USER’S
GUIDE
MegaRAID® 6Gb/s SAS
RAID Controllers
N ov e m b e r 2 0 0 9
41450-02 Rev. B
Preface
This document is the primary reference and user’s guide for the LSI
®
MegaRAID Serial Attached SCSI/SATA II RAID controllers based on the
6Gb/s SAS/SATA RAID On-a-Chip devices. This document contains
complete installation instructions for these RAID controllers and includes
specifications for them.
The MegaRAID 6Gb/s Serial Attached SCSI (SAS) RAID controller family
consists of the following controllers:
•
•
•
•
•
•
•
MegaRAID SAS 9240-4i PCI Express 2.0 Low-Profile
Serial-Attached SCSI/SATA II Disk Array Controller with an Internal
Connector
MegaRAID SAS 9240-8i PCI Express 2.0 Low-Profile
Serial-Attached SCSI/SATA II Disk Array Controller with Internal
Connectors
MegaRAID SAS 9260-4i PCI Express 2.0 Low-Profile Serial-
Attached SCSI/SATA II Disk Array Controller with an Internal
Connector
MegaRAID SAS 9260-8i PCI Express 2.0 Low-Profile
Serial-Attached SCSI/SATA II Disk Array Controller with Internal
Connectors
MegaRAID SAS 9260DE-8i PCI Express 2.0 Low-Profile
Serial-Attached SCSI/SATA II Disk Array Controller with Internal
Connectors
MegaRAID SAS 9261-8i PCI Express 2.0 Low-Profile
Serial-Attached SCSI/SATA II Disk Array Controller with Internal
Connectors
MegaRAID SAS 9280-4i/4e PCI Express 2.0 Low-Profile
Serial-Attached SCSI/SATA II Disk Array Controller with an Internal
Connector and an External Connector
MegaRAID 6Gb/s SAS RAID Controllers User’s Guide
Copyright © 2009 by LSI Corporation. All rights reserved.
iii
•
•
MegaRAID SAS 9280-8e PCI Express 2.0 Low-Profile Serial-
Attached SCSI/SATA II Disk Array Controller with External
Connectors
MegaRAID SAS 9280DE-8e PCI Express 2.0 Low-Profile
Serial-Attached SCSI/SATA II Disk Array Controller with External
Connectors
For information about how to configure the RAID controllers, refer to the
MegaRAID SAS Software User’s Guide. For information about the
operating system drivers, refer to the MegaRAID SAS Device Driver
Installation User’s Guide.
Audience
This document assumes that you have some familiarity with RAID
controllers and related support devices. The people who benefit from this
document are:
•
•
Engineers who are designing a system that will include a MegaRAID
6Gb/s SAS RAID controller
Anyone who is installing a MegaRAID 6Gb/s SAS RAID controller in
a system
Organization
This document contains the following chapters and appendix:
•
•
•
SAS RAID controllers.
procedures for installing the MegaRAID 6Gb/s SAS RAID controllers.
provides the characteristics and technical specifications for the
MegaRAID 6Gb/s SAS RAID controllers.
•
defines the terms and abbreviations used in this document.
iv
Preface
Copyright © 2009 by LSI Corporation. All rights reserved.
Related Publications
MegaRAID SAS Device Driver Installation User’s Guide
Document Number: 80-00163-01 Rev. D
This document describes how to install the MegaRAID device driver for
your operating system. The information in this document is independent
of the back-end bus and applies to the MegaRAID SAS RAID controllers.
MegaRAID SAS Software User’s Guide
Document Number: 80-00156-01 Rev. H
This document describes how to use the MegaRAID Storage Manager,
WebBIOS, and command line interface (CLI) utilities to configure,
monitor, and maintain MegaRAID SAS RAID controllers and the
storage-related devices connected to them.
MegaRAID iBBU07 Intelligent Battery Backup Unit Quick Installation
Guide
Document Number: 34231-00 Rev. C
This quick installation guide explains how to install the LSIiBBU07
intelligent Battery Backup Unit 07 directly and remotely on your
MegaRAID controller. The LSIiBBU07 is used with the MegaRAID SAS
9260 RAID controller and the MegaRAID SAS 9280 RAID controller. The
LSIiBBU07 protects the integrity of the cached data on a MegaRAID
controller for up to 72 hours in case of a complete AC power failure or a
brief power outage.
Preface
v
Copyright © 2009 by LSI Corporation. All rights reserved.
Conventions
The following table describes how the user interacts with the product.
Notation
Example
Meaning and Use
Courier typeface
.nwk file
Names of commands, files, and directories, as well as
code and screen messages, are shown in Courier.
Bold typeface
Italics
fd1sp
In a command line, keywords are shown in bold, non-italic
typeface. Enter them exactly as shown.
module
In command lines and names, italics indicate user vari-
ables. Replace italicized text with appropriate user-
specified items. Enter items of the type called for, using
lowercase.
Initial capital letters
Undo
Edit
Apply
Names of menu commands, options, check buttons, text
buttons, options buttons, text boxes, list boxes, and so on,
are shown in text with initial capital lettering to avoid mis-
reading. These elements might appear on your screen in
all lowercase.
Semicolon, and other
punctuation
Use as shown in the text.
Notes contain supplementary information that can affect
system performance.
Caution:
Cautions are notifications that an action has the potential to
adversely affect equipment operation, system performance,
or data integrity.
Revision History
Document Number Date/Version
Remarks
41450-02 Rev. B
November 2009
Added the SAS 9240-4i, SAS 9240-8i, and SAS 9280-4i/4e
RAID controllers; added the SAS 9261-8i RAID controller
41450-02 Rev. A
July 2009
Added the SAS 9260-4i, SAS 9260DE-8i, SAS 9280-8e,
and SAS 9280DE-8e RAID controllers.
41450-01 Rev. A
41450-00 Rev. A
June 2009
Documented the SAS 9260-8i RAID controller.
Initial release of this document.
March 2009
vi
Preface
Copyright © 2009 by LSI Corporation. All rights reserved.
Safety Instructions
Use the following safety guidelines to help protect your computer system
from potential damage and to ensure your own personal safety.
Note:
Use the MegaRAID 6Gb/s SAS RAID controllers
with UL-listed Information Technology Equipment (ITE)
products only.
When Using Your Computer System – As you use your computer
system, observe the following safety guidelines:
Caution:
Do not operate your computer system with any covers
(such as computer covers, bezels, filler brackets, and
front-panel inserts) removed.
•
To avoid damaging your computer, make sure that the voltage
selection switch on the power supply is set to match the alternating
current (AC) power available at your location:
–
115 volts (V)/60 hertz (Hz) in most of North American and South
American countries, and some Asian countries, such as Japan,
South Korea, and Taiwan.
–
230 V/50 Hz in most of Europe, the Middle East, and Asia. Also
make sure that your monitor and attached peripherals are
electrically rated to operate with the AC power available in your
location.
•
•
•
•
To avoid possible damage to the system board, wait 5 seconds after
you turn off the system before you remove a component from the
system board or disconnect a peripheral device from the computer.
To prevent electric shock, connect the computer and peripheral
power cords into correctly grounded power sources. These cords are
equipped with three-prong plugs to ensure correct grounding.
Do not use adapter plugs or remove the grounding prong from a
cable. If you must use an extension cable, use a three-wire cable
with correctly grounded plugs.
To protect your computer system from sudden, transient increases
and decreases in electrical power, use a surge suppressor, line
conditioner, or uninterruptible power supply (UPS).
Preface
vii
Copyright © 2009 by LSI Corporation. All rights reserved.
•
Make sure that equipment does not rest on your computer system
cables and that the cables are not located where they can be
stepped on or tripped over.
•
•
•
Do not spill food or liquids on your computer. If the computer gets
wet, consult the documentation that came with it.
Do not push any objects into the openings of your computer. Doing so
can cause fire or electric shock by shorting out interior components.
Keep your computer away from radiators and heat sources. Also, do
not block cooling vents. Avoid placing loose papers underneath your
computer; do not place your computer in a closed-in wall unit or on
a rug.
When Working Inside Your Computer –
Caution: Do not attempt to service the computer system yourself,
except as explained in this document and elsewhere in LSI
documentation. Always follow installation and service
instructions closely.
1. Turn off your computer and any peripherals.
2. Disconnect your computer and peripherals from their power sources.
Also disconnect any telephone or telecommunications lines from
the computer.
Performing these actions reduces the potential for personal injury or
shock. Also note these safety guidelines:
–
When you disconnect a cable, pull on its connector or on its
strain-relief loop, not on the cable itself. Some cables have a
connector with locking tabs. If you are disconnecting this type of
cable, press in on the locking tabs before you disconnect the
cable. As you pull connectors apart, keep them evenly aligned to
avoid bending any connector pins. Also, before you connect a
cable, make sure that both connectors are correctly oriented and
aligned.
–
Handle components and cards with care. Do not touch the
components or contacts on a card. Hold a card by its edges or
by its metal mounting bracket. Hold a component, such as a
microprocessor chip, by its edges, not by its pins.
viii
Preface
Copyright © 2009 by LSI Corporation. All rights reserved.
Protecting Against Electrostatic Discharge – Static electricity can
harm delicate components inside your computer. To prevent static
damage, discharge static electricity from your body before you touch any
of your computer’s electronic components, such as the microprocessor.
To discharge static electricity, touch an unpainted metal surface, such as
the metal around the card-slot openings at the back of the computer.
As you continue to work inside the computer, periodically touch an
unpainted metal surface to remove any static charge that your body
might have accumulated. In addition to the preceding precautions, you
also can take the following steps to prevent damage from electrostatic
discharge:
•
When unpacking a static-sensitive component from its shipping
carton, do not remove the component from the antistatic packing
material until you are ready to install the component in your
computer. Just before unwrapping the antistatic packaging, be sure
to discharge static electricity from your body.
•
•
When transporting a sensitive component, first place it in an
antistatic container or packaging.
Handle all sensitive components in a static-safe area. If possible, use
antistatic floor pads and workbench pads.
Preface
ix
Copyright © 2009 by LSI Corporation. All rights reserved.
x
Preface
Copyright © 2009 by LSI Corporation. All rights reserved.
Contents
Chapter 1
Overview
Chapter 2
MegaRAID SAS Hardware Installation
MegaRAID 6Gb/s SAS RAID Controllers User’s Guide
xi
Copyright © 2009 by LSI Corporation. All rights reserved.
2.5.2
Connecting the SAS RAID Controller with External
Connectors to a Drive Enclosure
2-10
Chapter 3
MegaRAID SAS RAID Controller Characteristics
Power Supply Requirements for SAS 9240 RAID
Controllers
Operating and Non-operating Conditionsfor the
SAS 9240 RAID Controllers
Power Supply Requirements for SAS 9260 RAID
Controllers
Operating and Non-operating Conditions for SAS
9260 RAID Controllers
Power Supply Requirements for the SAS 9261
RAID Controller
Operating and Non-operating Conditions for the
SAS 9261 RAID Controller
Power Supply Requirements for SAS 9280 RAID
Controllers
3-17
3-18
3-18
3-19
3-20
3-21
3-21
3.3.5
Operating and Non-operating Conditions for SAS
9280 RAID Controllers
3-22
Appendix A
Glossary of Terms
xii
Contents
Copyright © 2009 by LSI Corporation. All rights reserved.
xiv
Contents
Copyright © 2009 by LSI Corporation. All rights reserved.
