• Powered by ATI Radeon™ HD 2600 XT GPU
  • Supports PCI Express and 120 stream processing units
  • Microsoft DirectX 10 and OpenGL 2.0 support
  • Integrated with 256MB GDDR3 memory and 128-bit memory interface
  • Supports native CrossFire, Avivo™ HD video and displady technology
  • Features dual DVI-I / D-sub (by adapter) / HDTV /
  • Supports Dual Dual-link @ high resolution up to dual 2560x1600
  • HDMI and 5.1 surround audio(by optional adapter)
  • Catalyst™ Control Center
    ATI's all-new Catalyst Control Center goes far beyond traditional driver configuration software—it's a feature-rich and stable 3D acceleration control application that puts you in complete command of your ATI visual processing unit (VPU). Catalyst Control Center offers exceptional graphics performance and visual quality for the ultimate in performance, stability, and innovation. Safe GPU overclocking, custom profiles, and assignable hotkeys are just a few of the many new features. You'll also enjoy frequent updates, reliable customer service, and an interactive user feedback program, all backed by ATI's technical confidence, industry-leading capability, and uncompromising commitment to creating your ultimate visual experience.
  • Avivo™
    Avivo™could provide vibrant high fidelity, flawlessly smooth next-generation video playback. Avivo™ technology easily allows your PCs to become digital home media center by its compelling video pipeline design that comprises the latest high definition video hardware acceleration, including H.264 and WMV9.
  • OpenGL 2.0® Optimizations and Support
    Ensure top-notch compatibility and performance for all OpenGL 2.0 application.
  • PCI Express
    Designed to run perfectly with the next-generation PCI Express bus architecture. This new bus doubles the bandwidth of AGP 8X delivering over 4 GB/sec. in both upstream and downstream data transfers.
  • Dual-link DVI
    Dual-link DVI supports any combination of digital and analog display, and independent resolution and refresh rate selection for any two connected displays. Dual Link technology doubles the display bandwidth through a single DVI connection to support ultra-high resolution output and significantly increase productivity.
  • Cross Fire™
    Multiply and Conquer with Multi-GPU Performance:CrossFire’s “supertiling” GPU sharing speeds rendering by evenly dividing the graphics processing, intelligently alternating the rendering workload to each Radeon GPU for efficient load balancing, and optimized performance.CrossFire boosts image quality along with rendering speed, eliminating the need to crank down screen resolutions to get the high image quality you want.CrossFire supports a wide range of ATI-based graphics cards and motherboards, and offers compatibility with a broad array of third party components for a flexible and robust solution.
  • VPU Recover
    VPU Recover significantly reduces the number of system crashes caused by graphics hardware hangs. If the display driver detects that the graphics processor has hung, VPU Recover will attempt to reset the graphics processor, eliminating the need for a system reboot and allowing users to continue using their computer without interrupting or losing their work.
  • RoHS Compliant
    As a citizen of the global village, GIGABYTE exert ourselves to be a pioneer in environment care. Give the whole of Earth a promise that our products do not contain any of the restricted substances in concentrations and applications banned by the RoHS Directive, and are capable of being worked on at the higher temperatures required for lead free solder. One Earth and GIGABYTE Cares!
  • HDCP Support
    High-Bandwidth Digital Content Protection (HDCP) is a form of copy protection technology designed to prevent transmission of non-encrypted high-definition content as it travels across DVI or HDMI digital connections.
  • HDMI Ready
    High Definition Multimedia Interface (HDMI) is a new interface standard for consumer electronics devices that combines HDCP-protected digital video and audio into a single, consumer-friendly connector.
  • Silent-Pipe II Technology
    Silent-Pipe II technology that generates natural airflow to provide more efficient cooling without the use of a heat sink or fan. This is achieved through a unique design that draws cool air in through a new proprietary front-flow thermal module to remove heat from the heat sink on the VGA card. GIGABYTE Silent-Pipe II Features and Benefits:
    *Feature 1. Proprietary front-flow thermal module: the first Dual-slot heat pipe solution to utilize a convection slot at the back of the chassis to increase thermal dissipation.
    *Feature 2. Natural convection design: Silent-Pipe II technology artfully uses the temperature difference between the inside and outside of chassis, creating natural system convection.
    *Feature 3. High-precision die-casting process: uses the latest high-precision die forming technology to increase the thermal conductivity of the material that makes up the heat sink.
    *Feature 4. SLI ready: designed for compatibility with dual card configurations.
    *Feature 5. High performance heat pipe with sintered powder wicks: with the industry's best powder-style pure copper heat pipe for ultra efficient thermal conductivity.
    *Feature 6. 3D performance ready: designed stability during demanding 3D applications.
    *Feature 7. Integrated architecture design: heat pipe and GPU actually make contact to provide unequalled heat conductivity.
  • Microsoft® DirectX® 10.0
    The power of DirectX® 10 with awesome performance, stunning visual effects, and more dynamic interactivity than ever before.Ensures the best performance and application compatibility for all DirectX® 10 applications.
  • 6‎5nm Technology
    Faster clocks, double the transistor density of earlier 80 nm technology. 65nm technology helped make HD2000 series products the most advanced GPUs ever highest clocks speeds, incredible feature integration, full performance and precision all the time, and ability to take advantage of future, higher-speed memories.
  • Microsoft® DirectX® Shader Model 4.0
    Shader Model 4.0 adds support for indexed temporaries which can be quite useful for certain tasks.Regular direct temporary access is preferable is most cases. One reason is that indexed temporaries are hard to optimize. The shader optimizer may not be able to identify optimizations across indexed accesses that could otherwise have been detected. Furthermore, indexed temporaries tend to increase register pressure a lot. An ordinary shader that contains for instance a few dozen variables will seldom consume a few dozen temporaries in the end but is likely to be optimized down to a handful depending on what the shader does. This is because the shader optimizer can easily track all variables and reuse registers. This is typically not possible for indexed temporaries, thus the register pressure of the shader may increase dramatically. This could be detrimental to performance as it reduces the hardware's ability to hide latencies.
  • Display Support
    *Dual integrated 400MHz RAMDACs for analog display resolutions up to and including 2048x1536 at 85Hz .
    *Dual-link DVI capability to drive the industry's largest and highest resolution digital flat panel displays up to 2560x1600 at 60 Hz.
    *Integrated HDTV encoder provides analog TV-output (Component/Composite/S-Video) up to 1080i resolution....more information

* The terms HDMI, HDMI High-Definition Multimedia Interface, HDMI Trade dress and the HDMI Logos are trademarks or registered trademarks of HDMI Licensing Administrator, Inc.
* The entire materials provided herein are for reference only. GIGABYTE reserves the right to modify or revise the content at anytime without prior notice.
* Advertised performance is based on maximum theoretical interface values from respective Chipset vendors or organization who defined the interface specification. Actual performance may vary by system configuration.
* All trademarks and logos are the properties of their respective holders.
* Due to standard PC architecture, a certain amount of memory is reserved for system usage and therefore the actual memory size is less than the stated amount.