EVAL-ADV7612-7511_rev0p1_schems (1)

VC707 Evaluation Board FeaturesOverviewThe VC707 evaluation board for the Virtex®-7FPGA provides a hardware environment fordeveloping and evaluating designs targeting the Virtex-7 XC7VX485T-2FFG1761C FPGA. TheVC707 board provides features common to many embedded processing systems, including a DDR3SODIMM memory, an 8-lane PCI Express® interface, a tri-mode Ethernet PHY, general purposeI/O, and two UART interfaces. Other features can be added by using mezzanine cards attached toeither of two VITA-57 FPGA mezzanine connectors (FMC) provided on the board. Two high pincount (HPC) FMCs are provided. See VC707 Board Features for a complete list of features. Thedetails for each feature are described in Feature Descriptions.8U34I 2C programmable user clock LVDS,156.250MHz default frequency (back side of board)Silicon Labs SI570BAB0000544DG 329J31, J32User SMA clockRosenberger 32K10K-400L53210J25, J26GTX transceiver SMA reference clock Rosenberger 32K10K-400L53211U24Jitter attenuated clock (back side of board)Silicon Labs SI5324C-C-GM 3312GTX transceiver Quad 111 – Quad 119Embedded within FPGA U112 – 1513P1PCI Express connector 8-lane card edge connector 3014P3SFP/SFP+ module connector Molex 74441-00103115U5010/100/1000 Mb/s Ethernet PHY Marvell M88E1111-BAB1C0003416U2SGMII GTX transceiver clock generator ICS ICS84402IAGI-01LF 3217U44USB-to-UART bridgeSilicon Labs CP2103GM 3618P2, U48HDMI video connector, HDMI controller Molex 500254-1927, AD ADV7511KSTZ-P 43, 4219J23LCD character display and connector 2x 7 0.1 inch male header 3920U52I 2C Bus Switch (back side of board)TI PCA9548ARGER 4121DS11–DS13Ethernet status LEDs EPHY status LED, dual green 3422DS2–DS9User LEDsGPIO LEDs, green 06033823SW3–SW7User pushbuttons, active-High E-Switch TL3301EP100QG 3824SW2User DIP Switch8-pole C and K SDA08H1SBD 3825SW10User rotary switch (under LCD assembly)Panasonic EVQ-WK40013826J33, J34User SMA GPIO Rosenberger 32K10K-400L53227SW12Power on/off switch C&K 1201M2S3AQE24528SW9FPGA PROG pushbuttonE-Switch TL3301EP100QG 3829SW11Config mode/upper linear flash address dip switch 5-pole C&K SDA05H1IBD 3630J35FMC HPC1 connector (J35)Samtec ASP_134486_0122–2531J37FMC HPC2 connector (J37)Samtec ASP_134486_0126–2932Power management system (front and back side of board)TI UCD9248PFC in conjunction with various regulators 45–5533J19Xilinx XADC header 2x 10 0.1inch male header 4034J27, J28GTX receiver SMA (RX) Rosenberger 32K10K-400L53235J29/J30GTX transmitter SMA (TX)Rosenberger 32K10K-400L53236J5 2 x 5 shrouded PMBus connector Assman HW10G-0202 4637J1812V power input 2 x 3 connectorMolex 39-30-106046Table 1-1:VC707 Board Component Descriptions (Cont’d)CalloutReference Designator Component DescriptionNotesSchematic 0381418 Page NumberNet Name FPGA (U1)PinPCIe Edge Connector (P1)FunctionFHG1761Placement Pin NamePCIE_RX0_P Y4B14PETp0Integrated Endpoint block receive pair GTXE2_CHANNEL_X1Y11 PCIE_RX0_N Y3B15PETn0Integrated Endpoint block receive pair GTXE2_CHANNEL_X1Y11 PCIE_RX1_P AA6B19PETp1Integrated Endpoint block receive pair GTXE2_CHANNEL_X1Y10 PCIE_RX1_N AA5B20PETn1Integrated Endpoint block receive pair GTXE2_CHANNEL_X1Y10 PCIE_RX2_P AB4B23PETp2Integrated Endpoint block receive pair GTXE2_CHANNEL_X1Y9 PCIE_RX2_N AB3B24PETn2Integrated Endpoint block receive pair GTXE2_CHANNEL_X1Y9 PCIE_RX3_P AC6B27PETp3Integrated Endpoint block receive pair GTXE2_CHANNEL_X1Y8Feature DescriptionsPCIE_RX3_N AC5B28PETn3Integrated Endpoint block receive pair GTXE2_CHANNEL_X1Y8PCIE_RX4_P AD4B33PETp4Integrated Endpoint block receive pair GTXE2_CHANNEL_X1Y7PCIE_RX4_N AD3B34PETn4Integrated Endpoint block receive pair GTXE2_CHANNEL_X1Y7PCIE_RX5_P AE6B37PETp5Integrated Endpoint block receive pair GTXE2_CHANNEL_X1Y6PCIE_RX5_N AE5B38PETn5Integrated Endpoint block receive pair GTXE2_CHANNEL_X1Y6PCIE_RX6_P AF4B41PETp6Integrated Endpoint block receive pair GTXE2_CHANNEL_X1Y5PCIE_RX6_N AF3B42PETn6Integrated Endpoint block receive pair GTXE2_CHANNEL_X1Y5PCIE_RX7_P AG6B45PETp7Integrated Endpoint block receive pair GTXE2_CHANNEL_X1Y4PCIE_RX7_N AG5B46PETn7Integrated Endpoint block receive pair GTXE2_CHANNEL_X1Y4PCIE_TX0_P W2A16PERp0Integrated Endpoint block transmit pair GTXE2_CHANNEL_X1Y11PCIE_TX0_N W1A17PERn0Integrated Endpoint block transmit pair GTXE2_CHANNEL_X1Y11PCIE_TX1_P AA2A21PERp1Integrated Endpoint block transmit pair GTXE2_CHANNEL_X1Y10PCIE_TX1_N AA1A22PERn1Integrated Endpoint block transmit pair GTXE2_CHANNEL_X1Y10PCIE_TX2_P AC2A25PERp2Integrated Endpoint block transmit pair GTXE2_CHANNEL_X1Y9PCIE_TX2_N AC1A26PERn2Integrated Endpoint block transmit pair GTXE2_CHANNEL_X1Y9PCIE_TX3_P AE2A29PERp3Integrated Endpoint block transmit pair GTXE2_CHANNEL_X1Y8PCIE_TX3_N AE1A30PERn3Integrated Endpoint block transmit pair GTXE2_CHANNEL_X1Y8PCIE_TX4_P AG2A35PERp4Integrated Endpoint block transmit pair GTXE2_CHANNEL_X1Y7PCIE_TX4_N AG1A36PERn4Integrated Endpoint block transmit pair GTXE2_CHANNEL_X1Y7PCIE_TX5_P AH4A39PERp5Integrated Endpoint block transmit pair GTXE2_CHANNEL_X1Y6PCIE_TX5_N AH3A40PERn5Integrated Endpoint block transmit pair GTXE2_CHANNEL_X1Y6PCIE_TX6_P AJ2A43PERp6Integrated Endpoint block transmit pair GTXE2_CHANNEL_X1Y5PCIE_TX6_N AJ1A44PERn6Integrated Endpoint block transmit pair GTXE2_CHANNEL_X1Y5PCIE_TX7_P AK4A47PERp7Integrated Endpoint block transmit pair GTXE2_CHANNEL_X1Y4PCIE_TX7_N AK3A48PERn7Integrated Endpoint block transmit pair GTXE2_CHANNEL_X1Y4Si5324_OUT_C_P AD8A13REFCLK+Integrated Endpoint block differential clock pairfrom PCIeMGT_BANK_114(not Quad 115)Si5324_OUT_C_N AD7A14REFCLK-Integrated Endpoint block differential clock pair from PCIeMGT_BANK_114(not Quad 115)PCIE_PRSNT_B J49 2, 4, 6A1PRSNT#1J49 Lane Size Select jumperNA PCIE_WAKE_B A V33B11WAKE#Integrated Endpoint block wake signal, not connected on KC705 BoardNA PCIE_PERST_BA V35A11PERSTIntegrated Endpoint block reset signalNANet Name FPGA (U1)Pin PCIe Edge Connector (P1)FunctionFHG1761PlacementPin Name质量等级领域:宇航级IC 、特军级IC 、超军级IC 、普军级IC 、禁运IC 、工业级IC ，军级二三极管，功率管等;应用领域:航空航天、船舶、汽车电子、军用计算机、铁路、医疗电子、通信网络、电力工业以及大型工业设备祝您:工作顺利，生活愉快!以赛灵思半导体（深圳）有限公司提供的参数为例，以下为XC7VX485T-1FFG1157I的详细参数，仅供参考。

