Memory
Graphics adapter memory type |
GDDR5 |
Memory bus |
256 bit |
Discrete graphics adapter memory |
1 GB |
Ports & interfaces
DVI-D ports quantity |
1 |
Mini HDMI ports quantity |
1 |
Interface type |
PCI Express 2.0 |
DVI-I ports quantity |
1 |
Additionally
Graphics controller |
GeForce GTX 465 |
GF GTX465-1024M DDR5 R50 CH
1.The latest gerneration of NVIDIA’s high-end graphics card, based on 40nm Fermi structure.
2.1024M GDDR5 memory onboard, and native mini HDMI port.
3.DirectX 11 Support with scalable hardware tessellation
4.New CUDA Architecture with 352 CUDA Cores (Stream Processors)
5.Interactive Ray Tracing with OptiX and 32x Anti-aliasing
6.Support 3-way SLI and up to 3 displays.
7.Support NVIDIA PureVideo HD Technology, delivering unprecedented picture clarity, smooth video, accurate color, and precise image scaling for both movies and video.
8.Full support of PCIE 2.0.
9.The discrete, programmable video processing core in GTX465 provides superb picture quality and ultra-smooth movies with minimal CPU utilization and low power consumption.
CUDA
NVIDIA CUDA is a general purpose parallel computing architecture that leverages the parallel compute engine in NVIDIA graphics processing units (GPUs) to solve many complex computational problems in a fraction of the time required on a CPU. It includes the CUDA Instruction Set Architecture (ISA) and the parallel compute engine in the GPU.
PhysX
NVIDIA PhysX technology delivers real-time, hyper-realistic physical and environmental gaming effects in the games you want to play today and tomorrow. “Canned” reactions are a thing of the past – PhysX-powered games comes to life with blazing explosions, reactive debris, realistic water, and lifelike character motion.
Unified Shader Architecture
The Unified processor dynamic load balancing and resource allocation for vertex shader, geometry shader, and pixel shader.
PureVideo
NVIDIA PureVideo technology is the combination of a dedicated video processing core and software that delivers ultra-smooth, high-definition H.264, WMV, and MPEG-2 movies with minimal CPU utilization and low power consumption. And the high-precision subpixel processing enables videos to be scaled to any size.
1G
Based on 1G GDDR memory! 1G memory provide more storage space,assure it will not use the memory of the system,so rendering pictures is fast and efficiently.
HDMI
HDMI (High-Definition Multimedia Interface) is the newest interface for audiovisual equipment such as high-definition television and home theater systems. With 19 wires wrapped in a single cable that resembles a USB wire, HDMI is able to carry a bandwidth of 5 Gbps (gigabits per second). This and several other factors make HDMI much more desirable than its predecessors, component video, S-Video and composite video.
HDR
HDR stands for high dynamic range. In photography this technique allows you to increase the dynamic range of a image. Neither digital nor film photos can hold all of the light available in a scene. Also, current displays can only show a small range of color/light range, which makes displaying HDR images impractical for most uses.
OpenGL
Suppors OpenGL OpenGL (Open Graphics Library) is the computer industry's standard application program interface (API) for defining 2-D and 3-D graphic images.
H.264 HD
Standard HG.264 Video Codec H.264 delivers stunning quality at remarkably low data rates. Ratified as part of the MPEG-4 standard (MPEG-4 Part 10), this ultra-efficient technology gives you excellent results across a broad range of bandwidths, from 3G for mobile devices to iChat AV for video conferencing to HD for broadcast and DVD.
SLI
Supports SLI Technology NVIDIA SLI technology allows you to intelligently scale graphics performance by combining multiple NVIDIA graphics solutions in a single system with an NVIDIA nForce SLI media and communications processor.This technology delivers up to twice the performance of a single graphics solution.