Figures
1.2
Example of an LSI SAS RAID Controller Configured with
an LSISASx12 Expander
Example of the MegaRAID SAS 9260-8i Board Installation
in a PCI Express Slot
Internal SAS Cable for Connection to SAS Drives, SATA II
Drives, or Both
1-7
2-4
2.1
2.2
2-7
2.4
SAS Plugs and SATA II Plugs and SAS Backplane
Receptacle Connector
2-9
2.6
Connecting the SAS 9280-8e RAID Controller to a Drive
Enclosure
Card Layout for the MegaRAID SAS 9240-8i RAID
Controller
Card Layout for the MegaRAID SAS 9260-8i RAID
Controller
Card Layout for the MegaRAID SAS 9261-8i RAID
Controller
Card Layout for the MegaRAID SAS 9280-8e RAID
Controller
Card Layout for the MegaRAID SAS 9280-4i/4e RAID
Controller
2-11
3-2
3.1
3.2
3.3
3.4
3.5
3-4
3-7
3-9
3-11
Contents
xv
Copyright © 2009 by LSI Corporation. All rights reserved.
xvi
Contents
Copyright © 2009 by LSI Corporation. All rights reserved.
Tables
3.1
SAS 9240-4i/SAS 9240-8i RAID Controller – Jumpers and
Connectors
3-3
3.2
SAS 9260-8i/SAS 9260DE-8i RAID Controller – Jumpers
and Connectors
3-5
3.4
SAS 9280-8e and SAS 9280DE-8e RAID Controllers –
Connectors
3-9
Contents
xvii
Copyright © 2009 by LSI Corporation. All rights reserved.
xviii
Contents
Copyright © 2009 by LSI Corporation. All rights reserved.
Chapter 1
Overview
This chapter provides an overview of the MegaRAID 6Gb/s Serial
Attached SCSI/Serial ATA II controllers with RAID control capability.
It consists of the following sections:
•
•
•
•
•
•
•
•
1.1 Overview
The MegaRAID 6Gb/s SAS RAID controllers are high-performance
intelligent PCI Express-to-SCSI/Serial ATA II adapters with RAID control
capability. MegaRAID 6Gb/s SAS RAID controllers provide reliability, high
performance, and fault-tolerant drive subsystem management. They are
an ideal RAID solution for the internal storage of workgroup,
departmental, and enterprise systems. MegaRAID 6Gb/s SAS RAID
controllers offer a cost-effective way to implement RAID in a server.
SAS technology brings a wealth of options and flexibility with the use of
SAS and Serial ATA (SATA) II devices within the same storage
infrastructure. However, SAS and SATA devices bring individual
characteristics that make each one a more suitable choice depending on
your storage needs. MegaRAID gives you the flexibility to combine these
MegaRAID 6Gb/s SAS RAID Controllers User’s Guide
Copyright © 2009 by LSI Corporation. All rights reserved.
1-1
two similar technologies on the same controller, within the same
enclosure, and in the same virtual drive.
Note:
LSI recommends that you carefully assess any decision to
mix SAS drives and SATA drives within the same virtual
drives. Although you can mix drives, LSI strongly
discourages the practice.
LSI offers a family of MegaRAID SAS RAID controllers addressing the
needs for both internal and external solutions. The MegaRAID 6Gb/s
SAS RAID controllers are based on the LSI first-to-market SAS IC
technology and proven MegaRAID technology. As second-generation
PCI Express RAID controllers, these controllers address the growing
demand for increased data throughput and scalability requirements
across midrange and enterprise-class server platforms. These controllers
provide:
•
•
•
6.0 Gb/s Serial Attached SCSI performance
3.0 Gb/s SATA II performance
Eight-lane, 5-Gb/s PCI Express host interface
The SAS 9260DE-8i RAID controller and the SAS 9280DE-8i RAID
controller offer data security using disk encryption. This feature offers the
ability to encrypt data on drives and use disk-based key management to
provide data security. This solution provides data protection in the event
of theft or loss of physical drives. With self-encrypting drives, if you
remove a drive from its storage system or the server it is housed in, the
data on that drive is encrypted and useless to anyone who attempts to
access without the the appropriate security authorization.
For more information about self-encrypting drives, refer to the MegaRAID
SAS Software User’s Guide.
The SAS 9260 RAID controllers, the SAS 9261 RAID controller, and the
SAS 9280 RAID controllers use the LSI intelligent Battery Backup Unit
07 (LSIiBBU-07) to provide cached data protection and allow system
builders to protect cached data even during the most catastrophic system
failures.
Refer to the battery backup documentation on the MegaRAID Universal
Software Suite CD for more information about this battery backup unit.
1-2
Overview
Copyright © 2009 by LSI Corporation. All rights reserved.
The SAS controllers support the ANSI Serial Attached SCSI standard,
version 2.0. In addition, the controller supports the SATA II protocol
defined by the Serial ATA specification, version 1.0a. Supporting both the
SAS interface and the SATA II interface, the SAS controller is a versatile
controller that provides the backbone of both server and high-end
workstation environments.
Each port on the SAS RAID controller supports SAS devices, SATA II
devices, or both, using the following protocols:
•
SAS Serial SCSI Protocol (SSP), which enables communication with
other SAS devices
•
•
SATA II, which enables communication with other SATA II devices
Serial Management Protocol (SMP), which communicates
topology management information directly with an attached SAS
expander device
•
Serial Tunneling Protocol (STP), which enables communication with
a SATA II device through an attached expander
1.2 SAS Controller Descriptions
The 6Gb/s SAS RAID controllers are described as follows:
•
•
•
The MegaRAID SAS 9240-4i PCI Express 2.0 Low-Profile
Serial-Attached SCSI/SATA II Disk Array Controller is a PCI-Express
2.0, half-size, full-height RAID controller based on the LSISAS2008
PCI Express-SAS/SATA I/O Processor chip. The MegaRAID SAS
9240-4i controls four internal 6-Gb/s SAS/SATA ports through one
SFF-8087 x4 internal mini SAS connector.
The MegaRAID SAS 9240-8i PCI Express 2.0 Low-Profile
Serial-Attached SCSI/SATA II Disk Array Controller is a PCI-Express
2.0, half-size, full-height RAID controller based on the LSISAS2008
PCI Express-SAS/SATA I/O Processor chip. The MegaRAID SAS
9240-8i controls eight internal 6-Gb/s SAS/SATA ports through two
SFF-8087 x4 internal mini SAS connectors.
The MegaRAID 6Gb/s SAS 9260-4i PCI Express 2.0 Low-Profile
Serial-Attached SCSI/SATA II Disk Array Controller controls four
internal SAS/SATA ports through one SFF-8087 x4 internal mini
SAS connector.
SAS Controller Descriptions
Copyright © 2009 by LSI Corporation. All rights reserved.
1-3
•
•
•
•
The MegaRAID 6Gb/s SAS 9260-8i PCI Express 2.0 Low-Profile
Serial-Attached SCSI/SATA II Disk Array Controller controls eight
internal SAS/SATA ports through two SFF-8087 x4 internal mini SAS
connectors.
The MegaRAID 6Gb/s SAS 9260DE-8i PCI Express 2.0 Low-Profile
Serial-Attached SCSI/SATA II Disk Array Controller controls eight
internal SAS/SATA ports through two SFF-8087 x4 internal mini SAS
connectors and offers data security using disk encryption.
The MegaRAID 6Gb/s SAS 9261-8i PCI Express 2.0 Low-Profile
Serial-Attached SCSI/SATA II Disk Array Controller controls eight
internal SAS/SATA ports through two SFF-8087 mini-SAS 4i
connectors.
The MegaRAID 6Gb/s SAS 9280-4i/4e PCI Express 2.0 Low-Profile
Serial-Attached SCSI/SATA II Disk Array Controller controls four
internal SAS/SATA ports through one SFF-8087 x4 internal mini SAS
connector and four external SAS/SATA ports through one SFF-8088
x4 external mini SAS connector.
•
•
The MegaRAID 6Gb/s SAS 9280-8e PCI Express 2.0 Low-Profile
Serial-Attached SCSI/SATA II Disk Array Controller controls eight
external SAS/SATA ports through two SFF-8088 x4 external mini
SAS connectors.
The MegaRAID 6Gb/s SAS 9280DE-8e PCI Express 2.0 Low-Profile
Serial-Attached SCSI/SATA II Disk Array Controller controls eight
external SAS/SATA ports through two SFF-8088 x4 external mini
SAS connectors and offers data security using disk encryption.
1.3 General Description
The MegaRAID 6Gb/s SAS RAID controllers bring 6.0 Gb/s Serial
Attached SCSI and 3.0 Gb/s SATA II performance to host adapter,
workstation, and server designs. The controllers support internal storage
devices and external storage devices, which allow you to use a system
that supports enterprise-class SAS drives and desktop-class SATA II
drives. Each MegaRAID 6Gb/s SAS RAID controller can connect to
drives directly and can use expanders to connect to additional drives.
Simplified cabling between devices is an additional benefit.
1-4
Overview
Copyright © 2009 by LSI Corporation. All rights reserved.
These SAS controllers are based on the LSISAS2108 RAID On-a-Chip
(ROC) device or the LSISAS2008 PCI Express-SAS/SATA I/O Processor
chip. These devices are compliant with the Fusion-MPT™ architecture
and provides a PCI Express x8 interface.
Note:
All of these RAID controllers provide an x8 PCI Express 2.0
interface.
The LSISAS2108 ROC device provides an eight-lane, 5-Gb/s PCI
Express host interface, eight 6.0 Gb/s SAS ports or eight 3.0 Gb/s SATA
ports, and a full-featured, hardware-based RAID implementation. In
addition, it integrates a high-speed DDR/DDR2 800 MHz SDRAM
interface with a hardware RAID assist engine for parity calculations. The
LSISAS2108 ROC device provides the maximum benefits of a RAID
system and enables you to configure the system to satisfy your system
requirements.
The LSISAS2108 ROC device increases system performance and
provides fault-tolerant data storage. The LSISAS2108 supports data
striping across multiple drives, which reduces drive access time because
multiple drives simultaneously read or write data. The LSISAS2108 ROC
device backs up data with either data mirroring or a parity block. Either
backup method enables you to recover lost data in the event of a drive
failure. You can select the data backup method that best suits your
needs. A hardware RAID assist exclusive-OR (XOR) engine speeds
parity generation and checking and reduces system-access times.
The SAS RAID controllers integrate eight high-performance SAS/SATA II
PHYs and a PCI Express bus master DMA core. Each of the eight PHYs
is capable of 6.0 Gb/s SAS link rates and 3.0 Gb/s SATA II link rates.
These devices adhere to the PCI Express Specification, Revision 2.0.
The PCI Express software is backward compatible with previous
revisions of the PCI bus and PCI-X bus.
The SAS RAID controllers support the SAS protocol as described in the
Serial Attached SCSI Standard, version 2.0. The controllers also support
the Serial ATA II (SATA II) protocol defined by the Serial ATA
Specification, Version 1.0a and the Serial ATAII; Extension to the Serial
ATA Specification, Version 1.1. SATA II is an extension to SATA 1.0a.
In addition, the SAS RAID controllers support the following SATA II
features:
General Description
Copyright © 2009 by LSI Corporation. All rights reserved.
1-5
•
•
•
•
•
•
3Gb/s SATA II
Staggered spin-up
Hot plug
Native command queuing
Activity and fault indicators for each PHY
Port selector (for dual-port drives)
Each port on the SAS controllers supports SAS devices, SATA II devices,
or both using SSP, SMP, STP, and SATA II. SSP enables communication
with other SAS devices. SATA II enables the SAS controllers to
communicate with other SATA II devices.
1.4 Configuration Scenarios
There are three main scenarios in which you can use the SAS RAID
controllers:
•
Low-end, internal SATA II configurations: In this configuration, use
the RAID controller as a high-end SATA II compatible controller that
connects up to eight drives either directly or through a port expander.
This configuration is mostly for low-end or entry servers. Enclosure
2
management is provided through out-of-band I C bus. Side bands of
both types of internal SAS connectors support the SFF-8485
(SGPIO) interface.
