Port telvannis

Presentation on theme: "TrueSight Smart Reporting Architecture"— Presentation transcript: 1 TrueSight Smart Reporting 11.3.01 ArchitectureDownload this presentation and view it as a slide show for an interactive experience. Remote Cell TrueSight Infrastructure Management server Master Cell Port: 1828 TrueSight Operations Management Report Engine Port: 3783 Reporting Database Oracle Port: 1521 SQL Server Port: 1433 TrueSight Smart Reporting Port: 8443 TrueSight Presentation Server Port: 443 2 TrueSight Smart Reporting 11.3.01 ArchitecturePropagates events data Remote Cell TrueSight Infrastructure Management server Master Cell Port: 1828 TrueSight Operations Management Report Engine Port: 3783 Reporting Database Oracle Port: 1521 SQL Server Port: 1433 TrueSight Smart Reporting Port: 8443 TrueSight Presentation Server Port: 443 3 TrueSight Smart Reporting 11.3.01 ArchitectureRemote Cell TrueSight Infrastructure Management server Master Cell Port: 1828 TrueSight Operations Management Report Engine Port: 3783 Reporting Database Oracle Port: 1521 SQL Server Port: 1433 TrueSight Smart Reporting Port: 8443 TrueSight Presentation Server Port: 443 Propagates events to the Report Engine and the Report Engine pulls the performance data 4 TrueSight Smart Reporting 11.3.01 ArchitectureRemote Cell TrueSight Infrastructure Management server Master Cell Port: 1828 TrueSight Operations Management Report Engine Port: 3783 Reporting Database Oracle Port: 1521 SQL Server Port: 1433 TrueSight Smart Reporting Port: 8443 TrueSight Presentation Server Port: 443 Propagates events to the Report Engine and the Report Engine pulls the performance data 5 TrueSight Smart Reporting 11.3.01 ArchitectureAggregates and summarizes data Remote Cell TrueSight Infrastructure Management server Master Cell Port: 1828 TrueSight Operations Management Report Engine Port: 3783 Reporting Database Oracle Port: 1521 SQL Server Port: 1433 TrueSight Smart Reporting Port: 8443 TrueSight Presentation Server Port: 443 6 TrueSight Smart Reporitng 11.3.01 ArchitectureRemote Cell TrueSight Infrastructure Management server Master Cell Port: 1828 TrueSight Operations Management Report Engine Port: 3783 Reporting Database Oracle Port: 1521 SQL Server Port: 1433 TrueSight Smart Reporting Port: 8443 TrueSight Presentation Server Port: 443 Aggregates and summarizes data 7 TrueSight Smart Reporitng 11.3.01 ArchitectureData warehouse for the Report Engine Remote Cell TrueSight Infrastructure Management server Master Cell Port: 1828 TrueSight Operations Management Report Engine Port: 3783 Reporting Database Oracle Port: 1521 SQL Server Port: 1433 TrueSight Smart Reporting Port: 8443 TrueSight Presentation Server Port: 443 8 TrueSight Smart Reporting 11.3.01 ArchitectureRemote Cell TrueSight Infrastructure Management server Master Cell Port: 1828 TrueSight Operations Management Report Engine Port: 3783 Reporting Database Oracle Port: 1521 SQL Server Port: 1433 TrueSight Smart Reporting Port: 8443 TrueSight Presentation Server Port: 443 Creates and publishes reports 9 TrueSight Smart Reporting 11.3.01 ArchitectureRemote Cell TrueSight Infrastructure Management server Master Cell Port: 1828 TrueSight Operations Management Report Engine Port: 3783 Reporting Database Oracle Port: 1521 SQL Server Port: 1433 TrueSight Smart Reporting Port: 8443 TrueSight Presentation Server Port: 443 Authenticates and authorizes users, and launches TrueSight Smart Reporting

ContentsConfiguring Port ChannelsInformation About Port ChannelsPort ChannelsCompatibility ChecksLoad Balancing Using Port ChannelsLACPVEM Management of LACPPort Channel ModesLACP ID ParametersLACP Marker RespondersLACP-Enabled and Static Port Channels DifferencesvPC Host ModeSubgroup CreationStatic PinningMAC PinningMAC Pinning RelativeNetwork State Tracking for vPC-HMHigh AvailabilityPrerequisites for Port ChannelsGuidelines and LimitationsDefault SettingsConfiguring Port ChannelsCreating a Port Profile for a Port ChannelMigrating a Channel Group to a Port ProfileMigrating Port Profile Types in a Port ProfileConfiguring Network State Tracking for vPC-HMConfiguring Static Pinning for an InterfaceRemoving a Port Channel Group from a Port ProfileShutting Down and Restarting a Port Channel InterfaceAdding a Description to a Port Channel InterfaceConfiguring Port Channel Load BalancingConfiguring the Speed and Duplex Settings for a Port Channel Interface Restoring the Default Load-Balancing MethodConfiguring an LACP Port ChannelVerifying Port Channel ConfigurationMonitoring Port ChannelsConfiguration Examples for Port ChannelsFeature History for Port ChannelsConfiguring Port ChannelsThis chapter contains the following sections:Information