EVGA GeForce GTX 760
MSI GeForce GTX 680 Twin Frozr III
Comparision EVGA GeForce GTX 760 vs MSI GeForce GTX 680 Twin Frozr III
Grade
EVGA GeForce GTX 760
MSI GeForce GTX 680 Twin Frozr III
Performance
5
5
Memory
3
3
General information
7
7
Functions
6
6
Benchmark tests
2
2
Ports
3
3
Top specs and features
- Passmark score
- 3DMark Cloud Gate GPU benchmark score
- 3DMark Fire Strike Score
- 3DMark Fire Strike Graphics test score
- 3DMark 11 Performance GPU benchmark score
Passmark score
EVGA GeForce GTX 760: 4695
MSI GeForce GTX 680 Twin Frozr III: 5515
3DMark Cloud Gate GPU benchmark score
EVGA GeForce GTX 760: 39465
MSI GeForce GTX 680 Twin Frozr III: 47434
3DMark Fire Strike Score
EVGA GeForce GTX 760: 5338
MSI GeForce GTX 680 Twin Frozr III: 6906
3DMark Fire Strike Graphics test score
EVGA GeForce GTX 760: 5858
MSI GeForce GTX 680 Twin Frozr III: 7636
3DMark 11 Performance GPU benchmark score
EVGA GeForce GTX 760: 7826
MSI GeForce GTX 680 Twin Frozr III: 10283
Description
The EVGA GeForce GTX 760 video card is based on the Kepler architecture. MSI GeForce GTX 680 Twin Frozr III on the Kepler architecture. The first has 3540 million transistors. The second is 3540 million. EVGA GeForce GTX 760 has a transistor size of 28 nm versus 28.
The base clock speed of the first video card is 980 MHz versus 1058 MHz for the second.
Let's move on to memory. EVGA GeForce GTX 760 has 2 GB. MSI GeForce GTX 680 Twin Frozr III has 2 GB installed. The bandwidth of the first video card is 192.2 Gb/s versus 192 Gb/s of the second.
FLOPS of EVGA GeForce GTX 760 is 2.16. At MSI GeForce GTX 680 Twin Frozr III 3.17.
Goes to tests in benchmarks. In the Passmark benchmark, EVGA GeForce GTX 760 scored 4695 points. And here is the second card 5515 points. In 3DMark, the first model scored 5858 points. Second 7636 points.
In terms of interfaces. The first video card is connected using PCIe 3.0 x16. The second is PCIe 3.0 x16. Video card EVGA GeForce GTX 760 has Directx version 11. Video card MSI GeForce GTX 680 Twin Frozr III -- Directx version - 11.
Regarding cooling, EVGA GeForce GTX 760 has 170W heat dissipation requirements versus 195W for MSI GeForce GTX 680 Twin Frozr III.
Why MSI GeForce GTX 680 Twin Frozr III is better than EVGA GeForce GTX 760
EVGA GeForce GTX 760 vs MSI GeForce GTX 680 Twin Frozr III: highlights
EVGA GeForce GTX 760
MSI GeForce GTX 680 Twin Frozr III
Performance
GPU base clock speed
The graphics processing unit (GPU) has a high clock speed.
980 MHz
Average: 1124.9 MHz
1058 MHz
Average: 1124.9 MHz
Gpu memory speed
This is an important aspect for calculating memory bandwidth.
1502 MHz
Average: 1468 MHz
1502 MHz
Average: 1468 MHz
FLOPS
Measuring the processing power of a processor is called FLOPS.
2.16 TFLOPS
Average: 53 TFLOPS
3.17 TFLOPS
Average: 53 TFLOPS
RAM
RAM in video cards (also known as video memory or VRAM) is a special type of memory used by a video card to store graphics data. It serves as a temporary buffer for textures, shaders, geometry, and other graphics resources that are needed to display images on the screen. More RAM allows the graphics card to work with more data and handle more complex graphic scenes with high resolution and detail.
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2 GB
Average: 4.6 GB
2 GB
Average: 4.6 GB
Number of PCIe lanes
The number of PCIe lanes in video cards determines the speed and bandwidth of data transfer between the video card and other computer components through the PCIe interface. The more PCIe lanes a video card has, the more bandwidth and ability to communicate with other computer components.
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16
Average:
16
Average:
L1 cache size
The amount of L1 cache in video cards is usually small and is measured in kilobytes (KB) or megabytes (MB). It is designed to temporarily store the most active and frequently used data and instructions, allowing the graphics card to access them faster and reduce delays in graphics operations.
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16
16
Pixel rendering speed
The higher the pixel rendering speed, the smoother and more realistic the display of graphics and the movement of objects on the screen will be.
