user manual
Table Of Contents
- Product Features
- Installing and Customizing the Software
- Computer Setup (F10) Utility
- Computer Diagnostic Features
- Desktop Management
- Initial Configuration and Deployment
- Remote System Installation
- Software Updating and Management
- HP Client Management Interface
- HP SoftPaq Download Manager
- HP System Software Manager
- HP ProtectTools Security Manager
- HP Client Automation Starter and Standard Editions
- HP Client Automation Enterprise Edition
- HP Client Manager from Symantec
- Altiris Client Management Suite
- HP Client Catalog for Microsoft System Center & SMS Products
- Remote Management Technology
- Configuring the Intel Management Engine
- Verdiem Surveyor
- HP Proactive Change Notification
- Subscriber’s Choice
- Retired Solutions
- ROM Flash
- Boot Block Emergency Recovery Mode
- Replicating the Setup
- Dual-State Power Button
- HP Web Site Support
- Industry Standards
- Asset Tracking and Security
- Serial ATA Drive Guidelines and Features
- Identifying the Chassis, Routine Care, and Disassembly Preparation
- Removal and Replacement Procedures Microtower (MT) Chassis
- Serial Number Location
- Preparation for Disassembly
- Access Panel
- Front Bezel
- Removing Bezel Blanks
- Cable Management
- Cable Connections
- Memory
- Expansion Cards
- Installing and Removing Drives
- Fan/Baffle Assembly
- Front I/O Assembly
- Power Switch/LED Assembly
- Heat sink
- Processor
- Speaker
- Rear Chassis Fan
- Power Supply
- System Board
- Battery
- External Security Devices
- Removal and Replacement Procedures Small Form Factor (SFF) Chassis
- Preparation for Disassembly
- Access Panel
- Front Bezel
- Bezel Blanks
- Installing Additional Memory
- Expansion Cards
- Cable Management
- Cable Connections
- Drive Positions
- Installing and Removing Drives
- System Board Drive Connections
- Removing an External 5.25-inch Drive
- Installing an Optical Drive into the 5.25-inch Drive Bay
- Removing an External 3.5-inch Drive
- Installing a Drive into the 3.5-inch External Drive Bay
- Removing and Replacing the Primary 3.5-inch Internal SATA Hard Drive
- Removing and Replacing a Removable 3.5-inch SATA Hard Drive
- Baffle
- Front Fan Assembly
- Front I/O and Power Switch Assembly
- Speaker
- Heat sink
- Processor
- Power Supply
- System Board
- Battery
- External Security Devices
- Using the Small Form Factor Computer in a Tower Orientation
- Connector Pin Assignments
- Power Cord Set Requirements
- POST Error Messages
- Troubleshooting Without Diagnostics
- Safety and Comfort
- Before You Call for Technical Support
- Helpful Hints
- Solving General Problems
- Solving Power Problems
- Solving Hard Drive Problems
- Solving Media Card Reader Problems
- Solving Display Problems
- Solving Audio Problems
- Solving Printer Problems
- Solving Keyboard and Mouse Problems
- Solving Hardware Installation Problems
- Solving Network Problems
- Solving Memory Problems
- Solving Processor Problems
- Solving CD-ROM and DVD Problems
- Solving USB Flash Drive Problems
- Solving Front Panel Component Problems
- Solving Internet Access Problems
- Solving Software Problems
- Contacting Customer Support
- Password Security and Resetting CMOS
- Specifications
- Index
Populating DIMM Sockets
There are four DIMM sockets on the system board, with two sockets per channel. The sockets are
labeled DIMM1, DIMM2, DIMM3, and DIMM4. Sockets DIMM1 and DIMM2 operate in memory channel
A. Sockets DIMM3 and DIMM4 operate in memory channel B.
Figure 9-4 DIMM Socket Locations
Table 9-1 DIMM Socket Locations
Item Description Socket Color
1 DIMM1 socket, Channel A (populate first) Black
2 DIMM2 socket, Channel A (populate third) White
3 DIMM3 socket, Channel B (populate second) White
4 DIMM4 socket, Channel B (populate fourth) White
NOTE: A DIMM must occupy the black DIMM1 socket. Otherwise, the system will
display a POST error message indicating that a memory module must be installed in the
wrong socket.
The system will automatically operate in single channel mode, dual channel mode, or flex mode,
depending on how the DIMMs are installed.
●
The system will operate in single channel mode if the DIMM sockets are populated in one channel
only.
●
The system will operate in a higher-performing dual channel mode if the total memory capacity of
the DIMMs in Channel A is equal to the total memory capacity of the DIMMs in Channel B. The
technology and device width can vary between the channels. For example, if Channel A is
populated with two 512-MB DIMMs and Channel B is populated with one 1-GB DIMM, the system
will operate in dual channel mode.
●
The system will operate in flex mode if the total memory capacity of the DIMMs in Channel A is not
equal to the total memory capacity of the DIMMs in Channel B. In flex mode, the channel populated
with the least amount of memory describes the total amount of memory assigned to dual channel
and the remainder is assigned to single channel. For optimal speed, the channels should be
balanced so that the largest amount of memory is spread between the two channels. If one channel
will have more memory than the other, the larger amount should be assigned to Channel A. For
Installing Additional Memory 127