AS-1H1V-WP Technical SpecificationsThe Intelix AS-1H1V-WP is a two-gang, Decora-style wallplate designed to be the primary PC interface for classrooms, boardrooms, and conference centers. It features VGA + Audio to HDMI conversion with VGA scaling up to 1920x1200 and an HDMI input.The AS-1H1V-WP utilizes HDBaseT technology to extend the digital output up to 70 meters away using solid core shielded Category 5e or greater cable. This transmitter device is compatible with several Intelix HDBaseT receivers, but is designed to work primarily with the DIGI-HD60C-R. The unit features multiple EDID modes to eliminate user confusion, and incompatible video formats.The AS-1H1V can be powered from the rear panel or by Power over HDBaseT (PoH), including midspan injectors that support Power over Ethernet (PoE) Alternative A or Alternative B. Built-in surge protection and diagnostic LEDs ensure hassle-free and robust installations. The AS-1H1V-WP also features a customizable power management system, which will put the unit into a low power state after no video for 30 minutes or being inactive for 3 hours by default. When using the local power input, 12V DC is available for other devices on the power output connections on the rear of the device.The AS-1H1V-WP will detect which input has an active video input, and switch to that input – if both inputs are active, the “last in” will be selected. There are additional contact closure inputs provided on the rear of the unit to allow third party control. RS232 control of the AS-1H1V-WP can be accomplished by connecting to the RS232 port on a compatible receiver, such as a DIGI-HD60C-R, or through a direct connection on the RS232 input of the device.The AS-1H1V-WP can be programmed to control the connected display. The display manufacturer’s RS232 commands can be entered into the AS-1H1V-WP with the use of Intelix Display Control software. This allows display power and input to be automatically controlled based on video activity, eliminating the need for a third party control system in many installations.AS-1H1V-WP Technical SpecificationsHDMI and VGA Auto-Switching WallplateRev 160804AS-1H1V-WP Technical SpecificationsAS-1H1V-WP Technical Specifications Input/Output ConnectionsHDMI Input One (1) HDMI Type A ReceptacleVGA Input One (1) PC Video HD-15-F ReceptacleAnalog Audio One (1) 3.5 mm TRS ReceptacleHDBaseT Port One (1) 8P8C port (Shielded RJ45)Power One (1) 2-pin Removable Terminal Block ConnectorRS232 Port with 12V DC Output One (1) 4-pin Removable Terminal Block ConnectorContact Closures One (1) 4-pin Removable Terminal Block ConnectorFirmware Port One (1) USB Type B Micro ReceptacleSupported Audio, Video and ControlVideo Resolutions SMPTE: 480i, 480p, 576i, 576p, 720p, 1080i, 1080p, UHD/30 (HDMI only)VESA: Resolutions up to 1920x1200Color Depth: 24, 30, 36, 48bitVGA Scaling Resolutions (60 Hz)1024x768, 1400x1050, 1600x1200, 1280x800, 1360x768, 1920x1200, 720p, 1080pMaximum Video Compatibility at 70 m Deep Color 36/30/24 Bit at 1080pMaximum Video Compatibility at 40 m Deep Color 48 Bit at 1080p, 3D (HDMI Input), UHD/30Video Compliance HDMI 1.4 and HDCP 1.4Embedded Audio Up to PCM 8 channel, Dolby Digital TrueHD, and DTS-HD Master AudioAnalog Audio Analog stereo line-level (Converted to 2ch 24bit PCM 48kHz)ARC (Audio Return Channel)NoHEC (HDMI Ethernet Channel)NoCEC (Consumer Electronics Control)Yes (HDMI Pass-through Only)Baud Rate (Wall plate control)2400, 4800, 9600 (default), 19200, 38400, 57600, 115200Supported Baud Rates (Display Control)2400, 4800, 9600, 19200, 38400, 57600, 115200HDBaseT Signal CharacteristicsMaximum Distance70 m (229 ft)Cable Requirements Continuous solid core Category 5e or greater with TIA/EIA-568B crimp pattern (no couplers in-line)Bandwidth10.2 GbpsHDBaseT Chipset VS010TXChassis and EnvironmentalConstruction Alumininum HousingDimensions (H x W x D)104 mm x 89 mm x 51 mm (4.09 in x 3.50 in x 2.01 in)Shipping Weight0.68 kg (11.5 lbs.)Operating Temperature0° to +40° C (+32° to +104° F)Operating Humidity20% to 90%, Non-condensingStorage Temperature-10° to +60° C (+14° to +140° F)Storage Humidity20% to 90%, Non-condensingPower and RegulatoryPower Supply12V DC 2A or 48V DC PoH (Power over HDBaseT)Power Output Port12V DC, 500 mAPower over Ethernet (PoE) Compatibility802.3af Alternative A and Alternative BPower Consumption10 wattsDefault Automatic Standby Mode30 minutes no signalESD Protection16kVRegulatory CE, RoHSOtherWarranty 2 yearsDiagnostic Indicators HDCP, Link, VGA, and HDMIReset Switch MicroswitchAvailable Models AS-1H1V-WP-W (White Faceplate and Painted Insert), AS-1H1V-WP-B (Black Faceplate and Painted Insert) Included Accessories Installation Guide, Power Supply, Two (2) 4-pin Removable Screw Terminals, RS232 cable (3-pin to DE9), 2-pinRemovable Screw Terminal, USB Programming CableHDBaseT Receiver (A/V, PoE, Control) Compatibility DIGI-HD60C-R, DIGI-HDX-R, FLX-64, DIGI-BSR-4KHDBaseT Receiver (A/V, Control) Compatibility FLX-BI4HDBaseT Receiver (A/V and PoE) Compatibility DIGI-HD60-RDistances and picture quality may be affected by cable grade, cable quality, source and destination equipment, RF and electrical interference, and cable patches.。

