Transmit Buffers. Error allocating memory for Receive Packets. Error allocating memory for Receive Structures. Overriding default: Interrupt Throttle Rate set to dynamic. Overriding default: Interrupt Throttle Rate set to %d (decimal). ITR = %d RxAbsoluteTimer = %d RxIntDelay = %d RxSmallPktDetect = %d AllocateRCBs:: Requested: %d Allocated: %d *** Unable to allocate the requested number of Packet Receive Buffers. *** Requested: %d Allocated: %d To correct this: Load MONITOR, select SERVER PARAMETERS, then select COMMUNICATIONS. Set MAXIMUM PACKET RECEIVE BUFFERS >= 2000, set MINIMUM PACKET RECEIVE BUFFERS >= 500 and set MAXIMUM PHYSICAL RECEIVE PACKET SIZE >= 2048. If you use jumbo frames, set this to 16400. Restart NetWare to complete. Ctrl @ address = %.8x Status @ address = %.8x Facl @ address = %.8x Fcah @ address = %.8x FCT @ address = %.8x VET @ address = %.8x Icr @ address = %.8x ICS @ address = %.8x Ims @ address = %.8x Imc @ address = %.8x Rctl @ address = %.8x RDTR @ address = %.8x Rdbal @ address = %.8x Rdbah @ address = %.8x RDLEN @ address = %.8x RDH @ address = %.8x RDT @ address = %.8x Mta @ address = %.8x TCTL @ address = %.8x Tipg @ address = %.8x Tdbal @ address = %.8x Tdbah @ address = %.8x TDLEN @ address = %.8x TDH @ address = %.8x TDT @ address = %.8x Vfta @ address = %.8x Crcerrs @ address = %.8x Symerrs @ address = %.8x Mpc @ address = %.8x Ecol @ address = %.8x Latecol @ address = %.8x COLC @ address = %.8x Dc @ address = %.8x Sec @ address = %.8x Rlec @ address = %.8x Rdfh @ address = %.8x Rdft @ address = %.8x Tdfh @ address = %.8x Tdft @ address = %.8x Pbm @ address = %.8x Ctrl @ address %.8x = %.8x Status @ address %.8x = %.8x Facl @ address %.8x = %.8x Fcah @ address %.8x = %.8x FCT @ address %.8x = %.8x VET @ address %.8x = %.8x Icr @ address %.8x = %.8x ICS @ address %.8x = %.8x Ims @ address %.8x = %.8x Imc @ address %.8x = %.8x Rctl @ address %.8x = %.8x RDTR @ address %.8x = %.8x Rdbal @ address %.8x = %.8x Rdbah @ address %.8x = %.8x RDLEN @ address %.8x = %.8x RDH @ address %.8x = %.8x RDT @ address %.8x = %.8x Mta @ address %.8x = %.8x TCTL @ address %.8x = %.8x Tipg @ address %.8x = %.8x Tdbal @ address %.8x = %.8x Tdbah @ address %.8x = %.8x TDLEN @ address %.8x = %.8x TDH @ address %.8x = %.8x TDT @ address %.8x = %.8x Vfta @ address %.8x = %.8x Crcerrs @ address %.8x = %.8x Symerrs @ address %.8x = %.8x Mpc @ address %.8x = %.8x Ecol @ address %.8x = %.8x Latecol @ address %.8x = %.8x COLC @ address %.8x = %.8x Dc @ address %.8x = %.8x Sec @ address %.8x = %.8x Rlec @ address %.8x = %.8x Rdfh @ address %.8x = %.8x Rdft @ address %.8x = %.8x Tdfh @ address %.8x = %.8x Tdft @ address %.8x = %.8x Pbm @ address %.8x = %.8x CTRL_EXT@ address %.8x = %.8x PBA @ address %.8x = %.8x PBS @ address %.8x = %.8x SRRCTL @ address %.8x = %.8x RLPML @ address %.8x = %.8x RXDCTL @ address %.8x = %.8x ****** ConfigTable address = %.8x ****** Signature = %.26s MajorVersion = %d (dec) MinorVersion = %d (dec) MLIDCFG_NodeAddress = %.2x-%.2x-%.2x-%.2x-%.2x-%.2x ModeFlags = %x BoardNumber = %d BoardInstance = %d MaxFrameSize = %d BestDataSize = %d WorstDataSize = %d CardName = %s ShortName = %s FrameTypeString = %s Reserved0 = %x FrameID = %x TransportTime = %x SourceRouting = %x LineSpeed = %d LookAheadSize = %d SGCount = %x Reserved1 = %x PrioritySup = %x Reserved2 = %x DriverMajorVer = %d DriverMinorVer = %d MLIDCFG Flags = %x SendRetries = %x DriverLink = %x SharingFlags = %x Slot = %x IOPort0 = %x IORange0 = %x IOPort1 = %x IORange1 = %x MemoryAddr0 = %x MemorySize0 = %x MemoryAddr1 = %x MemorySize1 = %x Interrupt0 = %x Interrupt1 = %x DMALine0 = %x DMALine1 = %x ResourceTag = %x Config = %x CommandString = %x LogicalName = %s LinearMemory0 = %x LinearMemory1 = %x ChannelNumber = %x DBusTag = %x IOConfigMajorVr = %x IOConfigMinorVr = %x Unable to alloc memory for NESLSuspendProducerPtr Unable to Register NESLSuspendProducerPtr Unable to alloc memory for NESLResumeProducerPtr Unable to register NESLResumeProducerPtr %x Master Enable bit is set. BDRXIANSDriverSendPhysicalTCBDbg FragCount = %d Adapter->TxTcpChecksum = TRUE ProtocolId = %.4x Board EII Board Snap ChecksumStart = %.4x TxChecksum on StackID = %.4x XsumStatus is OK XsumStatus is BAD VlanId = %04X MH TxDescriptor->upper.data = %08X MH TxDescriptor->lower.data = %08X Frag %d TxDescriptor->upper.data = %08X Frag %d TxDescriptor->lower.data = %08X Last TxDescriptor->lower.data = %08X V TxDescriptor->upper.data = %08X V TxDescriptor->lower.data = %08X Tx Head - Tail: %8X - %8X Adapter->JumboTxCount = %08X DriverSendCoalesceLogicalTCBDbg FragCount = %d Adapter->TxTcpChecksum = TRUE ProtocolId = %.4x Board EII Board Snap ChecksumStart = %.4x StackID = %.4x XsumStatus is OK XsumStatus is BAD VlanId = %04X CurrentBuffer = %.8x, Length = %d CurrentFrag = %d, FragCount = %d Fragment %d Address %.8x Length %d Coalesce Current and Next Packet Fragments %d bytes copied from CurrentBuffer Coalesce virtual dest addr is %.8x %d bytes copied from NextBuffer Coalesce virtual dest addr is %.8x Fragment %dAddress %.8x Length %d Append Current Packet buffer to open Coalesce Buffers Copy Faster Lock case %d bytes copied Coalesce virtual dest addr is %.8x Map the Fragment Closing coalesce buffer Coalesce buffer with size = %d Using TxDesc %.8x TxDescriptor pointed to phys address %.8x TxDescriptor->upper.data = %08X TxDescriptor->lower.data = %08X Mapping this fragment Mapping fragment with size = %d TxDescriptor->upper.data = %08X TxDescriptor->lower.data = %08X Mapping fragment from list with size = %d TxDescriptor->upper.data = %08X TxDescriptor->lower.data = %08X Closing coalesce buffer Zero the %d bytes of padding data Coalesce buffer with size = %d Using Tx Descriptor = %.8x, phys address = %.8x TxDescriptor->upper.data = %08X TxDescriptor->lower.data = %08X L TxDescriptor->upper.data = %08X L TxDescriptor->lower.data = %08X V TxDescriptor->upper.data = %08X V TxDescriptor->lower.data = %08X Packet Transmit Summary: %d Fragment(s) in packet %d Coalesce Buffers used %d HW Descriptors Used Tx Head - Tail: %8X - %8X ETHERTSMKbAb7b-b#bbbbaaaaaaaaaaaaayaoaea[aQaGa=a3a)aaa aa`````````````u`k`a`W`M`C`9`/`%````______sWiW_WUWKWAW7W-W#WWWWVVVVVVVVVVVVVyVoVeV[VQVGV=V3V)VVV VVUUUUUUUUPPPPPPPPP{PwPsPoPOP/POENMXMLwLLKKJ1JIHIHaHGvGrGGGFFFFEE/E+EDDDD@DCCXCTCBBrBnBBAAAAA@@2@.@??G?C?>>]>Y>==q=m=<<<<<<;;';#;::8:4:99N9J988^8Z877t7p7766666555 554444njXTB>,(|xfbPL:6$  tp^ZHD2.~lhVR@<*&zvd`NJ84" r |xtplhd`\XTPLHD@<840,($  |xtplhd`\XTPLHD@<840,($  |xtplhd`\XTPLHD@<840,($  |xtplhd`\XTPLHD@<840,($  |xtplhd`\XTPLHD@<840,($  |xtplhd`\XTPLHD@<840,($  |xtplhd`\XTPLHD@<840,($  |xtplhd`\XTPLHD@<840,($  |xtplhd`\XTPLHD@<840,($   | x t p l h d ` \ X T P L H D @ < 8 4 0 , ( $       | x t p l h d ` \ X T P L H D @ < 8 4 0 , ( $       | x t p l h d ` \ X T P L H D @ < 8 4 0 , ( $       | x t p l h d ` \ X T P L H D @ < 8 4 0 , ( $       | x t p l h d ` \ X T P L H D @ < 8 4 0 , ( $       |xtplhd`\XTPLHD@<840,($  R@@@r@P@%@@@e@@@@@o@@@@@(@@4@@@@k@I@P@@@@x@@@6@@w@W@@@@@@%@@w@@@"@@9@@@@0@@j@p@@d`\XTP@@-@@@j@d@R@L@@ş@c@4@.@@@f@?@@@ʜ@@@[@4@ @@@@q@J@#@@՚@@@`@9@@@ę@@v@O@(@@ژ@@@e@>@@@ɗ@@{@T@0@ @@Ė@@ِ@@@@u@\@C@*@ @ڏ@ď@@@t@U@?@@ߋ@׋@@@@e@@m@@ރ@@ۂ@7@!@r@T@N@G@-p1i@'i@i@i@ i@h@h@h@h@h@h@h@h@h@h@h@h@h@}h@sh@ih@_h@Uh@Kh@Ah@7h@/h@$h@h@ h@g@g@g@g@g@g@g@g@g@g@g@g@g@wg@mg@cg@Yg@Og@Eg@;g@1g@'g@g@a@a@~a@ta@ja@`a@Va@La@Ba@8a@.a@$a@a@a@a@`@`@`@`@`@`@`@`@`@`@`@`@`@z`@p`@f`@\`@R`@H`@>`@4`@*`@ `@`@ `@`@_@_@_@_@_@_@_@_@_@_@_@_@_@v_@l_@b_@X_@N_@D_@:_@0_@&_@_@_@_@^@^@^@^@^@^@^@^@B^@2^@(]@\@\@\@L\@ \@[@[@[@Q[@+[@[@Z@Z@ZvZ@LZ@%Z@Y@YY@Y@U@UU|UxUtUpUlUhUdU!U@T@T@[S@QS@ S@R@R@R@R@}R@_R@@>@N>@ >@=@<@<@R<@<@;@m;@Y;@:@:@P:@1:@:@9@9@q9@R9@,9@9@8@8@8@O8@68@6@6@6@6@*@*@*@{*@4*@*@*@)@)@)@)@x)@h)@2)@)@)@(@(@(@(@r(@B(@(@'@'@'@'@'@'@|'@'@&@j&@&@%@W%@$@$@$@l$@a$@V$R$@<$@'$@$@$@#@#@#@u#@R#@<#@7#@&#@#@#@"@"@"@"@"@"@k"@f"@U"@@"@"@?!@!@ @ @@`@@}@i@P@K@0@@@@@@r@@@@3@*@@@@@|@j@@@ @@@W@H@<@-@@@@@@@@@s@K@ @@@@@@@l@Y@C@-@@@@@@@t@ @@@@@}@;@@@x@=@@@5@!@@@w@?@+@@ @@@@@@@@@@@|@p@i@_@Q@;@ @@@@@@i@N@?@8@0@$@@@ @@@@@@@@@@a@W@Q@H@B@,@'@ @q @[ @V @O @> @ @ @ @ @ @ @ @v @d @K @2 @ @ @ @ @ @ @ @ @ @p @i @P @J @A @: @) @# @ @ @ @ @ @ @ @ @ @ @ @ @z @i @; @) @ @ @  @  @ @ @ @ @ @ @ @ @@y@m@Q@=@5@@@@@C@1@'@ib[TMF?81*#ݴִϴȴzpb[TMF? 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@& @ @ @ @ @] @ @ @ @H @o@|@J@@@@v@]@Y@1@@@@r@Y@@@@ @ @ @i @P @7 @ @ @ @ @ @d @2 @ @ @ @` @* @ @ @@@U@@@@g@@CMSMParseSingleParameter)@m)@ )@(@(@w(@'@'@@o@@{ @u @. @ @ @n @# @ @CMSMParseDriverParameters@@CMSMNESLRegisterProducer@@]@>\@[@CMSMNESLRegisterConsumerZ@Z@CMSMNESLProduceEvent)G@F@E@D@CMSMNESLDeRegisterProducer@o@>@>@?>@<@<@C<@CMSMNESLDeRegisterConsumer=@=@<@;@CMSMInitParser @ CMSMInitAlloc8%@CMSMGetPollSupportLevel"@CMSMGetPhysListh@d@CMSMGetPhysical a@@@@@+@@@@CMSMGetMicroTimerН@ɝ@@@CMSMGetInstanceNumberMappingg@CMSMGetInstanceNumber @CMSMGetConfigInfo;@CMSMGetCardConfigInfo@. @CMSMFree@|@#@ @@Ʌ@@@)?@?