Tuesday, May 6th 2008
NVIDIA Intros Hybrid SLI Technology
PC users love the visual realism that high-performance graphics processors give their PCs, but would rather do without the noise and power consumption typical of modern entertainment and gaming PCs. Starting today, however, they can have the best of both worlds, thanks to the new NVIDIA platforms based on the company's Hybrid SLI technology. These new platforms are the foundation for a new breed of PCs that deliver a richer visual experience while reducing energy consumption and costs, fan noise, and even heat. The new technology is available immediately with new NVIDIA nForce 780a SLI and GeForce 8 Series based motherboards.
"Hybrid SLI will give consumers the extra GPU performance they need for the increasing numbers of visual PC applications such as today's PC games," said Drew Henry, general manager of platform business at NVIDIA. "And it will give gamers and PC enthusiasts the quiet and power savings they demand. Hybrid SLI components could very well pay for themselves over the life of the PC."
The visual capabilities of typical PCs are driven by either integrated graphics on the motherboard or by higher performance, discrete graphics cards, like NVIDIA GeForce GPUs. Unfortunately, the most common integrated graphics chips lack the performance and features needed by many popular modern 3D applications, games, and movies. Discrete graphics cards deliver a far superior visual experience, but consume more energy.
Hybrid SLI-enabled motherboards eliminate this problem by putting a GeForce GPU directly on the motherboard. This GeForce GPU has better DirectX compatibility and HD movie playback capability than the most common integrated graphics chips found in today's PCs, but consumes less energy than a discrete graphics card. But that's only the start.
Designed for PC enthusiasts and hard-core gamers, the HybridPower feature completely powers down the discrete graphics cards and switches graphics processing to the motherboard GPU in applications where major 3D horsepower is not required, such as e-mail and Web surfing. Users will appreciate the lower energy consumption, quieter PC operation, and less heat. When additional 3D horsepower is needed, it can be manually transitioned back to discrete graphics cards using HybridPower technology, which are then powered up and ready to rock the 3D world. Hybrid SLI technology can save hundreds of dollars in energy costs over the life of the PC for high-end, enthusiast-class PCs, and deliver additional graphics performance for more mainstream desktops via these two features.i
For mainstream users, a Hybrid SLI technology feature called GeForce Boost allows the user to add an additional graphics card for even more graphics horsepower. By combining the performance of the motherboard GPU and graphics card discrete GPUs, GeForce Boost increases overall graphics performance up to 50% for today's visually intensive applications and home entertainment.
"NVIDIA continues to deliver outstanding innovation for AMD CPUs. We are especially excited that HybridPower, a feature of NVIDIA Hybrid SLI, will be introduced exclusively on AMD CPU-based platforms," said Leslie Sobon, director, product marketing, AMD. "The AMD Phenom X4 quad-core processors, together with this motherboard's HybridPower features, deliver powerful performance and energy efficiency, an important combination for AMD."
The Hybrid SLI-enabled desktop PC motherboards are designed to create a balanced PC with GeForce GPUs and AMD Phenom processors. Eight models, including a newly available nForce 780a SLI motherboard, are available:
- nForce 780a SLI, nForce 750a SLI, nForce 730a, and nForce 720a
- GeForce 8300, GeForce 8200, and GeForce 8100
Currently available Hybrid SLI-enabled discrete graphics cards include:
- NVIDIA GeForce 9800 GX2 and NVIDIA GeForce 9800 GTX (both HybridPower-capable)
- GeForce 8400 GS and GeForce 8500 GT (both GeForce Boost-capable)
Hybrid SLI-enabled PC motherboards for Intel processors and Hybrid SLI-enabled notebooks will be available in Q3 of 2008. For more information about NVIDIA Hybrid SLI technology please visit www.nvidia.com/Hybrid_SLI.
Source:
NVIDIA
"Hybrid SLI will give consumers the extra GPU performance they need for the increasing numbers of visual PC applications such as today's PC games," said Drew Henry, general manager of platform business at NVIDIA. "And it will give gamers and PC enthusiasts the quiet and power savings they demand. Hybrid SLI components could very well pay for themselves over the life of the PC."
The visual capabilities of typical PCs are driven by either integrated graphics on the motherboard or by higher performance, discrete graphics cards, like NVIDIA GeForce GPUs. Unfortunately, the most common integrated graphics chips lack the performance and features needed by many popular modern 3D applications, games, and movies. Discrete graphics cards deliver a far superior visual experience, but consume more energy.
Hybrid SLI-enabled motherboards eliminate this problem by putting a GeForce GPU directly on the motherboard. This GeForce GPU has better DirectX compatibility and HD movie playback capability than the most common integrated graphics chips found in today's PCs, but consumes less energy than a discrete graphics card. But that's only the start.
Designed for PC enthusiasts and hard-core gamers, the HybridPower feature completely powers down the discrete graphics cards and switches graphics processing to the motherboard GPU in applications where major 3D horsepower is not required, such as e-mail and Web surfing. Users will appreciate the lower energy consumption, quieter PC operation, and less heat. When additional 3D horsepower is needed, it can be manually transitioned back to discrete graphics cards using HybridPower technology, which are then powered up and ready to rock the 3D world. Hybrid SLI technology can save hundreds of dollars in energy costs over the life of the PC for high-end, enthusiast-class PCs, and deliver additional graphics performance for more mainstream desktops via these two features.i
For mainstream users, a Hybrid SLI technology feature called GeForce Boost allows the user to add an additional graphics card for even more graphics horsepower. By combining the performance of the motherboard GPU and graphics card discrete GPUs, GeForce Boost increases overall graphics performance up to 50% for today's visually intensive applications and home entertainment.
"NVIDIA continues to deliver outstanding innovation for AMD CPUs. We are especially excited that HybridPower, a feature of NVIDIA Hybrid SLI, will be introduced exclusively on AMD CPU-based platforms," said Leslie Sobon, director, product marketing, AMD. "The AMD Phenom X4 quad-core processors, together with this motherboard's HybridPower features, deliver powerful performance and energy efficiency, an important combination for AMD."
The Hybrid SLI-enabled desktop PC motherboards are designed to create a balanced PC with GeForce GPUs and AMD Phenom processors. Eight models, including a newly available nForce 780a SLI motherboard, are available:
- nForce 780a SLI, nForce 750a SLI, nForce 730a, and nForce 720a
- GeForce 8300, GeForce 8200, and GeForce 8100
Currently available Hybrid SLI-enabled discrete graphics cards include:
- NVIDIA GeForce 9800 GX2 and NVIDIA GeForce 9800 GTX (both HybridPower-capable)
- GeForce 8400 GS and GeForce 8500 GT (both GeForce Boost-capable)
Hybrid SLI-enabled PC motherboards for Intel processors and Hybrid SLI-enabled notebooks will be available in Q3 of 2008. For more information about NVIDIA Hybrid SLI technology please visit www.nvidia.com/Hybrid_SLI.
6 Comments on NVIDIA Intros Hybrid SLI Technology
I think its a great step by Nvidia to follow in ATi's footsteps in this technology. If the history of these companies has anything to do with the future, then we must not forget that upon several occassions ATi invented something, like AA and Nvidia innovated it & vice versa.
All these advancements, regardless of whom invented it, work to the end consumer satisfaction. This might even allow company's to refocus their efforts in designing a power hungry monster graphics card with amazing performance and a hefty price tag, knowing that consumers can have a hybrid efficient viable option when the need for power isnt required.
( I was looking forward to the 6xgpu on 1pcb ) <--< but would settle for 1 GPU thats equally as hungry.