NVIDIA Quadro P5200 Max-Q vs NVIDIA GeForce GTX 780
Comparative analysis of NVIDIA Quadro P5200 Max-Q and NVIDIA GeForce GTX 780 videocards for all known characteristics in the following categories: Essentials, Technical info, Video outputs and ports, API support, Memory, Compatibility, dimensions and requirements, Technologies. Benchmark videocards performance analysis: Geekbench - OpenCL, PassMark - G3D Mark, PassMark - G2D Mark, CompuBench 1.5 Desktop - Face Detection (mPixels/s), CompuBench 1.5 Desktop - Ocean Surface Simulation (Frames/s), CompuBench 1.5 Desktop - T-Rex (Frames/s), CompuBench 1.5 Desktop - Video Composition (Frames/s), CompuBench 1.5 Desktop - Bitcoin Mining (mHash/s), GFXBench 4.0 - Car Chase Offscreen (Frames), GFXBench 4.0 - Manhattan (Frames), GFXBench 4.0 - T-Rex (Frames), GFXBench 4.0 - Car Chase Offscreen (Fps), GFXBench 4.0 - Manhattan (Fps), GFXBench 4.0 - T-Rex (Fps), 3DMark Fire Strike - Graphics Score.
Differences
Reasons to consider the NVIDIA Quadro P5200 Max-Q
- Videocard is newer: launch date 4 year(s) 8 month(s) later
- Around 52% higher core clock speed: 1316 MHz vs 863 MHz
- Around 74% higher boost clock speed: 1569 MHz vs 900 MHz
- 1563.9x more texture fill rate: 251.0 GTexel/s vs 160.5 billion / sec
- Around 11% higher pipelines: 2560 vs 2304
- A newer manufacturing process allows for a more powerful, yet cooler running videocard: 16 nm vs 28 nm
- 2.5x lower typical power consumption: 100 Watt vs 250 Watt
- 5.3x more maximum memory size: 16 GB vs 3 GB
- 2x better performance in Geekbench - OpenCL: 47268 vs 23385
| Specifications (specs) | |
| Launch date | 21 February 2018 vs 23 May 2013 |
| Core clock speed | 1316 MHz vs 863 MHz |
| Boost clock speed | 1569 MHz vs 900 MHz |
| Texture fill rate | 251.0 GTexel/s vs 160.5 billion / sec |
| Pipelines | 2560 vs 2304 |
| Manufacturing process technology | 16 nm vs 28 nm |
| Thermal Design Power (TDP) | 100 Watt vs 250 Watt |
| Maximum memory size | 16 GB vs 3 GB |
| Benchmarks | |
| Geekbench - OpenCL | 47268 vs 23385 |
Reasons to consider the NVIDIA GeForce GTX 780
- 3.3x more memory clock speed: 6008 MHz vs 1804 MHz (7216 MHz effective)
| Memory clock speed | 6008 MHz vs 1804 MHz (7216 MHz effective) |
Compare benchmarks
GPU 1: NVIDIA Quadro P5200 Max-Q
GPU 2: NVIDIA GeForce GTX 780
| Geekbench - OpenCL |
|
|
| Name | NVIDIA Quadro P5200 Max-Q | NVIDIA GeForce GTX 780 |
|---|---|---|
| Geekbench - OpenCL | 47268 | 23385 |
| PassMark - G3D Mark | 8011 | |
| PassMark - G2D Mark | 590 | |
| CompuBench 1.5 Desktop - Face Detection (mPixels/s) | 57.735 | |
| CompuBench 1.5 Desktop - Ocean Surface Simulation (Frames/s) | 1269.688 | |
| CompuBench 1.5 Desktop - T-Rex (Frames/s) | 5.505 | |
| CompuBench 1.5 Desktop - Video Composition (Frames/s) | 37.407 | |
| CompuBench 1.5 Desktop - Bitcoin Mining (mHash/s) | 174.323 | |
| GFXBench 4.0 - Car Chase Offscreen (Frames) | 9064 | |
| GFXBench 4.0 - Manhattan (Frames) | 3714 | |
| GFXBench 4.0 - T-Rex (Frames) | 3358 | |
| GFXBench 4.0 - Car Chase Offscreen (Fps) | 9064 | |
| GFXBench 4.0 - Manhattan (Fps) | 3714 | |
| GFXBench 4.0 - T-Rex (Fps) | 3358 | |
| 3DMark Fire Strike - Graphics Score | 2779 |
Compare specifications (specs)
| NVIDIA Quadro P5200 Max-Q | NVIDIA GeForce GTX 780 | |
|---|---|---|
Essentials |
||
| Architecture | Pascal | Kepler |
| Code name | GP104 | GK110 |
| Launch date | 21 February 2018 | 23 May 2013 |
| Place in performance rating | 459 | 461 |
| Type | Laptop | Desktop |
| Launch price (MSRP) | $649 | |
| Price now | $740.99 | |
| Value for money (0-100) | 12.94 | |
Technical info |
||
| Boost clock speed | 1569 MHz | 900 MHz |
| Core clock speed | 1316 MHz | 863 MHz |
| Manufacturing process technology | 16 nm | 28 nm |
| Peak Double Precision (FP64) Performance | 251.0 GFLOPS | |
| Peak Half Precision (FP16) Performance | 125.5 GFLOPS | |
| Peak Single Precision (FP32) Performance | 8.033 TFLOPS | |
| Pipelines | 2560 | 2304 |
| Pixel fill rate | 100.4 GPixel/s | |
| Texture fill rate | 251.0 GTexel/s | 160.5 billion / sec |
| Thermal Design Power (TDP) | 100 Watt | 250 Watt |
| Transistor count | 7200 million | 7,080 million |
| CUDA cores | 2304 | |
| Floating-point performance | 4,156 gflops | |
| Maximum GPU temperature | 95 °C | |
Video outputs and ports |
||
| Display Connectors | No outputs | One Dual Link DVI-I, One Dual Link DVI-D, One HDMI..., 2x DVI, 1x HDMI, 1x DisplayPort |
| Audio input for HDMI | Internal | |
| G-SYNC support | ||
| HDCP | ||
| HDMI | ||
| Maximum VGA resolution | 2048x1536 | |
| Multi monitor support | ||
API support |
||
| DirectX | 12 | 12.0 (11_0) |
| OpenCL | 1.2 | |
| OpenGL | 4.6 | 4.3 |
| Shader Model | 6.4 | |
| Vulkan | ||
Memory |
||
| Maximum RAM amount | 16 GB | 3 GB |
| Memory bandwidth | 230.9 GB/s | 288.4 GB / s |
| Memory bus width | 256 bit | 384 Bit |
| Memory clock speed | 1804 MHz (7216 MHz effective) | 6008 MHz |
| Memory type | GDDR5 | GDDR5 |
Compatibility, dimensions and requirements |
||
| Bus support | PCI Express 3.0 | |
| Height | 4.376" (11.1 cm) | |
| Interface | PCIe 3.0 x16 | |
| Length | 10.5" (26.7 cm) | |
| Minimum recommended system power | 600 Watt | |
| Supplementary power connectors | One 8-pin and one 6-pin | |
Technologies |
||
| 3D Gaming | ||
| 3D Vision | ||
| 3D Vision Live | ||
| Adaptive VSync | ||
| Blu Ray 3D | ||
| CUDA | ||
| FXAA | ||
| GPU Boost | ||
| PhysX | ||
| TXAA | ||
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