NVIDIA RTX 6000 Ada vs NVIDIA CMP 40HX

VS

We compared two Desktop platform GPUs: 48GB VRAM RTX 6000 Ada and 8GB VRAM CMP 40HX to see which GPU has better performance in key specifications, benchmark tests, power consumption, etc.

Main Differences

NVIDIA RTX 6000 Ada 's Advantages

Released 1 years and 10 months late

Boost Clock has increased by 54% (2535MHz vs 1650MHz)

More VRAM (48GB vs 8GB)

Larger VRAM bandwidth (768.0GB/s vs 448.0GB/s)

15872 additional rendering cores

NVIDIA CMP 40HX 's Advantages

Lower TDP (185W vs 300W)

Score

Benchmark

FP32 (float)

RTX 6000 Ada +1112%

92.15 TFLOPS

CMP 40HX

7.603 TFLOPS

RTX 6000 Ada

VS

CMP 40HX

Graphics Card

Dec 2022

Release Date

Feb 2021

Quadro Ada

Generation

Mining GPUs

Desktop

Type

Desktop

PCIe 4.0 x16

Bus Interface

PCIe 3.0 x16

Clock Speeds

2175 MHz

Base Clock

1470 MHz

2535 MHz

Boost Clock

1650 MHz

2000 MHz

Memory Clock

1750 MHz

Memory

48GB

Memory Size

8GB

GDDR6

Memory Type

GDDR6

384bit

Memory Bus

256bit

768.0GB/s

Bandwidth

448.0GB/s

Render Config

142

SM Count

36

-

Compute Units

-

18176

Shading Units

2304

568

TMUs

144

192

ROPs

64

568

Tensor Cores

288

142

RT Cores

36

128 KB (per SM)

L1 Cache

64 KB (per SM)

96 MB

L2 Cache

4 MB

Theoretical Performance

486.7 GPixel/s

Pixel Rate

105.6 GPixel/s

1440 GTexel/s

Texture Rate

237.6 GTexel/s

92.15 TFLOPS

FP16 (half)

15.21 TFLOPS

92.15 TFLOPS

FP32 (float)

7.603 TFLOPS

1440 GFLOPS

FP64 (double)

237.6 GFLOPS

Graphics Processor

AD102

GPU Name

TU106

AD102

GPU Variant

TU106-100-A1

Ada Lovelace

Architecture

Turing

TSMC

Foundry

TSMC

4 nm

Process Size

12 nm

76.3 billion

Transistors

10.8 billion

608 mm²

Die Size

445 mm²

Board Design

300W

TDP

185W

700 W

Suggested PSU

450 W

4x DisplayPort 1.4a

Outputs

No outputs

1x 16-pin

Power Connectors

1x 8-pin

Graphics Features

12 Ultimate (12_2)

DirectX

12 Ultimate (12_2)

4.6

OpenGL

4.6

3.0

OpenCL

3.0

1.3

Vulkan

1.3

8.9

CUDA

7.5

6.6

Shader Model

6.6

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