SUPER MICRO Computer AOC-SASLP-MV8 An Important Note to Users, Product Compliance Information

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AOC-SASLP-MV8 Add-on Card User’s Manual

An Important Note to Users

All images and layouts shown in this user's guide are based upon the latest PCB Revision available at the time of publishing. The card you have received may or may not look exactly the same as the graphics shown in this manual.

Product Compliance Information

The Product Name 2 is compliant with the following safety standards/requirements:

•	USA	FCC 47 CFR, Part 15, subpart B
•	European Union	EN 55022
		EN 55024

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Contents AOC-SASLP-MV8 Add-on Card User’s Manual AOC-SASLP-MV8 Add-on Card User’s Manual Table of Contents AOC-SASLP-MV8 Add-on Card User’s Manual About this Manual Product FeaturesIntroduction OverviewAn Important Note to Users Product Compliance InformationContacting Supermicro HeadquartersAOC-SASLP-MV8 Add-on Card User’s Manual Chapter Safety Guidelines ESD Safety GuidelinesGeneral Safety Guidelines AOC-SASLP-MV8 Add-on Card User’s Manual Chapter Connectors, Jumpers and Indicators ConnectorsLED Indicators JumpersFor the Windows 32-bit Operating System Chapter Installing Drivers and FirmwareCreating a Driver Floppy Disk For the Windows 64-bit Operating SystemFor the Windows Operating System Installing the Driver into a New SystemAdding the Driver into an Existing System For the Linux Operating SystemFor the Red Hat Linux Operating System For the SuSE Linux Operating SystemGetting Firmware Downloads Flashing FirmwareFlashing Firmware Chapter Troubleshooting Troubleshooting ProblemsContacting Supermicros Technical Support Disclaimer H8DMT/H8DMT-IBX/H8DMT-F/H8DMT-IBXF User’s Manual

AOC-SASLP-MV8 specifications

SUPER MICRO Computer AOC-SASLP-MV8 is an advanced PCI-Express controller card designed to provide enterprise-level storage solutions. This card supports up to eight SATA and SAS devices, making it an excellent choice for building robust storage systems. The AOC-SASLP-MV8 is particularly popular among professionals who require high-performance functionality for applications such as data centers, servers, and high-capacity storage solutions.

One of the key features of the AOC-SASLP-MV8 is its use of the Silicon Image SiI3124 chipset, which supports both SAS and SATA technology. This versatility allows administrators to expand their storage systems without being limited to a single disk type. The controller provides support for RAID levels 0, 1, and 10, delivering data redundancy and improved performance. This ensures that users can maintain data integrity while maximizing read and write speeds.

The card connects via a PCI-Express x4 interface, facilitating faster data transfer rates compared to older generation interfaces. With a supported maximum throughput of 3 Gbps per port, the AOC-SASLP-MV8 delivers tremendous bandwidth, making it suitable for demanding applications. Additionally, this controller supports LSI's advanced storage management features, facilitating easy monitoring and configuration of connected drives.

Another significant characteristic of this product is its compatibility with various operating systems, including Windows and Linux. The easy installation process, particularly with Supermicro motherboards, allows users to get systems up and running quickly. Moreover, the AOC-SASLP-MV8 includes MIR (Multi In-Raid) technology, which simplifies management and ensures optimal data processing.

In terms of performance, the card’s features are further enhanced by support for Native Command Queuing (NCQ), a technology that optimizes the order of read and write commands to improve the overall efficiency of disk operation. The AOC-SASLP-MV8 stands out in its eagerness to adapt to user needs, providing a balance of speed, capacity, and reliability.

Overall, the SUPER MICRO Computer AOC-SASLP-MV8 is a powerful solution for users looking to enhance their storage capabilities. Its combination of high throughput, support for RAID, and compatibility with both SAS and SATA devices makes it a standout choice for anyone prioritizing performance and reliability in their storage architecture.