The Dell EMC S5048-ON switch is an innovative, future-ready T op-of-Rack (T oR) open networking switch providing excellent capabilities and cost-effectiveness for the enterprise, mid-market, Tier2 cloud and NFV service providers with demanding compute and storage traffic environments.The S5048F-ON 25GbE switch is Dell’s latest disaggregated hardware and software data center networking solution that provides backward compatible 25GbE server port connections, 100GbE uplinks, storage optimized architecture, and a broad range of functionality to meet the growing demands of today’s data center environment now and in the future.The compact S5048F-ON model design provides industry-leading density with up to 72 ports of 25GbE or up to 48 ports of 25GbE and 6 ports of 100GbE in a 1RU form factor.Using industry-leading hardware and a choice of Dell’s OS9 or select 3rd party network operating systems and tools, the S5048F-ON delivers non-blocking performance* for workloads sensitive to packet loss. The compact S5048F-ON model provides multi rate speed enabling denser footprints and simplifying migration to 25GbE server connections and 100GbE fabrics. Priority-based flow control (PFC), data center bridge exchange (DCBX) and enhanced transmission selection (ETS) make the S5048F-ON an excellent choice for DCB environments.Maximum performance and functionalityThe Dell EMC Networking S-Series S5048F-ON is a high-performance, multi-function, 10/25/40/50/100 GbE T oR switch purpose-built for applications in high-performance data center, cloud and computing environments.In addition, the S5048F-ON incorporates multiple architectural features that optimize data center network flexibility, efficiency, and availability, including IO panel to PSU airflow or PSU to IO panel airflow for hot/cold aisle environments, and redundant, hot-swappable power supplies and fans. Key applications• Organizations looking to enter the software-defined data center era with a choice of networking technologies designed to deliver theflexibility they need• Native high-density 25 GbE T oR server access in high-performance data center environments• 25 GbE backward compatible to 10G and 1G for future proofing and data center server migration to faster uplink speeds.• Capability to support mixed 25G and 10G servers on front panel ports • iSCSI storage deployment including DCB converged lossless transactions • Suitable as a T oR or Leaf switch in 100G Active Fabric implementations • As a high speed VXLAN L2 gateway that connects the hypervisor-based overlay networks with non-virtualized infrastructure• Emerging applications requiring hardware support for new protocols Key features• 1RU high-density 25/10/1 GbE T oR switch with up to forty eight ports of native 25 GbE (SFP28) ports supporting 25 GbE without breakout cables• Multi-rate 100GbE ports support 10/25/40/50/100 GbE• 3.6 Tbps (full-duplex) non-blocking, store and forward switching fabric delivers line-rate performance under full load*• Scalable L2 and L3 Ethernet switching with QoS and a full comple-ment of standards-based IPv4 and IPv6 features, including OSPF and BGP routing support• L2 multipath support via Virtual Link Trunking (VLT) and multiple VLT (mVLT) multi-chassis link aggregation technology• VRF-lite enables sharing of networking infrastructure and provides L3 traffic isolation across tenants• Open Automation Framework adding automated configuration and provisioning capabilities to simplify the management of networkenvironments• Jumbo frame support for large data transfers• 128 link aggregation groups with up to eight members per group, using enhanced hashing• Redundant, hot-swappable power supplies and fans• I/O panel to power supply airflow or power supply to I/O panel airflow • T ool-less enterprise ReadyRails™ mounting kits reducing time and resources for switch rack installation• Power-efficient operation up to 45°C helping reduce cooling costs in temperature-constrained deployments (Dell EMC Fresh Air 2.0compliant)• Converged network support for DCB and ECN capability• Supports the open source Open Network Install Environment (ONIE) for zero touch installation of alternate network operating systems• Fibre Channel, FCoE, FCoE transit (FIP Snooping) and NPIV ProxyDELL EMC NETWORKING S5048F-ONHigh-performance open networking top-of-rack switch with native 25G server ports and 100G network fabric connectivity**future deliverable48 line-rate 25 Gigabit Ethernet SFP28 ports6 line-rate 100 Gigabit Ethernet QSFP28 ports1 RJ45 console/management port with RS232signaling1 Micro-USB type B optional console port1 10/100/1000 Base-T Ethernet port used asmanagement port1 USB type A port for the external mass storage Size: 1 RU, 1.72 h x 17.1 w x 18” d(4.4 h x 43.4 w x 45.7 cm d)Weight: 22lbs (9.98kg)ISO 7779 A-weighted sound pressure level: 59.6 dBA at 73.4°F (23°C)Power supply: 100–240 VAC 50/60 HzMax. thermal output: 1956 BTU/hMax. current draw per system:5.73A/4.8A at 100/120V AC2.87A/2.4A at 200/240V ACMax. power consumption: 573 Watts (AC)T yp. power consumption: 288 Watts (AC) with all optics loadedMax. operating specifications:Operating temperature: 32° to 113°F (0° to 45°C) Operating humidity: 10 to 90% (RH), non-condensingFresh Air Compliant to 45°CMax. non-operating specifications:Storage temperature: –40° to 158°F (–40° to70°C)Storage humidity: 5 to 95% (RH), non-condensing RedundancyT wo hot swappable redundant power suppliesHot swappable redundant fansPerformanceSwitch fabric capacity: 3.6TbpsForwarding capacity: Up to 2,678 MppsPacket buffer memory: 22MB (16MB supported in initial release)CPU memory: 8GBMAC addresses: 132K (in scaled-l2-switch mode) ARP table: 82K (in scaled-l3-hosts mode)IPv4 routes: Up to 128KIPv6 routes: Up to 64K (20k currently supported) Multicast hosts: Up to 8KLink aggregation: 128 groups, 32 members per LAG groupLayer 2 VLANs: 4KMSTP: 64 instancesLAG Load Balancing: Based on layer 2, IPv4 or IPv6 header, or tunnel inner header contentsQoS data queues: 8QoS control queues: 12QoS: 1024 entries per TileIngress ACL: 1024 entries per TileEgress ACL: 1k entries per TilePre-Ingress ACL: 1k entries per TileIEEE Compliance802.1AB LLDP802.1D Bridging, STP802.1p L2 Prioritization802.1Q VLAN T agging, Double VLAN T agging,GVRP802.1Qbb PFC802.1Qaz ETS802.1s MSTP802.1w RSTP802.1X Network Access Control802.3ab Gigabit Ethernet (1000BASE-T) orbreakout802.3ac Frame Extensions for VLAN T agging 802.3ad Link Aggregation with LACP 802.3ba 40 Gigabit Ethernet (40GBase-SR4,40GBase-CR4, 40GBase-LR4, 100GBase-SR10, 100GBase-LR4, 100GBase-ER4) onoptical ports802.3bj 100 Gigabit Ethernet802.3u Fast Ethernet (100Base-TX) on mgmtports802.3x Flow Control802.3z Gigabit Ethernet (1000Base-X) with QSAANSI/TIA-1057 LLDP-MEDForce10 PVST+Jumbo MTU support 9,416 bytesLayer2 Protocols4301 Security Architecture for IPSec*4302 IPSec Authentication Header*4303 ESP Protocol*802.1D Compatible802.1p L2 Prioritization802.1Q VLAN T agging802.1s MSTP802.1w RSTP802.1t RPVST+802.3ad Link Aggregation with LACPVL T Virtual Link T runkingRFC Compliance768 UDP793 TCP854 T elnet959 FTP1321 MD51350 TFTP2474 Differentiated Services2698 T wo Rate Three Color Marker3164 Syslog4254 S SHv2General IPv4 Protocols791 I Pv4792 ICMP826 ARP1027 Proxy ARP1035 DNS (client)1042 Ethernet Transmission1191 Path MTU Discovery1305 NTPv41519 CIDR1542 BOOTP (relay)1858 IP Fragment Filtering2131 DHCP (server and relay)5798 V RRP3021 31-bit Prefixes3046 D HCP Option 82 (Relay)1812 Requirements for IPv4 Routers1918 Address Allocation for Private Internets2474 Diffserv Field in IPv4 and Ipv6 Headers2596 A ssured Forwarding PHB Group3195 Reliable Delivery for Syslog3246 E xpedited Assured Forwarding4364 V RF-lite (IPv4 VRF with OSPF and BGP)*General IPv6 Protocols1981 Path MTU Discovery*2460 I Pv62461 Neighbor Discovery*2462 S tateless Address AutoConfig2463 I CMPv62675 Jumbo grams3587 Global Unicast Address Format4291 IPv6 Addressing2464 T ransmission of IPv6 Packets over EthernetNetworks2711 IPv6 Router Alert Option4007 I Pv6 Scoped Address Architectureand Routers4291 IPv6 Addressing Architecture4861 Neighbor Discovery for IPv64862 I Pv6 Stateless Address Autoconfiguration5095 Deprecation of T ype 0 Routing Headers in IPv6IPv6 Management support (telnet, FTP, TACACS,RADI US, SSH, NTP)RIP1058 RIPv12453 R I Pv2OSPF (v2/v3)1587 NSSA (not supported in OSPFv3)1745 OSPF/BGP interaction1765 OSPF Database overflow2154 MD52328 OSPFv22370 Opaque LSA3101 OSPF NSSA3623 O SPF Graceful Restart (Helper mode)*BGP1997 Communities2385 M D52439 R oute Flap Damping2545 B GP-4 Multiprotocol Extensions for IPv6I nter-Domain Routing2796 Route Reflection2842 C apabilities2858 M ultiprotocol Extensions2918 Route Refresh3065 C onfederations4271 BGP-44360 E xtended Communities4893 4-byte ASN5396 4-byte ASN Representation5492 C apabilities AdvertisementMulticast1112 IGMPv12236 I GMPv23376 IGMPv3MSDPPIM-SMPIM-SSMNetwork Management1155 SMIv11157 SNMPv11212 Concise MIB Definitions1215 SNMP Traps1493 Bridges MIB1850 OSPFv2 MIB1901 Community-Based SNMPv22011 IP MIB2096 I P Forwarding T able MIB2578 SMI v22579 T extual Conventions for SMIv22580 C onformance Statements for SMIv22618 RADIUS Authentication MIB2665 E thernet-Like Interfaces MIB2674 Extended Bridge MIB2787 VRRP MIB2819 RMON MIB (groups 1, 2, 3, 9)2863 I nterfaces MIB3273 RMON High Capacity MIB3410 SNMPv33411 SNMPv3 Management Framework3412 Message Processing and Dispatching for theSimple Network Management Protocol (SNMP)3413 SNMP Applications3414 User-based Security Model (USM) forSNMPv33415 VACM for SNMP3416 SNMPv23417 Transport mappings for SNMP3418 SNMP MIB3434 R MON High Capacity Alarm MIB3584 C oexistance between SNMP v1, v2 and v3 4022 I P MIB4087 IP Tunnel MIB4113 UDP MIB4133 Entity MIB4292 M IB for IP4293 M IB for IPv6 T extual Conventions4502 R MONv2 (groups 1,2,3,9)5060 PIM MIBANSI/TIA-1057 LLDP-MED MIBDell_ITA.Rev_1_1 MIBdraft-ietf-idr-bgp4-mib-06 BGP MIBv1IEEE 802.1AB LLDP MIBIEEE 802.1AB LLDP DOT1 MIBIEEE 802.1AB LLDP DOT3 MIB sFlowv5 sFlowv5 MIB (version 1.3)DELL-NETWORKING-BGP4-V2-MIB(draft-ietf-idr-bgp4-mibv2-05)DELL-NETWORKING-IF-EXTENSION-MIBDELL-NETWORKING-LINK-AGGREGATION-MIB DELL-NETWORKING-COPY-CONFIG-MIBDELL-NETWORKING-PRODUCTS-MIBDELL-NETWORKING-CHASSIS-MIBDELL-NETWORKING-SMIDELL-NETWORKING-TCDELL-NETWORKING-TRAP-EVENT-MIBDELL-NETWORKING-SYSTEM-COMPONENT-MIB DELL-NETWORKING-FIB-MIBDELL-NETWORKING-FPSTATS-MIBDELL-NETWORKING-ISIS-MIBDELL-NETWORKING-FIPSNOOPING-MIBDELL-NETWORKING-VIRTUAL-LINK-TRUNK-MIB DELL-NETWORKING-DCB-MIBDELL-NETWORKING-OPENFLOW-MIBDELL-NETWORKING-BMP-MIBDELL-NETWORKING-BPSTATS-MIBSecuritydraft-grant-tacacs-02 TACACS+2404 The Use of HMACSHA-1-96 within ESP and AH 2865 R ADI US3162 Radius and IPv63579 RADIUS support for EAP3580 802.1X with RADIUS3768 EAP3826 A ES Cipher Algorithm in the SNMP User Base Security Model4250, 4251, 4252, 4253, 4254 SSHv24301 Security Architecture for IPSec4302 I PSec Authentication Header4807 IPsecv Security Policy DB MIBData center bridging802.1Qbb Priority-Based Flow Control802.1Qaz Enhanced Transmission Selection (ETS)* Data Center Bridging eXchange (DCBx)DCBx Application TLV (iSCSI, FCoE*) Regulatory complianceSafetyUL/CSA 60950-1, Second EditionEN 60950-1, Second EditionIEC 60950-1, Second Edition Including All National Deviations and Group DifferencesEN 60825-1 Safety of Laser Products Part 1: Equipment Classification Requirements and User’s GuideEN 60825-2 Safety of Laser Products Part 2: Safety of Optical Fibre Communication SystemsIEC 62368-1FDA Regulation 21 CFR 1040.10 and 1040.11 Emissions & ImmunityFCC Part 15 (CFR 47) (USA) Class AICES-003 (Canada) Class AEN55032: 2015 (Europe) Class ACISPR32 (International) Class AAS/NZS CISPR32 (Australia and New Zealand) Class AVCCI (Japan) Class AKN32 (Korea) Class ACNS13438 (T aiwan) Class ACISPR22EN55022EN61000-3-2EN61000-3-3EN61000-6-1EN300 386EN 61000-4-2 ESDEN 61000-4-3 Radiated ImmunityEN 61000-4-4 EFTEN 61000-4-5 SurgeEN 61000-4-6 Low Frequency Conducted Immunity NEBSGR-63-CoreGR-1089-CoreATT-TP-76200VZ.TPR.9305RoHSRoHS 6 and China RoHS compliantCertificationsJapan: VCCI V3/2009 Class AUSA: FCC CFR 47 Part 15, Subpart B:2009, Class A Warranty1 Year Return to DepotLearn more at /NetworkingIT Lifecycle Servicesfor NetworkingExperts, insights and easeOur highly trained experts, withinnovative tools and proven processes,help you transform your IT investments into strategic advantages.Plan & DesignLet us analyze yourmultivendor environmentand deliver a comprehensivereport and action plan to buildupon the existing network andimprove performance.Deploy & IntegrateGet new wired or wirelessnetwork technology installedand configured with ProDeploy.Reduce costs, save time, andget up and running fast.EducateEnsure your staff builds theright skills for long-termsuccess. Get certified on DellEMC Networking technologyand learn how to increaseperformance and optimizeinfrastructure.Manage & SupportGain access to technical expertsand quickly resolve multivendornetworking challenges withProSupport. Spend less timeresolving network issues andmore time innovating.OptimizeMaximize performance fordynamic IT environments withDell EMC Optimize. Benefitfrom in-depth predictiveanalysis, remote monitoringand a dedicated systemsanalyst for your network.RetireWe can help you resell or retireexcess hardware while meetinglocal regulatory guidelines andacting in an environmentallyresponsible way.Learn more at/lifecycleservices*Future release**Packet sizes over 147 Bytes。

