DDR2 memory support

The motherboard supports DDR2 memory which features data transfer rates of 667 MHz (FSB 800) or 533 MHz (FSB 1066/800) to meet the higher bandwidth requirements of the latest 3D graphics, multimedia, and Internet applications. The dual-channel DDR2 architecture doubles the bandwidth of your system memory to boost system performance, eliminating bottlenecks with peak bandwidths of up to 10.7 GB/s.

PCI Express™ interface

The motherboard fully supports PCI Express, the latest I/O interconnect technology that speeds up the PCI bus. PCI Express features pointto­point serial interconnections between devices and allows higher clockspeeds by carrying data in packets. This high speed interface is software compatible with existing PCI specifications. See page 1-20 for details.

64-bit CPU support

The motherboard supports 64-bit processors that provides

highperformance computing and faster memory access required for memory and data intensive applications.

Serial ATA technology

The motherboard supports the Serial ATA technology through the Serial ATA interfaces and the Intel® ICH7DH chipset. The SATA specification allows

for thinner, more flexible cables with lower pin count, reduced voltage requirement, and up to 300 MB/s data transfer rate.

Temperature, fan, and voltage monitoring

The CPU temperature is monitored by the ASIC (integrated in the Winbond Super I/O) to prevent overheating and damage. The system fan rotations per minute (RPM) is monitored for timely failure detection. The ASIC monitors the voltage levels to ensure stable supply of current for critical components. See pages 2-32 and 2-33 for details.

ASUS P5LD2-FM/DH/VP

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Asus P5LD2-VP, P5LD2-FM, P5LD2-DH manual DDR2 memory support, PCI Express interface, Bit CPU support, Serial ATA technology

P5LD2-DH, P5LD2-FM, P5LD2-VP specifications

The Asus P5LD2 series of motherboards, including the P5LD2-VP, P5LD2-FM, and P5LD2-DH, are notable platforms designed for users seeking a balance between performance and stability. Each variant caters to different needs while sharing common features derived from the Intel LGA 775 architecture. These motherboards support the Intel Pentium 4, Pentium D, and Intel Core 2 Duo processors, making them versatile options for a wide array of computing tasks.

One of the standout features across the P5LD2 series is its support for dual-channel DDR2 memory. These motherboards can accommodate up to 8GB of memory, which is particularly beneficial for multitasking and demanding applications. The P5LD2-VP features four DIMM slots, allowing for flexible memory configurations. Meanwhile, the P5LD2-FM emphasizes multimedia capabilities, incorporating integrated audio and graphics options to enhance entertainment experiences.

Connectivity is another key aspect of the P5LD2 motherboards. They include multiple SATA ports, enabling users to connect a variety of storage devices. The P5LD2-DH, for example, supports RAID configurations, which can improve data redundancy and performance for users managing large volumes of data. Additionally, the presence of USB 2.0 ports ensures ample connectivity for peripherals, ranging from external hard drives to printers.

In terms of expansion capabilities, the P5LD2 series features PCI Express x16 slots, providing the option for users to upgrade their graphics cards for enhanced performance in gaming and graphic-intensive applications. The motherboards also include PCI slots for legacy cards, which adds further flexibility in terms of hardware upgrades.

Asus has implemented several technologies in the P5LD2 line to enhance durability and performance. These include the Asus Stack Cool technology, which facilitates efficient heat dissipation and maintains lower operating temperatures. Additionally, the motherboards feature Asus Q-Fan technology that intelligently adjusts fan speeds based on system temperatures, reducing noise and improving overall cooling efficiency.

Overall, the Asus P5LD2 series represents a solid choice for users looking for reliable, feature-rich motherboards that can support a variety of computing needs without compromising on quality or performance. Their blend of robust features, expandability, and technological advancements makes them suitable for both everyday computing and more demanding applications.