NVIDIA Quadro P3200 Laptop vs NVIDIA GeForce RTX 2070 Max-Q

NVIDIA Quadro P3200 Laptop
NVIDIA GeForce RTX 2070 Max-Q
1792 Shaders
6GB GDDR5
1543MHz
2304 Shaders
8GB GDDR6
1185MHz
Peak AI Performance
22.12 TOPS
INT8
Peak AI Performance
174.74 TOPS
INT4 Tensor
FP32
5.53 TFLOPS
FP32
5.46 TFLOPS
FP16
90 GFLOPS
FP16
10.92 TFLOPS
Form Factor
Soldered
Form Factor
Soldered
TDP
78W
TDP
80W

Peak AI Performance

  • 87% slower vs GeForce RTX 2070 Max-Q
  • 7.9x faster vs Quadro P3200 Laptop
Quadro P3200 Laptop - 22.12 TOPS INT8
x1
GeForce RTX 2070 Max-Q - 174.74 TOPS INT4 Tensor
x7.9

FP32

  • 1% faster vs GeForce RTX 2070 Max-Q
  • 1% slower vs Quadro P3200 Laptop
Quadro P3200 Laptop - 5.53 TFLOPS FP32
x1.01
GeForce RTX 2070 Max-Q - 5.46 TFLOPS FP32
x1

FP16

  • 99% slower vs GeForce RTX 2070 Max-Q
  • 121.33x faster vs Quadro P3200 Laptop
Quadro P3200 Laptop - 90 GFLOPS FP16
x1
GeForce RTX 2070 Max-Q - 10.92 TFLOPS FP16
x121.33
  • 56% slower vs GeForce RTX 2070 Max-Q
  • 2.29x faster vs Quadro P3200 Laptop
Quadro P3200 Laptop - 168GB/s
x1
GeForce RTX 2070 Max-Q - 384GB/s
x2.29
  • 3% lower vs GeForce RTX 2070 Max-Q
  • 3% higher vs Quadro P3200 Laptop
Quadro P3200 Laptop - 78W
x1
GeForce RTX 2070 Max-Q - 80W
x1.03
GB6 OpenCL N/A
0%
GB5 OpenCL N/A
0%
GB5 OpenCL 73,970
24%
GB5 CUDA N/A
0%
GB5 CUDA 85,865
24%
GB5 Vulkan N/A
0%
GB5 Vulkan 63,555
31%
OCT 2020.1 N/A
0%
OCT 2020.1 185
24%
Manufacturer
NVIDIA
Manufacturer
NVIDIA
Chip Designer
NVIDIA
Chip Designer
NVIDIA
Architecture
Pascal
Architecture
Turing
Family
Quadro P
Family
GeForce 20
Codename
NV134
GP104
-
-
Codename
NV166
TU106
Variant
N18E-G2
Market Segment
Laptop
Market Segment
Laptop
Release Date
2/21/2018
Release Date
1/29/2019
Foundry
TSMC
Foundry
TSMC
Fabrication Node
16FF
Fabrication Node
12FFN
Die Size
314 mm²
Die Size
445 mm²
Transistor Count
7.2 Billion
Transistor Count
10.8 Billion
Transistor Density
22.93M/mm²
Transistor Density
24.27M/mm²
Form
Soldered
Form
Soldered
Shading Units
1792 Shaders
Shading Units
2304 Shaders
Texture Mapping Units
112 TMUs
Texture Mapping Units
144 TMUs
Render Output Units
64 ROPs
Render Output Units
64 ROPs
-
-
Tensor Cores
288 T-Cores
-
-
Ray-Tracing Cores
36 RT-Cores
Streaming Multiprocessors
14 SMs
Streaming Multiprocessors
36 SMs
-
-
Graphics Processing Clusters
3 GPCs
1328MHz Base
1543MHz
885MHz Base
1185MHz
Peak AI Performance
22.12 TOPS
INT8
Peak AI Performance
174.74 TOPS
INT4 Tensor
FP16
90 GFLOPS
-
-
FP16
10.92 TFLOPS
43.68 TFLOPS Tensor (FP16 Accumulate)
21.84 TFLOPS Tensor (FP32 Accumulate)
FP32
5.53 TFLOPS
FP32
5.46 TFLOPS
FP64
170 GFLOPS
FP64
170 GFLOPS
-
-
BF16
21.84 TFLOPS Tensor
-
-
TF32
21.84 TFLOPS Tensor
-
-
INT4
174.74 TOPS Tensor
INT8
22.12 TOPS
-
INT8
-
87.37 TOPS Tensor
-
-
Ray Tracing
16.5 TOPS
Pixel Fillrate
98.752 GPixel/s
Pixel Fillrate
75.84 GPixel/s
Texture Fillrate
172.816 GTexel/s
Texture Fillrate
170.64 GTexel/s
L1
-
48KB/SM
L1
32KB/SM Tex
64KB/SM
L2
2MB Shared
L2
4MB Shared
6GB
GDDR5
8GB
GDDR6
Bus Width
192Bit
Bus Width
256Bit
Clock
1750MHz
Transfer Rate
7GT/s
Bandwidth
168GB/s
Clock
1500MHz
Transfer Rate
12GT/s
Bandwidth
384GB/s
TDP
78W
TDP
80W
Max Resolution
7680x4320
Max Resolution
7680x4320
Max Resolution Refresh Rate
30Hz
Max Resolution Refresh Rate
60Hz
Variable Refresh Rate
G-Sync
FreeSync
Variable Refresh Rate
G-Sync
FreeSync
Display Stream Compression (DSC)
Not Supported
Display Stream Compression (DSC)
Supported
Multi Monitor Support
3
Multi Monitor Support
3
-
-
Content Protection
HDCP 2.2
Model
2x NVENC 4
Model
NVENC 7
Codec
AVC (H.264)
HEVC (H.265)
Codec
AVC (H.264)
HEVC (H.265)
Model
NVDEC 3
Model
NVDEC 4
Codec
MPEG-1
MPEG-2
MPEG-4
VC-1
-
VP9
AVC (H.264)
HEVC (H.265)
Codec
MPEG-1
MPEG-2
MPEG-4
VC-1
VP8
VP9
AVC (H.264)
HEVC (H.265)
Direct X
12
Direct 3D
12_1
Direct X
12
Direct 3D
12_2
OpenGL
4.6
OpenCL
3.0
Vulkan
1.3
OpenGL
4.6
OpenCL
3.0
Vulkan
1.2
Shader Model
6.7
CUDA
6.1
PureVideo HD
VP8
VDPAU
Feature Set H
Shader Model
6.6
CUDA
7.5
PureVideo HD
VP10
VDPAU
Feature Set J
Not a Card
Not a Card
PCIe Version
3.0
PCIe Lanes
16
PCIe Version
3.0
PCIe Lanes
16
Change Comparison