IBM ZMAXdp user manual Memory Configuration Sub-Menu, ECC Configuration Sub-Menu

Page 71

SFF Workstation

Installation Guide

Memory Configuration Sub-Menu

This menu has options for memory speed & latency. Use the up and down arrow ( /) keys to select an item. Use the Plus and Minus (+/-) keys to change the value of the selected option.

Feature

Option

Description

 

 

 

Bank Interleaving

Disabled

Allows memory access to be spread across memory

 

Enabled

banks

 

 

 

Node Interleaving

Disabled

Allows memory access to be spread across memory

 

Enabled

nodes

 

 

 

Burst Length

8beats

Burst length must be set to 8beats for

 

4beats

128bit memory support

 

 

 

ECC Configuration Sub-Menu

This menu allows the user to configure ECC setup for system & DRAM. Use the up and down arrow ( /) keys to select an item. Use the Plus and Minus (+/-) keys to change the value of the selected option.

Feature

Option

Description

 

 

 

Master ECC

Enabled

Enables support on all nodes for ECC error checking

 

Disabled

and correction

 

 

 

DRAM ECC

Disabled

Enables support on all banks for ECC error checking

 

Enabled

and correction

 

 

 

L2 Cache BG Scrub

Disabled

Enables support for ECC when L2 cache is idle

 

Enabled

 

 

 

 

Data Cache BG

Disabled

Enables support for ECC when L1 cache is idle

Scrub

Enabled

 

 

 

 

User’s Manual

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Image 71
Contents ZMAXdp Dual AMD Opteron SFF Barebone Contents Mainboard Information………………………………………………………………..39 SFF WorkstationInstallation GuideZMAXdp Federal Communications Commission FCC statementSFF Workstation DisclaimerCopyright Welcome How this guide is organized About this ManualAudience About this guide Unpacking ZMAXdp Chapter Installation GuideZMAXdp Front Panel Features ZMAXdp Rear Panel Features Internal Features Assembling the System Remove the antenna Removing the coverLifting the casing cover Pull drive holder up Turn over the drive holderRelease the screws from the rack Remove this screwRemove the drive holder Remove the drive holderRelease the screw from the rack Remove the pre-installed heatsink assembly Release the first heatsink entirely Pin ZIF socket Central Processing Unit CPU OverviewGold Triangle on the CPU Lowering the locking lever Installing the ProcessorLever Raised, Unlock the socket Position the CPUApply the Thermal cream Wrong WAY to Install the HeatsinkPlace the heatsink on the processor Installing the heatsink and tighten the screws Important notes on memory configurations Installing system memoryMemory configurations Installing Memory Modules Installing a DimmInstalling an AGP card Connect the cables Installing hard disk drivesSlip the HDDs into the bay Attaching the drive screwsSlip the CDROM/ DVD into the bay Installing a optical drivePositioning the System Unit Positioning the System Unit Connecting the Keyboard and Mouse Setting Up Your ComputerConnecting a Display Monitor Connecting the printer Connecting the Ethernet cableConnecting the Power Cords Connecting the ScannerConnecting the IEEE1394 digital video camcorder Connecting the USB peripheralsConnecting the Speakers Arranging your workspace Mainboard Information Introduction ZMAXdp motherboard layout User’s Manual External Sata Port User’s Manual Rear External ConnectorsPS/2 Ports Serial PortAudio Jacks Ethernet PortsUSB Ports CPU Socket Central Processing Unit and System memorySystem Memory Socket Expansion Slot Mini PCI Slot Before you installed any card on this boardClear Cmos Jumper Jumpers SettingIDE1, IDE2 IDE Drive Connectors Internal ConnectorsSata Drive Connectors Power Connectors This page intentionally left blank Bios Setup Microsoft Windows environment Updating Your BiosCreating a bootable floppy disk DOS environment Amiflash / filename Using AMIFLASH.EXE to update the BiosStarting the Bios Setup Bios Setup programUsing The Bios Setup Utility Iwill Main Menu Advanced Menu SFF Workstation Installation Guide Super IO Configuration Submenu IDE Configuration SubmenuPCI PnP Iwill Boot Settings Configuration Sub-Menu Boot ConfigurationsROM Feature Option DescriptionChange Supervisor Password Bios Security MenuTo set a Supervisor Password Bios Chipset Configurations North Bridge Chipset Configuration Sub-Menu ECC Configuration Sub-Menu Memory Configuration Sub-MenuSouth Bridge Chipset Configuration Sub-Menu Power Menu Discard Changes Bios Exit MenuSave Changes and Exit Discard Changes and ExitLoad Failsafe Defaults Load Optimal DefaultsThis page intentionally left blank Drivers and Utilities Drivers and Utilities Screen Running the Power Installer DiscDrivers Installation Screen Drivers and UtilitiesSpecification Specifications Firewall Certification IEEE-1394 Power SupplyWeight

ZMAXdp specifications

IBM ZMAXdp represents a significant evolution in the landscape of mainframe computing, designed to meet the demands of modern enterprise workloads. Known for its speed, scalability, and reliability, this system integrates cutting-edge technologies to ensure optimal performance in today's complex IT environment.

One of the most notable features of IBM ZMAXdp is its capacity for hybrid cloud integration. As organizations increasingly adopt cloud strategies, the need for seamless integration between on-premises systems and cloud-based services is crucial. ZMAXdp facilitates this by allowing businesses to run applications both in the cloud and on local hardware without sacrificing performance or security.

Another standout characteristic of ZMAXdp is its advanced security features. With built-in encryption and robust data protection capabilities, the system helps organizations safeguard sensitive information against cyber threats. This is particularly important as data breaches become more common and regulatory compliance requirements become stricter. IBM's Zero Trust Architecture principles are also embedded in ZMAXdp, ensuring a highly secure multi-user environment.

The ZMAXdp also excels in processing power, thanks to its innovative architecture that harnesses the latest in processing technology. Utilizing advanced processors, including the latest iterations of IBM's z15 and z16, it can support multiple workloads concurrently, from transaction processing to big data analytics. This versatility allows businesses to maximize their return on investment and streamline operations.

In terms of workload management, the ZMAXdp incorporates sophisticated automation features that optimize resource utilization. By automatically allocating resources based on workload demands, the system minimizes latency and enhances overall throughput. This built-in intelligence helps organizations run their operations more efficiently and cost-effectively.

Moreover, IBM ZMAXdp is designed with energy efficiency in mind. It employs technologies that reduce power consumption while maintaining high performance levels, aligning with the growing emphasis on sustainability in IT operations. This focus on energy efficiency not only benefits the environment but also contributes to lower operational costs for organizations.

In summary, IBM ZMAXdp is poised to address the challenges of contemporary enterprise computing through its robust hybrid cloud capabilities, advanced security measures, powerful processing architecture, intelligent workload management, and commitment to energy efficiency. As businesses navigate the complexities of digital transformation, ZMAXdp offers a comprehensive solution that supports innovation while ensuring reliable and secure operations.