@>@>@j>@)>@=@-=@=@<@<@n<@-<@;@CMSMEnablePolling#@CMSMECBPhysToLogFrags@W@v@CMSMDriverRemove?@ CMSMCancelAES=@;@CMSMAllocateRCB@̎@ CMSMAlloc @I@K@W@ȃ@ł@ @|\@[@Z@2Z@}Y@%@ E1000QDmiLink@NWSERVER/e1000q.ldi0000755000000000000000000010461311366257602010637 0ustar ;DrIvEr DeScRiPtIoN ;VeRsIoN=1.11 ;CoPyRiGhT=Copyright(c) 1998 - 2008 Intel Corporation. All Rights Reserved. VER: 11.11 SYN: 1.00 ;- File: E1000Q.LDI ;- Intel(R) PRO/1000 Network PCI-E Q Connection Driver Installation Information File DR E1000Q { DES: $E1000Q_1 HELP: $E1000Q_2 PAR: 2.00 ; Zoar PROD: PCI.8086.10A7.*.*.*, PCI.8086.10A7.8086.10A8.*, PCI.8086.10A9.*.*.*, PCI.8086.10D6.*.*.*, PCI.8086.10E6.8086.A01F.*, PCI.8086.10E7.*.*.*, PCI.8086.10E8.8086.A02C.*, PCI.8086.10CC.*.*.*, PCI.8086.10CD.*.*.*, PCI.8086.10CE.*.*.*, PCI.8086.10DE.*.*.*, PCI.8086.10DF.*.*.*, PCI.8086.10D3.*.*.*, PCI.8086.10D3.8086.A01F.*, PCI.8086.10C9.*.*.*, PCI.8086.10C9.8086.A01C.*, PCI.8086.10F5.*.*.*, PCI.8086.150A.*.*.*, PCI.8086.1518.*.*.*, PCI.8086.10F0.*.*.*, PCI.8086.1526.8086.A05C.*, PCI.8086.1526.8086.A06C.* ;@# Sprod: "Intel~Intel(R) 82575EB Gigabit Network Connection", ;@# "Intel~Intel(R) 82575EB Gigabit Riser Card", ;@# "Intel~Intel(R) 82575EB Gigabit Backplane Connection", ;@# "Intel~Intel(R) Gigabit VT Quad Port Server Adapter", ;@# "Intel~Intel(R) Gigabit EF Dual Port Server Adapter", ;@# "Intel~Intel(R) 82576 Gigabit Dual Port Server Network Connection", ;@# "Intel~Intel(R) Gigabit ET Quad Port Server Adapter", ;@# "Intel~Intel(R) 82567LM-2 Gigabit Network Connection", ;@# "Intel~Intel(R) 82567LF-2 Gigabit Network Connection", ;@# "Intel~Intel(R) 82567V-2 Gigabit Network Connection", ;@# "Intel~Intel(R) 82567LM-3 Gigabit Network Connection", ;@# "Intel~Intel(R) 82567LF-3 Gigabit Network Connection", ;@# "Intel~Intel(R) 82574L Gigabit Network Connection", ;@# "Intel~Intel(R) Gigabit CT Desktop Adapter", ;@# "Intel~Intel(R) 82576 Gigabit Dual Port Network Connection", ;@# "Intel~Intel(R) Gigabit ET Dual Port Server Adapter", ;@# "Intel~Intel(R) 82567LM Gigabit Network Connection", ;@# "Intel~Intel(R) 82576NS Gigabit Ethernet Controller", ;@# "Intel~Intel(R) 82576NS SerDes Gigabit Ethernet Controller", ;@# "Intel~Intel(R) 82578DC Gigabit Network Connection", ;@# "Intel~Intel(R) Gigabit ET2 Quad Port Server Adapter", ;@# "Intel~Intel(R) Gigabit ET2 Quad Port Server Adapter" ;@# Client: E1000Q.LAN FILE: E1000Q.LAN PR SLOT REQ { HELP: $E1000Q_3 TYP: DEC (5) VAL: 1 - 65535 DEF: UND } PR NODE OPT { HELP: $E1000Q_4 TYP: HEX (12) VAL: 000000000000-FFFFFFFFFFFF DEF: UND Out: 'NODE=%s' } FR FrameSelect { Help: $E1000Q_5 CD: $E1000Q_6 CH: 'Ethernet_802.2' CD: $E1000Q_7 CH: 'Ethernet_802.3' CD: $E1000Q_8 CH: 'Ethernet_SNAP' CD: $E1000Q_9 CH: 'Ethernet_II' DEF: 1,2,3,4 } PR RXBUFFERS OPT { DES: "RX BUFFERS" TYP: DEC (3) HELP: $E1000Q_10 VAL: 8 - 128 DEF: 64 OUT: 'RXDESCRIPTORS=%s' } PR TXBUFFERS OPT { DES: "TX BUFFERS" TYP: DEC (3) HELP: $E1000Q_11 VAL: 32 - 128 DEF: 96 OUT: 'TXDESCRIPTORS=%s' } PR SPEED OPT { DES: "SPEED" TYP: DEC (3) HELP: $E1000Q_12 VAL: 0, 10, 100 DEF: 0 OUT: 'SPEED=%s' } PR FORCEDUPLEX OPT { DES: "FORCE DUPLEX" HELP: $E1000Q_13 TYP: DEC (1) VAL: 0, 1, 2 DEF: 0 OUT: 'FORCEDUPLEX=%s' } PR FLOWCONTROL OPT { DES: "FLOW CONTROL" HELP: $E1000Q_14 TYP: DEC (1) VAL: 0, 1, 2, 3 DEF: 3 OUT: 'FLOWCONTROL=%s' } PR PMEDISABLE OPT { DES: "PME DISABLE" HELP: $E1000Q_15 TYP: DEC (1) VAL: 0, 1 DEF: 0 OUT: 'PMEDISABLE=%s' } PR COALESCEBUFFERS OPT { DES: "COALESCE BUFFERS" HELP: $E1000Q_16 TYP: DEC (3) VAL: 32 - 128 DEF: 96 OUT: 'COALESCEBUFFERS=%s' } } DLANG: 4 ;English $E1000Q_1 = "Intel(R) PRO/1000 PCI-E Q Network Connection Driver" $E1000Q_2 = "This driver supports Intel(R) PRO/1000 PCI-E Q Network Connections.\n\n" $E1000Q_3 = "Slot number for the adapter.\n For PCI adapters, this refers to the Device Location." $E1000Q_4 = "Specifies the MAC address to be used by the board.\n" $E1000Q_5 = "The driver defaults to 802.2 frame format. You may use this default to select from the other 3 options => 802.3, Ethernet II and Ethernet SNAP." $E1000Q_6 = "E1000Q 802.2" $E1000Q_7 = "E1000Q 802.3" $E1000Q_8 = "E1000Q SNAP" $E1000Q_9 = "E1000Q E_II" $E1000Q_10 = "This is to pre-allocate receive adapter resources.\n This value MUST BE in multiples of 8.