Important Note: This product works only on Mac Pro computers made in 2008 or later running Mac OS X v10.5.7 or later.
EVGA NVIDIA GeForce GTX 285 for Mac Video Card
Take your DirectX® 10 gaming beyond HD, with the power of GeForce GTX 285 GPUs. Place yourself in the center of the action and experience true DirectX 10 gaming cinema in extreme HD (2560x1600) resolutions—all enabled by GeForce 200 Series’ second generation unified architecture, NVIDIA® SLI® technology, and incredible performance in the latest games including Far Cry 2, Mirrors Edge, and Call of Duty 5: World at War. With up to 50% more performance than prior generation GPUs, GeForce GTX 285 GPUs tear through complex DirectX 10 environments and cinematic effects at blazing frame rates in extreme HD resolutions.
Experience Graphics Plus
The GeForce GTX 285 graphics card with CUDA technology not only provides a world-class gaming experience, it also delivers Graphics Plus. Experience jaw-dropping PhysX gaming effects, stereoscopic 3D, and lightning fast video and image processing all accelerated by the GPU. Whether it’s experiencing a new world of realistic physical motion and massively destructible environments, strapping on your NVIDIA® GeForce ® 3D Vision™ glasses to game in true stereoscopic 3D, transcoding HD videos in minutes to your portable video player, or rapidly editing digital images using Adobe® CS4, the GeForce GTX 285 graphics card does it all with mind-blowing performance.
Dual
Monitor Ready
This product supports Dual Monitors and has Dual DVI Ports.
Dual View technology offers multiple display support on up to two separate
monitors. This improves the capabilities and productivity of the user by
allowing them to spread multiple windows over two monitors and view them
simultaneously. Dual Monitors is one of the simplest, yet most amazing
productivity boosters you can add to your PC! Click
Here To Learn More »
Knowledge
Before You Buy! Make
sure your motherboard is compatible with this video card. For example, PCI
Express video cards won't work with motherboards designed only for AGP or
PCI video cards, and vice versa. Please read the specifications carefully
or call us for expert advice.
ESSENTIAL
SPECS: • Interface Type: PCI Express 2.0 x16 (PCIe
1.0 Compatible)
• Maximum Resolution: 2560 x 1600 (Digital)
• Video Memory: 1GB GDDR3
Specifications
GPU/VPU:
NVIDIA GeForce GTX 285
Additional Features:
SLI Ready
DirectX 10
Shader Model 4.0
NVIDIA CUDA
Nvidia PureVideo HD
PhysX by NVIDIA
Video Card Profile:
Double
Video Memory:
1GB
Memory Type:
GDDR3
Memory Interface:
512-bit
Stream Processors:
240
Core Clock:
648 MHz
Memory Clock:
2480 MHz
Shader Clock:
1476 MHz
Interface Type:
PCI Express 2.0
Interface Speed:
x16
Connector(s):
HDTV
Dual DVI (Dual Link)
Specification Notes:
[6] To provide the most accurate specifications, the specifications listed are base upon information provided by the vendor.
Detailed Features
NVIDIA PhysX™
Technology
NVIDIA
CUDA™ Technology
Microsoft
DirectX 10
Shaders
Advanced Graphics
Tuning
EVGA GeForce GTX 285 for Mac GPU Features
NVIDIA PhysX™ Technology
Delivering physics in games is no easy task. It's an extremely compute-intensive
environment based on a unique set of physics algorithms that require tremendous
amounts of simultaneous mathematical and logical calculations.
NVIDIA CUDA™ Technology
NVIDIA CUDA™ Technology is the world’s only C language environment
that provides access to processing power of NVIDIA GPUs. It enables developers
to utilize NVIDIA GPUs to solve the most complex computation-intensive challenges
such as oil and gas exploration, financial risk management, product design,
medical imaging, and scientific research.
NVIDIA® Unified Architecture
(Second Generation)
Fully unified shader core dynamically allocates processing power to geometry,
vertex, physics, or pixel shading operations, delivering up to 2x the gaming
performance of prior generation GPUs.