About Port ChannelsPort ChannelsCompatibility ChecksLoad Balancing Using Port ChannelsLACPvPC Host ModeSubgroup CreationStatic PinningMAC PinningMAC Pinning RelativeNetwork State Tracking for vPC-HMHigh AvailabilityPrerequisites for Port ChannelsGuidelines and LimitationsDefault SettingsConfiguring Port ChannelsVerifying Port Channel ConfigurationMonitoring Port ChannelsConfiguration Examples for Port ChannelsFeature History for Port ChannelsInformation About Port ChannelsA port channel is an aggregation of multiple physical interfaces that creates a logical interface. You can bundle up to eight individual active links into a port channel to provide increased bandwidth and redundancy. Port channeling also load balances traffic across these physical interfaces. The port channel stays operational as long as at least one physical interface within the port channel is operational. You can use static port channels, with no associated aggregation protocol, for a simplified configuration.Port ChannelsA port channel bundles physical links into a channel group to create a single logical link that provides the aggregate bandwidth of up to eight physical links. If a member port within a port channel fails, the traffic previously carried over the failed link switches to the remaining member ports within the port channel. You can bundle up to eight ports into a static port channel without using any aggregation protocol. NoteThe device does not support Port Aggregation Protocol (PAgP) for port channels.Each port can be in only one port channel. All the ports in a port channel must be compatible; they must use the same speed and duplex mode. When you run static port channels with no aggregation protocol, the physical links are all in the on channel mode.You can create port channels directly by creating the port channel interface, or you can create a channel group that acts to aggregate individual ports into a bundle. When you associate an interface with a channel group, the software creates a matching port channel automatically if the port channel does not already exist. In this instance, the

1] I/O Port: 03F8 - 03FF IRQ: 4 [Alternative 2] I/O Port: 03F8 - 03FF IRQ: 4 [Alternative 3] I/O Port: 02F8 - 02FF IRQ: 3 [Alternative 4] I/O Port: 03E8 - 03EF IRQ: 4 [Alternative 5] I/O Port: 02E8 - 02EF IRQ: 3PCI bus ------------------------------------------------------------------- Device Name: PCI bus [Assigned Resources] I/O Port: 0000 - FFFFFFFF Memory Location: 000A0000 - 000BFFFF Memory Location: 000D4000 - 000D3FFF Memory Location: 000DC000 - 000DFFFF [Alternative 1] I/O Port: 0000 - 0CF7 I/O Port: 0D00 - FFFF Memory Location: 000A0000 - 000BFFFF Memory Location: 000D0000 - 000D3FFF Memory Location: 000D4000 - 000D7FFF Memory Location: 000D8000 - 000DBFFF Memory Location: 000DC000 - 000DFFFF Memory Location: CFA00000 - FEAFFFFFSystem CMOS/real time clock ----------------------------------------------- Device Name: System CMOS/real time clock [Assigned Resources] I/O Port: 0070 - 0077 [Alternative 1] I/O Port: 0070 - 0077 IRQ: 8System board -------------------------------------------------------------- Device Name: System board [Assigned Resources] Memory Location: FED40000 - FED44FFF [Alternative 1] Memory Location: FED40000 - FED44FFFSystem board -------------------------------------------------------------- Device Name: System board [Assigned Resources] Memory Location: 20000000 - 201FFFFF [Alternative 1] Memory Location: 20000000 - 201FFFFF Memory Location: 40004000 - 40004FFFMotherboard resources ----------------------------------------------------- Device Name: Motherboard resources [Assigned Resources] Memory Location: FED1C000 - FED1FFFF Memory Location: F8000000 - FBFFFFFF Memory Location: FF000000 - FFFFFFFF [Alternative 1] Memory Location: FED1C000 - FED1FFFF Memory Location: FED10000 - FED17FFF Memory Location: FED18000 - FED18FFF Memory Location: FED19000 - FED19FFF Memory Location: F8000000 - FBFFFFFF Memory Location: FED20000 - FED3FFFF Memory Location: FED90000 - FED93FFF Memory Location: FED45000 - FED8FFFF Memory Location: FF000000 - FFFFFFFF Memory Location: FEE00000 - FEEFFFFF Memory Location: CFA00000 - CFA00FFFMotherboard resources ----------------------------------------------------- Device Name: Motherboard resources [Assigned Resources] I/O Port: 0010 - 001F I/O Port: 0065 - 006F I/O Port: 0088 Memory Location: 00000000 - 0000008F [Alternative 1] I/O Port: 0010 - 001F I/O Port: 0022 - 003F I/O Port: 0044 - 005F I/O Port: 0062 - 0063 I/O Port: 0065 - 006F I/O Port: 0072 - 007F I/O Port: 0080 I/O Port: 0084 - 0086 I/O Port: 0088 I/O Port: 008C - 008E I/O Port: 0090 - 009F I/O Port: 00A2 - 00BF I/O Port: 00E0 - 