NVIDIA RTX 3500 Embedded Ada Generation vs NVIDIA CMP 30HX
We compared two Desktop platform GPUs: 12GB VRAM RTX 3500 Embedded Ada Generation and 6GB VRAM CMP 30HX to see which GPU has better performance in key specifications, benchmark tests, power consumption, etc.
Main Differences
NVIDIA RTX 3500 Embedded Ada Generation 's Advantages
Released 2 years and 1 months late
Boost Clock has increased by 26% (2250MHz vs 1785MHz)
More VRAM (12GB vs 6GB)
Larger VRAM bandwidth (432.0GB/s vs 336.0GB/s)
3712 additional rendering cores
Lower TDP (100W vs 125W)
Score
Benchmark
FP32 (float)
RTX 3500 Embedded Ada Generation
+358%
23.04 TFLOPS
CMP 30HX
5.027 TFLOPS
Graphics Card
Mar 2023
Release Date
Feb 2021
Quadro Ada-M
Generation
Mining GPUs
Desktop
Type
Desktop
PCIe 4.0 x16
Bus Interface
PCIe 1.0 x4
Clock Speeds
1725 MHz
Base Clock
1530 MHz
2250 MHz
Boost Clock
1785 MHz
2250 MHz
Memory Clock
1750 MHz
Memory
12GB
Memory Size
6GB
GDDR6
Memory Type
GDDR6
192bit
Memory Bus
192bit
432.0GB/s
Bandwidth
336.0GB/s
Render Config
-
-
-
40
SM Count
22
5120
Shading Units
1408
160
TMUs
88
64
ROPs
48
160
Tensor Cores
-
40
RT Cores
-
128 KB (per SM)
L1 Cache
64 KB (per SM)
48 MB
L2 Cache
1536 KB
-
-
-
Theoretical Performance
144.0 GPixel/s
Pixel Rate
85.68 GPixel/s
360.0 GTexel/s
Texture Rate
157.1 GTexel/s
23.04 TFLOPS
FP16 (half)
10.05 TFLOPS
23.04 TFLOPS
FP32 (float)
5.027 TFLOPS
360.0 GFLOPS
FP64 (double)
157.1 GFLOPS
Board Design
100W
TDP
125W
300 W
Suggested PSU
300 W
No outputs
Outputs
No outputs
None
Power Connectors
1x 8-pin
Graphics Processor
AD104
GPU Name
TU116
-
GPU Variant
TU116-100-A1
Ada Lovelace
Architecture
Turing
TSMC
Foundry
TSMC
5 nm
Process Size
12 nm
35.8 billion
Transistors
6.6 billion
294 mm²
Die Size
284 mm²
Graphics Features
12 Ultimate (12_2)
DirectX
12 (12_1)
4.6
OpenGL
4.6
3.0
OpenCL
3.0
1.3
Vulkan
1.3
8.9
CUDA
7.5
6.7
Shader Model
6.8