23.5 GTexel/s
Average: 94.3 GTexel/s
33.9 GTexel/s
Average: 94.3 GTexel/s
TMUs
Responsible for texturing objects in 3D graphics. TMU provides textures to the surfaces of objects, which gives them a realistic look and detail. The number of TMUs in a video card determines its ability to process textures. The more TMUs, the more textures can be processed at the same time, which contributes to better texturing of objects and increases the realism of graphics.
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96
Average: 140.1
128
Average: 140.1
ROPs
Responsible for the final processing of pixels and their display on the screen. ROPs perform various operations on pixels, such as blending colors, applying transparency, and writing to the framebuffer. The number of ROPs in a video card affects its ability to process and display graphics. The more ROPs, the more pixels and image fragments can be processed and displayed on the screen at the same time. A higher number of ROPs generally results in faster and more efficient graphics rendering and better performance in games and graphics applications.
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32
Average: 56.8
32
Average: 56.8
Number of shader blocks
The number of shader units in video cards refers to the number of parallel processors that perform computational operations in the GPU. The more shader units in the video card, the more computing resources are available for processing graphics tasks.
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1152
Average:
1536
Average:
L2 cache size
Used to temporarily store data and instructions used by the graphics card when performing graphics calculations. A larger L2 cache allows the graphics card to store more data and instructions, which helps speed up the processing of graphics operations.
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512
512
Turbo gpu
If the GPU speed has dropped below its limit, then to improve performance, it can go to a high clock speed.
1032 MHz
Average: 1514 MHz
1124 MHz
Average: 1514 MHz
Texture size
A certain number of textured pixels are displayed on the screen every second.
94.1 GTexels/s
Average: 145.4 GTexels/s
135 GTexels/s
Average: 145.4 GTexels/s
architecture name
Kepler
Kepler
GPU name
GK104
GK104
Memory
Memory bandwidth
This is the rate at which the device stores or reads information.
192.2 GB/s
Average: 257.8 GB/s
192 GB/s
Average: 257.8 GB/s
Effective memory speed
The effective memory clock is calculated from the size and transfer rate of the memory information. The performance of the device in applications depends on the clock frequency. The higher it is, the better.
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6008 MHz
Average: 6984.5 MHz
6008 MHz
Average: 6984.5 MHz
RAM
RAM in video cards (also known as video memory or VRAM) is a special type of memory used by a video card to store graphics data. It serves as a temporary buffer for textures, shaders, geometry, and other graphics resources that are needed to display images on the screen. More RAM allows the graphics card to work with more data and handle more complex graphic scenes with high resolution and detail.
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2 GB
Average: 4.6 GB
2 GB
Average: 4.6 GB
GDDR memory versions
Latest versions of GDDR memory provide high data transfer rates to improve overall performance
5
Average: 4.9
5
Average: 4.9
Memory bus width
A wide memory bus means that it can transfer more information in one cycle. This property affects memory performance as well as the overall performance of the device's graphics card.
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256 bit
Average: 283.9 bit
256 bit
Average: 283.9 bit
General information
Crystal size
The physical dimensions of the chip on which the transistors, microcircuits and other components necessary for the operation of the video card are located. The larger the die size, the more space the GPU takes up on the graphics card. Larger die sizes can provide more computing resources such as CUDA cores or tensor cores, which can result in increased performance and graphics processing capabilities.
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294
Average: 356.7
294
Average: 356.7
Generation
A new generation of graphics card usually includes improved architecture, higher performance, more efficient use of power, improved graphics capabilities, and new features.
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GeForce 700
GeForce 600
Manufacturer
TSMC
TSMC
Power Consumption (TDP)
Heat Dissipation Requirements (TDP) is the maximum possible amount of energy dissipated by the cooling system. The lower the TDP, the less power will be consumed
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170 W
Average: 160 W
195 W
Average: 160 W
Technological process
The small size of the semiconductors means this is a new generation chip.
28 nm
Average: 34.7 nm
28 nm
Average: 34.7 nm
Number of transistors
The higher their number, the more processor power this indicates.
3540 million
Average: 7150 million
3540 million
Average: 7150 million
PCIe connection interface
A considerable speed of the expansion card used to connect the computer to the peripherals is provided. The updated versions offer impressive bandwidth and high performance.
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3
Average: 3
3
Average: 3
Width
241 mm
Average: 192.1 mm
270 mm
Average: 192.1 mm
Height
111 mm
Average: 89.6 mm
112 mm
Average: 89.6 mm
Purpose
Desktop
Desktop
Functions
OpenGL Version
OpenGL provides access to the graphics card's hardware capabilities for displaying 2D and 3D graphics objects. New versions of OpenGL may include support for new graphical effects, performance optimizations, bug fixes, and other improvements.
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4.3
Average:
4.3
Average:
DirectX
Used in demanding games, providing improved graphics
11
Average: 11.4
11
Average: 11.4
Shader model version
The higher the version of the shader model in the video card, the more functions and possibilities are available for programming graphic effects.
