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IBM Power System 5888 Service Information

Pcie storage enclosures
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  • Page 1 Power Systems Service information for the PCIe storage enclosures...
  • Page 3 Power Systems Service information for the PCIe storage enclosures...
  • Page 4 Note Before using this information and the product it supports, read the information in “Safety notices” on page v, “Notices” on page 43, the IBM Systems Safety Notices manual, G229-9054, and the IBM Environmental Notices and User Guide, Z125–5823. ™...

  • Page 5: Table Of Contents

    Determining the ERM location from the RAID controller location when using AIX . 36 Determining the ERM location from the RAID controller location when using IBM i . . 37 Determining the ERM location from the RAID controller location when using Linux .
  • Page 6 Power Systems: Service information for the PCIe storage enclosures...

  • Page 7: Safety Notices

    You should also refer to the safety information documentation any time you do not clearly understand any safety information in the U.S. English publications. Replacement or additional copies of safety information documentation can be obtained by calling the IBM Hotline at 1-800-300-8751.
  • Page 8 Electrical voltage and current from power, telephone, and communication cables are hazardous. To avoid a shock hazard: v Connect power to this unit only with the IBM provided power cord. Do not use the IBM provided power cord for any other product.
  • Page 9 Observe the following precautions when working on or around your IT rack system: v Heavy equipment–personal injury or equipment damage might result if mishandled. v Always lower the leveling pads on the rack cabinet. v Always install stabilizer brackets on the rack cabinet. v To avoid hazardous conditions due to uneven mechanical loading, always install the heaviest devices in the bottom of the rack cabinet.
  • Page 10 CAUTION: Removing components from the upper positions in the rack cabinet improves rack stability during relocation. Follow these general guidelines whenever you relocate a populated rack cabinet within a room or building: v Reduce the weight of the rack cabinet by removing equipment starting at the top of the rack cabinet.
  • Page 11 (L003) All lasers are certified in the U.S. to conform to the requirements of DHHS 21 CFR Subchapter J for class 1 laser products. Outside the U.S., they are certified to be in compliance with IEC 60825 as a class 1 laser product.
  • Page 12 Exchange only with the IBM-approved part. Recycle or discard the battery as instructed by local regulations. In the United States, IBM has a process for the collection of this battery. For information, call 1-800-426-4333. Have the IBM part number for the battery unit available when you call. (C003)

  • Page 13: Service Information For The Pcie Storage Enclosures

    Overview of 5888 or EDR1 PCIe storage enclosure service Find information to help you service the 5888 or EDR1 PCIe storage enclosure. The IBM EXP30 Ultra SSD I/O Drawer (feature code 5888 and EDR1) is a 1.8-inch solid-state drive (SSD) ®...

  • Page 14: Pcie Storage Enclosure Infrastructure

    PCIe storage enclosure infrastructure Learn how the 5888 or EDR1 PCIe storage enclosure is different from previous storage enclosures. With previous IBM SAS storage enclosure models, connecting disk drives was accomplished by using individual components that were externally connected to each other:...

  • Page 15: Pcie Storage Enclosure Features

    1.8-inch small form factor (SFF) 6 GB Dual Port serial-attached SCSI (SAS) Dual Port serial-attached SCSI (SAS) SSD drive feature codes supported ES02 ES02 (AIX and Linux), ES04 (IBM i) Internal SSD drives Six minimum to 30 maximum Six minimum to 30 maximum Service information...

