Intel Data Center GPU Max Subsystem vs NVIDIA Quadro K500M

VS

Intel Data Center GPU Max Subsystem

NVIDIA Quadro K500M

We compared two Professional market GPUs: 128GB VRAM Data Center GPU Max Subsystem and 1024MB VRAM Quadro K500M to see which GPU has better performance in key specifications, benchmark tests, power consumption, etc.

Main Differences

Intel Data Center GPU Max Subsystem 's Advantages

Released 10 years and 7 months late

Boost Clock1600MHz

More VRAM (128GB vs 1024GB)

Larger VRAM bandwidth (3205GB/s vs 12.80GB/s)

16192 additional rendering cores

NVIDIA Quadro K500M 's Advantages

Lower TDP (35W vs 2400W)

Score

Benchmark

FP32 (float)

Data Center GPU Max Subsystem +15982%

52.43 TFLOPS

Quadro K500M

0.326 TFLOPS

Data Center GPU Max Subsystem

VS

Quadro K500M

Graphics Card

Jan 2023

Release Date

Jun 2012

Data Center GPU

Generation

Quadro Mobile

Professional

Type

Professional

PCIe 5.0 x16

Bus Interface

MXM-A (3.0)

Clock Speeds

900 MHz

Base Clock

-

1600 MHz

Boost Clock

-

1565 MHz

Memory Clock

800 MHz

Memory

128GB

Memory Size

1024MB

HBM2e

Memory Type

DDR3

8192bit

Memory Bus

64bit

3205GB/s

Bandwidth

12.80GB/s

Render Config

-

16384

Shading Units

192

1024

TMUs

16

0

ROPs

8

1024

Tensor Cores

-

128

RT Cores

-

64 KB (per EU)

L1 Cache

16 KB (per SMX)

408 MB

L2 Cache

128 KB

-

Theoretical Performance

0 MPixel/s

Pixel Rate

3.400 GPixel/s

1638 GTexel/s

Texture Rate

13.60 GTexel/s

52.43 TFLOPS

FP16 (half)

-

52.43 TFLOPS

FP32 (float)

326.4 GFLOPS

52.43 TFLOPS

FP64 (double)

13.60 GFLOPS

Board Design

2400W

TDP

35W

2800 W

Suggested PSU

-

No outputs

Outputs

No outputs

1x 16-pin

Power Connectors

-

Graphics Processor

Ponte Vecchio

GPU Name

GK107

-

GPU Variant

N14M-Q1

Generation 12.5

Architecture

Kepler

Intel

Foundry

TSMC

10 nm

Process Size

28 nm

100 billion

Transistors

1.27 billion

1280 mm²

Die Size

118 mm²

Graphics Features

12 (12_1)

DirectX

12 (11_0)

4.6

OpenGL

4.6

3.0

OpenCL

3.0

N/A

Vulkan

1.1

-

CUDA

3.0

6.6

Shader Model

5.1

Related GPU Comparisons

1

Intel Data Center GPU Max Subsystem vs NVIDIA Quadro P1000

2

Intel Data Center GPU Max Subsystem vs NVIDIA RTX A2000 Embedded

3

Intel Data Center GPU Max Subsystem vs NVIDIA Quadro 5000

4

Intel Data Center GPU Max Subsystem vs AMD Radeon Instinct MI25

5

Intel Data Center GPU Max Subsystem vs NVIDIA Tesla P100 PCIe 12 GB

6

Intel Data Center GPU Max Subsystem vs NVIDIA Tesla P6

7

Intel Data Center GPU Max Subsystem vs AMD Radeon Instinct MI100

8

Intel Data Center GPU Max Subsystem vs NVIDIA GRID K180Q

9

Intel Data Center GPU Max Subsystem vs AMD Radeon PRO W7800

10

Intel Data Center GPU Max Subsystem vs NVIDIA Quadro K2000

Related News

1

NVIDIA Allegedly Equips RTX 5080 with 30Gbps Memory Speed, Other Models to Feature 28Gbps

2

Intel Reports High Return Rates for Devices Featuring Snapdragon X Series; Qualcomm Counters with 'Industry Standard' Claim

3

Intel Confirms Panther Lake Adopts 18A Process, ES0 Samples Already Sent to Customers

4

Complete Lineup of Core Ultra 200HX/H/U and Core 200H/U Revealed: 31 Models to Dazzle the Eyes

5

Amechi Unveils V1 Mini PC: Only 0.33L Volume with 150W Power Consumption

6

iPhone 17 Series Set for Major Design Overhaul: Camera Module Transformed into Sleek Strip

7

The Thinnest iPhone Ever! iPhone 17 Air Reportedly Enters Foxconn's NPI Stage

8

Apple Allegedly Cancels M4 Extreme, Originally Planned for Mac Pro with 64-Core CPU and 160-Core GPU

9

Cyberpunk 2077 Update 2.2: Intel Arrow Lake Gaming Performance Soars by 33%!

10

Intel Finally Achieves Frame Generation! 'F1 24' Becomes the First XeSS 2 Game