Cisco UCS Hardware Compatibility List. Note: To use Oracle Automatic Storage Management (Oracle ASM) or Oracle Restart, you must first install Oracle Grid Infrastructure for a standalone server before you. In the Cisco UCS servers, there are three classes or categories of Network Adapters for B-series and C-Server servers. I write this down because it's pretty hard to. Note Before you install, operate, or service a server, review the Regulatory Compliance and Safety Information for Cisco UCS C-Series Servers for important safety. UCS Hardware and Software Compatibility. Saved Searches. Cisco UCS C2. 40 M4 Server Installation and Service Guide - RAID Considerations . The red line shows the recommended cable routing path from the Cisco modular RAID controller card or the embedded SATA RAID interposer board to the drive backplane or expander. Cable clips on the chassis wall secure the cables. The blue line shows the recommended cable routing path from the Cisco modular RAID controller to the SCPM on the removable air baffle. The SCPM cable should pass through the opening on the rear of the air baffle to avoid interfering with the top cover. The green line shows the recommended cable routing path from an HBA in slot 1 to the drive backplane or expander. Figure C- 1 RAID Controller Connectors and Cable Paths. Drive backplane The SFF 1. LFF 1. 2- drive options have an expander integrated into the backplane. Cisco modular RAID controller PCIe slot (dedicated slot on motherboard)2. Expander The SFF 2. Embedded SATA RAID interposer board socket on motherboard. SCPM mounting location on removable air baffle (air baffle not shown)Cisco UCS C2. M4 Server RAID Controller Cabling Instructions. This section contains cabling instructions for controlling front- facing drives in the four server versions and their supported cables: SFF 8- Drive Direct- Connect Backplane, No Expander. The SFF 8- drive option does not use a SAS expander, so connections from the controller are made directly to the backplane. The cable connections required for each type of controller are as follows: Embedded RAIDThis option can control up to eight front- facing SATA drives (in two groups of four drives). The required UCSC- IP- PCH- C2. M4= kit includes the SATA interposer board and one Y- cable (mini- SAS HD to mini- SAS 3. Make the following connections: 1. Connect the PORT A cable connector to the PORT A connector on the interposer board. Connect the PORT B cable connector to the PORT B connector on the interposer board. Connect the single mini- SAS HD cable connector to the single connector on the backplane. Cisco UCS 1. 2G Modular RAID Controller. This option can control up to eight drives. Latest Cisco Data Center Tips. Article: UCS setup prerequisites - This tip represents a list of items to consider, order, and prepare for when deploying a UCS system. We have moved! Its new location is : http://www.cisco.com/c/dam/en/us/td/docs/voice Hi Chris, This script uses psexec to remotely run the install on the target. You can download this from the sysinternals URL http://technet.microsoft.com/en-us. Cisco ASA 5500 & ASA 5500-X configuration articles: Firewall Setup, DMZ zone, Access Lists, NAT, Object Groups, VPN, Crypto IPSec tunnels, User and Group accounts. In this article, I’ll show you how to install Windows 10 Administrative Templates on Windows Server to support Windows 10 settings like Windows Edge browser. The required UCS- 2. CBLMR8= cable kit has one cable with a mini- SAS HD connector on each end. Make the following connections: 1. Connect one end of the cable to the modular RAID controller card. Connect the other end of the cable to the single mini- SAS HD connector on the backplane. SFF 1. 6- Drive Backplane with Integrated Expander. The SFF 1. 6- drive option has a SAS expander integrated with the backplane. Cisco UCS 1. 2G Modular RAID Controller. This option can control up to 1. The required UCS- C2. CBLMR1. 6= cable kit has one cable with a mini- SAS HD connector on each end. Make the following connections: 1. Connect one end of the cable to the modular RAID controller card. Connect the other end of the cable to the single mini- SAS HD connector on the backplane. SFF 2. 4- Drive Backplane with Expander Cabling. The SFF 2. 4- drive option has a backplane and SAS expander. Note No cabling is required for the embedded SATA RAID controller to control the internal SSD boot drives. Cisco UCS 1. 2G Modular RAID Controller. This option can control up to 2. The required UCS- 2. CBLMR2. 4= cable kit has one cable with a mini- SAS HD connector on each end. Make the following connections: 1. Connect one end of the cable to the modular RAID controller card. Connect the other end of the cable to the single mini- SAS HD connector on the expander. Cisco UCS SAS 9. 30. HBAThis option can control up to 2. RAID). The required 2. CBLHBA2. 4= cable kit has one cable with a mini- SAS HD connector on each end. Make the following connections: 1. Connect one end of the cable to the modular RAID controller card. Connect the other end of the cable to the single mini- SAS HD connector on the expander. LFF 1. 2- Drive Backplane with Expander. The LFF 1. 2- drive option has a SAS expander integrated with the backplane. Note No cabling is required for the embedded SATA RAID controller to control the internal SSD boot drives. Cisco UCS 1. 2G Modular RAID Controller. This option can control up to 1. The required UCS- 2. CBLMR1. 2= cable kit has one Y- cable with a mini- SAS HD double connector on one end and two mini- SAS HD single connectors on the other end. Connect the mini- SAS double connector to the modular RAID controller card. Connect single connector PORT A to the PORT A connector on the backplane. Connect single connector PORT B to the PORT B connector on the backplane. Cisco UCS SAS 9. 