GeForce GTX 660M vs Radeon R7 384 Cores Kaveri
When comparing GeForce GTX 660M and Radeon R7 384 Cores Kaveri, we look primarily at benchmarks and game tests. But it is not only about the numbers. Often you can find third-party models with higher clock speeds, better cooling, or a customizable RGB lighting. Not all of them will have all the features you need. Another thing to consider is the port selection. Most graphics cards have at least one DisplayPort and HDMI interface, but some monitors require DVI. Before you buy, check the TDP of the graphics card - this characteristic will help you estimate the consumption of the graphics card. You may even have to upgrade your PSU to meet its requirements. An important factor when choosing between GeForce GTX 660M and Radeon R7 384 Cores Kaveri is the price. Does the additional cost justify the performance hit? Our comparison should help you make the right decision.
Radeon R7 384 Cores Kaveri
GeForce GTX 660M is a Laptop Graphics Card
Note: GeForce GTX 660M is only used in laptop graphics. It has lower GPU clock speed compared to the desktop variant, which results in lower power consumption, but also 10-30% lower gaming performance. Check available laptop models with GeForce GTX 660M here:
Main Specs
| GeForce GTX 660M | Radeon R7 384 Cores Kaveri | |
| Power consumption (TDP) | 50 Watt | |
| Interface | MXM-B (3.0) | |
| Memory type | GDDR5 | |
| Maximum RAM amount | 2 GB | |
| Display Connectors | No outputs | |
| Check Price |
- GeForce GTX 660M is used in Laptops, and Radeon R7 384 Cores Kaveri - in Desktops.
- GeForce GTX 660M is build with Kepler architecture, and Radeon R7 384 Cores Kaveri - with GCN.
- Core clock speed of GeForce GTX 660M is 115 MHz higher, than Radeon R7 384 Cores Kaveri.
- GeForce GTX 660M and Radeon R7 384 Cores Kaveri are manufactured by 28 nm process technology.
Game benchmarks
| high / 1080p | 6−7 | 7−8 |
| ultra / 1080p | 4−5 | 4−5 |
| QHD / 1440p | 0−1 | 0−1 |
| low / 720p | 16−18 | 18−20 |
| medium / 1080p | 8−9 | 9−10 |
| The average gaming FPS of Radeon R7 384 Cores Kaveri in Assassin's Creed Odyssey is 11% more, than GeForce GTX 660M. | ||
| high / 1080p | 12−14 | 12−14 |
| ultra / 1080p | 10−11 | 10−12 |
| QHD / 1440p | 0−1 | 0−1 |
| low / 720p | 24−27 | 27−30 |
| medium / 1080p | 12−14 | 14−16 |
| The average gaming FPS of Radeon R7 384 Cores Kaveri in Battlefield 5 is 6% more, than GeForce GTX 660M. | ||
| low / 768p | 45−50 | 45−50 |
| high / 1080p | 45−50 | 45−50 |
| QHD / 1440p | 0−1 | 0−1 |
| GeForce GTX 660M and Radeon R7 384 Cores Kaveri have the same average FPS in Call of Duty: Warzone. | ||
| low / 768p | 130−140 | 140−150 |
| medium / 768p | 110−120 | 110−120 |
| ultra / 1080p | 50−55 | 55−60 |
| QHD / 1440p | 27−30 | 30−35 |
| 4K / 2160p | 27−30 | 27−30 |
| high / 768p | 80−85 | 85−90 |
| The average gaming FPS of Radeon R7 384 Cores Kaveri in Counter-Strike: Global Offensive is 5% more, than GeForce GTX 660M. | ||
| low / 768p | 55−60 | 55−60 |
| ultra / 1080p | 18−20 | 21−24 |
| medium / 1080p | 45−50 | 45−50 |
| The average gaming FPS of Radeon R7 384 Cores Kaveri in Cyberpunk 2077 is 2% more, than GeForce GTX 660M. | ||
| low / 768p | 80−85 | 85−90 |
| medium / 768p | 55−60 | 60−65 |
| ultra / 1080p | 30−35 | 35−40 |
| The average gaming FPS of Radeon R7 384 Cores Kaveri in Dota 2 is 8% more, than GeForce GTX 660M. | ||
| high / 1080p | 8−9 | 9−10 |
| ultra / 1080p | 7−8 | 8−9 |
| 4K / 2160p | 3−4 | 4−5 |
| low / 720p | 18−20 | 21−24 |
| medium / 1080p | 8−9 | 10−11 |