  • Page 16: Cabling The Pcie Storage Enclosure

    Table 1. PCIe storage enclosure features (continued) Feature code 5888 EDR1 External hard disk drives (HDD) None 48 maximum External SAS enclosures None Two 5887 disk drive enclosures maximum Drive redundant SAS paths Two paths from each enclosure RAID Two paths from each enclosure RAID module (ERM) (one path through module (ERM) (one path through each SAS expander)
  • Page 17 Figure 3. One 5888 PCIe storage enclosure connected to a single 8202-E4C or 8205-E6C system by using one FC EJ03 PCIe2 GX++ adapter and two PCIe cables Figure 4 on page 6 shows one 5888 PCIe storage enclosure connected to an 8205-E6C system by using two FC EJ03 PCIe2 GX++ adapters and two PCIe cables.
  • Page 18 Figure 4. One 5888 PCIe storage enclosure connected to a single 8205-E6C system by using two FC EJ03 PCIe2 GX++ adapters and two PCIe cables Figure 5 shows two 5888 PCIe storage enclosures connected to a single 8205-E6C system by using two FC EJ03 PCIe2 GX++ adapters and four PCIe cables.
  • Page 19 Figure 6. One 5888 PCIe storage enclosure connected to two 8202-E4C or 8205-E6C systems by using two FC EJ03 PCIe2 GX++ adapters and two PCIe cables Figure 7 on page 8 shows two 5888 PCIe storage enclosures connected to two 8202-E4C or 8205-E6C systems by using two FC EJ03 PCIe2 GX++ adapters and four PCIe cables.
  • Page 20 Figure 7. Two 5888 PCIe storage enclosures connected to two 8202-E4C or 8205-E6C systems by using two FC EJ03 PCIe2 GX++ adapters and four PCIe cables Figure 8 on page 9 shows four 5888 PCIe storage enclosures connected to two 8205-E6C systems by using four FC EJ03 PCIe2 GX++ adapters and eight PCIe cables.

  • Page 21: Cabling The Edr1 Pcie Storage Enclosure To An 8202-E4D Or 8205-E6D System

    Figure 8. Four 5888 PCIe storage enclosures connected to two 8205-E6C systems by using four FC EJ03 PCIe2 GX++ adapters and eight PCIe cables Cabling the EDR1 PCIe storage enclosure to an 8202-E4D or 8205-E6D system Use this information as a guide for cabling your PCIe storage enclosure to an 8202-E4D or 8205-E6D system.
  • Page 22 Figure 9. One EDR1 PCIe storage enclosure connected to a single 8202-E4D or 8205-E6D system by using one FC EJ03 PCIe2 GX++ adapter and two PCIe cables Figure 10 on page 11 shows one EDR1 PCIe storage enclosure connected to an 8205-E6D system by using two FC EJ03 PCIe2 GX++ adapters and two PCIe cables.
  • Page 23 Figure 10. One EDR1 PCIe storage enclosure connected to a single 8205-E6D system by using two FC EJ03 PCIe2 GX++ adapters and two PCIe cables Figure 11 shows two EDR1 PCIe storage enclosures connected to a single 8205-E6D system by using two FC EJ03 PCIe2 GX++ adapters and four PCIe cables.
  • Page 24 Figure 12. One EDR1 PCIe storage enclosure connected to two 8202-E4D or 8205-E6D systems by using two FC EJ03 PCIe2 GX++ adapters and two PCIe cables Figure 13 on page 13 shows two EDR1 PCIe storage enclosures connected to two 8202-E4D or 8205-E6D systems by using two FC EJ03 PCIe2 GX++ adapters and four PCIe cables.
  • Page 25 Figure 13. Two EDR1 PCIe storage enclosures connected to two 8202-E4D or 8205-E6D systems by using two FC EJ03 PCIe2 GX++ adapters and four PCIe cables Figure 14 on page 14 shows four EDR1 PCIe storage enclosures connected to two 8205-E6D systems by using four FC EJ03 PCIe2 GX++ adapters and eight PCIe cables.

  • Page 26: Cabling The 5887 Disk Drive Enclosure To An Edr1 Pcie Storage Enclosure That Is Attached To An 8202-E4D Or 8205-E6D

    Figure 15 on page 15 shows one 8202-E4D or 8205-E6D with two 5887 disk drive enclosures connected to one EDR1 PCIe storage enclosure by using four SAS EX cables. Note: The IBM i operating system does not support attaching more than one 5887 disk drive enclosure to an EDR1 PCIe storage enclosure.