30. HBAThis option can control up to 1. RAID). The required. Y- cable with a mini- SAS HD double connector on one end and two mini- SAS HD single connectors on the other end. Make the following connections: 1. Connect the mini- SAS double connector to the modular RAID controller card. Connect single connector PORT A to the PORT A connector on the backplane. Connect single connector PORT B to the PORT B connector on the backplane. Embedded SATA RAID Controller Note VMware ESX/ESXi or any other virtualized environments are not supported for use with the embedded Mega. RAID controller. Hypervisors such as Hyper- V, Xen, or KVM are also not supported for use with the embedded Mega. RAID controller. This server includes an embedded Mega. RAID controller hub that can control up to eight SATA- only front- facing drives (SFF 8- drive server only). It can also control up to two internal boot SSDs (SFF 2. LFF 1. 2- drive servers only). This section contains the following topics: Embedded SATA RAID Controller Requirements For Front- Facing Drive Control. The embedded SATA RAID controller hub requires the following items: For front- facing drive control—The SFF, 8- drive version of the server. The embedded RAID option is available for front- facing drive control only with the SFF 8- drive, direct- connect backplane. A SATA interposer board and Y- cable (bundled as UCSC- IP- PCH- C2. M4=). This interposer board plugs into the motherboard and provides cable connectors.(Optional) A SATA RAID 5 key module. This optional module can be installed to a motherboard header to add SATA RAID 5 support for front- facing drives. The embedded SATA RAID controller must be enabled in the server BIOS. For that case, the requirement is either the LFF 1. SFF 2. 4- drive version of the server. Only the LFF 1. 2- drive and the SFF 2. SSDs. No cabling is required for managing the internal SSD boot drives. Embedded SATA RAID: Two SATA Controllers. The embedded RAID Patsburgh controller hub (PCH) is split into two controllers: SATA and s. SATA (secondary SATA). These two controllers are seen as separate RAID controllers in the Cisco IMC interface and are configurable separately. The first SATA controller controls front- facing drives 1–4; it can also control the two internal SATA SSD boot drives (see. Table C- 4). The secondary s. SATA controller controls front- facing drives 5–8 (see. Table C- 4). Table C- 4 SATA and s. SATA Listing of Drives in LSI SW RAID Utilities. SATAs. SATA0—Front HDD 0. Front HDD 0. 51—Front HDD 0. Front HDD 0. 62—Front HDD 0. Front HDD 0. 73—Front HDD 0. Front HDD 0. 84—SSD internal boot drive. SSD internal boot drive. When configuring RAID groups, you cannot create a group that spans more than four drives. Figure C- 2 Embedded RAID Controller Drive Groups. See Enabling the Embedded RAID Controller in the BIOS for instructions on enabling the two SATA controllers. Each controller is listed separately in the BIOS. You can select the boot order of the controllers in the BIOS (use the. BIOS Setup Utility). Note To set the boot order for virtual drives, use the LSI Embedded RAID Configuration Utility (legacy or UEFI version). See Launching the LSI Embedded Mega. RAID Configuration Utilities. Embedded SATA RAID Controller Considerations Note the following considerations for controlling front- facing drives (SFF 8- drive server version only): The default setting for this embedded controller hub is SATA RAID 0, 1, and 1. SATA drives. You can upgrade to SATA RAID 0, 1, 5, and 1. SATA drives (in two groups of four drives) by installing a RAID 5 key module on the motherboard. See Installing a Software RAID 5 Key Module for Embedded RAID 5 Support. When you order the server with this embedded controller, the controller is enabled in the BIOS. Instructions for enabling the controller are included for the case in which a server is reset to defaults (Disabled). See Enabling the Embedded RAID Controller in the BIOS. You cannot downgrade from using a HW RAID controller card to using the software RAID embedded controller for front- facing drive control. Caution Data migration from software RAID (embedded RAID) to HW RAID (a controller card) is not supported and could result in data loss. Migrations from software RAID to HW RAID are supported only before there is data on the drives, or the case in which there are no drives in the server. The required drivers for this controller are already installed and ready to use with the LSI software RAID Configuration Utility (legacy version or UEFI via the server BIOS). However, if you will use this controller with Windows or Linux, you must download and install additional drivers for those operating systems. See Installing LSI Mega. SR Drivers For Windows and Linux. Installing a SATA Interposer Board For Front- Facing Drive Control. The Embedded RAID controller requires a SATA interposer board for front- facing drive control. The RAID cables included connect from this board to the eight- drive, direct- connect backplane. To install a SATA interposer board, see Replacing a SATA Interposer Board. Installing a Software RAID 5 Key Module for Embedded RAID 5 Support. The software RAID 5 key module contains a chip on a small circuit board. This module attaches to a two- pin motherboard header. This chip upgrades support to add embedded SATA RAID 5 support for front- facing drive control. To install a RAID 5 key module, see Replacing a Software RAID 5 Key Module. Enabling the Embedded RAID Controller in the BIOSNote The default setting in the BIOS for the embedded controller is disabled.
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