00EF I/O Port: 04D0 - 04D1Motherboard resources ----------------------------------------------------- Device Name: Motherboard resources [Assigned Resources] I/O Port: 0290 - 029F [Alternative 1] I/O Port: 0290 - 029FMotherboard resources ----------------------------------------------------- Device Name: Motherboard resources [Assigned Resources] I/O Port: 002E - 002F I/O Port: 0065 I/O Port: 0000 - 006F I/O Port: 0092 I/O Port: FFFF I/O Port: 0000 - 03FF IRQ: 1114369 IRQ: 1114369 [Alternative 1] I/O Port: 002E - 002F I/O Port: 004E - 004F I/O Port: 0061 I/O Port: 0063 I/O Port: 0065 I/O Port: 0067 I/O Port: 0070 I/O Port: 0080 I/O Port: 0092 I/O Port: 00B2 - 00B3 I/O Port: 0680 - 069F I/O Port: 1000 - 100F I/O Port: FFFF I/O Port: FFFF I/O Port: 0400 - 0453 I/O Port: 0458 - 047F I/O Port: 0500 - 057F I/O Port: 164E - 164FNumeric data processor ---------------------------------------------------- Device Name: Numeric data processor [Assigned Resources] I/O

Port ChannelMigrating a Channel Group to a Port ProfileMigrating Port Profile Types in a Port ProfileConfiguring Network State Tracking for vPC-HMConfiguring Static Pinning for an InterfaceRemoving a Port Channel Group from a Port ProfileShutting Down and Restarting a Port Channel InterfaceAdding a Description to a Port Channel InterfaceConfiguring Port Channel Load BalancingConfiguring the Speed and Duplex Settings for a Port Channel Interface Restoring the Default Load-Balancing MethodConfiguring an LACP Port ChannelVerifying Port Channel ConfigurationMonitoring Port ChannelsConfiguration Examples for Port ChannelsFeature History for Port ChannelsConfiguring Port ChannelsThis chapter contains the following sections:Information About Port ChannelsPort ChannelsCompatibility ChecksLoad Balancing Using Port ChannelsLACPvPC Host ModeSubgroup CreationStatic PinningMAC PinningMAC Pinning RelativeNetwork State Tracking for vPC-HMHigh AvailabilityPrerequisites for Port ChannelsGuidelines and LimitationsDefault SettingsConfiguring Port ChannelsVerifying Port Channel ConfigurationMonitoring Port ChannelsConfiguration Examples for Port ChannelsFeature History for Port ChannelsInformation About Port ChannelsA port channel is an aggregation of multiple physical interfaces that creates a logical interface. You can bundle up to eight individual active links into a port channel to provide increased bandwidth and redundancy. Port channeling also load balances traffic across these physical interfaces. The port channel stays operational as long as at least one physical interface within the port channel is operational. You can use static port channels, with no associated aggregation protocol, for a simplified configuration.Port ChannelsA port channel bundles physical links into a channel group to create a single logical link that provides the aggregate bandwidth of up to eight physical links. If a member port within a port channel fails, the traffic previously carried over the failed link switches to the remaining member ports within the port channel. You can bundle up to eight ports into a static port channel without using any aggregation protocol. NoteThe device does not support Port Aggregation Protocol (PAgP) for port channels.Each port can be in only one port channel. All the ports in a port channel must be compatible; they must use the same speed and duplex mode. When you run static port channels with no aggregation protocol, the physical links are all in the on channel mode.You can create port channels directly by creating the port channel interface, or you can create a channel group that acts to aggregate individual ports into a bundle. When you associate an interface with a channel group, the software creates a matching port channel automatically if the port channel does not already exist. In this instance, the port channel assumes the Layer 2 configuration of the first interface. You can also create the port channel first. In this instance, the Cisco Nexus 1000V creates an empty channel group with the same channel number as the port channel and takes the default Layer 2 configuration, as well as the