  • Page 27: Cabling The 5888 Pcie Storage Enclosure To An 8231-E1C Or 8231-E2C System

    Figure 15. One 8202-E4D or 8205-E6D with two 5887 disk drive enclosures connected to a single EDR1 PCIe storage enclosure by using four SAS EX cables Cabling the 5888 PCIe storage enclosure to an 8231-E1C or 8231-E2C system Use this as a guide for cabling your PCIe storage enclosure to an 8231-E1C or 8231-E2C system. Figure 16 on page 16 shows an example of connecting a 5888 PCIe storage enclosure to an 8231-E1C or 8231-E2C system by using two feature code (FC) EJ0H PCIe2 GX++ adapters and two PCIe cables.
  • Page 28 Figure 16. One 5888 PCIe storage enclosure connected to an 8231-E1C or 8231-E2C system by using two FC EJ0H PCIe2 GX++ adapters and two PCIe cables Figure 17 on page 17 shows one 5888 PCIe storage enclosure connected to two 8231-E1C or 8231-E2C systems by using two FC EJ0H PCIe2 GX++ adapters and two PCIe cables.
  • Page 29 Figure 17. One 5888 PCIe storage enclosure connected to two 8231-E1C or 8231-E2C systems by using two FC EJ0H PCIe2 GX++ adapters and two PCIe cables Figure 18 on page 18 shows two 5888 PCIe storage enclosures connected to two 8231-E2C systems by using four FC EJ0H PCIe2 GX++ adapters and four PCIe cables.

  • Page 30: Cabling The Edr1 Pcie Storage Enclosure To An 8231-E1D, 8231-E2D, Or 8268-E1D System

    Figure 18. Two 5888 PCIe storage enclosures connected to two 8231-E2C systems by using four FC EJ0H PCIe2 GX++ adapters and four PCIe cables Cabling the EDR1 PCIe storage enclosure to an 8231-E1D, 8231-E2D, or 8268-E1D system Use this as a guide for cabling your PCIe storage enclosure to an 8231-E1D, 8231-E2D, or 8268-E1D system.
  • Page 31 Figure 20. One EDR1 PCIe storage enclosure connected to two 8231-E1D, 8231-E2D, or 8268-E1D systems by using two FC EJ0H PCIe2 GX++ adapters and two PCIe cables Figure 21 on page 20 shows two EDR1 PCIe storage enclosures connected to two 8231-E2D systems by using four FC EJ0H PCIe2 GX++ adapters and four PCIe cables.

  • Page 32: Cabling The 5887 Disk Drive Enclosure To An Edr1 Pcie Storage Enclosure That Is Attached To An 8231-E1D, 8231-E2D, Or 8268-E1D

    Figure 22 shows one 8231-E2D with two 5887 disk drive enclosures connected to one EDR1 PCIe storage enclosure by using four SAS EX cables. Note: The IBM i operating system does not support attaching more than one 5887 disk drive enclosure to an EDR1 PCIe storage enclosure.
  • Page 33 Figure 23. One EDR1 PCIe storage enclosure connected to an 8246-L2T system by using two FC EJ0H PCIe2 GX++ adapters and two PCIe cables Figure 24 on page 22 shows one EDR1 PCIe storage enclosure connected to two 8246-L2T systems by using two FC EJ0H PCIe2 GX++ adapters and two PCIe cables.

  • Page 34: Cabling The 5887 Disk Drive Enclosure To An Edr1 Pcie Storage Enclosure That Is Attached To An 8246-L2T

    Figure 24. One EDR1 PCIe storage enclosure connected to two 8246-L2T systems by using two FC EJ0H PCIe2 GX++ adapters and two PCIe cables Figure 25 shows two EDR1 PCIe storage enclosures connected to two 8246-L2T systems by using four FC EJ0H PCIe2 GX++ adapters and four PCIe cables.