•
•
Midrange internal SAS configurations: This is like the internal
SATA II configurations, but with high-end SAS drives. This is more
suitable for low-range to midrange servers.
High-end external SAS/SATA II configurations: This configuration
is for external connectivity using SATA II drives, SAS drives, or both.
External enclosure management is supported through in-band,
SCSI-enclosed storage. The configuration must support STP and
SMP.
2
Figure 1.1 shows a direct-connect configuration. The Inter-IC (I C)
interface communicates with peripherals. The external memory bus
provides a 32-bit memory bus, parity checking, and chip select signals
for pipelined synchronous burst static random access memory
1-6
Overview
Copyright © 2009 by LSI Corporation. All rights reserved.
(PSBRAM), nonvolatile static random access memory (NVSRAM), and
Flash ROM.
Figure 1.1 Example of an LSI SAS Direct-Connect Application
SAS/SATA II Device
32-Bit Memory
Address/Data
Flash ROM/
PSBRAM/
NVSRAM
SAS
PCI Express
RAID Controller
Bus
SAS/SATA II Device
SAS/SATA II Device
I2C
Interface
I2C
SAS/SATA II Device
PCI Express Interface
Figure 1.2 shows an example of a SAS RAID controller configured with
an LSISASx12 expander that is connected to SAS drives, SATA II drives,
or both.
Figure 1.2 Example of an LSI SAS RAID Controller Configured
with an LSISASx12 Expander
PCI Express Interface
8
Peripheral
Bus
Flash ROM/
NVSRAM/
SAS
RAID Controller
LSISAS2108
2
I C/UART
72-bit DDR/DDR2
with ECC
PCI Express to SAS ROC
Interface
SDRAM
LSISASx12
Expander
LSISASx12
Expander
Configuration Scenarios
Copyright © 2009 by LSI Corporation. All rights reserved.
1-7
1.5 Benefits of the SAS Interface
SAS is a serial, point-to-point, enterprise-level device interface that
leverages the proven SCSI protocol set. SAS is a convergence of the
advantages of SATA II, SCSI, and Fibre Channel, and is the future
mainstay of the enterprise and high-end workstation storage markets.
SAS offers a higher bandwidth per pin than parallel SCSI, and it
improves signal and data integrity.
The SAS interface uses the proven SCSI command set to ensure reliable
data transfers, while providing the connectivity and flexibility of
point-to-point serial data transfers. The serial transmission of SCSI
commands eliminates clock-skew challenges. The SAS interface
provides improved performance, simplified cabling, smaller connectors,
lower pin count, and lower power requirements when compared to
parallel SCSI.
SAS controllers leverage a common electrical and physical connection
interface that is compatible with Serial ATA technology. The SAS and
SATA II protocols use a thin, 7-wire connector instead of the 68-wire
SCSI cable or 26-wire ATA cable. The SAS/SATA II connector and cable
are easier to manipulate, allow connections to smaller devices, and do
not inhibit airflow. The point-to-point SATA II architecture eliminates
inherent difficulties created by the legacy ATA master-slave architecture,
while maintaining compatibility with existing ATA firmware.
1.5.1 PCI Express Architecture
PCI Express is a local bus system designed to increase data transfers
without slowing down the central processing unit (CPU). You can install
MegaRAID PCI Express RAID controllers in PCI Express computer
systems with a standard bracket type. With these controllers in your
system, you can connect SAS devices and SATA II devices over the bus.
Note:
Some PCI-E slots support PCI-E graphics cards only; if a
RAID controller is installed on those PCI-E slots, it will not
function.
PCI Express goes beyond the PCI specification in that it is intended as
a unifying I/O architecture for various systems: desktops, workstations,
mobile, server, communications, and embedded devices.
1-8
Overview
Copyright © 2009 by LSI Corporation. All rights reserved.
1.5.2 Operating System Support
The MegaRAID 6Gb/s SAS RAID controllers supports the following
operating systems:
•
•
•
•
•
•
•
•
Windows Vista, Server 2003, and Windows Server 2008
Red Hat Linux
SUSE Linux
Novell NetWare
SCO OpenServer
SCO UnixWare
Solaris
FreeBSD
To download the latest operating system drivers, go to:
The MegaRAID 6Gb/s SAS RAID controllers use Fusion-MPT™
architecture for all major operating systems, thinner drivers, and better
performance.
1.6 Summary of SAS RAID Controller Characteristics
This section provides a summary of the features and benefits of the
MegaRAID 6Gb/s SAS RAID controllers. It contains information on SAS
features, SATA II features, PCI performance, integration, usability, and
flexibility.
The MegaRAID 6Gb/s SAS RAID controllers have the following features:
•
•
•
PCI Express x8 lane width (with support for x16 connections)
PCI Express performance up to 5Gb/s per lane
Support for 512-Mbyte DDR2 800 MHz on-board SDRAM intelligent
battery-backed module
•
One internal connector for the SAS 9240-4i, SAS 9260-4i, and SAS
9280-4i/4e RAID controllers
Summary of SAS RAID Controller Characteristics
Copyright © 2009 by LSI Corporation. All rights reserved.
1-9
•
Two internal connectors for the SAS 9240-8i, SAS 9260-8i, SAS
9261-8i, and SAS 9260DE-8i RAID controllers
•
•
One external connector for the SAS 9280-4i/4e RAID controller
Two external connectors for the SAS 9280-8e RAID controller and
the SAS 9280DE-8e RAID controller
•
•
•
•
Support for RAID levels 0, 1, 5, 6, 00, 10, 50, and 60
Advanced array configuration and management utilities
Support for global hot spares and dedicated hot spares
Support for user-defined stripe sizes: 8, 16, 32, 64, 128, 256, 512,
or 1024 KB
•
Advanced array configuration and management utilities offer:
–
Online capacity expansion to add space to an existing drive or
new drive
–
–
–
–
–
–
Online RAID level migration
Drive migration
Drive roaming
No reboot necessary after expansion
Load balancing
Media scan
•
•
User-specified rebuild rate (specifying the percentage of system
resources to use from 0%-100%)
32-Kbyte nonvolatile random access memory (NVRAM) for storing
RAID system configuration information; the MegaRAID SAS firmware
is stored in flash ROM for easy upgrade.
1.6.1 SAS Features
The following list describes the SAS features of the RAID controllers:
•
Provides four fully independent PHYs or eight fully independent
PHYs, depending on the controller
•
•
•
Supports 6Gb/s and 3Gb/s SAS data transfers per PHY
Supports SMP to communicate topology management information
Supports SSP to enable communication with other SAS devices
1-10
Overview
Copyright © 2009 by LSI Corporation. All rights reserved.
•
Supports STP to enable communication with a SATA II device
through an attached expander
•
•
•
Provides a serial, point-to-point, enterprise-level storage interface
Simplifies cabling between devices
Provides a scalable interface that supports up to 240 devices through
the use of expanders
Note:
The number of devices varies depending on the MegaRAID
specific details about your product.
•
Supports wide ports consisting of 2, 3, or 4 PHYs within a single
quad port
•
•
Supports narrow ports consisting of a single PHY
Transfers data using SCSI information units
1.6.2 SAS Array Limitations
This section describes the array limitations of the MegaRAID 6Gb/s SAS
RAID controllers. These limitations include the number of drives
supported per controller, the maximum number of drives per controller,
and the maximum number of virtual drives allowed per controller.
Table 1.1
SAS RAID Controller Array Limitations
Specification
Maximum virtual
drives per controller
16
8
16
8
64
16
16
32
64
16
16
32
64
16
16
32
64
16
16
32
64
16
16
32
Maximum drive groups
per controller
Maximum virtual
drives per drive group
16
16
16
16
Maximum drives per
drive group
Summary of SAS RAID Controller Characteristics
Copyright © 2009 by LSI Corporation. All rights reserved.
1-11
Table 1.1
SAS RAID Controller Array Limitations
Specification
Maximum drives per
controller
16*
8
16*
8
32
32
8
32
32
8
32
32
8
240
240
8
240
240
8
Maximum hot spares
per controller
Maximum spans per
virtual drive
8
8
Maximum enclosures
per port**
2
2
2
2
2
10
2
10
2
Number of ports
1
2
1
2
2
* - Can support up to 64 devices, but only 16 can be used in a RAID
configuration.
** - Assumes one Storage Enclosure Processor (SEP) per enclosure.
devices you have connected to the RAID controller. For example, the
maximum number of drive groups is equal to the number of drives
supported by the controller. Thus, for the SAS 9240-4i RAID controller,
the maximum number of drive groups per controller is eight, which is
based on the maximum number of physical devices that can be
connected. In addition, the maximum number of hot spares per controller
is equal to the maximum number of drives per controller.
Although you can have up to 16 virtual drives per drive group and up to
16 drive groups per controller (depending on the controller), there is a
limit of 64 virtual drives per controller.
These RAID controllers support 64-bit logical block addressing (LBA),
which makes it possible to connect a large number of drives to the RAID
controller, directly and through expanders. However, the actual number
rather than by actual RAID volume capacity.
1-12
Overview
Copyright © 2009 by LSI Corporation. All rights reserved.
1.6.3 SATA II Features
The following list describes the SATA II features of the RAID controllers:
•
•
•
•
•
•
•
Supports SATA II data transfers of 3Gb/s
Supports STP data transfers of 3Gb/s
Provides a serial, point-to-point storage interface
Simplifies cabling between devices
Eliminates the master-slave construction used in parallel ATA
Allows addressing of multiple SATA II targets through an expander
Allows multiple initiators to address a single target (in a fail-over
configuration) through an expander
1.6.4 PCI Express Performance
The following list describes the PCI Express performance features of the
RAID controllers:
•
Provides a PCI Express interface that:
–
–
–
–
Supports a dedicated PCI Express bus
Supports x8 lane configuration
Supports transfer rates of up to 5Gb/s per lane
Complies with the PCI Express Specification, Revision 2.0
•
•
Provides unequaled performance through the Fusion-MPT
architecture
Provides high throughput and low CPU utilization to offload the host
processor
1.6.5 Usability Features
The following list describes the usability features of the RAID controllers:
•
•
•
Simplifies cabling with point-to-point, serial architecture
Supports smaller, thinner cables that do not restrict airflow
Provides drive spin-up sequencing control
Summary of SAS RAID Controller Characteristics
Copyright © 2009 by LSI Corporation. All rights reserved.
1-13
•
Provides one LED signal for each PHY to indicate link activity (this
is a fault LED only for controllers with internal port connectors)
Note:
The SAS 9280-8e RAID controller and the SAS 9280DE-8e
RAID controller do not have any LEDs to indicate link
activity.
2
•
•
Provides an I C interface for enclosure management
Supports the internal SAS Sideband signal SFF-8485 (SGPIO)
interface
1.6.6 Flexibility Features
These features increase the flexibility of the RAID controllers:
•
Supports a Flash ROM interface, a nonvolatile static RAM
(NVSRAM) interface, and a pipelined synchronous burst SRAM
(PSBRAM) interface
•
•
•
Offers a flexible programming interface to tune I/O performance
Allows mixed connections to SAS targets or SATA II targets
Leverages compatible connectors for SAS connections and SATA II
connections
•
•
Allows grouping of up to four PHYs in a single quad port to form a
wide port
Allows programming of the World Wide Name
1.6.7 Drive Roaming
Drive roaming occurs when the drives are changed to different ports on
the same controller. When the drives are placed on different channels,
the controller detects the RAID configuration from the configuration data
on the drives.
Configuration data is saved in both the NVRAM on the RAID controller
and on the drives attached to the controller. This action maintains the
integrity of the data on each drive, even if the drives have changed their
physical device ID.