\n This setting may be affected by the Netware server maximum/minimum packet receive buffer settings." $E1000Q_11 = "TX descriptors are used to tell the hardware where the fragments of a transmit packet are in host memory. A transmit packet can use 1 or more descriptors. Most transmits require 3 or 4 descriptors. Each descriptor is 16 bytes." $E1000Q_12 = "On copper-based adapters, forces the line speed to the specified value in Mbps. If this parameter is not specified, or is set to 0, the adapter will auto-negotiate to the best possible link based on link partner. Gig speed can only be achieved by auto-negotiation.\n This setting has no effect on fiber adapters which are defined to be 1000 Mbps." $E1000Q_13 = "On copper-based adapters, forces the duplex mode.\n 1 - indicates half duplex\n 2 - indicates full duplex\n If this parameter is not specified, or is set to 0, the adapter will auto-negotiate to the best possible link. If it cannot auto-negotiate, it will default to half-duplex.\n This setting has no effect on fiber adapters which are defined to be full duplex." $E1000Q_14 = "Controls the ability of the adapter to advertise flow control capabilities. Default is to allow both TX and RX flow control.\n 0 is off, 1 is RX, 2 is TX, 3 is both." $E1000Q_15 = "Enables/disables wake-up from APM power management." $E1000Q_16 = "Number of buffers available for transmits acceleration." LANG: 6 ;French $E1000Q_1 = "Intel(R) PRO/1000 PCI-E Q Network Connection Driver" $E1000Q_2 = "This driver supports Intel(R) PRO/1000 PCI-E Q Network Connections.\n\n" $E1000Q_3 = "Slot number for the adapter.\n For PCI adapters, this refers to the Device Location." $E1000Q_4 = "Specifies the MAC address to be used by the board.\n" $E1000Q_5 = "The driver defaults to 802.2 frame format. You may use this default to select from the other 3 options => 802.3, Ethernet II and Ethernet SNAP." $E1000Q_6 = "E1000Q 802.2" $E1000Q_7 = "E1000Q 802.3" $E1000Q_8 = "E1000Q SNAP" $E1000Q_9 = "E1000Q E_II" $E1000Q_10 = "This is to pre-allocate receive adapter resources.\n This value MUST BE in multiples of 8.\n This setting may be affected by the Netware server maximum/minimum packet receive buffer settings." $E1000Q_11 = "TX descriptors are used to tell the hardware where the fragments of a transmit packet are in host memory. A transmit packet can use 1 or more descriptors. Most transmits require 3 or 4 descriptors. Each descriptor is 16 bytes." $E1000Q_12 = "On copper-based adapters, forces the line speed to the specified value in Mbps. If this parameter is not specified, or is set to 0, the adapter will auto-negotiate to the best possible link based on link partner. Gig speed can only be achieved by auto-negotiation.\n This setting has no effect on fiber adapters which are defined to be 1000 Mbps." $E1000Q_13 = "On copper-based adapters, forces the duplex mode.\n 1 - indicates half duplex\n 2 - indicates full duplex\n If this parameter is not specified, or is set to 0, the adapter will auto-negotiate to the best possible link. If it cannot auto-negotiate, it will default to half-duplex.\n This setting has no effect on fiber adapters which are defined to be full duplex." $E1000Q_14 = "Controls the ability of the adapter to advertise flow control capabilities. Default is to allow both TX and RX flow control.\n 0 is off, 1 is RX, 2 is TX, 3 is both." $E1000Q_15 = "Enables/disables wake-up from APM power management." $E1000Q_16 = "Number of buffers available for transmits acceleration." LANG: 7 ;German $E1000Q_1 = "Intel(R) PRO/1000 PCI-E Q Network Connection Driver" $E1000Q_2 = "This driver supports Intel(R) PRO/1000 PCI-E Q Network Connections.\n\n" $E1000Q_3 = "Slot number for the adapter.\n For PCI adapters, this refers to the Device Location." $E1000Q_4 = "Specifies the MAC address to be used by the board.\n" $E1000Q_5 = "The driver defaults to 802.2 frame format. You may use this default to select from the other 3 options => 802.3, Ethernet II and Ethernet SNAP." $E1000Q_6 = "E1000Q 802.2" $E1000Q_7 = "E1000Q 802.3" $E1000Q_8 = "E1000Q SNAP" $E1000Q_9 = "E1000Q E_II" $E1000Q_10 = "This is to pre-allocate receive adapter resources.\n This value MUST BE in multiples of 8.\n This setting may be affected by the Netware server maximum/minimum packet receive buffer settings." $E1000Q_11 = "TX descriptors are used to tell the hardware where the fragments of a transmit packet are in host memory. A transmit packet can use 1 or more descriptors. Most transmits require 3 or 4 descriptors. Each descriptor is 16 bytes." $E1000Q_12 = "On copper-based adapters, forces the line speed to the specified value in Mbps. If this parameter is not specified, or is set to 0, the adapter will auto-negotiate to the best possible link based on link partner. Gig speed can only be achieved by auto-negotiation.