  • Page 35: Cabling The Edr1 Pcie Storage Enclosure To An 8248-L4T, 8408-E8D, Or 9109-Rmd System

    Figure 26. One 8246-L2T with two 5887 disk drive enclosures connected to a single EDR1 PCIe storage enclosure by using four SAS EX cables Cabling the EDR1 PCIe storage enclosure to an 8248-L4T, 8408-E8D, or 9109-RMD system Use this information as a guide for cabling your PCIe storage enclosure to an 8248-L4T, 8408-E8D, or 9109-RMD system.
  • Page 36 Figure 27. One EDR1 PCIe storage enclosure connected to a single 8248-L4T, 8408-E8D, or 9109-RMD system by using one FC 1914 PCIe2 GX++ adapter and two PCIe cables Figure 28 on page 25 shows one EDR1 PCIe storage enclosure connected to a single 8248-L4T, 8408-E8D, or 9109-RMD system by using two FC 1914 PCIe2 GX++ adapters and two PCIe cables.

  • Page 37: Cabling The 5887 Disk Drive Enclosure To An Edr1 Pcie Storage Enclosure That Is Attached To An 8248-L4T, 8408-E8D, Or 9109-Rmd

    Figure 30 on page 26 shows one 8248-L4T, 8408-E8D, or 9109-RMD with two 5887 disk drive enclosures connected to one EDR1 PCIe storage enclosure by using four SAS EX cables. Note: The IBM i operating system does not support attaching more than one 5887 disk drive enclosure to an EDR1 PCIe storage enclosure.

  • Page 38: Cabling The Edr1 Pcie Storage Enclosure To An 8412-Ead, 9117-Mmc, 9117-Mmd, 9179-Mhc, Or 9179-Mhd System

    Figure 30. one 8248-L4T, 8408-E8D, or 9109-RMD with two 5887 disk drive enclosures connected to one EDR1 PCIe storage enclosure by using four SAS EX cables Cabling the EDR1 PCIe storage enclosure to an 8412-EAD, 9117-MMC, 9117-MMD, 9179-MHC, or 9179-MHD system Use this information as a guide for cabling your PCIe storage enclosure to an 8412-EAD, 9117-MMC, 9117-MMD, 9179-MHC, or 9179-MHD system.
  • Page 39 Figure 31. One EDR1 PCIe storage enclosure connected to a single 8412-EAD, 9117-MMC, 9117-MMD, 9179-MHC, or 9179-MHD system by using one FC 1914 PCIe2 GX++ adapter and two PCIe cables Figure 32 on page 28 shows one EDR1 PCIe storage enclosure connected to an 8412-EAD, 9117-MMC, 9117-MMD, 9179-MHC, or 9179-MHD system by using two FC 1914 PCIe2 GX++ adapters and two PCIe cables.
  • Page 40 Figure 32. One EDR1 PCIe storage enclosure connected to a single 8412-EAD, 9117-MMC, 9117-MMD, 9179-MHC, or 9179-MHD system by using two FC 1914 PCIe2 GX++ adapters and two PCIe cables Figure 33 shows two EDR1 PCIe storage enclosures connected to a single 8412-EAD, 9117-MMC, 9117-MMD, 9179-MHC, or 9179-MHD system by using two FC 1914 PCIe2 GX++ adapters and four PCIe cables.
  • Page 41 Figure 34. One EDR1 PCIe storage enclosure connected to two 8412-EAD, 9117-MMC, 9117-MMD, 9179-MHC, or 9179-MHD systems by using two FC 1914 PCIe2 GX++ adapters and two PCIe cables Figure 35 on page 30 shows two EDR1 PCIe storage enclosures connected to two 8412-EAD, 9117-MMC, 9117-MMD, 9179-MHC, or 9179-MHD systems by using two FC 1914 PCIe2 GX++ adapters and four PCIe cables.
  • Page 42 Figure 35. Two EDR1 PCIe storage enclosures connected to two 8412-EAD, 9117-MMC, 9117-MMD, 9179-MHC, or 9179-MHD systems by using two FC 1914 PCIe2 GX++ adapters and four PCIe cables Figure 36 on page 31 shows four EDR1 PCIe storage enclosures connected to two 8412-EAD, 9117-MMC, 9117-MMD, 9179-MHC, or 9179-MHD systems by using four FC 1914 PCIe2 GX++ adapters and eight PCIe cables.