Note:
If you move a drive that is being rebuilt, the rebuild
operation will restart, not resume.
1-14
Overview
Copyright © 2009 by LSI Corporation. All rights reserved.
Follow these steps to use drive roaming:
Step 1. Turn off power to the server and all drives, enclosures, and
system components. Disconnect the power cords from
the system.
Step 2. Open the host system by following the instructions in the host
system technical documentation.
Step 3. Move the drives to different positions on the backplane to
change the targets.
Step 4. Determine the SAS target requirements.
Step 5. Perform a safety check.
a. Make sure that the drives are inserted correctly.
b. Close the cabinet of the host system.
Step 6. Reconnect the power cords to the system.
Step 7. Turn on the power to the system.
The controller then detects the RAID configuration from the
configuration data on the drives.
1.6.8 Drive Migration
Drive migration is the transfer of a set of drives in an existing
configuration from one controller to another. The drives must remain on
the same channel and must be reinstalled in the same order as in the
original configuration. The controller to which you migrate the drives
cannot have an existing configuration.
Note:
Partial configurations, including individual virtual drives, can
be migrated.
Note:
Drive roaming and drive migration cannot be supported at
the same time.
Follow these steps to migrate drives:
Step 1. Make sure that you clear the configuration on the system to
which you migrate the drives, to prevent a configuration data
mismatch between the drives and the NVRAM.
Summary of SAS RAID Controller Characteristics
Copyright © 2009 by LSI Corporation. All rights reserved.
1-15
Note:
When you migrate drives, move only the drives that make
up the virtual drive (not all of the drives in an array), so you
do not see an NVRAM mismatch error (providing a
configuration is on the destination controller). The NVRAM
mismatch error appears only if you move all of the drives
to the other controller.
Step 2. Turn off power to the server and all drives, enclosures, and
system components. Disconnect the power cords from
the systems.
Step 3. Open the host system by following the instructions in the host
system technical documentation.
Step 4. Either remove the SAS cable connectors from the internal
drives, or remove the shielded cables from the external drives
that you want to migrate.
a. Make sure that pin 1 on the cable matches pin 1 on the
connector.
b. Make sure that the SAS cables conform to all SAS
specifications.
Step 5. Remove the drives from the first system, and insert them into
drive bays on the second system.
Step 6. Connect the SAS cables to the drives in the second system.
Step 7. Determine the SAS target requirements.
Step 8. Perform a safety check.
a. Make sure that all of the cables are attached correctly.
b. Make sure that the RAID controller is installed correctly.
c. Close the cabinet of the host system.
Step 9. Reconnect the power cords to the system.
Step 10. Turn on the power to the system.
The controller detects the RAID configuration from the
configuration data on the drives.
1-16
Overview
Copyright © 2009 by LSI Corporation. All rights reserved.
1.7 Hardware Specifications
You can install the MegaRAID 6Gb/s SAS RAID controllers in a computer
hardware configuration features for the MegaRAID 6Gb/s SAS RAID
controllers.
Table 1.2
MegaRAID 6Gb/s SAS RAID Controller Features
MegaRAID SAS 9240-4i, SAS 9240-8i, SAS 9260-4i,
SAS 9260-8i, SAS 9260-8e, SAS 9260DE-8i, SAS
9280-4i/4e, SAS 9280-8e, and SAS 9280DE-8e RAID
Controllers
Specification
RAID levels
0, 1, 5, 6, 00, 10, 50, 60
Devices supported
per port
Up to 15 SAS devices or SATA II devices (such as
drives and expanders)
Number of ports
• MegaRAID SAS 9240-4i RAID controller – Four ports
through one SFF-8087 x4 internal mini SAS
connector
• MegaRAID SAS 9240-8i RAID controller – Eight
ports through two SFF-8087 x4 internal mini SAS
connectors
• MegaRAID SAS 9260-4i RAID controller – Four ports
through one SFF-8087 x4 internal mini SAS
connector
• MegaRAID SAS 9260-8i RAID controller – Eight
ports through two SFF-8087 x4 internal mini SAS
connectors
• MegaRAID SAS 9260DE-8i RAID controller – Eight
ports through two SFF-8087 x4 internal mini SAS
connectors
• MegaRAID SAS 9261-8i RAID controller – Eight
ports through two SFF-8087 mini-SAS 4i connectors
• MegaRAID SAS 9280-4i/4e RAID controller – Four
ports through one SFF-8087 x4 internal mini SAS
connector and four ports through one SFF-8088 x4
external mini SAS connector
• MegaRAID SAS 9280-8e RAID controller – Eight
ports through two SFF-8088 x4 external mini SAS
connectors
• MegaRAID SAS 9280DE-8e RAID controller – Eight
ports through two SFF-8088 x4 external mini SAS
connectors
Data transfer rate
Bus
Up to 6Gb/s per PHY
PCI Express 2.0
Hardware Specifications
Copyright © 2009 by LSI Corporation. All rights reserved.
1-17
Table 1.2
MegaRAID 6Gb/s SAS RAID Controller Features (Cont.)
MegaRAID SAS 9240-4i, SAS 9240-8i, SAS 9260-4i,
SAS 9260-8i, SAS 9260-8e, SAS 9260DE-8i, SAS
9280-4i/4e, SAS 9280-8e, and SAS 9280DE-8e RAID
Controllers
Specification
Cache function
Write-back, write-through, adaptive read ahead,
non-read ahead, read ahead, cache I/O, direct I/O
Multiple virtual drives Up to 64 (this value is dependent on the firmware)
per controller
Online capacity
expansion
Yes
Dedicated and global Yes
hot spares
Hot-swap devices
supported
Yes
Non-drive devices
supported
Yes
Mixed capacity drives Yes
supported
Number of external
connectors
• MegaRAID SAS 9280-4i/4e RAID controller – One
SFF-8088 x4 external mini SAS connector
• MegaRAID SAS 9280-8e RAID controller – Two SFF-
8088 x4 external mini SAS connectors
• MegaRAID SAS 9280DE-8e RAID controller – Two
SFF-8088 x4 external mini SAS connectors
Number of internal
connectors
• MegaRAID SAS 9240-4i RAID controller – One
SFF-8087 x4 internal mini SAS connector
• MegaRAID SAS 9240-8i RAID controller – Two
SFF-8087 x4 internal mini SAS connectors
• MegaRAID SAS 9260-4i RAID controller – One
SFF-8087 x4 internal mini SAS connector
• MegaRAID SAS 9260-8i RAID controller – Two
SFF-8087 x4 internal mini SAS connectors
• MegaRAID SAS 9260DE-8i RAID controller – Two
SFF-8087 x4 internal mini SAS connectors
• MegaRAID SAS 9261-8i RAID controller – Two
SFF-8087 mini-SAS 4i connectors
• MegaRAID SAS 9280-4i/4e RAID controller – One
SFF-8087 x4 internal mini SAS connector
Hardware exclusive
Yes
OR (XOR) assistance
Direct I/O
Yes
Architecture
Fusion-MPT
1-18
Overview
Copyright © 2009 by LSI Corporation. All rights reserved.
1.8 Technical Support
For assistance installing, configuring, or running your MegaRAID 6Gb/s
SAS RAID controller, contact LSI Technical Support. Click the following
link to access the LSI Technical Support page for storage and board
support:
From this page, you can send an email or call Technical Support, or
submit a new service request and view its status.
Note:
Record your controller serial number in a safe location in
case you need to contact LSI about your RAID controller.
E-mail:
Phone Support:
Note:
The international toll-free number does not require country-
specific access codes.
Technical Support
Copyright © 2009 by LSI Corporation. All rights reserved.
1-19
1-20
Overview
Copyright © 2009 by LSI Corporation. All rights reserved.
Chapter 2
MegaRAID SAS
Hardware Installation
This chapter describes the procedures you can follow to install the
MegaRAID 6Gb/s Serial Attached SCSI/Serial ATA II controllers with
internal and external connectors. It consists of the following sections:
•
•
•
•
•
2.1 Requirements
The following items are required to install a MegaRAID 6Gb/s SAS RAID
controller:
•
•
A MegaRAID SAS 92xx RAID controller
A host system with an available x8 PCI Express 2.0 slot
Note:
These controllers also work in PCI Express first generation
slots. The PCI Express software is backward compatible
with previous revisions of the PCI bus and the PCI-X bus.
•
The MegaRAID Universal Software Suite CD, which contains the
drivers and documentation
•
•
The necessary internal cables, external cables, or both
SAS drives or SATA II drives
Note:
LSI strongly recommends using an uninterruptible power
supply.
MegaRAID 6Gb/s SAS RAID Controllers User’s Guide
Copyright © 2009 by LSI Corporation. All rights reserved.
2-1
2.2 Quick Installation
The following steps are for quick installation of your MegaRAID 6Gb/s
SAS RAID controller. These steps are for experienced computer users
others to follow.
Step 1. Turn off the power to the system, all drives, enclosures, and
system components, and disconnect the PC power cord.
Step 2. Open the cabinet of the host system by following the
instructions in the host system technical documentation.
Step 3. Check the jumper settings to make sure that they are in the
desired position. The jumpers are set at the factory and you
usually do not need to change them.
Note:
Characteristics” for detailed information about the jumpers
and the connectors.
Step 4. Install the MegaRAID 6Gb/s SAS RAID controller in the server,
and connect SAS devices or SATA II devices to it. Make sure
that the cables you use conform to all specifications.
Step 5. Perform a safety check.
a. Make sure that all cables are attached correctly.
b. Make sure that the RAID controller is installed correctly.
c. Close the cabinet of the host system
Step 6. Reconnect the power cords to the system.
Step 7. Turn on the power to the system.
Make sure that the power is turned on to any external drives,
before the power is turned on to the host computer. If the
computer is powered up before these devices, the devices
might not be recognized.
2-2
MegaRAID SAS Hardware Installation
Copyright © 2009 by LSI Corporation. All rights reserved.
2.3 Detailed Installation
This section provides detailed instructions for installing your MegaRAID
6Gb/s SAS RAID controller.
Step 1. Unpack the MegaRAID 6Gb/s SAS RAID controller
Unpack and remove your RAID controller. Inspect it for
damage. If it appears damaged, or if any of the following items
are missing, contact your LSI support representative. The RAID
controller is shipped with the following items:
–
A CD containing MegaRAID drivers for supported
operating systems, an electronic version of this
User’s Guide, and other related documentation
–
–
A license agreement
Warranty information
Step 2. Turn off the Power to the System
Turn off the power to the computer, and disconnect the AC
power cord. Remove the computer cover. Refer to the system
documentation for instructions. Before you install the controller,
make sure that the computer is disconnected from the power
and from any networks.
Step 3. Review the RAID Controller Jumpers and Connectors
The jumpers are set at the factory, and you usually do not need
to change them. See Chapter 3, “MegaRAID SAS RAID
Controller Characteristics” for diagrams of the MegaRAID
6Gb/s SAS RAID controllers with their jumpers and connectors.
Step 4. Install the RAID Controller
Select a PCI Express slot, and align the controller’s PCI
Express bus connector to the slot. Press down gently, but firmly,
to make sure that the card is seated correctly in the slot. Secure
the bracket to the computer chassis with the bracket screw.
Figure 2.1 shows the installation of the MegaRAID SAS
9260-8i RAID controller in a PCI Express slot.
Detailed Installation
Copyright © 2009 by LSI Corporation. All rights reserved.
2-3
Note:
Some PCI-E slots support PCI-E graphics cards only; if a
RAID controller is installed on those PCI-E slots, it will not
function.