\n This setting has no effect on fiber adapters which are defined to be 1000 Mbps." $E1000Q_13 = "On copper-based adapters, forces the duplex mode.\n 1 - indicates half duplex\n 2 - indicates full duplex\n If this parameter is not specified, or is set to 0, the adapter will auto-negotiate to the best possible link. If it cannot auto-negotiate, it will default to half-duplex.\n This setting has no effect on fiber adapters which are defined to be full duplex." $E1000Q_14 = "Controls the ability of the adapter to advertise flow control capabilities. Default is to allow both TX and RX flow control.\n 0 is off, 1 is RX, 2 is TX, 3 is both." $E1000Q_15 = "Enables/disables wake-up from APM power management." $E1000Q_16 = "Number of buffers available for transmits acceleration." LANG: 8 ;Italian $E1000Q_1 = "Intel(R) PRO/1000 PCI-E Q Network Connection Driver" $E1000Q_2 = "This driver supports Intel(R) PRO/1000 PCI-E Q Network Connections.\n\n" $E1000Q_3 = "Slot number for the adapter.\n For PCI adapters, this refers to the Device Location." $E1000Q_4 = "Specifies the MAC address to be used by the board.\n" $E1000Q_5 = "The driver defaults to 802.2 frame format. You may use this default to select from the other 3 options => 802.3, Ethernet II and Ethernet SNAP." $E1000Q_6 = "E1000Q 802.2" $E1000Q_7 = "E1000Q 802.3" $E1000Q_8 = "E1000Q SNAP" $E1000Q_9 = "E1000Q E_II" $E1000Q_10 = "This is to pre-allocate receive adapter resources.\n This value MUST BE in multiples of 8.\n This setting may be affected by the Netware server maximum/minimum packet receive buffer settings." $E1000Q_11 = "TX descriptors are used to tell the hardware where the fragments of a transmit packet are in host memory. A transmit packet can use 1 or more descriptors. Most transmits require 3 or 4 descriptors. Each descriptor is 16 bytes." $E1000Q_12 = "On copper-based adapters, forces the line speed to the specified value in Mbps. If this parameter is not specified, or is set to 0, the adapter will auto-negotiate to the best possible link based on link partner. Gig speed can only be achieved by auto-negotiation.\n This setting has no effect on fiber adapters which are defined to be 1000 Mbps." $E1000Q_13 = "On copper-based adapters, forces the duplex mode.\n 1 - indicates half duplex\n 2 - indicates full duplex\n If this parameter is not specified, or is set to 0, the adapter will auto-negotiate to the best possible link. If it cannot auto-negotiate, it will default to half-duplex.\n This setting has no effect on fiber adapters which are defined to be full duplex." $E1000Q_14 = "Controls the ability of the adapter to advertise flow control capabilities. Default is to allow both TX and RX flow control.\n 0 is off, 1 is RX, 2 is TX, 3 is both." $E1000Q_15 = "Enables/disables wake-up from APM power management." $E1000Q_16 = "Number of buffers available for transmits acceleration." LANG: 14 ;Spanish $E1000Q_1 = "Intel(R) PRO/1000 PCI-E Q Network Connection Driver" $E1000Q_2 = "This driver supports Intel(R) PRO/1000 PCI-E Q Network Connections.\n\n" $E1000Q_3 = "Slot number for the adapter.\n For PCI adapters, this refers to the Device Location." $E1000Q_4 = "Specifies the MAC address to be used by the board.\n" $E1000Q_5 = "The driver defaults to 802.2 frame format. You may use this default to select from the other 3 options => 802.3, Ethernet II and Ethernet SNAP." $E1000Q_6 = "E1000Q 802.2" $E1000Q_7 = "E1000Q 802.3" $E1000Q_8 = "E1000Q SNAP" $E1000Q_9 = "E1000Q E_II" $E1000Q_10 = "This is to pre-allocate receive adapter resources.\n This value MUST BE in multiples of 8.\n This setting may be affected by the Netware server maximum/minimum packet receive buffer settings." $E1000Q_11 = "TX descriptors are used to tell the hardware where the fragments of a transmit packet are in host memory. A transmit packet can use 1 or more descriptors. Most transmits require 3 or 4 descriptors. Each descriptor is 16 bytes." $E1000Q_12 = "On copper-based adapters, forces the line speed to the specified value in Mbps. If this parameter is not specified, or is set to 0, the adapter will auto-negotiate to the best possible link based on link partner. Gig speed can only be achieved by auto-negotiation.\n This setting has no effect on fiber adapters which are defined to be 1000 Mbps." $E1000Q_13 = "On copper-based adapters, forces the duplex mode.