  • Page 43: Cabling The 5887 Disk Drive Enclosure To An Edr1 Pcie Storage Enclosure That Is Attached To An 8412-Ead, 9117-Mmc, 9117-Mmd, 9179-Mhc, Or 9179-Mhd

    Use this information as a guide for cabling your disk drive enclosure to your PCIe storage enclosure. Note: The IBM i operating system does not support attaching more than one 5887 disk drive enclosure to an EDR1 PCIe storage enclosure.
  • Page 44 Figure 37. One 8412-EAD, 9117-MMC, 9117-MMD, 9179-MHC, or 9179-MHD with one 5887 disk drive enclosure connected to a single EDR1 PCIe storage enclosure by using two SAS EX cables Figure 38 on page 33 shows one 8412-EAD, 9117-MMC, 9117-MMD, 9179-MHC, or 9179-MHD with four 5887 disk drive enclosures connected to two EDR1 PCIe storage enclosures by using eight SAS EX cables.

  • Page 45: Overview Of Problem Determination

    Figure 38. One 8412-EAD, 9117-MMC, 9117-MMD, 9179-MHC, or 9179-MHD with four 5887 disk drive enclosures connected to two EDR1 PCIe storage enclosures by using eight SAS EX cables Overview of problem determination The error log analysis is performed on errors presented by the components in the 5888 or EDR1 PCIe storage enclosure, and the analysis recommends actions that need to be performed to correct the errors.

  • Page 46: Led Use For The 5888 Or Edr1 Pcie Storage Enclosure

    LED use for the 5888 or EDR1 PCIe storage enclosure The components inside the 5888 or EDR1 PCIe storage enclosure can be identified by their physical location code. In addition to the location code, most components have an identify light-emitting diode (LED) that can be activated.

  • Page 47: Raid Controller Location Code

    Figure 40. LED locations RAID controller location code The RAID controllers are embedded on the enclosure RAID module (ERM) card and connect to the system by using a PCIe cable. All I/O controllers or adapters attached by a PCIe bus on Power Systems servers inherit the location code of the I/O slot to which they connect.

  • Page 48: Determining The Erm Location From The Raid Controller Location

    The slot location code previously described is used to call out failures that are isolated to the RAID controller or PCIe hardware in the PCIe storage enclosure. The physical location code of the ERM card is used to call out failures that are isolated to other components on the ERM card. The components can include the serial-attached SCSI (SAS) expander or the SCSI enclosure services (SES) device.

  • Page 49: Determining The Erm Location From The Raid Controller Location When Using Ibm I

    Determining the ERM location from the RAID controller location when using IBM i: Learn how to use the IBM i operating system to determine the physical location of the RAID controller on the enclosure RAID module (ERM) when you have the RAID controller logical location code.

  • Page 50: Determining The Erm Location From The Raid Controller Location When Using Linux

    1. Log in with service level authority. 2. On the command line of the IBM i session, type strsst and press Enter. 3. Type your service tools user ID and service tools password on the System Service Tools (SST) Sign On display and press Enter.

  • Page 51: Updating Microcode For Pcie Storage Enclosure Components

    RAID controller. An example of finding the physical location for the RAID controller resource to be replaced follows: 1. Type iprconfig on the command line of the Linux session and press Enter. The IBM Power RAID Configuration Utility display is shown.