Figure 2.1 Example of the MegaRAID SAS 9260-8i Board
Installation in a PCI Express Slot
Bracket Screw
Press here
Press here
85039-05
32-bit slots
(3.3 V)
PCI-e
slot
Edge of
Motherboard
64-bit slots
(3.3 V)
Step 5. Configure and Install the SAS Devices, SATA II Devices, or
Both in the Host Computer Case
Refer to the documentation for the devices for any
preinstallation configuration requirements.
Step 6. Connect the RAID Controller to the Devices
Use SAS cables to connect SAS devices, SATA II devices, or
both to the MegaRAID 6Gb/s SAS RAID controller.
cable and connector information. See Section 2.5.1,
2-4
MegaRAID SAS Hardware Installation
Copyright © 2009 by LSI Corporation. All rights reserved.
The maximum cable length is 10 meters (393.37 in.). You can
connect one device per SAS PHY unless you use an expander.
System throughput problems can occur if the SAS cables are
not the correct type. To minimize the potential for problems, use
the following guidelines:
a. Use cables no longer than 10 meters (393.37 in.) (LSI
recommends using shorter cables, if possible.)
b. Use cables that meet the SAS specification.
c. Route the SAS cables carefully.
Step 7. Turn on the Power to the System
Reinstall the computer cover, and reconnect the AC power
cords. Turn power on to the host computer. Make sure that the
power is turned on to the SAS devices, SATA II devices, or both
before or at the same time that the power is turned on to the
host computer. If the computer is powered up before these
devices, the devices might not be recognized.
During boot, a BIOS message appears. The firmware takes
several seconds to initialize. The configuration utility prompt
times out after several seconds. The second portion of the
BIOS message shows the MegaRAID 6Gb/s SAS RAID
controller number, firmware version, and cache SDRAM size.
The numbering of the controllers follows the PCI slot scanning
order used by the host motherboard.
Step 8. Run the WebBIOS Configuration Utility
Run the WebBIOS Configuration Utility to configure the drive
groups and the virtual drives. When the message Press
CTRL+H for WebBIOS appears on the screen, immediately
press CTRL+H to run the utility.
Step 9. Install the Operating System Driver
The SAS RAID controllers can operate under various operating
systems. To operate under these operating systems, you must
install the software drivers. The MegaRAID Universal Software
Suite CD includes software drivers for the supported operating
systems, along with documentation. You can view the
supported operating systems and download the latest drivers
Detailed Installation
Copyright © 2009 by LSI Corporation. All rights reserved.
2-5
for RAID controllers on the LSI website at:
For information about installing the driver, refer to the
MegaRAID SAS Device Driver Installation User’s Guide on the
MegaRAID Universal Software Suite CD. Be sure to use the
latest service packs provided by the operating system
manufacturer and to review the readme file that accompanies
the driver.
2.4 After Installing the RAID Controller
After you install the MegaRAID 6Gb/s SAS RAID controller, you must
configure the controller and install the operating system driver. The
MegaRAID SAS Software User’s Guide instructs you on the configuration
options and how to set them on your MegaRAID 6Gb/s SAS RAID
controller. The MegaRAID SAS Device Driver Installation User’s Guide
provides detailed installation instructions for operating system drivers.
2.5 SAS Device Cables and Connectors
This section describes the cables and the connectors used on the SAS
controllers and provides step-by-step instructions for connecting SAS
drives, SATA II drives, or both to the SAS RAID controller. The SAS and
SATA II protocols use a thin, 7-wire connector instead of the 68-wire
SCSI cable or 40-wire ATA cable.
Note:
Use only straight SAS cables, not crossover SAS cables.
Figure 2.2 shows the SAS cable that connects the internal connectors on
a SAS RAID controller to SAS drives, SATA II drives, or both.
2-6
MegaRAID SAS Hardware Installation
Copyright © 2009 by LSI Corporation. All rights reserved.
Figure 2.2 Internal SAS Cable for Connection to SAS Drives,
SATA II Drives, or Both
HDD
Connector
Power
Connector
85039-06
RAID controller with internal connectors to the host receptable connector
on a backplane. A SATA II connector consists of a signal connector and
a power connector.
SAS Device Cables and Connectors
Copyright © 2009 by LSI Corporation. All rights reserved.
2-7
Figure 2.3 SATA II Connectors
Device Plug
Connector
Serial ATA
Signal Connector
(pin 1)
Serial ATA
Power Connector
(pin 1)
Host Receptacle
Connector
and SATA II drives, respectively. Cables connect internal connectors on
the RAID controllers to connectors on SAS drives, SATA II drives, or
both. Both SAS drives and SATA II drives can connect to SAS backplane
receptable connectors. The difference between the SAS connector and
the SATA II connector is the bridge between the SAS primary physical
link and the power connector on the SAS controller, which the SATA II
connector does not have.
Note:
SAS backplane connectors accept SAS drives or SATA II
drives, but SATA II backplane connectors cannot accept
SAS drives.
2-8
MegaRAID SAS Hardware Installation
Copyright © 2009 by LSI Corporation. All rights reserved.
Figure 2.4 SAS Plugs and SATA II Plugs and SAS Backplane
Receptacle Connector
SAS Primary
Physical Link
Serial Attached SCSI
Power
SAS Backplane
Receptacle Connector
SAS Secondary
Physical Link
Power
Serial ATA
SAS Secondary
Physical Link
Power
SATA II/SAS
Primary
Physical Link
SATA II
Physical Link
Note: SATA II backplane connectors
do not accept SAS drives.
The following subsections provide step-by-step instructions for
connecting the SAS RAID controllers to SAS drives and SATA II drives,
either directly or through an expander.
2.5.1 Connecting a SAS RAID Controller with Internal Connectors to
Drives
This section provides step-by-step instructions for connecting the SAS
cable from the internal connectors on the RAID controller to SAS drives
and SATA II drives.
Follow these steps to connect your RAID controller with internal SAS port
connectors directly to SAS drives, SATA II drives, or both.
Note:
The SAS 9260-8i RAID controller is shown as an example.
You can connect other SAS controllers with internal SAS
port connectors in the same way.
Step 1. Insert the SFF-8087 x4 internal mini SAS connector on the
cable into a SFF-8087 x4 internal mini SAS connector on the
SAS Device Cables and Connectors
Copyright © 2009 by LSI Corporation. All rights reserved.
2-9
Step 2. Plug the HDD connector on the other end of the internal cable
into the connector on the SAS drive or the SATA II drive.
Step 3. If you have another drive, connect it to another plug on the
internal cable.
You can connect other devices if the cable has more
connectors.
Figure 2.5 Connecting the SAS 9260-8i RAID Controller to a Drive
HDD
Connector
Power
Connector
85039-06
2.5.2 Connecting the SAS RAID Controller with External Connectors to
a Drive Enclosure
This section provides step-by-step instructions for connecting a SAS
RAID controller with external SAS port connectors to a drive enclosure
containing SAS drives, SATA II drives, or a combination of both drive
types.
2-10
MegaRAID SAS Hardware Installation
Copyright © 2009 by LSI Corporation. All rights reserved.
Follow these steps to connect the cable from your controller to a drive
enclosure.
Note:
The SAS 9280-8e RAID controller is shown as an example.
You can connect other SAS controllers with external SAS
port connectors in the same way.
Step 1. Connect the connector on one end of the cable to external port
J1A4 or J1B1 on the SAS 9280-8e RAID controller, as shown
Step 2. Connect the other end of the cable to the external port on the
drive enclosure.
Figure 2.6 Connecting the SAS 9280-8e RAID Controller to a Drive
Enclosure
To Drive Enclosure
iBBU (Top View)
Mini SAS x4
Cable Plug
Connector
LS00
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m
nstructi
i
85040-10
ons.
.
e1
Pb
SAS Device Cables and Connectors
Copyright © 2009 by LSI Corporation. All rights reserved.
2-11
2-12
MegaRAID SAS Hardware Installation
Copyright © 2009 by LSI Corporation. All rights reserved.
Chapter 3
MegaRAID SAS RAID
Controller Characteristics
This chapter describes the characteristics of the LSI MegaRAID Serial
Attached SCSI/Serial ATA II 6Gb/s RAID controllers. It consists of the
following sections:
•
•
•
3.1 MegaRAID 6Gb/s SAS RAID Controller Family
The MegaRAID 6Gb/s SAS RAID controllers are dual PHY, SAS
PCI Express RAID controllers and are used in a system with a
PCI Express slot. PCI Express goes beyond the PCI specification in that
it is intended as a unifying I/O architecture for various systems: desktops,
workstations, mobile, server, communications, and embedded devices.
The following subsection provides graphics and connector information for
the 6Gb/s SAS RAID controllers.
3.1.1 MegaRAID SAS 9240 RAID Controllers
The MegaRAID SAS 9240-4i low-profile SAS/SATA II RAID controller
controls four internal SAS/SATA ports through one SFF-8087 x4 internal
mini SAS connector.
The MegaRAID SAS 9240-8i low-profile SAS/SATA II RAID controller
controls eight internal SAS/SATA ports through two SFF-8087 x4 internal
mini SAS connectors.
MegaRAID 6Gb/s SAS RAID Controllers User’s Guide
Copyright © 2009 by LSI Corporation. All rights reserved.
3-1
Note:
The SAS 9240-4i RAID controller does not contain the J5
connector, which supports ports 4–7. The SAS 9240-8i
RAID controller contains the J5 connector.
This subsection provides the board layout and connector and jumper
connectors on the SAS 9240-8i RAID controller.
Figure 3.1 Card Layout for the MegaRAID SAS 9240-8i RAID
Controller
J2
J3
J5
J4
85043-00
J6
9240-8i RAID controllers.
3-2
MegaRAID SAS RAID Controller Characteristics
Copyright © 2009 by LSI Corporation. All rights reserved.
Table 3.1
SAS 9240-4i/SAS 9240-8i RAID Controller – Jumpers
and Connectors
Jumper Type
Description
J1
J2
J3
RISCwatch header
16-pin header
Reserved for LSI use.
CPLD header
10-pin header
Reserved for LSI use.
4-pin connector
External LED drive
activity/fault header
Connects to external, green or red LEDs
that indicate drive activity or faults.
J4
J5
x4 SAS Ports 0–3
x4 SAS Ports 4–7
SFF-8087 x4 internal mini SAS connector
Connects the cables from the controller to
SAS drives or SATA II drives, or a SAS
expander.
SFF-8087 x4 internal mini SAS connector
Connects the cables from the controller to
SAS drives or SATA II drives, or a SAS
expander.
Note: The SAS 9240-4i RAID controller
does not have the J5 connector.
J6
PCI Express x8 board
edge connector
x8 interface that provides connections on
both the top and the bottom of the board.
TP1
Universal Asynchronous 4-pin connector
Receiver/Transmitter
(UART) debugging
Reserved for LSI use.
U2
MegaRAID RAID Key
connector
2-pin connector
To create a RAID 5 configuration, you have
to plug a 1-wire key into this connector.
3.1.2 MegaRAID SAS 9260 RAID Controllers
The MegaRAID SAS 9260-4i low-profile SAS/SATA II RAID controller
controls four internal SAS/SATA ports through one SFF-8087 x4 internal
mini SAS connector.
MegaRAID 6Gb/s SAS RAID Controller Family
Copyright © 2009 by LSI Corporation. All rights reserved.
3-3
The MegaRAID SAS 9260-8i low-profile SAS/SATA II RAID controller
controls eight internal SAS/SATA ports through two SFF-8087 x4 internal
mini SAS connectors.
The MegaRAID SAS 9260DE-8i low-profile SAS/SATA II RAID controller
controls eight internal SAS/SATA ports through two SFF-8087 x4 internal
mini SAS connectors and offers data security using disk encryption.
Note:
The SAS 9260-4i RAID controller does not contain the JT7
connector, which supports ports 4–7. The SAS 9260DE-8i
has the same connectors as the SAS 9260-8i.