在Windows上编译最新版本的Hashcat 最新版本V5.0.0下载地址：开发版：GPU驱动要求:AMD GPUs on Linux require “RadeonOpenCompute (ROCm)” Software Platform (1.6.180 or later)AMD GPUs on Windows require “AMD Radeon Software Crimson Edition” (15.12 or later)Intel CPUs require “OpenCL Runtime for Intel Core and Intel Xeon Processors” (16.1.1 or later)Intel GPUs on Linux require “OpenCL 2.0 GPU Driver Package for Linux” (2.0 or later)Intel GPUs on Windows require “OpenCL Driver for Intel Iris and Intel HD Graphics”NVIDIA GPUs require “NVIDIA Driver” (367.x or later)新特性（官⽅加粗显⽰突出特性）World’s fastest password crackerWorld’s first and only in-kernel rule engineFree （软件可以免费使⽤）Open-Source (MIT License) （程序源代码公开）Multi-OS (Linux, Windows and macOS)Multi-Platform (CPU, GPU, DSP, FPGA, etc., everything that comes with an OpenCL runtime)Multi-Hash (Cracking multiple hashes at the same time)Multi-Devices (Utilizing multiple devices in same system)Multi-Device-Types (Utilizing mixed device types in same system)Supports password candidate brain functionalitySupports distributed cracking networks (using overlay) （⽀持分布式⽹络离散破解）Supports interactive pause / resume （交互式的暂停和重启）Supports sessionsSupports restoreSupports reading password candidates from file and stdinSupports hex-salt and hex-charsetSupports automatic performance tuning （⾃动化的性能调优）Supports automatic keyspace ordering markov-chainsBuilt-in benchmarking systemIntegrated thermal watchdog （完整的⽇志输出流）implemented with performance in mind… and much more或者git clone /hashcat/hashcat 下载源代码。

Silvertel1 Table of Contents1Table of Contents 1 2Table of Figures 1 3Introduction 2 4Board Description 2 4.1Input Selection and Classification (2)4.2Output adjustment (3)5Typical Set-up 4 6Using the Board 5 6.1Typical Application (5)6.2EVALAG5300 REV 3R - Evaluation Board Schematic (6)6.3Link settings (6)2 Table of FiguresFigure 1: Board Layout (3)Figure 2: Basic set-up (4)Figure 3: Example set-up (5)Figure 4: Board Schematic (6)3 IntroductionThis manual is intended to be a guide to using the “EVALAG5300 Rev3.0” evaluation board with a Silvertel Ag5300 Powered Device (PD) module.4 Board DescriptionThe input data and power is supplied to the board through connector J101. The data is passed through to the peripheral equipment via J100, with the power from the PD module supplied via J3 to J5 (see Figure 1 & 4).The EVALAG5300 on-board bridge rectifiers will ensure that the correct input polarity is applied to the PD.4.1 Input Selection and ClassificationThe EVALAG5300 board will automatically direct the power from J101 to the Ag5300’s input. LED2 will be illuminated when PoE power is being applied to the board. LK1 can be removed if you do not want LED2 to illuminate.If the need for a V-Capacitor filtering arrangement is needed for further noise reductions, C2 and C3 can be fitted with LK4 present. C2 and C3 values can be 1nF to 22nF and will need to be capable of handling the 1500Vdc impulse test because these capacitors cross the isolation barrier.The Ag5300 Classification is fixed at Class 4 and does not need any external programming components.When the EVALAG5300 board is connected to an IEEE802.3at (PoE+) compliant PSE such as a Phihong POE36U-1AT-R; the PSE will detect Class 4 and output 2-Event classification pulses. In turn the Ag5300 detects these pulses and activates the AT-DET detect output. This output is connected to an opto-isolator to cross the isolation barrier and LED 3 will be illuminated.Note: The EVALAG5300 does not have an on-board PHY or µ-controller; so does not perform the Data Link Layer (DLL) classification communications back to the PSE (to confirm its power requirement). Many IEEE802.3at PSEs (such as the Phihong POE36U-1AT-R) do not need this and will automatically supply full Type 2 power at start-up. But there are several Switches (e.g. Cisco) that will only output Type 1 power level (<15.4W), until they receive DLL confirmation that the PD is Type 2 and supports the higher power level.Figure 1: Board Layout4.2 Output adjustmentThe Ag5300 output has an ADJ pin, which allows the output voltage to be increased or decreased from its nominal value.The EVALAG5300 board has an adjust link LK2 and two resistors R2 (68K) and R4 (0R) which allows the Ag5300 output to be adjusted to its maximum and minimum values.To increase the output voltage (to its maximum) connect a link to LK2 in the top position so the link is between the middle and top pin. To reduce the output voltage (to its minimum) connect a link between the bottom pin and middle pin of LK2. If the output voltage needs to be set to a different value (within the adjustment range) then connectdifferent resistors instead of the (0R) or (68K) link.5 Typical Set-upFigure 2 shows the basic set up using the EVALAG5300 evaluation board with a Midspan or Endspan.The equipment required: -Midspan or Endspan PSE (Power Sourcing Equipment)Peripheral (or Test) EquipmentCAT5e cablesOutput power cableMains cableFigure 2: Basic set-up6 Using the Board6.1 Typical ApplicationFigure 3 shows an example set-up using an Ag5300 powered by a Phihong POE36U-1AT-R Midspan and supplying +12V to a Vivotek PZ6122 (or PZ6112) ethernet camera. The PC ethernet port is connected to the data input of the Phihong POE36U-1AT-R (PSE) via a short Cat5e patch cable. The Data & Power output from the Phihong POE36U-1AT-R is connected to the input of the EVALAG5300 evaluation board (J101) via a CAT5e crossover cable (up to 100m). The data output of the EVALAG5300 evaluation board is connected to the data port of the ethernet camera via a short CAT5e patch cable. The +12V (parallel configuration) power output from the EVALAG5300 evaluation board (J4) connects to the dc input of the Vivotek PZ6122 ethernet camera.Figure 3: Example set-up6.2 EVALAG5300 REV 3R - Evaluation Board SchematicFigure 4: Board Schematic6.3 Link settingsLK1 – Connects input power LED circuitLK2 – Output adjust selectLK3 – IEEE802.3at PSE detection LEDLK4 – Option for V-Cap link to be fitted。