Two edge ports, including one primary edge port for each segment. edge —Configures the port as an edge port. Entering edge without the primary keyword configures the port as the secondary edge port. Each segment has only two edge ports. (Optional) primary — Configures the port as the primary edge port, the port on which you can configure VLAN load balancing. (Optional) no-neighbor— Configures a port with no external REP neighbors as an edge port. The port inherits all properties of edge ports, and you can configure them the same as any edge port. Note Although each segment can have only one primary edge port, if you configure edge ports on two different switches and enter the primary keyword on both switches, the configuration is allowed. However, REP selects only one of these ports as the segment primary edge port. You can identify the primary edge port for a segment by entering the show rep topology privileged EXEC command. (Optional) preferred —Indicates that the port is the preferred alternate port or the preferred port for VLAN load balancing. Note Configuring a port as preferred does not guarantee that it becomes the alternate port; it merely gives it a slight edge among equal contenders. The alternate port is usually a previously failed port. Step 5 rep stcn { interface interface-id | segment id-list | stp } (Optional) Configures the edge port to send segment topology change notices (STCNs). interface interface-id —Designates a physical interface or port channel to receive STCNs. segment id-list— Identifies one or more segments to receive STCNs. The range is 1 to 1024. stp— Sends STCNs to STP networks. Step 6 rep block port { id port-id | neighbor_offset | preferred } vlan { vlan-list | all } (Optional) Configures VLAN load balancing on the primary edge port, identify the REP alternate port in one of three ways, and configure the VLANs to be blocked on the alternate port. id port-id —Identifies the alternate port by port ID. The port ID is automatically generated for each port in the segment. You can view interface port IDs by entering the show interface interface-id rep [ detail ] privileged EXEC command. neighbor_offset number—Identifies the alternate port as a downstream neighbor from an edge port. The range is from –256 to 256, with negative numbers indicating the downstream neighbor from the secondary edge port. A value of 0 is invalid. Enters

COM Port adalah sebuah Port yang terdapat di laptop maupun PC, namun Port ini sering digunakan pada laptop karena laptop dapat anda bawa kemana saja. Port yang satu ini hadir bukan tanpa alasan, kehadiran Port ini digunakan untuk menghubungkan Port COM.COM sendiri merupakan Port yang terdapat di proyektor, jadi ketika anda melakukan presentasi menggunakan proyektor maka anda membutuhkan sambungan ini agar tampilan presentasi di laptop dapat dipancarkan lewat proyektor.Umumnya, Port ini terdapat pada bagian samping laptop, namun untuk beberapa laptop keluaran terbaru sudah tidak menggunakan Port ini dan digantikan dengan sambungan HDMI.Nah, namun bagaimana jika COM port yang ada miliki mengalami kerusakan? Sebenarnya ada acara efektif untuk mengakalinya, yaitu menggunakan COM port palsu atau sementara.Dengan menggunakan bantuan Virtual Serial Port Driver. Virtual Serial Port Driver sendiri ialah sebuah software yang memungkinkan anda untuk menciptakan serial port virtual, sehingga kabel COM dapat dengan mudah dikoneksikan.Fitur dan Kelebihan Virtual Serial Port DriverVirtual Serial Port Driver merupakan sebuah software yang sangat sederhana, yang memungkinkan and asebagai pengguna untuk menciptakan sebuah driver virtual dari COM port yang anda miliki.Virtual Serial Port Driver nantinya akan membuat sebuah Virtual Serial Port yang seperti aslinya, jadi software akan bekerja dan terkoneksi satu sama lain dan dapat digunakan untuk mengirim dan menerima data dengan sangat baik, menggunakan Virtual Null-Modem Cable.Virtual Serial Port Driver sendiri karena memiliki driver, maka dapat dengan mudah mendukung untuk dikoneksikan oleh semua jenis serial number dari port. Untuk lebih jelasnya, berikut ini kami rangkum beberapa fitur dan keunggulan menarik lainnya dari Virtual Serial Port Driver yang menarik untuk dibahas, diantaranya ialah:Emulation Real PortUntuk anda yang bingung bagaimana proses dan cara Virtual Serial Port Driver bekerja, anda dapat mengikuti beberapa petunjuk penggunaan yang disebut sebagai Emulation Real Port. Disini, anda akan mengikuti sebuah simulasi kecil yang nantinya menjadikan petunjuk untuk tata cara penggunaan Virtual Serial Port Driver yang benar.Created Virtual COM PortAnda dapat menambahkan banyak sekali port untuk sekali pemakaian, anda tidak perlu terpaku akan jumlah port yang terbatas di laptop. Di Virtual Serial Port Driver, anda dapat melihat bahwa anda dapat menghubungkan lebih dari 3 port berbeda.Serial Port BundleDisini terdapat beberapa symbol untuk menggunakan layanan port, sebut saja seperti Pair, Split, Merge, Redirect, Complex, Share, hingga Loopback. Semuanya dapat anda gunakan sesuai dengan kebutuhan pemakaian.Virtual Serial Port Driver menjadi solusi untuk anda yang ingin mencari alternatif penggunaan COM port. Dengan menggunakan Virtual Serial Port Driver, anda hanya membutuhkan serial port yang dapat dengan bebas