NVIDIA®
PureVideo™ HD Technology
The combination of high-definition video decode acceleration and post-processing
that delivers unprecedented picture clarity, smooth video, accurate color,
and precise image scaling for movies and video. Feature requires supported
video software. Features may vary by product.
Discrete, Programmable
Video Processor
NVIDIA PureVideo is a discrete programmable processing core in NVIDIA
GPUs that provides superb picture quality and ultra-smooth movies
with 100% offload of H.264 video decoding from the CPU and significantly
reduced power consumption.
Hardware Decode Acceleration
Provides ultra-smooth playback of H.264, VC-1, WMV and MPEG-2 HD and SD
movies.
Dual Stream Hardware acceleration
Supports picture-in picture content for the ultimate interactive Blu-ray
and HD DVD movie experience.
Dynamic Contrast Enhancement
Provides post-processing and optimization of High Definition movies on
a scene by scene basis for spectacular picture clarity.
HDCP Capable
Designed to meet the output protection management (HDCP) and security
specifications of the Blu-ray Disc and HD DVD formats, allowing the playback
of encrypted movie content on PCs when connected to HDCP-compliant displays.
Advanced Spatial-Temporal De-Interlacing
Sharpens HD and standard definition interlaced content on progressive
displays, delivering a crisp, clear picture that rivals high-end home-theater
systems.
High-Quality Scaling
Enlarges lower resolution movies and videos to HDTV resolutions, while
maintaining a clear, clean image. Also provides downscaling of videos,
including high-definition, while preserving image detail.
Inverse Telecine (3:2 and 2:2 Pulldown Correction)
Recovers original film images from filmsconverted-to-video (DVDs, 1080i
HD content), providing more accurate movie playback and superior picture
quality.
Bad Edit Correction
When videos are edited, the edits can disrupt the normal 3:2 or 2:2 pulldown
cadence. PureVideo uses advanced processing techniques to detect poor
edits, recover the original content, and display perfect picture detail
frame after frame for smooth, natural looking video.
Noise Reduction
Improves movie image quality by removing unwanted artifacts.
Edge Enhancement
Sharpens movie images by providing higher contrast around lines and objects.
Integrated SD and HD TV Output
World-class TV-out functionality via Composite, S-Video, Component or
DVI connections. Supports resolutions up to 1080i/1080p, depending on
connection type and TV capability.
OpenGL® 2.1 Optimizations and Support
Ensures top-notch compatibility and performance for OpenGL applications.
Dual Dual-link DVI Support
Able to drive the industry’s largest and highest resolution flat-panel displays
up to 2560x1600 and with support for High-bandwidth Digital Content Protection
(HDCP).
Dual 400MHz RAMDACs
Blazing-fast RAMDACs support dual QXGA displays with ultra-high, ergonomic
refresh rates–up to 2048x1536@85Hz.
PCI Express 2.0 Support
Designed to run perfectly with the new PCI Express 2.0 bus architecture, offering
a future-proofing bridge to tomorrow's most bandwidth-hungry games and 3D
applications by maximizing the 5GT/s PCI Express 2.0 bandwidth (twice that
of first generation PCI Express). PCI Express 2.0 products are fully backwards
compatible with existing PCI Express motherboards for the broadest support.
Monitors come supporting different video connector technologies:
VGA, DVI, DisplayPort, HDMI, or combinations. Not every monitor
supports these, so check the specifications carefully before making your
selection.
The Digital Visual Interface (DVI) is the
most popular high-quality digital connection for monitors (though HDMI is
quickly becoming its equal in popularity). DVI is a video interface
standard designed to maximize the visual quality of digital display devices
such as flat panel LCD computer displays and digital projectors. It was
developed by an industry consortium, the Digital Display Working Group (DDWG).
It is designed for carrying uncompressed digital video data to a compatible
monitor or projector, and is partially compatible with the High-Definition
Multimedia Interface (HDMI) standard in digital mode (DVI-D).
DVI represents a major improvement in image quality over the older VGA
standard.
The DVI interface uses a digital protocol
in which the desired illumination of pixels is transmitted as binary data.
When the display is driven at its native resolution, it will read each
number and apply that brightness to the appropriate pixel. In this way, each
pixel in the output buffer of the source device corresponds directly to one
pixel in the display device, whereas with an analog signal the appearance of
each pixel may be affected by its adjacent pixels as well as by electrical
noise and other forms of analog distortion.