ADV7182笔记By Lzp找不到ADV7182的中文说明，先啃一遍英文pdf，做个笔记。

上电：强烈建议，任何未使用的模拟输入引脚连接到AGND，有一个应用笔记里，PWRDWN 直接通过电阻上拉到了3,3V0xF3[3:0] 每一位控制着每一个AA滤波器（抗混叠滤波器）使能；滤器被设计用于标准清晰度控制寄存器：PWRDWN, Address 0x0F[5] 这个位或PWRDWN管脚控制省电：该位=1省电；该模式不复位寄存器的缺省值。

Reset, Chip Reset, Address 0x0F[7] ：或这个脚控制整片复位，I2c寄存器置入缺省值。

复位完成建议5ms后再启动I2C。

TOD, Address 0x03[6]：=1 p0---p7、VS/FIELD/SFL脚进入三态输出。

=0 正常输出。

TRI_LLC, Address 0x1D[7] 1：三态，0：按照DR_STR_C[1:0]工作；TIM_OE, Address 0x04[3]：这个位能控制TOD位，=0 输出脚按照TOD做，=1强迫输出脚正常，说这个位有意义，以后理解吧。

FLD_OUT_SEL[2:0], Address 0x6B[2:0]HS_OUT_SEL[2:0], Address 0x6A[2:0]既然管脚名叫HS，何以输出其它信号，真不可思议。

就是灵活之作用吧，应该改名为HS/VS/FIELD/DE/SFL对于EMC和串音的原因，加强或削弱的输出驱动器的驱动强度可能是可取的DR_STR[1:0], Address 0xF4[5:4]：输出管脚驱动强度控制位(P[7:0] 、HS and VS/FIELD/SFL).DR_STR_C[1:0], Address 0xF4[3:2] LLC pin 管脚驱动强度控制位DR_STR_S[1:0], Address 0xF4[1:0] SDA and SCL pins.管脚驱动强度控制位EN_SFL_PIN, Address 0x04[1] SFL管脚控制：0输出禁止，1输出有效PCLK, Address 0x37[0] 这个位可以控制LLC管脚的极性翻转，更改LLC时钟输出的极性可能是必要的，以满足后续芯片的建立时间和保持时间的预期状态寄存器：IDENT[7:0], Address 0x11[7:0]0x40：初始版本0x41：第一次修订Status 1[7:0], Address 0x10[7:0] 只读，取决于FSCLE位的设置。