\n 1 - indicates half duplex\n 2 - indicates full duplex\n If this parameter is not specified, or is set to 0, the adapter will auto-negotiate to the best possible link. If it cannot auto-negotiate, it will default to half-duplex.\n This setting has no effect on fiber adapters which are defined to be full duplex." $E1000Q_14 = "Controls the ability of the adapter to advertise flow control capabilities. Default is to allow both TX and RX flow control.\n 0 is off, 1 is RX, 2 is TX, 3 is both." $E1000Q_15 = "Enables/disables wake-up from APM power management." $E1000Q_16 = "Number of buffers available for transmits acceleration." LANG: 12 ;Portugese $E1000Q_1 = "Intel(R) PRO/1000 PCI-E Q Network Connection Driver" $E1000Q_2 = "This driver supports Intel(R) PRO/1000 PCI-E Q Network Connections.\n\n" $E1000Q_3 = "Slot number for the adapter.\n For PCI adapters, this refers to the Device Location." $E1000Q_4 = "Specifies the MAC address to be used by the board.\n" $E1000Q_5 = "The driver defaults to 802.2 frame format. You may use this default to select from the other 3 options => 802.3, Ethernet II and Ethernet SNAP." $E1000Q_6 = "E1000Q 802.2" $E1000Q_7 = "E1000Q 802.3" $E1000Q_8 = "E1000Q SNAP" $E1000Q_9 = "E1000Q E_II" $E1000Q_10 = "This is to pre-allocate receive adapter resources.\n This value MUST BE in multiples of 8.\n This setting may be affected by the Netware server maximum/minimum packet receive buffer settings." $E1000Q_11 = "TX descriptors are used to tell the hardware where the fragments of a transmit packet are in host memory. A transmit packet can use 1 or more descriptors. Most transmits require 3 or 4 descriptors. Each descriptor is 16 bytes." $E1000Q_12 = "On copper-based adapters, forces the line speed to the specified value in Mbps. If this parameter is not specified, or is set to 0, the adapter will auto-negotiate to the best possible link based on link partner. Gig speed can only be achieved by auto-negotiation.\n This setting has no effect on fiber adapters which are defined to be 1000 Mbps." $E1000Q_13 = "On copper-based adapters, forces the duplex mode.\n 1 - indicates half duplex\n 2 - indicates full duplex\n If this parameter is not specified, or is set to 0, the adapter will auto-negotiate to the best possible link. If it cannot auto-negotiate, it will default to half-duplex.\n This setting has no effect on fiber adapters which are defined to be full duplex." $E1000Q_14 = "Controls the ability of the adapter to advertise flow control capabilities. Default is to allow both TX and RX flow control.\n 0 is off, 1 is RX, 2 is TX, 3 is both." $E1000Q_15 = "Enables/disables wake-up from APM power management." $E1000Q_16 = "Number of buffers available for transmits acceleration." LANG: 9 ;Japanese $E1000Q_1 = "Intel(R) PRO/1000 PCI-E Q Network Connection Driver" $E1000Q_2 = "This driver supports Intel(R) PRO/1000 PCI-E Q Network Connections.\n\n" $E1000Q_3 = "Slot number for the adapter.\n For PCI adapters, this refers to the Device Location." $E1000Q_4 = "Specifies the MAC address to be used by the board.\n" $E1000Q_5 = "The driver defaults to 802.2 frame format. You may use this default to select from the other 3 options => 802.3, Ethernet II and Ethernet SNAP." $E1000Q_6 = "E1000Q 802.2" $E1000Q_7 = "E1000Q 802.3" $E1000Q_8 = "E1000Q SNAP" $E1000Q_9 = "E1000Q E_II" $E1000Q_10 = "This is to pre-allocate receive adapter resources.\n This value MUST BE in multiples of 8.\n This setting may be affected by the Netware server maximum/minimum packet receive buffer settings." $E1000Q_11 = "TX descriptors are used to tell the hardware where the fragments of a transmit packet are in host memory. A transmit packet can use 1 or more descriptors. Most transmits require 3 or 4 descriptors. Each descriptor is 16 bytes." $E1000Q_12 = "On copper-based adapters, forces the line speed to the specified value in Mbps. If this parameter is not specified, or is set to 0, the adapter will auto-negotiate to the best possible link based on link partner. Gig speed can only be achieved by auto-negotiation.\n This setting has no effect on fiber adapters which are defined to be 1000 Mbps." $E1000Q_13 = "On copper-based adapters, forces the duplex mode.\n 1 - indicates half duplex\n 2 - indicates full duplex\n If this parameter is not specified, or is set to 0, the adapter will auto-negotiate to the best possible link. If it cannot auto-negotiate, it will default to half-duplex.