  • Page 52: Frus For The 5888 Or Edr1 Pcie Storage Enclosure

    RAID controller microcode. FRUs for the 5888 or EDR1 PCIe storage enclosure Some parts of the IBM EXP 30 Ultra I/O Drawer are field replaceable units (FRUs). Most of these parts are concurrently maintainable. The FRUs include the following parts:...

  • Page 53: Storage Enclosure Topology

    Table 3. Isolation procedure component with FRU name and location Isolation procedure component 5888 or EDR1 FRU 5888 or EDR1 location SAS controller ERM assembly U5888.001.sssssss-P1-Cx SAS cable ERM assembly U5888.001.sssssss-P1-Cx Device enclosure Midplane assembly U5888.001.sssssss-P1 SAS expander ERM assembly U5888.001.sssssss-P1-Cx Disk drive Solid-state drive (SSD) assembly...
  • Page 54 Figure 42. SAS physical links and device interfaces Power Systems: Service information for the PCIe storage enclosures...

  • Page 55: Notices

    All statements regarding the manufacturer's future direction or intent are subject to change or withdrawal without notice, and represent goals and objectives only. The manufacturer's prices shown are the manufacturer's suggested retail prices, are current and are subject to change without notice. Dealer prices may vary. © Copyright IBM Corp. 2012, 2013...

  • Page 56: Trademarks

    IBM, the IBM logo, and ibm.com are trademarks or registered trademarks of International Business Machines Corp., registered in many jurisdictions worldwide. Other product and service names might be trademarks of IBM or other companies. A current list of IBM trademarks is available on the web at Copyright and trademark information at www.ibm.com/legal/copytrade.shtml.
  • Page 57 Properly shielded and grounded cables and connectors must be used in order to meet FCC emission limits. IBM is not responsible for any radio or television interference caused by using other than recommended cables and connectors or by unauthorized changes or modifications to this equipment.
  • Page 58 Warning: This is a Class A product. In a domestic environment this product may cause radio interference in which case the user will be required to take adequate measures. IBM Taiwan Contact Information: Power Systems: Service information for the PCIe storage enclosures...
  • Page 59 Um dieses sicherzustellen, sind die Geräte wie in den Handbüchern beschrieben zu installieren und zu betreiben. Des Weiteren dürfen auch nur von der IBM empfohlene Kabel angeschlossen werden. IBM übernimmt keine Verantwortung für die Einhaltung der Schutzanforderungen, wenn das Produkt ohne Zustimmung von IBM verändert bzw.

  • Page 60: Class B Notices

    Properly shielded and grounded cables and connectors must be used in order to meet FCC emission limits. Proper cables and connectors are available from IBM-authorized dealers. IBM is not responsible for Power Systems: Service information for the PCIe storage enclosures...
  • Page 61 This product is in conformity with the protection requirements of EU Council Directive 2004/108/EC on the approximation of the laws of the Member States relating to electromagnetic compatibility. IBM cannot accept responsibility for any failure to satisfy the protection requirements resulting from a non-recommended modification of the product, including the fitting of non-IBM option cards.
  • Page 62 Um dieses sicherzustellen, sind die Geräte wie in den Handbüchern beschrieben zu installieren und zu betreiben. Des Weiteren dürfen auch nur von der IBM empfohlene Kabel angeschlossen werden. IBM übernimmt keine Verantwortung für die Einhaltung der Schutzanforderungen, wenn das Produkt ohne Zustimmung von IBM verändert bzw.

  • Page 63: Terms And Conditions

    Permissions for the use of these publications are granted subject to the following terms and conditions. Applicability: These terms and conditions are in addition to any terms of use for the IBM website. Personal Use: You may reproduce these publications for your personal, noncommercial use provided that all proprietary notices are preserved.
  • Page 64 Power Systems: Service information for the PCIe storage enclosures...
  • Page 66 Printed in USA...

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