5.1
Average: 5.9
5.1
Average: 5.9
Vulkan version
A higher version of Vulkan usually means a larger set of features, optimizations, and enhancements that software developers can use to create better and more realistic graphical applications and games.
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1.2
Average:
1.2
Average:
CUDA Version
Allows you to use the compute cores of your graphics card to perform parallel computing, which can be useful in areas such as scientific research, deep learning, image processing, and other computationally intensive tasks.
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3
Average:
3
Average:
Benchmark tests
Passmark score
The Passmark Video Card Test is a program for measuring and comparing the performance of a graphics system. It conducts various tests and calculations to evaluate the speed and performance of a graphics card in various areas.
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4695
Average: 7628.6
5515
Average: 7628.6
3DMark Cloud Gate GPU benchmark score
39465
Average: 80042.3
47434
Average: 80042.3
3DMark Fire Strike Score
5338
Average: 12463
6906
Average: 12463
3DMark Fire Strike Graphics test score
It measures and compares the ability of a graphics card to handle high-resolution 3D graphics with various graphical effects. The Fire Strike Graphics test includes complex scenes, lighting, shadows, particles, reflections, and other graphical effects to evaluate the graphics card's performance in gaming and other demanding graphics scenarios.
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5858
Average: 11859.1
7636
Average: 11859.1
3DMark 11 Performance GPU benchmark score
7826
Average: 18799.9
10283
Average: 18799.9
3DMark Vantage Performance test score
28577
Average: 37830.6
29894
Average: 37830.6
Unigine Heaven 3.0 test score
74
Average: 2402
Average: 2402
Unigine Heaven 4.0 test score
During the Unigine Heaven test, the graphics card goes through a series of graphical tasks and effects that can be intensive to process, and displays the result as a numerical value (points) and a visual representation of the scene.
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837
Average: 1291.1
971
Average: 1291.1
Octane Render test score OctaneBench
A special test that is used to evaluate the performance of video cards in rendering using the Octane Render engine.
42
Average: 47.1
54
Average: 47.1
Ports
Has hdmi output
HDMI output allows you to connect devices with HDMI or mini HDMI ports. They can send video and audio to the display.
Available
Available
DisplayPort
Allows you to connect to a display using DisplayPort
1
Average: 2.2
1
Average: 2.2
DVI Outputs
Allows you to connect to a display using DVI
2
Average: 1.4
2
Average: 1.4
Number of HDMI connectors
The more their number, the more devices can be connected at the same time (for example, game / TV set-top boxes)
1
Average: 1.1
1
Average: 1.1
Interface
PCIe 3.0 x16
PCIe 3.0 x16
HDMI
A digital interface that is used to transmit high-resolution audio and video signals.
Available
Available
FAQ
How does the EVGA GeForce GTX 760 processor perform in benchmarks?
Passmark EVGA GeForce GTX 760 scored 4695 points. The second video card scored 5515 points in Passmark.
What FLOPS do video cards have?
FLOPS EVGA GeForce GTX 760 is 2.16 TFLOPS. But the second video card has FLOPS equal to 3.17 TFLOPS.
What power consumption?
EVGA GeForce GTX 760 170 Watt. MSI GeForce GTX 680 Twin Frozr III 195 Watt.
How fast are EVGA GeForce GTX 760 and MSI GeForce GTX 680 Twin Frozr III?
EVGA GeForce GTX 760 operates at 980 MHz. In this case, the maximum frequency reaches 1032 MHz. The clock base frequency of MSI GeForce GTX 680 Twin Frozr III reaches 1058 MHz. In turbo mode it reaches 1124 MHz.
What kind of memory do graphics cards have?
EVGA GeForce GTX 760 supports GDDR5. Installed 2 GB of RAM. Throughput reaches 192.2 GB/s. MSI GeForce GTX 680 Twin Frozr III works with GDDR5. The second one has 2 GB of RAM installed. Its bandwidth is 192.2 GB/s.
How many HDMI connectors do they have?
EVGA GeForce GTX 760 has 1 HDMI outputs. MSI GeForce GTX 680 Twin Frozr III is equipped with 1 HDMI outputs.
What power connectors are used?
EVGA GeForce GTX 760 uses There is no data. MSI GeForce GTX 680 Twin Frozr III is equipped with There is no data HDMI outputs.
What architecture are video cards based on?
EVGA GeForce GTX 760 is built on Kepler. MSI GeForce GTX 680 Twin Frozr III uses the Kepler architecture.
What graphics processor is being used?
EVGA GeForce GTX 760 is equipped with GK104. MSI GeForce GTX 680 Twin Frozr III is set to GK104.
How many PCIe lanes
The first graphics card has 16 PCIe lanes. And the PCIe version is 3. MSI GeForce GTX 680 Twin Frozr III 16 PCIe lanes. PCIe version 3.
How many transistors?
EVGA GeForce GTX 760 has 3540 million transistors. MSI GeForce GTX 680 Twin Frozr III has 3540 million transistors