This subsection provides the board layout, and connector and jumper
connectors on the SAS 9260-8i RAID controller.
Figure 3.2 Card Layout for the MegaRAID SAS 9260-8i RAID
Controller
JT2
JT1
JT4
JT3
JT10
JT9
JT7
JT6
JT12
JT13
Port
7-4
Port
3-0
JT11
JT8
85039-04
Note:
JT1, JT2, and JT4 are behind the LSIiBBU07 when the
iBBU is installed, but they are still accessible.
9260DE-8i RAID controllers.
3-4
MegaRAID SAS RAID Controller Characteristics
Copyright © 2009 by LSI Corporation. All rights reserved.
Table 3.2
SAS 9260-8i/SAS 9260DE-8i RAID Controller – Jumpers
and Connectors
Jumper Type
Description
JT1
2-pin connector
Write-pending Indicator
(dirty cache) LED
connector
Connects to an LED that indicates when the
data in the cache has yet to be written to the
storage devices. Used when the write-back
feature is enabled.
JT2
JT3
JT4
SAS Activity LED header 2-pin connector
Connects to an LED that indicates drive
activity.
Battery Backup Unit
connector
20-pin connector
Connects the intelligent Battery Backup Unit
LSIiBBU07 remotely to the RAID controller.
Global Drive Fault LED
header
2-pin connector
Connects to a single LED to indicate
whether any drive is in a fault condition.
JT6
JT7
x4 SAS Ports 3–0
x4 SAS Ports 7–4
SFF-8087 x4 internal mini SAS connector
Connects the cables from the RAID
controller to SAS drives, SATA II drives, or a
SAS expander.
SFF-8087 x4 internal mini SAS connector
Note: The SAS 9260-4i
RAID controller
Connects the cables from the RAID
controller to SAS drives, SATA II drives, or a
does not have this SAS expander.
connector.
JT8
Modular RAID Key
header
2-pin connector
Reserved for LSI use.
2-pin connector
JT9
Set Factory Defaults
connector
Reserved for LSI use.
2-pin connector
JT10
LSI Test header
Reserved for LSI use.
MegaRAID 6Gb/s SAS RAID Controller Family
Copyright © 2009 by LSI Corporation. All rights reserved.
3-5
Jumper Type
Description
JT11
IPMI-style SMBus
3-pin shielded header
(System Manage-
2
ment)/I C header
Provides enclosure management support.
JT12
Individual Drive Fault LED 16-pin connector
header for Eight Phys (0-
7)
Indicates drive faults. There is one LED per
port. When lit, each LED indicates the
corresponding drive has failed or is in the
Unconfigured-Bad state. Refer to the
MegaRAID SAS Software User’s Guide for
more information about drive states.
The LEDs function in a direct-attach
configuration (there are no SAS expanders).
Direct attach is defined as a maximum of
one drive connected directly to each port.
Note: This header is used for RAID
controllers with internal SAS ports
only.
JT13
Universal Asynchronous 4-pin connector
Receiver/Transmitter
(UART) debugging
Reserved for LSI use.
3.1.3 MegaRAID SAS 9261 RAID Controller
The MegaRAID SAS 9261-8i low-profile SAS/SATA II RAID controller
controls eight internal SAS/SATA ports through two SFF-8087 mini-SAS
4i connectors.
This subsection provides the board layout, and connector and jumper
connectors on the SAS 9261-8i RAID controller.
3-6
MegaRAID SAS RAID Controller Characteristics
Copyright © 2009 by LSI Corporation. All rights reserved.
Figure 3.3 Card Layout for the MegaRAID SAS 9261-8i RAID
Controller
RAID controller.
Table 3.3
SAS 9261-8i RAID Controller – Jumpers and
Connectors
s
Jumper Type
Description
J4L1
Remote Battery Backup 20-pin connector
Unit connector (on the
backside of the controller) Connects the LSIiBBU07 intelligent Battery
Backup Unit remotely to the RAID controller.
JT3B1 Battery Backup Unit
connector
20-pin connector
Connects the LSIiBBU07 intelligent Battery
Backup Unit directly to the RAID controller.
JT5A1 x4 SAS Ports 0–3
Mini-SAS 4i connector
Connects the cables from the RAID
controller to SAS drives or SATA II drives, or
a SAS expander.
JT5B1 x4 SAS Ports 4–7
Mini-SAS 4i connector
Connects the cables from the RAID
controller to SAS drives or SATA II drives, or
a SAS expander.
JT5B2 Universal Asynchronous 4-pin connector
Receiver/Transmitter
(UART) debugging
Reserved for LSI use.
MegaRAID 6Gb/s SAS RAID Controller Family
Copyright © 2009 by LSI Corporation. All rights reserved.
3-7
Jumper Type
Description
JT5B3 Set Factory Defaults
connector
2-pin connector
Reserved for LSI use.
2-pin connector
JT6B1 Test header
Reserved for LSI use.
2-pin connector
JT6B2 Global Drive Fault LED
header
Connects to an LED that indicates whether
a drive is in a fault condition.
JT6B3 SAS Activity LED header 2-pin connector
Connects to an LED that indicates drive
activity.
3.1.4 MegaRAID SAS 9280 RAID Controllers
The MegaRAID SAS 9280-4i/4e low-profile SAS/SATA II RAID controller
controls four internal SAS/SATA ports through one SFF-8087 x4 internal
mini SAS connector and four external SAS/SATA ports through one
SFF-8087 x4 external mini SAS connector.
The MegaRAID SAS 9280-8e low-profile SAS/SATA II RAID controller
controls eight external SAS/SATA ports through two SFF-8088 x4
external mini SAS connectors.
The MegaRAID SAS 9280DE-8e low-profile SAS/SATA II RAID controller
controls eight external SAS/SATA ports through two SFF-8088 x4
external mini SAS connectors and offers data security using disk
encryption.
This section provides the board layout and connector information for the
SAS 9280 controllers.
Figure 3.4 shows the jumpers and connectors on the SAS 9280DE-8e
and SAS 9280-8e controllers.
Note:
The SAS 9280DE-8e has the same connectors as the SAS
9280-8e.
3-8
MegaRAID SAS RAID Controller Characteristics
Copyright © 2009 by LSI Corporation. All rights reserved.
Figure 3.4 Card Layout for the MegaRAID SAS 9280-8e RAID
Controller
J6A2
J6A1 J6A3
J1A1
J1A2 J1A3
J1A4
Port
4-7
J6B1
J1B1
Port
0-3
J6B2
85040-00
Note:
Connectors J6A1, J6A2, and J6A3 are behind the
LSIiBBU07 when the iBBU is installed, but they are still
accessible.
RAID controller.
Table 3.4
SAS 9280-8e and SAS 9280DE-8e RAID Controllers –
Connectors
Connector Description
Comments
J1A1
J1A2
J1A3
J1A4
Universal Asynchronous 4-pin connector
Receiver/Transmitter
(UART) debugging
Reserved for LSI use.
Test header
2-pin connector
Reserved for LSI use.
2-pin connector
Set Factory Defaults
connector
Reserved for LSI use.
x4 SAS Ports 4–7
SFF-8088 x4 external mini SAS
connector
Connects the cables from the controller
to SAS drives or SATA II drives, or a SAS
expander.
MegaRAID 6Gb/s SAS RAID Controller Family
Copyright © 2009 by LSI Corporation. All rights reserved.
3-9
Table 3.4
SAS 9280-8e and SAS 9280DE-8e RAID Controllers –
Connectors (Cont.)
Connector Description
Comments
J1B1
x4 SAS Ports 0–3
SFF-8088 x4 external mini SAS
connector
Connects the cables from the controller
to SAS drives or SATA II drives, or a SAS
expander.
J6A1
J6A2
J6A3
Global Drive Fault LED
header
2-pin connector
Connects to an LED that indicates
whether a drive is in a fault condition.
SAS Activity LED header 2-pin connector
Connects to an LED that indicates drive
activity.
Write-pending Indicator
(dirty cache) LED
connector
2-pin connector
Connects to an LED that indicates when
the data in the cache has yet to be
written to the storage devices. Used
when the write-back feature is enabled.
J6B1
J6B2
Remote Battery Backup 20-pin connector
Unit connector
Connects the intelligent Battery Backup
Unit, LSIiBBU07, remotely to the RAID
controller.
Battery Backup Unit
connector
20-pin connector
Connects the intelligent Battery Backup
Unit, LSIiBBU07, directly to the RAID
controller.
Figure 3.5 shows the jumpers and connectors on the SAS 9280-4i/4e
controller.
3-10
MegaRAID SAS RAID Controller Characteristics
Copyright © 2009 by LSI Corporation. All rights reserved.
Figure 3.5 Card Layout for the MegaRAID SAS 9280-4i/4e RAID
Controller
J6A2
J6A1
J6A3
J1A4
J1A1
J2B2
Port
3-0
J1A2
J1A3
J1A5
J6B1
Port
7-4
J1B1
J6B2
85062-00
Note:
Connectors J6A1, J6A2, and J6A3 are behind the
LSIiBBU07 when the iBBU is installed, but they are still
accessible.
RAID controller.
Table 3.5
SAS 9280-4i/4e RAID Controller – Connectors
Comments
Connector Description
J1A1
J1A2
J1A3
J1A4
Universal Asynchronous 4-pin connector
Receiver/Transmitter
(UART) debugging
Reserved for LSI use.
LSI Test header
2-pin connector
Reserved for LSI use.
2-pin connector
Set Factory Defaults
connector
Reserved for LSI use.
3-pin connector.
IPMI-style I2C
connector
Supports SES (SCSI Enclosure
Services) over I C over internal I C
backplane cable
2
2
J1A5
Modular RAID Key
header
2-pin shielded header
Enables support for RAID 5
configurations and self-encrypting disks
(SED).
MegaRAID 6Gb/s SAS RAID Controller Family
Copyright © 2009 by LSI Corporation. All rights reserved.
3-11
Table 3.5
SAS 9280-4i/4e RAID Controller – Connectors (Cont.)
Connector Description
Comments
J1B1
J2B1
x4 SAS Ports 7–4
SFF-8088 x4 external mini SAS
connector
Connects the controller by cable to SAS
drives or SATA II drives, or a SAS
expander.
Standard edge card
connector
The RAID controller interfaces with the
host system though a standard edge
card x8 PCI-Express 2.0 bus connection
as defined in the PCI-Express
specification. This interface provides
2
power to the board and to an I C
2
interface connected to I C bus one for
IPMI.
J2B2
x4 SAS Ports 3-0
SFF-8087 x4 internal mini SAS
connector
Connects to an LED that indicates
whether a drive is in a fault condition.
J6A1
J6A2
Global Drive Fault
LED header
2-pin connector
Connects to an LED that indicates
whether a drive is in a fault condition.
SAS Activity LED
header
2-pin connector
Connects to an LED that indicates
drive activity.
3-12
MegaRAID SAS RAID Controller Characteristics
Copyright © 2009 by LSI Corporation. All rights reserved.
Table 3.5
SAS 9280-4i/4e RAID Controller – Connectors (Cont.)
Connector Description
Comments
J6A3
Write-pending Indicator
(dirty cache) LED
connector
2-pin connector
Connects to an LED that indicates when
the data in the cache has yet to be
written to the storage devices. Used
when the write-back feature is enabled.
J6B1
J6B2
Remote Battery Backup 20-pin connector
Unit connector
Connects the LSIiBBU07 intelligent
Battery Backup Unit remotely to the
RAID controller.
Battery Backup Unit
connector
20-pin connector
Connects the LSIiBBU07 intelligent
Battery Backup Unit remotely to the
RAID controller.
