The choice of power – the XPC P2 3500g delivers a range of multi-core processor options featuring the latest arsenal of performance-rich technologies. Multi-core processors allow your system to split tasks between separate processor cores so more is done in less time. And for those that savor peak performance the optional Intel Core 2 Extreme QX6850 is a quad-core powerhouse designed to deliver the serious performance you crave, and then some.
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Optional Intel ® Core2 Duo Extreme QX6850
 More is better
With four processing cores the Intel® Core™2 Extreme quad-core processor QX6850 is a multitasking monster delivering significantly more performance for highly-threaded apps.
- Advanced 8 MB of L2 cache Smart Cache
Providing a higher-performance, more efficient cache subsystem. Optimized for industry leading multi-threaded games.
- 1333 MHz front-side bus
- Wide Dynamic Execution
Enabling delivery of more instructions per clock cycle to improve gaming execution time and energy efficiency.
- Intelligent Power Capability
Designed to deliver extreme energy-efficient performance.
- Smart Memory Access
Improving system performance by optimizing the use of all available data bandwidth.
- Advanced Digital Media Boost
Accelerating a broad range of applications, including ultra-realistic game physics and human-like artificial intelligence for an intense gaming experience unlike any other.
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Up To 8GB of DDR2 Memory
 Intel’s Multi-Core architecture is based on mobile technology. Because of that Intel Multi-Core processors consume very little power and generate very little heat. At the heart of Multi-Core processors is a 1066 MHz front-side bus for blistering fast communication with the system memory and video card. The P2 3500g is also paired with DDR2 667/800 system memory for an unbeatable performance combination. *64 bit OS required for the 8GB memory
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 Biometric Fingerprint Reader*
Fingerprint biometrics is a convenient and secure way to protect your information.With an added a layer of security protection through the
integrated biometric fingerprint reader, you can keep your
digital identity and data more secure and no
longer worry about having to memorize for
memorizing multiple passwords.
*Available on Windows Vista 32-bit OS only.
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 Innovative Speed-Link Technology
File sharing among 2 PCs has never been easier with the
innovative USB Speed-Link technology, simply connects both
systems through a standard USB cable without having the hassle of
driver installation or worry about insufficient space of a DVD
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Built-in PCI Express Mini Card Slot
 PCI Express is the open standards- based successor to PCI and its variants for server- and client-system I/O interconnects. Unlike PCI and PCI-X, which are based on 32- and 64-bit parallel buses, PCI Express uses high-speed serial link technology similar to that found in Gigabit1 Ethernet, Serial ATA (SATA), and Serial-Attached SCSI (SAS). PCI Express reflects an industry trend to replace legacy shared parallel buses with high-speed point-to-point serial buses.
- Serial Technology
providing scalable performance.
- High Bandwidth
Initially, 5-80 gigabits per second (Gbps) peak theoretical bandwidth, depending on the implementation.
- Point-to-point Dedicated Link
Point-to-point link dedicated to each device, instead of the PCI shared bus.
- Lower Latency
Opportunities for lower latency (or delay) in server architectures, because PCI Express provides a more direct connection to the chip set Northbridge than PCI-X.
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Supports Optional Intel® Turbo Memory*
 Intel Turbo Memory is a new primary PC component, along with the CPU, chipset, and system memory. It caches large amounts of frequently used data for faster access by the processor. This decreases the need for hard-disk accesses, saving both time and power, which equates to increased performance and energy efficiency.
That's good news for users who run data-intensive software like media applications. It's also a good match to the substantial system requirements to load and run Windows Vista.
Intel Turbo Memory is a single solution that accelerates data transfer both to and from the processor. Other commercially available products support only one-way data caching.
- Reduce boot time
Faster access to boot-up files lets the system start up more quickly.
- Improve application responsiveness
Data coming from Intel Turbo memory instead of the hard drive increases access speed.
- Accelerate application loading
Fast access by the processor to information needed to launch applications cuts lag time.
- Enhance Windows Vista
Support for Windows Vista performance features like ReadyBoost*, ReadyDrive*, and Superfetch* helps you take better advantage of the operating system.
- Save energy
Pre-storing information reduces hard-disk spin time, which saves power.
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 All Solid Capacitors Motherboard Design
All solid capacitors design is the new trend for Shuttle's motherboard and guaranteed to deliver maximum stability, reliability and longer system lifetime for the ultimate PC gaming and entertainment experience. |
80 PLUS® Certified Power Supply
 The 80 PLUS ® performance specification is a standard which requires power supplies in computers and servers to be 80% or greater energy-efficient. This makes an 80 PLUS® certified power supply at least 33% more efficient than current power supplies.
What are the benefits of an 80% efficient power supply?
The 80% efficient power supply offers a range of potential rewards which benefit you financially while helping the environment by reducing power consumption:
- Increased power supply reliability due to greater efficiency
- Decreased system maintenance due to increased reliability
- Lower TCO due to reduced maintenance and longer equipment life
- Improved worker environment with less noise from the PC
- Potential reduction in cooling bill due to less heat being generated by PCs
How is an 80% efficient power supply different from a traditional power supply?
An 80% efficient power supply is at least 80% efficient at 20%, 50%, and 100% loads whereas current power supplies range from 65-75% efficiency.
80% efficient power supplies are designed with active power factor correction (PFC). Active power factor correction uses an active circuit to help current and voltage correlate with each other. When this happens, apparent power and real power approach each other. Apparent power is the current drawn by a system, whereas real power is the current actually available for use by the system. If they are equal, then the power factor is 1.
A .9 PFC means that 90% of apparent power is actually transferred to available real power. Power supplies that aren't power factor corrected tend to cause unpleasant variations in AC voltage that can affect or even damage other equipment on the same circuit.
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