Intel® P43 + ICH10 Chipset
- Revolution energy saving design with DES technology featuring hardware based Dynamic 4-Gear switching
- Supports 45nm Intel® Core™ 2 multi-core processors with FSB 1600 (O.C) MHz
- Dual channel DDR2 1200+ for remarkable system performance
- Ultimate graphics performance with PCI-E x16 2.0 interface
- Integrated high speed SATA 3Gb/s
- Features high speed Gigabit Ethernet and IEEE1394
- 8 channel High definition audio
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Introduction
Based on the new Intel P43 chipset, GA-EP43-DS3 delivers a record setting 1600MHz Front Side Bus by overclocking for the latest Intel® Core™ 2 multi-core processors, including 45nm CPUs. With supporting dual channel DDR2 up to 1200MHz by overclocking, GA-EP43-DS3 motherboard provides the highest levels of performance and maximum overclocking potential. GA-EP43-DS3 delivers several advanced GIGABYTE innovations including the DES Advanced, Ultra Durable 2, DualBIOS design which provide optimized power savings, ultra cooling and ultra secure data protection. -
Qualified for Windows® 7The motherboard qualified for WHQL (Windows Hardware Quality Labs) certification of Windows 7 from Microsoft®, setting the standard for future Windows 7 certified motherboards...more
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Smaller, Faster and More EfficientGA-G41MT-ES2H motherboards paired with Intel 45nm CPUs deliver the very best platform for multitasking, multimedia and high performance gaming. Not only do GIGABYTE's latest motherboards based on Intel Eaglelake chipsets all support Intel's new generation, 45nm multi-core processors.
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Supports Dual Channel DDR2 1200+Experience the advanced technology of DDR2 1200+ memory, featuring faster speeds and higher data bandwidth, which delivers superior performance for the most demanding applications.
* DDR2 1200+ is supported with combination of AM3 processors and qualified memory modules, please refer "Memory Support List" for detail memory support information. -
PCI-E 2.0 Graphics InterfacePCI-E 2.0 doubles the bus standard's bandwidth from 2.5 Gbit/s to 5 Gbit/s, meaning a x32 connector can transfer data at up to 16 GB/s in each direction. PCI-E 2.0 also features improvements to the point-to-point data transfer protocol and its software architecture.
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Dynamic Energy Saver AdvancedGIGABYTE Dynamic Energy Saver Advanced provides better energy saving capabilities and enhanced system performance. GIGABYTE Dynamic Energy Saver Advanced is the world’s only motherboard energy saving technology with hardware-based Dynamic 4-Gear* Switching. With support for VRD 11.1, GIGABYTE's DES Advanced allows the motherboard to switch to 1 Gear phase switching during idle, allowing for a dramatic increase in power savings.
GIGABYTE has also retooled Dynamic Energy Saver to allow overclockers to experience the benefits of multi-gear power phase switching while overclocking, providing ultra stable, ultra smooth overclocking performance.
* The 4-Gear feature may vary by model. Gear 1 phase switching requires 45nm processors with PSI signal enabled. -
Adjusts power consumption automatically according to your LAN cable lengths, up to 10% power savings.
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Hardware Overvoltage Control ICsHardware Overvoltage Control ICs which provide more voltage control options than before for the CPU North Bridge and memory. The overvoltage controllers also provide hardware linear real-time voltage control. In addition, Hardware Overvoltage Controller ICs also allow for much finer voltage control, allowing power users to adjust voltage in as little increments as 20mV for better overclocking performance.
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EasyTune6GIGABYTE has completely redesigned EasyTune6 from the ground up to make it easier than ever to manage and monitor your hardware resources as well as tweak your system settings in order to achieve maximum system performance. Whether you are an overclocking enthusiast, or a computer novice, EasyTune6 provides the tools you need to quickly and effortlessly fine tune your system.
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DualBIOS™ - Patented Dual Hardware BIOS ProtectionDualBIOS™ is a GIGABYTE patented technology that automatically recovers BIOS data when main BIOS has crashed or failed. Featuring 2 physical BIOS ROMs integrated onboard, GIGABYTE DualBIOS™ allows quick and seamless recovery from BIOS damage or failure due to viruses or improper BIOS updating. -
Ultra Durable 2 -Designed with Top Quality Highly Efficient Components
Ultra Cooling - Low RDS(on) MOSFET Design
Low RDS(on) MOSFETs specially designed to produce lower switching resistance for faster electric current charging and discharging.
Low Power Loss - Ferrite Core Choke Design
Ferrite core chokes comprised of a compound of iron oxide and other metal elements whose properties hold energy much longer than common iron core at high frequency.
Longer Life - All-Solid Capacitor Design
Solid capacitors contain a solid organic polymer, while electrolytic capacitors use a common liquid electrolyte, hence, the terms solid capacitor versus electrolytic capacitors.
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50,000 Hours Japanese Solid CapacitorsGIGABYTE Ultra Durable motherboards are equipped with solid capacitors developed by leading Japanese manufacturers. With an average lifespan of 50,000 hours, these solid capacitors provide the stability, reliability and longevity essential to meet the power needs of high-end processors and other components running today's most demanding applications and games...more
* 50000 hours of work time is calculated at 85℃ ambient temperature.
* Os termos HDMI, HDMI High-Definition Multimedia Interface (interface multimédia de alta-definição), a apresentação comercial HDMI e os Logótipos HDMI são marcas comerciais ou marcas registadas da 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.