\n This setting has no effect on fiber adapters which are defined to be full duplex." $E1000Q_14 = "Controls the ability of the adapter to advertise flow control capabilities. Default is to allow both TX and RX flow control.\n 0 is off, 1 is RX, 2 is TX, 3 is both." $E1000Q_15 = "Enables/disables wake-up from APM power management." $E1000Q_16 = "Number of buffers available for transmits acceleration." LANG: 10 ;Korean $E1000Q_1 = "Intel(R) PRO/1000 PCI-E Q Network Connection Driver" $E1000Q_2 = "This driver supports Intel(R) PRO/1000 PCI-E Q Network Connections.\n\n" $E1000Q_3 = "Slot number for the adapter.\n For PCI adapters, this refers to the Device Location." $E1000Q_4 = "Specifies the MAC address to be used by the board.\n" $E1000Q_5 = "The driver defaults to 802.2 frame format. You may use this default to select from the other 3 options => 802.3, Ethernet II and Ethernet SNAP." $E1000Q_6 = "E1000Q 802.2" $E1000Q_7 = "E1000Q 802.3" $E1000Q_8 = "E1000Q SNAP" $E1000Q_9 = "E1000Q E_II" $E1000Q_10 = "This is to pre-allocate receive adapter resources.\n This value MUST BE in multiples of 8.\n This setting may be affected by the Netware server maximum/minimum packet receive buffer settings." $E1000Q_11 = "TX descriptors are used to tell the hardware where the fragments of a transmit packet are in host memory. A transmit packet can use 1 or more descriptors. Most transmits require 3 or 4 descriptors. Each descriptor is 16 bytes." $E1000Q_12 = "On copper-based adapters, forces the line speed to the specified value in Mbps. If this parameter is not specified, or is set to 0, the adapter will auto-negotiate to the best possible link based on link partner. Gig speed can only be achieved by auto-negotiation.\n This setting has no effect on fiber adapters which are defined to be 1000 Mbps." $E1000Q_13 = "On copper-based adapters, forces the duplex mode.\n 1 - indicates half duplex\n 2 - indicates full duplex\n If this parameter is not specified, or is set to 0, the adapter will auto-negotiate to the best possible link. If it cannot auto-negotiate, it will default to half-duplex.\n This setting has no effect on fiber adapters which are defined to be full duplex." $E1000Q_14 = "Controls the ability of the adapter to advertise flow control capabilities. Default is to allow both TX and RX flow control.\n 0 is off, 1 is RX, 2 is TX, 3 is both." $E1000Q_15 = "Enables/disables wake-up from APM power management." $E1000Q_16 = "Number of buffers available for transmits acceleration." LANG: 1 ;Chinese (S) $E1000Q_1 = "Intel(R) PRO/1000 PCI-E Q Network Connection Driver" $E1000Q_2 = "This driver supports Intel(R) PRO/1000 PCI-E Q Network Connections.\n\n" $E1000Q_3 = "Slot number for the adapter.\n For PCI adapters, this refers to the Device Location." $E1000Q_4 = "Specifies the MAC address to be used by the board.\n" $E1000Q_5 = "The driver defaults to 802.2 frame format. You may use this default to select from the other 3 options => 802.3, Ethernet II and Ethernet SNAP." $E1000Q_6 = "E1000Q 802.2" $E1000Q_7 = "E1000Q 802.3" $E1000Q_8 = "E1000Q SNAP" $E1000Q_9 = "E1000Q E_II" $E1000Q_10 = "This is to pre-allocate receive adapter resources.\n This value MUST BE in multiples of 8.\n This setting may be affected by the Netware server maximum/minimum packet receive buffer settings." $E1000Q_11 = "TX descriptors are used to tell the hardware where the fragments of a transmit packet are in host memory. A transmit packet can use 1 or more descriptors. Most transmits require 3 or 4 descriptors. Each descriptor is 16 bytes." $E1000Q_12 = "On copper-based adapters, forces the line speed to the specified value in Mbps. If this parameter is not specified, or is set to 0, the adapter will auto-negotiate to the best possible link based on link partner. Gig speed can only be achieved by auto-negotiation.\n This setting has no effect on fiber adapters which are defined to be 1000 Mbps." $E1000Q_13 = "On copper-based adapters, forces the duplex mode.\n 1 - indicates half duplex\n 2 - indicates full duplex\n If this parameter is not specified, or is set to 0, the adapter will auto-negotiate to the best possible link. If it cannot auto-negotiate, it will default to half-duplex.\n This setting has no effect on fiber adapters which are defined to be full duplex." $E1000Q_14 = "Controls the ability of the adapter to advertise flow control capabilities. Default is to allow both TX and RX flow control.