Previous standards such as the analog VGA were designed for CRT-based
devices and thus did not use discrete time display addressing. As the analog
source transmits each horizontal line of the image, it varies its output
voltage to represent the desired brightness. In a CRT device, this is used
to vary the intensity of the scanning beam as it moves across the screen.
The two types of DVI interfaces are Single
Link and Dual Link. Following are the features and benefits of each:
Single Link - The Single Link interface is limited to a maximum pixel
clock of 165 Hz. It uses four (4) twisted pairs of wires (one each of Red,
Green, Blue and Clock). Maximum resolution is 1920 x 1200 at 60Hz.
Dual Link - The Dual Link interface is most common for today’s modern
LCD monitors. It provides three times as many pixels as the Single Link
interface. And its maximum clock may exceed 165 Hz. Dual Link uses six (6)
twisted pairs wires with two (2) each for Red, Green, and Blue, as well as a
pair for Clock. Dual Link’s maximum resolution is 2560 x 1600 at 60Hz. When
you use the Dual Link Interface you can use a longer cable because of its
higher bandwidth. Dual Link also provides HDCP support, which is required
for Blu-Ray playback.
If your Computer supports DVI ports, but
the Monitor does not, then a DVI to VGA adaptor is available at low cost to
solve this. Or inversely, if the Computer output is only VGA, and the
Monitor supports DVI, adaptors are available for this as well.
For our selection of Monitor Adaptors click here »
Dual Monitor
Technology
Few PC users have ever experienced the huge productivity boost that comes
from using multiple monitors on the same PC. Ironically, many of
today's PC have the capability already installed, and Windows (since 2000)
natively supports dual monitors. Configuring dual monitors is so easy: just use
the second video port (if there are two separate ports installed), or add a
second video card or better yet, a video card that has dual DVI ports.
Then plug in your second monitor, change a couple of simple Windows settings,
and you have double the Windows Desktop. This lets you have your
spreadsheet and email visible at the same time, or PowerPoint and Photoshop.
The combinations are endless. And since most of the overhead is
handled by the video card, there is little significant impact (if any) on
system performance. Dual Monitors is one of the simplest, yet most
amazing productivity boosters you can add to your PC! Optionally, you can use a dual monitor stand and recover your workspace in the process!
PCI
Express - Delivering Dramatically Improved Graphics
Doubling the bandwidth of the AGP 8X graphics bus, the new PCI Express represents
the most profound change to desktop architecture in nearly a decade. PCI
Express replaces AGP, allowing much larger amounts of data to move between
the graphics card and the CPU, and will soon replace PCI expansion slots
as well. The PCI standard allows for a 32-bit bus with a maximum throughput
of 133MB/s. By contrast, PCI Express will run at 2.5GHz. PCI Express is
a two-way serial connection that carries data in packets along two pairs
of point-to-point data lines, compared to the single parallel data bus of
traditional PCI. Gamers will benefit from an incredible upgrade in video
quality with PCI Express, because it will allow for more powerful video
cards, inspiring developers to create more realistic environments that will
make games come alive with astonishingly lifelike colors and images. Video
enthusiasts will also benefit because PCI Express will accommodate higher-quality
video throughput (amount of data you can send per second). As network television
moves over to HDTV broadcasts, PCI Express positions the PC platform for
integration into the living room, while also allowing for HD video editing
and other bandwidth-intensive tasks. PCI Express is compatible with existing
PCI drivers and software operating systems and is designed to co-exist with
current PCI hardware.
PCI
Express 2.0 - High End Graphics Have Arrived
PCI Express Base 2.0 specification doubles the interconnect bit rate from
2.5 GT/s to 5 GT/s in a seamless and compatible manner. The performance
boost to 5 GT/s is by far the most important feature of the PCI Express
2.0 specifications. It effectively increases the aggregate bandwidth of
a 16-lane link to approximately 16 GB/s. The higher bandwidth will allow
product designers to implement narrower interconnect links to achieve
high performance while reducing cost.
A number
of optimizations and improvements have been made to the protocol and software
layers of the PCI Express architecture in the PCI Express Base 2.0 specification.