Lenovo ThinkAgile HX7521 Certified Node forSAP HANA (Xeon SP Gen 1)Product Guide (withdrawn product)Lenovo ThinkAgile HX Certified Nodes for SAP HANA are designed for deploying industry-leading hyperconvergence software from Nutanix on Lenovo enterprise platforms that feature the Intel Xeon Processor Scalable Family.The ThinkAgile HX Certified Nodes for SAP HANA deliver fully validated and integrated Lenovo hardware and firmware, certified and preloaded with Nutanix software. Nutanix brings the benefits of web-scale technologies to enterprise applications through enterprise storage, data protection, infrastructure resilience, management and analytics, and security.The ThinkAgile HX7521 Certified Node for SAP HANA is a 2U rack-mount system that supports two processors, up to 3 TB of 2666 MHz TruDDR4 memory, 24x SFF hot-swap drive bays with an extensive choice of SAS/SATA SSDs and HDDs, and flexible network connectivity options with 1/10 GbE RJ-45,10 GbE SFP+, and 10/25 GbE SFP28 ports.The ThinkAgile HX7521 Certified Node for SAP HANA is certified by SAP for deploying SAP HANA solutions on hyperconverged infrastructure (HCI) in production environments.The ThinkAgile HX7521 Certified Node for SAP HANA is shown in the following figure.Figure 1. Lenovo ThinkAgile HX7521 Certified Node for SAP HANADid you know?The ThinkAgile HX Certified Nodes for SAP HANA are built on industry-leading Lenovo ThinkSystem servers that feature enterprise-class reliability, management, and security.The ThinkAgile HX Certified Nodes for SAP HANA deliver fully validated and integrated hardware and firmware that is certified with Nutanix software.Click here to check for updatesFigure 2. ThinkAgile HX7521 Certified Node for SAP HANA front viewThe front of the ThinkAgile HX7521 Certified Node for SAP HANA includes the following components: 20x SAS/SATA and 4x AnyBay, or 12x SAS/SATA and 4x AnyBay 2.5-inch hot-swap drive bays One VGA portOne USB 2.0 port with XClarity Controller accessOne USB 3.0 portA Power buttonStatus LEDsFigure 3. ThinkAgile HX7521 Certified Node for SAP HANA rear viewThe rear of the ThinkAgile HX7521 Certified Node for SAP HANA includes the following components: Up to six PCIe expansion slots (2 reserved for SAS HBAs)One LOM card slotOne 1 GbE port for XClarity ControllerOne VGA portTwo USB 3.0 portsTwo hot-swap power suppliesMemoryThe ThinkAgile HX7521 Certified Node for SAP HANA for SAP HANA supports Lenovo TruDDR4 memory. TruDDR4 memory uses the highest-quality components sourced from Tier 1 DRAM suppliers and only memory that meets strict requirements is selected. It is compatibility tested and tuned to maximize performance and reliability.The ThinkAgile HX7521 Certified Node for SAP HANA supports 12 or 24 DIMMs. Each processor has six memory channels, and there are two DIMM slots per channel.1.25m Cat6 Green Cable 00WE131AVFY 1.5m Cat6 Green Cable 00WE135AVFZ 3m Cat6 Green Cable 00WE139AVG010m Cat6 Green Cable 90Y3718A1MT 25m Cat6 Green Cable90Y3727A1MWDescriptionPart number Feature codeThe following table lists transceivers and cables for the 10 GbE SFP+ ports.Table 11. Transceivers and cables for 10 GbE SFP+ portsDescriptionPart numberFeature code10 GbE SFP+ SR transceivers for 10 GbE SFP+ ports Lenovo 10GBASE-SR SFP+ Transceiver 46C34475053Lenovo 10GBASE-LR SFP+ Transceiver 00FE331B0RJOptical cables for 10 GbE SFP+ SR transceivers Lenovo 0.5m LC-LC OM3 MMF Cable 00MN499ASR5Lenovo 1m LC-LC OM3 MMF Cable 00MN502ASR6Lenovo 3m LC-LC OM3 MMF Cable 00MN505ASR7Lenovo 5m LC-LC OM3 MMF Cable 00MN508ASR8Lenovo 10m LC-LC OM3 MMF Cable 00MN511ASR9Lenovo 15m LC-LC OM3 MMF Cable 00MN514ASRA Lenovo 25m LC-LC OM3 MMF Cable00MN517ASRB Passive SFP+ DAC cables for 10 GbE SFP+ ports Lenovo 0.5m Passive SFP+ DAC Cable 00D6288A3RG Lenovo 1m Passive SFP+ DAC Cable 90Y9427A1PH Lenovo 1.5m Passive SFP+ DAC Cable 00AY764A51N Lenovo 2m Passive SFP+ DAC Cable 00AY765A51P Lenovo 3m Passive SFP+ DAC Cable 90Y9430A1PJ Lenovo 5m Passive SFP+ DAC Cable 90Y9433A1PK Lenovo 7m Passive SFP+ DAC Cable00D6151A3RHActive SFP+ DAC cables for 10 GbE SFP+ ports Lenovo 1m Active DAC SFP+ Cable 00VX111AT2R Lenovo 3m Active DAC SFP+ Cable 00VX114AT2S Lenovo 5m Active DAC SFP+ Cable00VX117AT2TSFP+ active optical cables for 10 GbE SFP+ ports Lenovo 1m SFP+ to SFP+ Active Optical Cable 00YL634ATYX Lenovo 3m SFP+ to SFP+ Active Optical Cable 00YL637ATYY Lenovo 5m SFP+ to SFP+ Active Optical Cable 00YL640ATYZ Lenovo 7m SFP+ to SFP+ Active Optical Cable 00YL643ATZ0Lenovo 15m SFP+ to SFP+ Active Optical Cable 00YL646ATZ1Lenovo 20m SFP+ to SFP+ Active Optical Cable00YL649ATZ2The following table lists transceivers and cables for the 25 GbE SFP28 ports. Table 12. Transceivers and cables for 25 GbE SFP28 portsDescription Part number Feature code25 GbE SFP28 SR transceivers for 25 GbE SFP28 portsLenovo 25GBASE-SR SFP28 Transceiver7G17A03537AV1B Optical cables for 25 GbE SFP28 SR transceiversLenovo 0.5m LC-LC OM3 MMF Cable00MN499ASR5 Lenovo 1m LC-LC OM3 MMF Cable00MN502ASR6 Lenovo 3m LC-LC OM3 MMF Cable00MN505ASR7 Lenovo 5m LC-LC OM3 MMF Cable00MN508ASR8 Lenovo 10m LC-LC OM3 MMF Cable00MN511ASR9 Lenovo 15m LC-LC OM3 MMF Cable00MN514ASRA Lenovo 25m LC-LC OM3 MMF Cable00MN517ASRB Passive copper cables for 25 GbE SFP28 portsLenovo 1m Passive 25G SFP28 DAC Cable7Z57A03557AV1W Lenovo 3m Passive 25G SFP28 DAC Cable7Z57A03558AV1X Lenovo 5m Passive 25G SFP28 DAC Cable7Z57A03559AV1Y Active optical cables for 25 GbE SFP28 portsLenovo 3m 25G SFP28 Active Optical Cable7Z57A03541AV1F Lenovo 5m 25G SFP28 Active Optical Cable7Z57A03542AV1G Lenovo 10m 25G SFP28 Active Optical Cable7Z57A03543AV1H Lenovo 15m 25G SFP28 Active Optical Cable7Z57A03544AV1J Lenovo 20m 25G SFP28 Active Optical Cable7Z57A03545AV1KPower supplies and cablesThe ThinkAgile HX7521 Certified Nodes for SAP HANA ship with two 1100W (230V/115V) Platinum hot-swap power supplies listed in the following table.Table 13. Power suppliesDescription Featurecode QuantityThinkSystem 1100W (230V/115V) Platinum Hot-Swap Power Supply AVWF2The ThinkAgile HX7521 Certified Nodes for SAP HANA ship with or without power cords depending on the selected option. The following table lists the rack power cables and line cords that can be ordered for the ThinkAgile HX7521 Certified Nodes for SAP HANA.Table 14. Power cablesDescription PartnumberFeaturecodeRack power cables1.0m, 13A/100-250V, C13 to IEC 320-C14 Rack Power Cable4L67A08367B0N5 1.2m, 16A/100-250V, 2 Short C13s to Short C20 Rack Power Cable47C2491A3SW1.5m, 13A/100-250V, C13 to IEC 320-C14 Rack Power Cable4L67A08368B0N62.0m, 13A/125V-10A/250V, C13 to IEC 320-C14 Rack Power Cable4L67A083696570 2.5m, 16A/100-250V, 2 Long C13s to Short C20 Rack Power Cable47C2492A3SX 2.8m, 13A/125V-10A/250V, C13 to IEC 320-C14 Rack Power Cable4L67A083706400 2.8m, 16A/100-250V, 2 Short C13s to Long C20 Rack Power Cable47C2493A3SY 4.1m, 16A/100-250V, 2 Long C13s to Long C20 Rack Power Cable47C2494A3SZ 4.3m, 13A/125V-10A/250V, C13 to IEC 320-C14 Rack Power Cable4L67A083716583 Line cordsArgentina 2.8m, 10A/250V, C13 to IRAM 2073 Line Cord39Y79306222 Argentina 4.3m, 10A/250V, C13 to IRAM 2073 Line Cord81Y23846492 Australia/New Zealand 2.8m, 10A/250V, C13 to AS/NZS 3112 Line Cord39Y79246211 Australia/New Zealand 4.3m, 10A/250V, C13 to AS/NZS 3112 Line Cord81Y23836574 Brazil 2.8m, 10A/250V, C13 to NBR 14136 Line Cord69Y19886532 Brazil 4.3m, 10A/250V, C13 to NBR14136 Line Cord81Y23876404 China 2.8m, 10A/250V, C13 to GB 2099.1 Line Cord39Y79286210 China 4.3m, 10A/250V, C13 to GB 2099.1 Line Cord81Y23786580 Denmark 2.8m, 10A/250V, C13 to DK2-5a Line Cord39Y79186213 Denmark 4.3m, 10A/250V, C13 to DK2-5a Line Cord81Y23826575 Europe 2.8m, 10A/250V, C13 to CEE7-VII Line Cord39Y79176212 Europe 4.3m, 10A/250V, C13 to CEE7-VII Line Cord81Y23766572 India 2.8m, 10A/250V, C13 to IS 6538 Line Cord39Y79276269 India 4.3m, 10A/250V, C13 to IS 6538 Line Cord81Y23866567 Israel 2.8m, 10A/250V, C13 to SI 32 Line Cord39Y79206218 Israel 4.3m, 10A/250V, C13 to SI 32 Line Cord81Y23816579 Italy 2.8m, 10A/250V, C13 to CEI 23-16 Line Cord39Y79216217 Italy 4.3m, 10A/250V, C13 to CEI 23-16 Line Cord81Y23806493 Japan 2.8m, 12A/125V, C13 to JIS C-8303 Line cord46M2593A1RE Japan 2.8m, 12A/250V, C13 to JIS C-8303 Line Cord4L67A083576533 Japan 4.3m, 12A/125V, C13 to JIS C-8303 Line Cord39Y79266335 Japan 4.3m, 12A/250V, C13 to JIS C-8303 Line Cord4L67A083626495 Korea 2.8m, 12A/250V, C13 to KS C8305 Line Cord39Y79256219 Korea 4.3m, 12A/250V, C13 to KS C8305 Line Cord81Y23856494 South Africa 2.8m, 10A/250V, C13 to SABS 164 Line Cord39Y79226214 South Africa 4.3m, 10A/250V, C13 to SABS 164 Line Cord81Y23796576Switzerland 2.8m, 10A/250V, C13 to SEV 1011-S24507 Line Cord 39Y79196216Switzerland 4.3m, 10A/250V, C13 to SEV 1011-S24507 Line Cord 81Y23906578Taiwan 2.8m, 10A/250V, C13 to CNS 10917-3 Line Cord 81Y23756317Taiwan 2.8m, 15A/125V, C13 to CNS 10917-3 Line Cord 81Y23746402Taiwan 4.3m, 10A/250V, C13 to CNS 10917-3 Line Cord 81Y23896531Taiwan 4.3m, 15A/125V, C13 to CNS 10917-3 Line Cord 81Y23886530United Kingdom 2.8m, 10A/250V, C13 to BS 1363/A Line Cord 39Y79236215United Kingdom 4.3m, 10A/250V, C13 to BS 1363/A Line Cord 81Y23776577United States 2.8m, 10A/250V, C13 to NEMA 6-15P Line Cord 46M2592A1RF United States 2.8m, 13A/125V, C13 to NEMA 5-15P Line Cord 00WH5456401United States 4.3m, 10A/250V, C13 to NEMA 6-15P Line Cord 4L67A083616373United States 4.3m, 13A/125V, C13 to NEMA 5-15P Line Cord4L67A08360AX8ADescriptionPart number Feature code Rack installationThe ThinkAgile HX7521 Certified Nodes for SAP HANA ship with a rail kit. The following table lists the rail kit options that are available for selection.Table 15. Rack kit selection optionsDescription Feature codeQuantity (min / max)4-post rail kitsThinkSystem Tool-less Slide RailAXCA 0 / 1ThinkSystem Tool-less Slide Rail Kit with 2U CMA AXCH0 / 1Lockable front bezelThinkSystem 2U Security BezelAURX0 / 1Configuration note: One of the rail kits is required for selection.The following table summarizes the rail kit features and specifications.Table 16. Rail kit features and specifications summaryFeature Tool-less Slide RailWithout CMA With 2U CMA CMA Not included IncludedRail length 730 mm (28.74 in.)807 mm (31.8 in.)Rail typeFull-out slide (ball bearing)Tool-less installation Yes In-rack maintenance Yes 1U PDU support Yes 0U PDU support Limited*Rack type IBM and Lenovo 4-post, IEC standard-compliant Mounting holesSquare or roundTrademarksLenovo and the Lenovo logo are trademarks or registered trademarks of Lenovo in the United States, other countries, or both. A current list of Lenovo trademarks is available on the Web athttps:///us/en/legal/copytrade/.The following terms are trademarks of Lenovo in the United States, other countries, or both:Lenovo®AnyBay®Lenovo ServicesThinkAgile®ThinkSystem®TruDDR4XClarity®The following terms are trademarks of other companies:Intel® and Xeon® are trademarks of Intel Corporation or its subsidiaries.Linux® is the trademark of Linus Torvalds in the U.S. and other countries.Microsoft®, PowerShell, Windows PowerShell®, and Windows® are trademarks of Microsoft Corporation in the United States, other countries, or both.Other company, product, or service names may be trademarks or service marks of others.。