\n 0 is off, 1 is RX, 2 is TX, 3 is both." $E1000Q_15 = "Enables/disables wake-up from APM power management." $E1000Q_16 = "Number of buffers available for transmits acceleration." LANG: 16 ;Chinese (T) $E1000Q_1 = "Intel(R) PRO/1000 PCI-E Q Network Connection Driver" $E1000Q_2 = "This driver supports Intel(R) PRO/1000 PCI-E Q Network Connections.\n\n" $E1000Q_3 = "Slot number for the adapter.\n For PCI adapters, this refers to the Device Location." $E1000Q_4 = "Specifies the MAC address to be used by the board.\n" $E1000Q_5 = "The driver defaults to 802.2 frame format. You may use this default to select from the other 3 options => 802.3, Ethernet II and Ethernet SNAP." $E1000Q_6 = "E1000Q 802.2" $E1000Q_7 = "E1000Q 802.3" $E1000Q_8 = "E1000Q SNAP" $E1000Q_9 = "E1000Q E_II" $E1000Q_10 = "This is to pre-allocate receive adapter resources.\n This value MUST BE in multiples of 8.\n This setting may be affected by the Netware server maximum/minimum packet receive buffer settings." $E1000Q_11 = "TX descriptors are used to tell the hardware where the fragments of a transmit packet are in host memory. A transmit packet can use 1 or more descriptors. Most transmits require 3 or 4 descriptors. Each descriptor is 16 bytes." $E1000Q_12 = "On copper-based adapters, forces the line speed to the specified value in Mbps. If this parameter is not specified, or is set to 0, the adapter will auto-negotiate to the best possible link based on link partner. Gig speed can only be achieved by auto-negotiation.\n This setting has no effect on fiber adapters which are defined to be 1000 Mbps." $E1000Q_13 = "On copper-based adapters, forces the duplex mode.\n 1 - indicates half duplex\n 2 - indicates full duplex\n If this parameter is not specified, or is set to 0, the adapter will auto-negotiate to the best possible link. If it cannot auto-negotiate, it will default to half-duplex.\n This setting has no effect on fiber adapters which are defined to be full duplex." $E1000Q_14 = "Controls the ability of the adapter to advertise flow control capabilities. Default is to allow both TX and RX flow control.\n 0 is off, 1 is RX, 2 is TX, 3 is both." $E1000Q_15 = "Enables/disables wake-up from APM power management." $E1000Q_16 = "Number of buffers available for transmits acceleration." LANG: 13 ;Russian $E1000Q_1 = "Intel(R) PRO/1000 PCI-E Q Network Connection Driver" $E1000Q_2 = "This driver supports Intel(R) PRO/1000 PCI-E Q Network Connections.\n\n" $E1000Q_3 = "Slot number for the adapter.\n For PCI adapters, this refers to the Device Location." $E1000Q_4 = "Specifies the MAC address to be used by the board.\n" $E1000Q_5 = "The driver defaults to 802.2 frame format. You may use this default to select from the other 3 options => 802.3, Ethernet II and Ethernet SNAP." $E1000Q_6 = "E1000Q 802.2" $E1000Q_7 = "E1000Q 802.3" $E1000Q_8 = "E1000Q SNAP" $E1000Q_9 = "E1000Q E_II" $E1000Q_10 = "This is to pre-allocate receive adapter resources.\n This value MUST BE in multiples of 8.\n This setting may be affected by the Netware server maximum/minimum packet receive buffer settings." $E1000Q_11 = "TX descriptors are used to tell the hardware where the fragments of a transmit packet are in host memory. A transmit packet can use 1 or more descriptors. Most transmits require 3 or 4 descriptors. Each descriptor is 16 bytes." $E1000Q_12 = "On copper-based adapters, forces the line speed to the specified value in Mbps. If this parameter is not specified, or is set to 0, the adapter will auto-negotiate to the best possible link based on link partner. Gig speed can only be achieved by auto-negotiation.\n This setting has no effect on fiber adapters which are defined to be 1000 Mbps." $E1000Q_13 = "On copper-based adapters, forces the duplex mode.\n 1 - indicates half duplex\n 2 - indicates full duplex\n If this parameter is not specified, or is set to 0, the adapter will auto-negotiate to the best possible link. If it cannot auto-negotiate, it will default to half-duplex.\n This setting has no effect on fiber adapters which are defined to be full duplex." $E1000Q_14 = "Controls the ability of the adapter to advertise flow control capabilities. Default is to allow both TX and RX flow control.\n 0 is off, 1 is RX, 2 is TX, 3 is both." $E1000Q_15 = "Enables/disables wake-up from APM power management." $E1000Q_16 = "Number of buffers available for transmits acceleration." ;DrIvEr DeScRiPtIoN EnD