Note:
Connectors J6A1, J6A2, and J6A3 are behind the
LSIiBBU07 when the iBBU is installed, but they are still
accessible.
3.2 MegaRAID SAS 6Gb/s RAID Controller Characteristics
RAID controllers.
Table 3.6
MegaRAID 6Gb/s SAS RAID Controller Characteristics
Flash Serial
SCSI
1
2
ROM EEPROM
Data Transfer Rates
SCSI Features Termination
Yes
Yes
Up to 6Gb/s per port for Plug and Play
SAS and up to 3Gb/s per Scatter/Gather
Active
port for SATA II
Activity LED
1.
2.
For boot code and firmware.
For BIOS configuration storage.
Each MegaRAID 6Gb/s SAS RAID controller ensures data integrity by
intelligently validating the compatibility of the SAS domain.
MegaRAID SAS 6Gb/s RAID Controller Characteristics
Copyright © 2009 by LSI Corporation. All rights reserved.
3-13
The MegaRAID 6Gb/s SAS RAID controllers use Fusion-MPT
architecture, which allows for thinner drivers and better performance.
3.3 Technical Specifications
The design and implementation of the MegaRAID 6Gb/s SAS RAID
controllers minimize electromagnetic emissions, susceptibility to radio
frequency energy, and the effects of electrostatic discharge. The
MegaRAID 6Gb/s SAS RAID controllers show the following marks and
certifications:
•
•
•
•
•
•
•
•
CE mark
C-Tick mark
FCC Self-Certification logo
Canadian Compliance Statement
Korean MIC
Taiwan BSMI
Japan VCCI
CISPR Class B
The following hardware is compliant with CSA C22.2 No. 60950-1,
UL 60950-1 First Edition-listed accessory, UL file number E257743:
•
•
•
•
•
•
•
•
•
•
MegaRAID SAS 9240-4i RAID controller (model 25083)
MegaRAID SAS 9240-8i RAID controller (model 25091)
MegaRAID SAS 9260-4i RAID controller (model 25121-45A)
MegaRAID SAS 9260-8i RAID controller (model 25121-44)
MegaRAID SAS 9260DE-8i RAID controller (model 25121)
MegaRAID SAS 9261-8i RAID controller (model ??)
MegaRAID SAS 9280-4i/4e RAID controller (model 25305)
MegaRAID SAS 9280-8e RAID controller (model 25152)
MegaRAID SAS 9280DE-8e RAID controller (model 25152)
LSI intelligent battery backup unit (model 25034)
3-14
MegaRAID SAS RAID Controller Characteristics
Copyright © 2009 by LSI Corporation. All rights reserved.
3.3.1 RAID Controller Specifications
controllers.
Table 3.7
RAID Controller Specifications
MegaRAID SAS 9240, SAS 9260, SAS 9261, and SAS
9280 RAID Controllers
Specification
Processor
SAS 9240 - LSISAS2008 PCI Express-SAS/SATA I/O
(PCI Express host Processor chip
controller to PCI
secondary I/O
controller)
SAS 9260 and SAS 9280 - LSISAS2108 ROC device with
Integrated PowerPC processor
Part number
• SAS 9240-4i RAID controller: 25083
• SAS 9240-8i RAID controller: 25091
• SAS 9260-4i RAID controller: 25121
• SAS 9260-8i RAID controller: 25121
• SAS 9260DE-8i RAID controller: 25121
• SAS 9280-4i/4e RAID controller: 25305
• SAS 9280-8e RAID controller: 25152
• SAS 9280DE-8e RAID controller: 25152
• LSIiBBU07 intelligent Battery Backup Unit: 25034
Operating voltage
Card size
+3.3 V, +12 V
• SAS 9240-4i RAID controller: Low-profile PCI Express
adapter card size (167.64 mm x 68.91 mm)
• SAS 9240-8i RAID controller: Low-profile PCI Express
adapter card size (167.64 mm x 68.91 mm)
• SAS 9260-4i RAID controller: Low-profile PCI Express
adapter card size (167.64 mm x 68.91 mm)
• SAS 9260-8i RAID controller: Low-profile PCI Express
adapter card size (167.64 mm x 68.91 mm)
• SAS 9260DE-8i RAID controller: Low-profile PCI
Express adapter card size (167.64 mm x 68.91 mm)
• SAS 9261-8i RAID controller: Low-profile PCI Express
adapter card size (167.64 mm x 94.31 mm)
• SAS 9280-4i/4e RAID controller: Low-profile PCI
Express adapter card size (167.64 mm x 68.91 mm)
• SAS 9280-8e RAID controller: Low-profile PCI Express
adapter card size (167.64 mm x 68.91 mm)
• SAS 9280DE-8e RAID controller: Low-profile PCI
Express adapter card size (167.64 mm x 68.91 mm)
Array interface to the PCI Express Rev. 2.0
host
Technical Specifications
Copyright © 2009 by LSI Corporation. All rights reserved.
3-15
Table 3.7
RAID Controller Specifications (Cont.)
MegaRAID SAS 9240, SAS 9260, SAS 9261, and SAS
9280 RAID Controllers
Specification
PCI Express bus
data transfer rate
• Up to 5 Gb/s per lane
• x8 lane width
Serial port
4-pin RS232-compatible connector (for manufacturing
use only)
SAS controller
• LSISAS2108 Single SAS controller
• LSISAS2008 PCI Express-SAS/SATA I/O Processor
chip
SAS bus speed
SAS ports
6Gb/s
SAS connectors with four SAS ports each
Cache configuration The RAID controllers support the following battery-backed
cache configuration:
• 512 MB – 72b arrangement (5) 64Mx16, Double Data
Rate II (DDR2) @ 800 MHz battery-backed module
Size of flash ROM 8 Mbytes
for firmware
Nonvolatile random 32 Kbytes for storing RAID configurations
access memory
(NVRAM)
3.3.2 Array Performance Features
SAS RAID controllers.
Table 3.8
Array Performance Features
MegaRAID SAS 9240, SAS 9260, SAS
9261, and SAS 9280 RAID Controllers
Specification
PCI Express host data transfer rate 5Gb/s per lane
Drive data transfer rate
6Gb/s per lane
Maximum scatter/gather I/O
Maximum size of I/O requests
80 elements
6.4 Mbytes in 64-Kbyte stripes
3-16
MegaRAID SAS RAID Controller Characteristics
Copyright © 2009 by LSI Corporation. All rights reserved.
Table 3.8
Array Performance Features (Cont.)
MegaRAID SAS 9240, SAS 9260, SAS
9261, and SAS 9280 RAID Controllers
Specification
Maximum queue tags per drive
Stripe sizes
As many as the drive can accept
8 Kbytes, 16 Kbytes, 32 Kbytes, 64 Kbytes,
128 Kbytes, 256 Kbytes, 512 Kbytes, or
1 Mbyte
Maximum number of concurrent
commands
255
3.3.3 Fault Tolerance
RAID controllers.
Table 3.9
Fault Tolerance Features
MegaRAID SAS 9240, SAS 9260, SAS 9261,
and SAS 9280 RAID Controllers
Specification
1
Support for SMART
Yes
Drive failure detection
Automatic
Automatic
Drive rebuild using hot spares
Parity generation and checking Yes
1.
The Self Monitoring Analysis and Reporting Technology (SMART) detects
up to 70 percent of all predictable drive failures. In addition, SMART
monitors the internal performance of all motors, heads, and drive
electronics.
3.3.4 Electrical Characteristics
This subsection provides the power supply requirements for the
MegaRAID 6Gb/s SAS RAID controllers.
3.3.4.1
Power Supply Requirements for SAS 9240 RAID Controllers
All power is supplied to the SAS 9240 RAID controllers through the PCI
Express 3.3V rails and the 12V rail. Onboard switching regulator circuitry
operating from the 3.3V rails and the 12V rail provide the necessary
Technical Specifications
Copyright © 2009 by LSI Corporation. All rights reserved.
3-17
voltages. The following states determine the typical current consumption
of the controller:
•
•
•
State 1: During a hard reset
State 2: During a drive stress test
State 3: While sitting idle at the DOS prompt
The supply voltages are 12V 8 percent (from PCI edge connector only)
the power supply for the RAID controllers for each of the three states at
the different voltages.
Table 3.10 Power Supply for SAS 9240 RAID Controllers
PCI Edge Connector
State 1
State 2
State 3
3.3V supply
330mA
1.00A
30mA
330mA
1.81A
30mA
330mA
1.53A
30mA
+12V supply
3.3V auxiliary supply
3.3.4.2
Operating and Non-operating Conditionsfor the SAS 9240 RAID Controllers
For the SAS 9240 RAID controllers, the operating (thermal and
atmospheric) conditions are:
•
•
Relative humidity range is 20 percent to 80 percent noncondensing.
Airflow must be at least 200 linear feet per minute (LFPM) to avoid
operating the LSISAS2008 processor above the maximum
ambient temperature.
•
Temperature range: +10 ° C to +60 °C.
The parameters for the non-operating (such as storage and transit)
environment for these controllers are:
•
•
Relative humidity range is 5 percent to 90 percent noncondensing.
Temperature range: −30°C to +80° C.
3.3.4.3
Power Supply Requirements for SAS 9260 RAID Controllers
All power is supplied to the SAS 9260 RAID controllers through the PCI
Express 3.3V rails and the 12V rail. Onboard switching regulator circuitry
3-18
MegaRAID SAS RAID Controller Characteristics
Copyright © 2009 by LSI Corporation. All rights reserved.
operating from the 3.3V rails and the 12V rail provide the necessary
voltages. The following states determine the typical current consumption
of the controller:
•
•
•
State 1: During a hard reset
State 2: During a drive stress test
State 3: While sitting idle at the DOS prompt
The supply voltages are 12V 8 percent (from PCI edge connector only)
the power supply for the RAID controllers for each of the three states at
the different voltages.
Table 3.11 Power Supply for SAS 9260 RAID Controllers
PCI Edge Connector
State 1
State 2
State 3
3.3V supply
330mA
1.00A
30mA
330mA
1.81A
30mA
330mA
1.53A
30mA
+12V supply
3.3V auxiliary supply
Note:
+12V is used in the charging circuitry for the battery pack
on the optional iBBU battery-backed daughter card. If the
BBU daughter card is mounted, the following power
consumption figures apply:
–
–
During trickle charging of the battery pack: N/A (no
trickle charge for Li-ION)
During fast charging of the battery pack: 230mA in +12V
current
3.3.4.4
Operating and Non-operating Conditions for SAS 9260 RAID Controllers
For the SAS 9260 RAID controllers, the operating (thermal and
atmospheric) conditions are:
•
•
Relative humidity range is 5 percent to 90 percent noncondensing
(20 percent to 80 percent noncondensing for the RAID controllers)
Airflow must be at least 200 linear feet per minute (LFPM) to avoid
operating the LSISAS2108 processor above the maximum
ambient temperature
Technical Specifications
Copyright © 2009 by LSI Corporation. All rights reserved.
3-19
•
•
Temperature range: +10 ° C to +60 °C without battery backup unit
Temperature range: +10 ° C to +44.5 ° C with iBBU battery backup
The parameters for the non-operating (such as storage and transit)
environment for these controllers are:
•
•
Temperature range: −30° C to +80°C without the battery backup unit
Temperature range: 0° C to +45°C with the battery backup unit
3.3.4.5
Power Supply Requirements for the SAS 9261 RAID Controller
All power is supplied to the SAS 9261 RAID controller through the PCI
Express 3.3V rails and the 12V rail. Onboard switching regulator circuitry
operating from the 3.3V rails and the 12V rail provide the necessary
voltages. The following states determine the typical current consumption
of the controller:
•
•
•
State 1: During a hard reset
State 2: During a drive stress test
State 3: While sitting idle at the DOS prompt
The supply voltages are 12V 8 percent (from PCI edge connector only)
the power supply for the RAID controller for each of the three states at
the different voltages.