Silvertel1 Table of Contents1Table of Contents 1 2Table of Figures 1 3Kit Contents 2 4Introduction 2 4.1EvalAg5800 (2)5Evaluation Board Description for Ag5800 2 5.1Input (2)5.2Diode Bridge Selection (3)5.3Input Signature and Classification (4)5.3.1Powered from POH PSE 45.3.2Powered from Phihong 12.5K Signature PSE 45.3.3PSE Detect 4 5.4PD Output Selection (4)5.5Output Adjustment (5)5.6Heat Sink (6)5.7Ag5800 Information (6)6Set-up 6 6.1Power Supply Input (6)6.2Data Input (7)6.3Link settings (7)2 Table of FiguresFigure 1: EVALAg5800 Board Layout (3)Figure 2: EVALAg5800 Voltage Configuration- 12V (5)Figure 3: Output Adjustment (6)Figure 4: Basic set-up (7)3 Kit ContentsAg5800 Evaluation BoardAg5800 PD Module4 IntroductionThis manual is intended to be a guide to using the “EVALAg5800 evaluation board” with the following Silver Telecom IEEE802.3bt PD module: -Ag5800The board is designed to handle 10/100/1000/10GBASE-T Ethernet data rates.4.1 EvalAg5800The EVALAG5800 evaluation board is fitted with SilverTel’s Ag5800 IEEE802.3bt PD module and can be used to extract power from an IEEE compliant PSE through its RJ45 connector J101.5 Evaluation Board Description for Ag58005.1 InputThe EVALAG5800 evaluation board can be powered from the EVALAg6800 evaluation board or any IEEE802.3bt PSE. Data and power input is connected through connector J101 (see Figure 1). Data is passed through the data transformer (T100) to the data output connector J100.Figure 1: EVALAg5800 Board LayoutLED 1 indicates that power is being supplied to the Ag5800. This can be disabled by removing the jumper link LK8, removing this link does not affect the power being delivered to the Ag5800.5.2 Diode Bridge SelectionThe EVALAg5800 on-board diode bridge rectifiers will ensure that the correct input polarity is applied to the Ag5800 by extracting the power from the input center taps of T100 and passing the voltage to the input of the Ag5800.Due to the amount of power and high currents involved in the IEEE802.3bt standard we would recommend using SMC package Schottky diodes with low reverse leakage current to be used as diode bridges. The EvalAg5800 is fitted with SS36 Schottkydiodes configured as a diode bridge.5.3 Input Signature and ClassificationThe EVALAg5800 board will automatically direct the power from J101 to the Ag5800’s input.The Ag5800 provides a 25K signature required to be powered from an IEEE compliant PSE. The EvalAg5800 has been designed to be powered from an IEEE802.3bt PSE such as SilverTel’s Ag6800 PSE module. However the Ag5800 has also provisions for being powered from Legacy PS E’s such as PoH or Phihongs 12.5K signature PSE.5.3.1 Powered from POH PSEIf the EvalAg5800 is connected to a PoH (Power Over HDBaseT) PSE then by fitting a link to LK5 will alter the classification that the Ag5800 displays allowing the PSE to send the full amount of power to the Ag5800.5.3.2 Powered from Phihong 12.5K Signature PSEThe Ag5800 is designed to work with Legacy PSE’s such as Phihongs POE80U/POE60U PSE. By fitting LK7 it will connect the SA1 and SA2 signature adjustment pins altering the Ag5800 signature to 12.5K.For all other PSE’s these pins should be left unconnected.5.3.3 PSE DetectWhen the EVALAG5800 board is connected to a compliant IEEE PSE the Ag5800 will detect the Type of PSE and the on board LED’s will illuminate accordingly:For example if an IEEE802.3at (PoE+) compliant PSE such as a Phihong POE36U-1AT-R is connected via J101 the PSE will detect Class 4 and output 2-Event classification pulses. In turn the Ag5800 detects these pulses and activates the Type 2 detect output. This output is connected to an opto-isolator to cross the isolation barrier and LED 7 will be illuminated.When the EVALAG5800 board is connected to an IEEE802.3bt Type 3 compliant PSE, the Ag5800 activates the Type 3 detect output and LED 8 will be illuminated.When the EVALAG5800 board is connected to an IEEE802.3bt Type 4 compliant PSE, the Ag5800 activates the Type 4 detect output and LED 9 will be illuminated.5.4 PD Output SelectionBefore using the EVALAg5800 evaluation board, it is important to setup the output configuration for the correct output voltage.The Ag5800 has two DC outputs that must be connected in parallel or in series. The outputs cannot be run independently so the EVALAg5800 board has copper pads, LK3 and LK6, which should be soldered appropriately for the selected voltage variant required.For parallel configuration (12V output) the bottom two pads of LK3 and bottom two pads of LK6 should be soldered together respectively (position “12V”) as shown in Figure 2 - VOUT1 connected to VOUT 2 and 0V 1 connected to 0V 2.For series outputs both pads must be in position “24V” shorting the top pads of LK3 and top pads of LK6 respectively – VOUT 1 connected to 0V 2.The DC10 connector J4 delivers a nominal 12V when the outputs are in parallel or 24V when the outputs are in series.The output power from the Ag5800 is supplied to the connectors J3 to J5 (see Figure1), where J3 provides the positive output and J5 provides the 0V return path.LED6 will be illuminated when the Ag5800 module outputs 12V or 24Vdc.Figure 2: EVALAg5800 Voltage Configuration- 12V5.5 Output AdjustmentThe Ag5800 has an ADJ pin, which allows the output voltage to be increased or decreased from its nominal value.LK2 is connected to the ADJ pin for the PD module to either increase or decrease the ouput voltage. When configured in 12V and the link is connected to the top and middle pins (R2), the Ag5800 output voltage will be decreased to ~10.5V. When the link LK2 is connected to the bottom and middle pins (R4), then the Ag5800 output voltage will be increased to ~15V. Figure 3: Output Adjustment shows how the ADJ pin is connected.Figure 3: Output Adjustment5.6 Heat SinkAs the Ag5800 is a 100W power supply, thermal management is essential and is designed to be used with a heat-sink at all times to distribute the heat away from the board so the board can run at full operation.A suggested heat-sink is shown in Section 10 of the Ag5800 datasheet.5.7 Ag5800 InformationFull operating conditions and feature set can be found in the Ag5800 product datasheet, available from .6 Set-up6.1 Power Supply InputFigure 4 shows the basic set up using SilverTel’s EVALAG6800 evaluation board along with the EVALAG5800 evaluation board with a power supply input to JP1.The equipment required: -Power supply Input +57V IN e.g. Meanwell SP-240-48 available from mouser which will give 57VEthernet Data Cable (CAT5e cable) Input and OutputCAT5e or CAT6 interlink cable (between EvalAg6800 and EvalAg5800)Output power cableFigure 4: Basic set-up6.2 Data InputTo pass data via the Evaluation boards, the data input (e.g. Internet) can be connected to J100 on the Ag6800 Eval Board using a cat5e cable. The data is then passed through the data transformer, where power is added and sent out via connector J101 of the Ag6800 Eval Board. The Data and power is extracted through J100 of the EVALAg5800 board and then divided into its separate power and data through the data transformer. The data output is then available from J100 of the EvalAg5800 Board, which can then be connected to your device.6.3 Link settingsLK2 – Output adjust selectLK4 – Output power LEDLK5 – Connection for POH PSELK7 – Signature Adjust- 12.5KLK8 – Input power LED circuit。