| The average gaming FPS of Radeon R7 384 Cores Kaveri in Far Cry 5 is 22% more, than GeForce GTX 660M. | ||
| high / 1080p | 14−16 | 16−18 |
| ultra / 1080p | 10−11 | 10−12 |
| low / 720p | 60−65 | 65−70 |
| medium / 1080p | 21−24 | 24−27 |
| The average gaming FPS of Radeon R7 384 Cores Kaveri in Fortnite is 11% more, than GeForce GTX 660M. | ||
| high / 1080p | 12−14 | 12−14 |
| ultra / 1080p | 10−12 | 12−14 |
| QHD / 1440p | 1−2 | 2−3 |
| low / 720p | 24−27 | 27−30 |
| medium / 1080p | 14−16 | 14−16 |
| The average gaming FPS of Radeon R7 384 Cores Kaveri in Forza Horizon 4 is 7% more, than GeForce GTX 660M. | ||
| low / 768p | 50−55 | 55−60 |
| medium / 768p | 45−50 | 45−50 |
| high / 1080p | 12−14 | 14−16 |
| ultra / 1080p | 6−7 | 7−8 |
| QHD / 1440p | 0−1 | 0−1 |
| The average gaming FPS of Radeon R7 384 Cores Kaveri in Grand Theft Auto V is 6% more, than GeForce GTX 660M. | ||
| high / 1080p | 4−5 | 5−6 |
| ultra / 1080p | 3−4 | 3−4 |
| 4K / 2160p | 0−1 | 0−1 |
| low / 720p | 12−14 | 14−16 |
| medium / 1080p | 6−7 | 7−8 |
| The average gaming FPS of Radeon R7 384 Cores Kaveri in Metro Exodus is 16% more, than GeForce GTX 660M. | ||
| low / 768p | 95−100 | 95−100 |
| high / 1080p | 90−95 | 90−95 |
| ultra / 1080p | 80−85 | 80−85 |
| medium / 1080p | 90−95 | 95−100 |
| The average gaming FPS of Radeon R7 384 Cores Kaveri in Minecraft is 1% more, than GeForce GTX 660M. | ||
| high / 1080p | 16−18 | 16−18 |
| ultra / 1080p | 14−16 | 14−16 |
| low / 720p | 30−35 | 35−40 |
| medium / 1080p | 18−20 | 18−20 |
| The average gaming FPS of Radeon R7 384 Cores Kaveri in PLAYERUNKNOWN'S BATTLEGROUNDS is 10% more, than GeForce GTX 660M. | ||
| ultra / 1080p | 7−8 | 8−9 |
| QHD / 1440p | 0−1 | 0−1 |
| low / 720p | 12−14 | 14−16 |
| medium / 1080p | 10−12 | 10−12 |
| The average gaming FPS of Radeon R7 384 Cores Kaveri in Red Dead Redemption 2 is 10% more, than GeForce GTX 660M. | ||
| low / 768p | 24−27 | 27−30 |
| medium / 768p | 16−18 | 18−20 |
| high / 1080p | 9−10 | 10−11 |
| ultra / 1080p | 6−7 | 7−8 |
| 4K / 2160p | 6−7 | 6−7 |
| The average gaming FPS of Radeon R7 384 Cores Kaveri in The Witcher 3: Wild Hunt is 7% more, than GeForce GTX 660M. | ||
| low / 768p | 85−90 | 85−90 |
| medium / 768p | 45−50 | 45−50 |
| ultra / 1080p | 18−20 | 21−24 |
| high / 768p | 35−40 | 35−40 |
| The average gaming FPS of Radeon R7 384 Cores Kaveri in World of Tanks is 2% more, than GeForce GTX 660M. | ||
Full Specs
| GeForce GTX 660M | Radeon R7 384 Cores Kaveri | |
| Architecture | Kepler | GCN |
| Code name | N13E-GE | Kaveri Spectre |
| Type | Laptop | Desktop |
| Release date | 22 March 2012 | 14 January 2014 |
| Pipelines | 384 | 384 |
| Core clock speed | 835 MHz | 720 MHz |
| Boost Clock | 950 MHz | |
| Transistor count | 1,270 million | |
| Manufacturing process technology | 28 nm | 28 nm |
| Texture fill rate | 30.4 billion/sec | |
| Floating-point performance | 729.6 gflops | |
| Memory bus width | 128bit | |
| Memory clock speed | 2000 MHz | |
| Memory bandwidth | 64.0 GB/s | |
| Shared memory | - | + |
| DirectX | 12 API | DirectX 12 (FL 12_0), Shader 5.2 |
| Shader Model | 5.1 | |
| OpenGL | 4.5 | |
| OpenCL | 1.1 | |
| Vulkan | 1.1.126 | |
| CUDA | + | |
| CUDA cores | 384 | |
| Bus support | PCI Express 2.0, PCI Express 3.0 | |
| SLI options | + | |
| HDMI | + | |
| HDCP | + | |
| Maximum VGA resolution | Up to 2048x1536 | |
| Bitcoin / BTC (SHA256) | 36 Mh/s | |
| Laptop size | large | |
| Optimus | + | |
| Check Price |
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