Table 3.12 Power Supply for SAS 9261 RAID Controllers
PCI Edge Connector
State 1
State 2
State 3
3.3V supply
330mA
1.00A
30mA
330mA
1.81A
30mA
330mA
1.53A
30mA
+12V supply
3.3V auxiliary supply
Note:
+12V is used in the charging circuitry for the battery pack
on the optional iBBU battery-backed daughter card. If the
BBU daughter card is mounted, the following power
consumption figures apply:
–
During trickle charging of the battery pack: N/A (no
trickle charge for Li-ION)
3-20
MegaRAID SAS RAID Controller Characteristics
Copyright © 2009 by LSI Corporation. All rights reserved.
–
During fast charging of the battery pack: 230mA in +12V
current
3.3.4.6
Operating and Non-operating Conditions for the SAS 9261 RAID Controller
For the SAS 9261 RAID controllers, the operating (thermal and
atmospheric) conditions are:
•
•
Relative humidity range is 5 percent to 90 percent noncondensing
(20 percent to 80 percent noncondensing for the RAID controllers)
Airflow must be at least 200 linear feet per minute (LFPM) to avoid
operating the LSISAS2108 processor above the maximum
ambient temperature
•
•
Temperature range: +10 ° C to +60 °C without battery backup unit
Temperature range: +10 ° C to +44.5 ° C with iBBU battery backup
The parameters for the non-operating (such as storage and transit)
environment for these controllers are:
•
•
Temperature range: −30° C to +80°C without the battery backup unit
Temperature range: 0° C to +45°C with the battery backup unit
3.3.5
Power Supply Requirements for SAS 9280 RAID Controllers
All power is supplied to the SAS 9280-8e and SAS 9280DE-8e RAID
controllers through the PCI Express 3.3V rails and the 12V rail. Onboard
switching regulator circuitry operating from the 3.3V rails and the 12V rail
provide the necessary voltages. The following states determine the
typical current consumption of the controller:
•
•
•
State 1: During a hard reset
State 2: During a disk stress test
State 3: While sitting idle at the DOS prompt
The supply voltages are 12V 8 percent (from PCI edge connector only)
the power supply for the controller for each of the three states at the
different voltages.
Technical Specifications
Copyright © 2009 by LSI Corporation. All rights reserved.
3-21
Table 3.13 Power Supply for SAS 9280 RAID Controllers
PCI Edge Connector
State 1
State 2
State 3
3.3V supply
330mA
1.00A
30mA
330mA
1.81A
30mA
330mA
1.53A
30mA
+12V supply
3.3V auxiliary supply
Note:
+12V is used in the charging circuitry for the battery pack
on the optional iBBU battery-backed daughter card. If the
iBBU daughter card is mounted, the following power
consumption figures apply:
–
During fast charging of the battery pack: 230mA in +12V
current
3.3.5.1
Operating and Non-operating Conditions for SAS 9280 RAID Controllers
The operating (thermal and atmospheric) conditions for the SAS 9280-8e
RAID controller are:
•
•
Relative humidity range is 5% to 90% noncondensing.
Airflow must be at least 200 linear feet per minute (LFPM) to avoid
operating the LSISAS2108 processor above the maximum
ambient temperature.
•
•
Temperature range: +10 ° C to +60 °C without battery backup unit.
Temperature range: +10 ° C to +44.5 ° C with iBBU battery backup.
The parameters for the non-operating (such as storage and transit)
environment for the controller are:
•
•
Temperature range: −30 °C to +80 °C without battery backup unit.
Temperature range: 0 ° C to +45 ° C with iBBU battery backup.
3.3.6 Safety Characteristics
All MegaRAID 6Gb/s SAS RAID controllers meet or exceed the
requirements of UL flammability rating 94 V0. Each bare board is also
marked with the supplier name or trademark, type, and UL flammability
rating. For the boards installed in a PCI Express bus slot, all voltages are
lower than the SELV 42.4V limit.
3-22
MegaRAID SAS RAID Controller Characteristics
Copyright © 2009 by LSI Corporation. All rights reserved.
Appendix A
Glossary of Terms
and Abbreviations
BIOS
Acronym for Basic Input/Output System. Software that provides basic
read/write capability. Usually kept as firmware (ROM-based). The system
BIOS on the motherboard of a computer boots and controls the system.
The BIOS on your host adapter acts as an extension of the system BIOS.
configuration
device driver
Refers to the way a computer is set up, the combined hardware
components (computer, monitor, keyboard, and peripheral devices) that
make up a computer system, or the software settings that allow the
hardware components to communicate with each other.
A program that allows a microprocessor (through the operating system)
to direct the operation of a peripheral device.
domain
validation
A software procedure in which a host queries a device to determine its
ability to communicate at the negotiated data rate.
drive group
A group of physical drives that combines the storage space on the drives
into a single segment of storage space. A hot spare drive does not
actively participate in a drive group.
EEPROM
Acronym for Electronically Erasable Programmable Read-Only Memory.
It is a memory chip that typically stores configuration information, as it
provides stable storage for long periods without electricity and can be
reprogrammed. Refer to NVRAM.
external SAS
device
A SAS device installed outside the computer cabinet. These devices are
connected using specific types of shielded cables.
Fusion-MPT
architecture
An acronym for Fusion-Message Passing Technology architecture.
Fusion-MPT consists of several main elements: Fusion-MPT firmware,
the Fibre Channel and SCSI hardware, and the operating system level
drivers that support these architectures. Fusion-MPT architecture offers
a single binary, operating system driver that supports both Fibre Channel
and SCSI devices.
MegaRAID 6Gb/s SAS RAID Controllers User’s Guide
Copyright © 2009 by LSI Corporation. All rights reserved.
A-1
host
The computer system in which a RAID controller is installed. It uses the
RAID controller to transfer information to and from devices attached to
the SCSI bus.
host adapter
board
A circuit board or integrated circuit that provides a device connection to
the computer system.
hot spare
An idle, powered on, standby drive that is ready for immediate use in
case of drive failure. A hot spare does not contain any user data. A hot
spare can be dedicated to a single redundant array or it can be part of
the global hot-spare pool for all arrays managed by the controller.
When a drive fails, the controller firmware automatically replaces and
rebuilds the data from the failed drive to the hot spare. Data can be
rebuilt only from virtual drives with redundancy (RAID levels 1, 5, 6, 10,
50, and 60; not RAID level 0), and the hot spare must have sufficient
capacity.
internal SAS
device
A SAS device installed inside the computer cabinet. These devices are
connected by using a shielded cable.
main memory
The part of computer memory that is directly accessible by the CPU
(usually synonymous with RAM).
NVRAM
Acronym for nonvolatile random access memory. An EEPROM
(electronically erasable read-only memory) chip that stores configuration
information. Refer to EEPROM.
PCI
Acronym for peripheral component interconnect. A high-performance,
local bus specification that allows the connection of devices directly to
computer memory. The PCI Local Bus allows transparent upgrades from
32-bit data path at 33 MHz to 64-bit data path at 33 MHz, and from 32-bit
data path at 66 MHz to 64-bit data path at 66 MHz.
PCI Express
Acronym for peripheral component interconnect Express. A high-
performance, local bus specification that allows the connection of devices
directly to computer memory. PCI Express is a two-way, serial connection
that transfers data on two pairs of point-to-point data lines. PCI Express
goes beyond the PCI specification in that it is intended as a unifying I/O
architecture for various systems: desktops, workstations, mobile, server,
communications, and embedded devices.
A-2
Glossary of Terms and Abbreviations
Copyright © 2009 by LSI Corporation. All rights reserved.
peripheral
devices
A piece of hardware (such as a video monitor, drive, printer, or CD-ROM)
used with a computer and under the control of the computer. SCSI
peripherals are controlled through a SAS MegaRAID SAS RAID
controller (host adapter).
PHY
The interface required to transmit and receive data packets transferred
across the serial bus.
Each PHY can form one side of the physical link in a connection with a
PHY on a different SATA device. The physical link contains four wires that
form two differential signal pairs. One differential pair transmits signals,
while the other differential pair receives signals. Both differential pairs
operate simultaneously and allow concurrent data transmission in both
the receive and the transmit directions.
RAID
Acronym for Redundant Array of Independent Disks (originally
Redundant Array of Inexpensive Disks). An array of multiple independent
drives managed together to yield higher reliability, performance, or both
exceeding that of a single drive. The RAID array appears to the controller
as a single storage unit. I/O is expedited because several drives can be
accessed simultaneously. Redundant RAID levels (RAID levels 1, 5, 6,
10, 50, and 60) provide data protection.
RAID levels
SAS
A set of techniques applied to drive groups to deliver higher data
availability, performance characteristics, or both to host environments.
Each virtual drive must have a RAID level assigned to it.
Acronym for Serial Attached SCSI. A serial, point-to-point,
enterprise-level device interface that leverages the proven SCSI protocol
set. The SAS interface provides improved performance, simplified
cabling, smaller connections, lower pin count, and lower power
requirements when compared to parallel SCSI. SAS controllers leverage
a common electrical and physical connection interface that is compatible
with Serial ATA. The SAS controllers support the ANSI Serial Attached
SCSI Standard, Version 2.0. In addition, the controller supports the
Serial ATA II (SATA II) protocol defined by the Serial ATA Specification,
Version 1.0a. Supporting both the SAS interface and the SATA II
interface, the SAS controller is a versatile controller that provides the
backbone of both server and high-end workstation environments. Each
port on the SAS RAID controller supports SAS devices, SATA II devices,
or both.
A-3
Copyright © 2009 by LSI Corporation. All rights reserved.
SAS device
SATA
Any device that conforms to the SAS standard and is attached to the
SAS bus by a SAS cable. This includes SAS RAID controllers
(host adapters) and SAS peripherals.
Acronym for Serial Advanced Technology Attachment. A physical storage
interface standard, SATA is a serial link that provides point-to-point
connections between devices. The thinner serial cables allow for better
airflow within the system and permit smaller chassis designs.
SMP
Acronym for Serial Management Protocol. SMP communicates topology
management information directly with an attached SAS expander device.
Each PHY on the controller can function as an SMP initiator.
SSP
Acronym for Serial SCSI Protocol. SSP enables communication with
other SAS devices. Each PHY on the SAS controller can function as an
SSP initiator or SSP target.
STP
Acronym for Serial Tunneling Protocol. STP enables communication with
a SATA II device through an attached expander. Each PHY on the SAS
controller can function as an STP initiator.
stripe size
The total drive space consumed by a stripe not including a parity drive.
For example, consider a stripe that contains 64 Kbytes of drive space
and has 16 Kbytes of data residing on each drive in the stripe. In this
case, the stripe size is 64 Kbytes and the stripe element size is
16 Kbytes. The stripe depth is four (four drives in the stripe). You can
specify stripe sizes of 8 Kbytes, 16 Kbytes, 32 Kbytes, 64 Kbytes,
128 Kbytes, 256 Kbytes, 512 Kbytes, or 1 Mbyte for each virtual drive.
A larger stripe size produces improved read performance, especially if
most of the reads are sequential. For mostly random reads, select a
smaller stripe size.
striping
Drive striping writes data across two or more drives. Each stripe spans
two or more drives but consumes only a portion of each drive. Each
drive, therefore, may have several stripes. The amount of space
consumed by a stripe is the same on each drive that is included in the
stripe. The portion of a stripe that resides on a single drive is a stripe
element. Striping by itself does not provide data redundancy; striping in
combination with parity provides data redundancy.
A-4
Glossary of Terms and Abbreviations
Copyright © 2009 by LSI Corporation. All rights reserved.
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