RTX 3000 Mobile Ada Generation vs GeForce RTX 2060 Mobile Refresh

VS

NVIDIA RTX 3000 Mobile Ada Generation

NVIDIA GeForce RTX 2060 Mobile Refresh

We compared two Mobile platform GPUs: 8GB VRAM RTX 3000 Mobile Ada Generation and 6GB VRAM GeForce RTX 2060 Mobile Refresh to see which GPU has better performance in key specifications, benchmark tests, power consumption, etc.

Main Differences

RTX 3000 Mobile Ada Generation 's Advantages

Released 4 years and 2 months late

Boost Clock has increased by 9% (1695MHz vs 1560MHz)

More VRAM (8GB vs 6GB)

2688 additional rendering cores

GeForce RTX 2060 Mobile Refresh 's Advantages

Larger VRAM bandwidth (264.0GB/s vs 256.0GB/s)

Lower TDP (65W vs 115W)

Score

Benchmark

FP32 (float)

RTX 3000 Mobile Ada Generation +160%

15620

GeForce RTX 2060 Mobile Refresh

5990

3DMark Time Spy

RTX 3000 Mobile Ada Generation +42%

8910

GeForce RTX 2060 Mobile Refresh

6254

3DMark Time Spy Extreme

RTX 3000 Mobile Ada Generation +21%

3580

GeForce RTX 2060 Mobile Refresh

2937

3DMark Speed Way

RTX 3000 Mobile Ada Generation +117%

2652

GeForce RTX 2060 Mobile Refresh

1217

NVIDIA RTX 3000 Mobile Ada Generation

VS

NVIDIA GeForce RTX 2060 Mobile Refresh

Graphics Card

Mar 2023

Release Date

Jan 2019

Quadro Ada-M

Generation

GeForce 20 Mobile

Mobile

Type

Mobile

PCIe 4.0 x16

Bus Interface

PCIe 3.0 x16

Clock Speeds

1395 MHz

Base Clock

1005 MHz

1695 MHz

Boost Clock

1560 MHz

2000 MHz

Memory Clock

1375 MHz

Memory

8GB

Memory Size

6GB

GDDR6

Memory Type

GDDR6

128bit

Memory Bus

192bit

256.0GB/s

Bandwidth

264.0GB/s

Render Config

36

SM Count

30

4608

Shading Units

1920

144

TMUs

120

48

ROPs

48

144

Tensor Cores

240

36

RT Cores

30

128 KB (per SM)

L1 Cache

64 KB (per SM)

32 MB

L2 Cache

3 MB

Theoretical Performance

81.36 GPixel/s

Pixel Rate

74.88 GPixel/s

244.1 GTexel/s

Texture Rate

187.2 GTexel/s

15.62 TFLOPS

FP16 (half)

11.98 TFLOPS

15.62 TFLOPS

FP32 (float)

5.990 TFLOPS

244.1 GFLOPS

FP64 (double)

187.2 GFLOPS

Board Design

115W

TDP

65W

Portable Device Dependent

Outputs

No outputs

None

Power Connectors

None

Graphics Processor

AD106

GPU Name

TU106B

-

GPU Variant

N18E-G1-KD-A1

Ada Lovelace

Architecture

Turing

TSMC

Foundry

TSMC

5 nm

Process Size

12 nm

22.9 billion

Transistors

10.8 billion

188 mm²

Die Size

445 mm²

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

6.7

Shader Model

6.6

Related CPU Comparisons

1

NVIDIA RTX 3000 Mobile Ada Generation vs AMD Radeon E6760 MXM

2

NVIDIA RTX 3000 Mobile Ada Generation vs NVIDIA GeForce RTX 4050 Mobile

3

NVIDIA RTX 3000 Mobile Ada Generation vs ATI Mobility Radeon HD 4650

4

NVIDIA RTX 3000 Mobile Ada Generation vs NVIDIA GeForce RTX 5090 Mobile

5

NVIDIA RTX 3000 Mobile Ada Generation vs NVIDIA GeForce GT 730M

6

NVIDIA RTX 3000 Mobile Ada Generation vs AMD Radeon R5 M465

7

NVIDIA RTX 3000 Mobile Ada Generation vs AMD Radeon HD 6970M

8

NVIDIA RTX 3000 Mobile Ada Generation vs NVIDIA GeForce RTX 2070 Mobile Refresh

9

NVIDIA RTX 3000 Mobile Ada Generation vs AMD Radeon Pro W6500M

10

NVIDIA RTX 3000 Mobile Ada Generation vs ATI Mobility Radeon HD 545v

Related News

1

Intel's All-Big-Core Processors Are On the Way

2

AMD Unveils Future Plans: Introducing Zen7 Architecture and MI500 Series

3

AMD Set to Evenly Compete with Intel in the Server CPU Market

4

AMD Launches New Instinct MI350 AI Accelerator

5

NVIDIA Plans to Launch Next-Generation Rubin Accelerators in September

6

AMD Unveils New Zen5 Processor

7

TSMC Completes Trial Production of 2nm Process with an Impressive 90% Yield

8

Intel Confirms Nova Lake Processors, Adopting 14A Process Technology

9

NVIDIA is Preparing to Launch a Gaming Laptop APU Equivalent to the 4070

10

Is the AMD Ryzen 9000G Desktop CPU Coming Soon the Final Zen 5 Release?