These include:
Dynamic
link speed management – to control the speed at which the link is operating
Link bandwidth
notification – to notify software (operating system, device drivers,
etc) of changes in link speed and width
Capability
structure expansion – to expand the control registers to better manage
devices, slots and the interconnect
Access
control services – optional controls to manage peer-peer transactions
Completion
timeout control – to define a required disable mechanism plus related
optional enhancements
Function-level
reset – optional mechanism to reset functions within a device
Power
limit redefinition – to redefine slot power limit values to accommodate
devices that consume higher power
Video Card Designs
Today's high performance video cards
enable amazing graphics, and frequently come emblazoned with high-impact
graphics, or in brilliant colors. These help to enhance the appeal of
the card. However, from time to time, manufacturers do change these
designs and colors, but this has no effect on the features, specifications,
or performance of the specific video card model, and will usually retain the
same manufacturer's model and part number. The images displayed for a
video card are based upon the sample provided by the manufacturer, and the
specific visual design you receive may vary. So remember, while the
card may look cool, it's the specs that matter!
Will Your
Motherboard Support the Video Card You're Purchasing? Here's the Answer...
Before you
buy - make sure your motherboard is compatible with this video card. For
example, PCI Express video cards won't work with motherboards designed
only for AGP or PCI video cards, and vice versa. Please read the specifications
carefully or call us for expert advice.
Close-Up:
PCI, AGP, and PCI-E (PCI Express)
Check
your motherboard and make sure you are purchasing the correct cardbus
type.
There are 3 types of cardbus slots currently available:
PCI, AGP, and PCI Express (PCIe 2.0 is compatible with PCIe slot)
PCI
- The most widely used I/O bus, it provides a shared data path between
the CPU and peripheral controllers, such as network, display, SCSI and
RAID cards. Though limited in terms of performance, they are considered
the best value when you upgrade your video capabilities on a PC. The PCI
interface can be found and used in nearly any motherboard. Click
here to view our selection of PCI Cards
AGP
- The AGP slot is next in line of higher graphic performance. It was designed
especially for the throughput demands of 3-D graphics. It offers up to
8x improvement over a PCI card, is 32 bits wide and runs at 66 MHz. It
provides a direct connection between the card and memory, and only one
AGP slot is on the motherboard. The motherboard must be equipped with
an AGP bus slot for an AGP card to be compatible.(AGP 1x provided a data
transfer rate of 264 Mbytes/sec. AGP 2x is 528 Mbytes/sec. AGP 4x is 1
Gbyte/sec. AGP 8x is 2 Gbytes/sec.) Click
here to view our selection of AGP Cards
PCI
Express - PCI Express is the newest technology that
is superior to both PCI and AGP, in terms of graphic performance. It offers
performance as much as 4x faster than the fastest AGP 8X slot. PCI Express
connections can support fast data transfer rates, which can be used to
connect high-speed devices such as high-end video cards. The slots come
in different variations and speeds, such as x1, x4, x8, and x16. Presently,
most high-end motherboards meant for design, video production, or gaming
come with PCI express slots. To use a PCI Express card, your computer
must have at least one available PCI Express slot. Click
here to view our selection of PCI Express Cards
For support on this product, please contact EVGA at 888-881-3842. Defective exchanges for identical item within 30 days of purchase permitted on this product with prior manufacturer approval.
Manufactured by:
EVGA Warranty provided by:
EVGA Limited Warranty:
12 months parts;
12 months labor
Mfg Part No:
01G-P3-1080-TR UPC No:
843368011116 Box Size:
( Length:
14, Width:
10, Depth:
4 )
Shipping Weight:
3.2500 pound(s)
Click here for full warranty and support information
Limited Warranty: A full text version of the limited warranty
may be obtained by mailing a self addressed, stamped envelope to the
address below and requesting the warranty for item number:
E145-0284
TigerDirect.com
Warranty Information
7795 W. Flagler St. Suite 35
Miami, FL. 33144
0
Item Total
$0.00
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GPU/VPU:
NVIDIA®
PureVideo™ HD Technology
Dynamic
link speed management – to control the speed at which the link is operating
