Expansion slots
PCI Express x8 (Gen 2.x) slots |
1 |
PCI Express x16 (Gen 3.x) slots |
1 |
PCI slots |
3 |
Performance
Motherboard chipset family |
Intel |
Intel Rapid Storage Technology |
Y |
Component for |
PC |
Memory
Supported memory types |
DDR3-SDRAM |
ECC |
Y |
Maximum UDIMM memory |
32 GB |
Memory slots type |
DIMM |
Number of memory slots |
4 |
Internal I/O
USB 3.0 (3.1 Gen 1) connectors |
1 |
TPM connector |
Y |
USB 2.0 connectors |
2 |
Number of SATA connectors |
1 |
Chassis intrusion connector |
Y |
Number of chassis fan connectors |
5 |
Back panel I/O ports
USB 3.0 (3.1 Gen 1) Type-A ports quantity |
2 |
VGA (D-Sub) ports quantity |
1 |
PS/2 ports quantity |
1 |
Additionally
Ethernet LAN (RJ-45) ports quantity |
2 |
Chipset |
Intel C224 |
1 X SOCKET LGA1150, ATX, INTEL C224, XEON E3-1200 V3 FAMILY, DDR3 1333/16
<b>Combat Model with Advanced I/O Design</b>
The ASUS P9D-V is the latest ASUS UP serverboard, designed around the Intel® Denlow platform as an attractive entry model that provides a highly cost and power-efficient option. The P9D-V uses the Intel® C224 chipset, featuring three legacy PCI slots, dual server-class Intel® Ethernet, and digital power delivery. It is ideal for SMB, web, printer, and file servers, or any other entry-level server application.
<b>Designed to support three legacy PCI Devices</b>
Besides the latest PCI-E technology, P9D-V keeps up to 3 legacy PCI slots on board which can fulfill various customers’ requirements. Customers can move their existing legacy PCI add-on cards to P9D-V, and still benefit from up-to-date Intel® Xeon® E3-1200 v3 Processor Family and DDR3 memory technology to their solutions.
<b>Dual Intel® I210AT Gigabit Ethernet</b>
The ASUS P9D-V ships with dual server-class Intel® Ethernet ports with the I210AT controllers, which doubles queues compared to previous-generation Intel® 82574L controllers. This is better for virtualization applications. In addition, the dual LAN teaming ports provide high networking bandwidth with load balance and fault tolerance functions. This design greatly reduces data processing bottlenecks during network traffic.
<b>High power efficiency with digital power control</b>
Digital CPU power controls work perfectly together to match digital power signal (SVID) requests from the CPU, with ultra-fast sensing and response efficiently delivering precision power. Accurate delivery reduces waste, and provides more stable voltage. P9D-V VR power efficiency reaches an impressive 90%.
<b>Most cost-saving for customers</b>
The P9D-V is designed for readily-available chassis, with a standard ATX form factor, and compatibility with desktop power supplies. Customers can upgrade to the new Denlow platform with just the P9D-V while keeping many existing components, thus protecting their investment. Meanwhile, the product is power saving with low power-consuming Intel Xeon processor, and therefore requires lower thermal solution cost.
<b>Advanced I/O design</b>
The ASUS P9D-V supports one PCI-E x16, Gen3 x16 link with professional VGA supported. Besides, P9D-V is built to support up to 4 USB 3.0 ports. Built to connect easily with next generation components and peripherals, USB 3.0 transfers data 10X faster and is also backward compatible with USB 2.0.
<b>Server management: ASWM Enterprise</b>
ASWM Enterprise software provides one-to-multiple centralized management, including BIOS flash, remote control, and power control, all through a colorful and informative graphical interface.
<b>SATA DOM (Disk on Module) ready</b>
A SATA DOM is a flash drive simulating a hard disc which can be used without additional software or drivers. It is particularly helpful within embedded computing systems or thin clients. ASUS-exclusive design adds an onboard 4-pin power connector and USB header to make SATA DOM installation simple and easy.
<b>Friendly Design for front I/O, front VGA</b>
An accessible rear power button is reserved onboard for use as front panel ports when reversing the serverboard. An extra 15-pin VGA header features front-panel monitor connectivity, helping customers with greater flexibility. These designs provide flexible I/O integration for users to fit in various computing environments.