博科Brocade SAN交换机常用命令1.查看IP地址命令 (2)2.查看firmware版本 (2)3.查看交换机状态 (2)4.查看交换机license-id (3)5.配置ZONE (3)6.查看zone配置文件 (4)7.查看ZONE (5)8.查看系统日志信息 (6)9.关机 (6)10.设置博科Brocade交换机IP地址 (6)11.博科brocade交换机查看OS版本信息 (6)12.博科brocade交换机添加license授权信息 (7)13.查看博科brocade交换机license授权信息 (7)14.博科Brocade Slikworm 300交换机license (7)15.博科Brocade交换机修改密码命令 (7)16.博科 brocade SAN交换机密码重置 (8)17.登陆后是用passwddefault命令恢复出厂密码 (9)18.交换机升级 (9)19.帮助信息 (13)1.查看IP地址命令swd77:admin> ipaddrshowSWITCHEthernet IP Address: 10.77.77.77Ethernet Subnetmask: 255.255.255.0Fibre Channel IP Address: noneFibre Channel Subnetmask: noneGateway IP Address: noneDHCP: Offswd77:admin>2.查看firmware版本swd211:admin>swd211:admin> firmwareshowAppl Primary/Secondary Versions------------------------------------------FOS v6.2.1v6.2.13.查看交换机状态swd211:admin> switchoshowrbash: switchoshow: command not foundswd211:admin> switchshowswitchName: swd211switchType: 34.0switchState: OnlineswitchMode: NativeswitchRole: PrincipalswitchDomain: 1switchId: fffc01switchWwn: 10:00:00:05:1e:02:a2:10zoning: ON (FC01)switchBeacon: OFFArea Port Media Speed State Proto=====================================0 0 id N2 Online F-Port 50:08:05:f3:00:1b:4e:911 1 id N4 Online F-Port 10:00:00:00:c9:53:b2:8d2 2 id N4 Online F-Port 10:00:00:00:c9:53:b3:c13 3 id N4 Online F-Port 10:00:00:00:c9:53:b3:c24 4 id N4 Online F-Port 50:06:0b:00:00:66:00:c45 5 id N4 Online F-Port 50:06:0b:00:00:66:01:1e6 6 id N2 Online F-Port 50:05:08:b3:00:93:b2:817 7 -- N4 No_Module8 8 id N4 Online F-Port 50:01:43:80:04:c7:87:d89 9 id N4 Online F-Port 50:01:43:80:04:c7:87:dc10 10 id N4 Online F-Port 50:01:43:80:06:31:cf:7c11 11 -- N4 No_Module12 12 -- N4 No_Module13 13 -- N4 No_Module14 14 -- N4 No_Module15 15 -- N4 No_Moduleswd211:admin>4.查看交换机license-idswd211:admin>swd211:admin> licenseidshow10:00:00:05:1e:02:a2:10swd211:admin>5.配置ZONE案例:1) Create Aliases>alicreate “Eng_Host”,“1,0”>alicreate “Eng_Stor”,“1,4; 1,5”>alicreate “Mkt_Host”,“Mktwwn”>alicreate “Mkt_Stor”,“s3wwn; s4wwn; s5wwn”2) Create Zones>zonecreate “Zone_Eng”,“Eng_Host; Eng_Stor”>zonecreate “Zone_Mkt”,“Mkt_Host; Mkt_Stor”3) Create Configuration>cfgcreate “Cfg_EngMkt”,“Zone_Eng; Zone_Mkt”sw4100:admin> cfgshowDefined configuration:cfg: Cfg_EngMktZone_Eng; Zone_Mktzone: Zone_Eng Eng_Host; Eng_Storzone: Zone_Mkt Mkt_Host; Mkt_Storalias: Eng_Stor 1,4; 1,5alias: Eng_Host 1,0alias: Mkt_Stor 21:00:00:20:37:87:49:29; 21:00:00:20:37:87:e5:20; 21:00:00:20:37:87:20:c5alias: Mkt_Host 21:00:00:20:37:87:23:e2Effective configuration:no configuration in effect4) Enable Configuration>cfgenable “Cfg_EngMkt”sw4100:admin> cfgshowDefined configuration:cfg: Cfg_EngMktone_Eng; Zone_Mktzone: Zone_Eng Eng_Host; Eng_Storzone: Zone_Mkt Mkt_Host; Mkt_Storalias: Eng_Stor 1,4; 1,5alias: Eng_Host 1,0alias: Mkt_Stor 21:00:00:20:37:87:49:29; 21:00:00:20:37:87:e5:20; 21:00:00:20:37:87:20:c5alias: Mkt_Host 21:00:00:20:37:87:23:e2Effective configuration:cfg: Cfg_EngMktzone: Zone_Eng 1,0; 1,4; 1,5zone: Zone_Mkt 21:00:00:20:37:87:23:e2; 21:00:00:20:37:87:e5:20; 21:00:00:20:37:87:49:29; 21:00:00:20:37:87:20:c56.查看zone配置文件swd211:admin>swd211:admin> cfgshowDefined configuration:cfg: FC01 OADB_ML6030; SPC_MSA1000; SFDB_EVA4400; SFDB04_MSA1500; SFEVA4400_SMAzone: OADB_ML60301,7; 1,14; 1,15zone: SFDB04_MSA15001,10; 1,6zone: SFDB_EVA44001,3; 1,4; 1,5; 1,7; 1,8; 1,9zone: SFEVA4400_SMA1,8; 1,9; 1,11zone: SPC_MSA10001,0; 1,1; 1,2; 1,7Effective configuration:cfg: FC01zone: OADB_ML60301,71,141,15zone: SFDB04_MSA15001,101,6zone: SFDB_EVA44001,31,41,51,71,81,9zone: SFEVA4400_SMA1,81,91,11zone: SPC_MSA10001,01,11,21,7swd211:admin>swd211:admin>7.查看ZONEswd211:admin> zoneshowDefined configuration:cfg: FC01 OADB_ML6030; SPC_MSA1000; SFDB_EVA4400; SFDB04_MSA1500; SFEVA4400_SMAzone: OADB_ML60301,7; 1,14; 1,15zone: SFDB04_MSA15001,10; 1,6zone: SFDB_EVA44001,3; 1,4; 1,5; 1,7; 1,8; 1,9zone: SFEVA4400_SMA1,8; 1,9; 1,11zone: SPC_MSA10001,0; 1,1; 1,2; 1,7Effective configuration:cfg: FC01zone: OADB_ML60301,71,141,15zone: SFDB04_MSA15001,101,6zone: SFDB_EVA44001,31,41,51,71,81,9zone: SFEVA4400_SMA1,81,91,11zone: SPC_MSA10001,01,11,21,7swd211:admin>8.查看系统日志信息swd211:admin> supportshow日志比较多,建议log出来查看.9.关机swd211:admin> sysshutdown10.设置博科Brocade交换机IP地址博科交换机的默认IP地址是10.77.77.77，在命令行模式下可以通过ipaddrset命令对交换机的IP地址进行设置和修改swd77:admin> ipaddrsetEthernet IP Address [10.77.77.77]: #输入交换机需要设置的IP地址Ethernet Subnetmask [255.255.255.0]: #输入掩码Fibre Channel IP Address [none]:Fibre Channel Subnetmask [none]:Gateway IP Address [none]: # 输入网关DHCP [Off]: #是否开启DHCPswd77:admin>11.博科brocade交换机查看OS版本信息swd77:admin> versionKernel: 2.6.14.2 //linux内核版本Fabric OS: v6.1.0a // 交换机OS版本Made on: Thu Apr 17 21:45:31 2008 // 生产日期Flash: Tue Jan 13 23:33:44 2009BootProm: 4.6.6swd77:admin>12.博科brocade交换机添加license授权信息swd77:admin> licenseadd XXXXXXXX（博科的激活号）13.查看博科brocade交换机license授权信息在命令行模式下使用licenseshow命令可以查看博科交换机的授权情况，使用licenseadd 命令可以添加授权。