Introduction
The Alnico redundant RAID storage subsystem contains two controllers for redundancy and added performance. Each controller provides the counterpart controller with redundancy ability to help maintain normal access to Volume Sets in the event of one controller failure. When all the I/O paths (ports) on both controllers are properly combined together and the operating system multipathing I/O settings are correctly configured, nearly a double performance can be realized without sacrificing the path and controller redundancy ability.

Redundancy behavior

The Alnico redundant RAID storage subsystem implements ALAU (Asymmetric Logical Unit Access) algorithm which allows Volume Sets to be accessed by only one controller when both controllers are on-line. The controller, which controls the Volume Sets, is the preferred controller and another controller is for standby. For example, Volume Set #000 is controlled by controller 1, and the redundant RAID subsystem allows host server access Volume Set #000 only through controller 1. Controller 2 would take over the data I/O if controller 1 fails. The Alnico redundant RAID storage subsystem default assigns even Volume Sets to controller 1 and odd Volumes Sets to controller 2. For example, controller 1 is the preferred controller for Volume Set #000 and controller 2 is the preferred controller for Volume Set #001.

 
Connection and Compatibility

The Alnico redundant RAID storage subsystem is highly compatible with a variety of operating systems with their MPIO ( Windows Sever 2003, 2008, Vista and WIndows 7, Linux, Solaris &Mac O.S. ) and fully capable of coping with kinds of complicated applications ( VMware, XSAN2 and etc.).

The figure below shows a perspective into a general high availability failover cluster connection. In this example, there is always one redundant path beginning from the Alnico redundant RAID storage subsystem to the FC switch, and from the FC switch to the server in order to maintain normal data access between the server and storage in the event of a path failure or cut happening at any point ( Storage-> FC switch-> Server ) .

 

Throughput Performance

The demands for higher speeds and more system stability-oriented disk array have skyrocketed of late. To meet with the demand of that, the Alnico redundant RAID storage subsystem is employed with a very powerful I/O processor inside each controller. When the totally four paths are combined together, the maximum MB/Sec and IOP/Sec can easily reach over 1500MB/Sec and 120K IOP/Sec recorded on Intel “I/O Meter.”

ALNICO AL-8241F-D New !
| Datasheet  
24 bays 4U Rackmount, Dual and redundant controller supported, 4Gb Fibre to SAS RAID Subsystem

The Alnico AL-8241F-D RAID subsystem features four 4Gb Fibre host (Optional upgradation to 8Gb Fibre ) and SAS device attachment. Alnico 8 series takes data reliability and protection for Hosts and offers an advanced technology to implement the extreme performance RAID6 function.

Coupled with Alnico JBOD ( SAS Expander) supporting up to 122 SAS devices connected. Alnico 8 redundant controller model provides the burgeoning applications like NAS, Sever, medical imaging MOD with the most high-end data security without sacrificing performance concurrency.

SAS builds on parallel SCSI by providing higher performance, improving data availability, and simplifying system design. The SAS interface supports dual paths SAS disk drivers for data-intensive applications. The Alnico AL-8241F-D can support up to 24 SAS ports to solid backplane and via one external miniSAS 4 x connector for easy expansion . When used with Alnico JBOD, the controller can provide up to 122 devices through one or more Alnico JBOD ,Making it an ideal solution for enterprise-class storage applications that call for maximum configuration flexibility.

Alnico redundant RAID subsystem, makes each controller to provide the counterpart controller with redundancy ability to help maintain normal access to the created volume disks in the event of one controller failure. Each controller has two host channels. When all the host channels are combined together and the operating system multi-pathing I/O (MPIO) is properly configured, nearly a double data transfer performance, over 1500MB/Sec and 120KIOP/Sec, can be reached without sacrificing the redundancy ability. Alnico redundant RAID storage subsystem is highly suited for the real-time high quality multi-video streaming record, and other throughput-demanding applications.

Highlights
  • Intel 81341 64-bit storage processor.
  • Dual-active redundant controller operation with synchronized write-back cache
  • TGP and ALUA compliant RAID subsystem
  • Advanced PCI-E and 133Mhz/64-bit PCI-X Bus architecture .
  • Up to 4GB DDRII 533Mhz memory on one DIMM socket with ECC protection
  • Intel RAID 6 engine to support extreme performance RAID 6 function.
  • Optional Battery Backup module preserves cache contents during power failure.
  • NVRAM and Real Time Clock support, for configuration and transaction log.
  • 1 x down-stream min-SAS supported per controller, It can connect more SAS JBODs for capacity expansion.
Technical Specifications
RAID Architecture
Intel 81341 64-bit storage processor
Dual-active redundant controller operation with synchronized write-back cache
Up to 4GB DDRII 533Mhz memory on one DIMM socket with ECC protection
Advanced PCI-E and 133Mhz/ 64-bit PCI-X buses architecture
NVRAM and Real Time Clock supported
RAID operation
RAID Levels: 0, 1, 1E, 3, 5, 6, 50, 60 & JBOD
Multiple RAID selection
Online RAID level/stripe size migration
TGP and ALUA compliant RAID subsystem
Online Array roaming
Online capacity expansion and RAID level migration simultaneously
Instant availability and background initialization
Uniquely features "Drive Spin Down"- Saving more power consumption
Automatically starts bad Blocks-Scrubbing by "Scheduled Volume Checking"
Max 122 Physical drivers.

Online Volume set growth

Max 122 LUNs ( Volume set ) per controller
Support S.M.A.R.T & NCQ & OOB Staggered Spin-Up capable drives
Automatic drive insertion / removal detection and rebuilding
Host Interface
Two 4Gb FC-AL ( SFP) per controller (Optional upgradation to 8Gb Fibre )
Drive Interface
24 of SAS channel - by backplane (SAS Disk only)

1 x miniSAS ( 4 linksx 3Gb) for expansion per controller

RAID Management
Field-upgradeable firmware in flash ROM & Automatic synchronization of firmware version in the redundant mode
Firmware-embedded SMTP manager monitors all system events and user can select either single or multiple user alerts to be sent via e-mails
Firmware-embedded Web Browser-based RAID manager via 10/100 Ethernet port
Monitors/Indicators
LCD control panel for setup, alarm mute and configuration
System status indication through LCD, LED and alarm buzzer
All system events can be sent to multiple user alerts via e-mails
Firmware-embedded SNMP agent permits the remote to monitor all events through LAN with no SNMP agent required
Environmental /Physical
Cooling
Two redundant, hot-swappable cooling modules with self-regulating speeds and wide range airflow design
Controlled by RAID controller automatically maintaining optimal ambient temperature
Electrical
Redundant by Three 460W power supplies with PFC, load-sharing type, hot-swappable and cable-less design
AC Voltage 110-230 VAC /AC Frequency 50-60Hz
Temperature
Operating temperature: 5 to 35 degree C
Non-operating temperature: -40 to 60 degree C
Relative Humidity
20% to 80% non-condensing
Size and weight
Dimensions: 446.5mm(W) x 550mm(D) x 4U
Weight (w/o HDDs): 38.0kg

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