NVIDIA Quadro RTX 6000 vs NVIDIA GRID K180Q

VS

NVIDIA Quadro RTX 6000 NVIDIA GRID K180Q

We compared two Professional market GPUs: 24GB VRAM Quadro RTX 6000 and 1024MB VRAM GRID K180Q to see which GPU has better performance in key specifications, benchmark tests, power consumption, etc.

Main Differences

NVIDIA Quadro RTX 6000 's Advantages

Released 5 years and 2 months late

Boost Clock1770MHz

More VRAM (24GB vs 1GB)

Larger VRAM bandwidth (672.0GB/s vs 28.51GB/s)

4416 additional rendering cores

NVIDIA GRID K180Q 's Advantages

Lower TDP (130W vs 260W)

Score

Benchmark

FP32 (float)

Quadro RTX 6000 +4903%

16.31 TFLOPS

GRID K180Q

0.326 TFLOPS

Quadro RTX 6000

VS

GRID K180Q

Graphics Card

Aug 2018

Release Date

Jun 2013

Quadro

Generation

GRID

Professional

Type

Professional

PCIe 3.0 x16

Bus Interface

PCIe 3.0 x16

Clock Speeds

1440 MHz

Base Clock

-

1770 MHz

Boost Clock

-

1750 MHz

Memory Clock

891 MHz

Memory

24GB

Memory Size

1024MB

GDDR6

Memory Type

DDR3

384bit

Memory Bus

128bit

672.0GB/s

Bandwidth

28.51GB/s

Render Config

72

SM Count

-

Compute Units

-

4608

Shading Units

192

288

TMUs

16

96

ROPs

16

576

Tensor Cores

-

72

RT Cores

-

64 KB (per SM)

L1 Cache

16 KB (per SMX)

6 MB

L2 Cache

256 KB

Theoretical Performance

169.9 GPixel/s

Pixel Rate

3.400 GPixel/s

509.8 GTexel/s

Texture Rate

13.60 GTexel/s

32.62 TFLOPS

FP16 (half)

-

16.31 TFLOPS

FP32 (float)

326.4 GFLOPS

509.8 GFLOPS

FP64 (double)

13.60 GFLOPS

Graphics Processor

TU102

GPU Name

GK107

TU102-875-A1

GPU Variant

-

Turing

Architecture

Kepler

TSMC

Foundry

TSMC

12 nm

Process Size

28 nm

18.6 billion

Transistors

1.27 billion

754 mm²

Die Size

118 mm²

Board Design

260W

TDP

130W

600 W

Suggested PSU

300 W

4x DisplayPort 1.4a 1x USB Type-C

Outputs

No outputs

1x 6-pin + 1x 8-pin

Power Connectors

-

Graphics Features

12 Ultimate (12_2)

DirectX

12 (11_0)

4.6

OpenGL

4.6

3.0

OpenCL

3.0

1.3

Vulkan

1.1

7.5

CUDA

3.0

6.6

Shader Model

5.1

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