NVIDIA RTX 4000 Ada Generation vs NVIDIA RTX 4000 SFF Ada Generation Comparison

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RTX 4000 Ada Generation

20 GB | 26.73 TFLOPS

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RTX 4000 SFF Ada Generation

20 GB | 19.17 TFLOPS

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RTX 4000 Ada Generation vs RTX 4000 SFF Ada Generation Comparison Overview

RTX 4000 Ada Generat...

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RTX 4000 SFF Ada Gen...

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RTX 4000 Ada Generat...

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RTX 4000 SFF Ada Gen...

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In this review, we will be comparing RTX 4000 Ada Generation and RTX 4000 SFF Ada Generation, two GPUs by NVIDIA. RTX 4000 Ada Generation was introduced to market in August and was launched in March . There is only 5 months difference between RTX 4000 Ada Generation and RTX 4000 SFF Ada Generation so we are expecting this to be a fair comparison regarding age and technology level.

RTX 4000 Ada Generation and RTX 4000 SFF Ada Generation are members of NVIDIA's Quadro Ada (x000A) series of GPUs. Below you can find the latest models from this series.

NVIDIA Quadro Ada (x000A) Series History

Model	Release Date	Fabrication Process	Performance
RTX 4000 Ada Generation	August 2023	5 nm	26.73 TFLOPS
RTX 4000 SFF Ada Generation	March 2023	5 nm	19.17 TFLOPS
RTX 4500 Ada Generation Compare	August 2023	5 nm	39.63 TFLOPS
RTX 5000 Ada Generation Compare	August 2023	5 nm	65.28 TFLOPS
RTX 6000 Ada Generation Compare	December 2022	5 nm	91.06 TFLOPS

Here is a brief look at the main features of RTX 4000 Ada Generation and RTX 4000 SFF Ada Generation before getting into our more detailed comparison.

RTX 4000 Ada Generation Key Specs

Launched in Aug 9th, 2023
Brand: NVIDIA
GPU: AD104
Tecnology: 5 nm
Clock: 720 MHz
20 GB Ram
Mem. Clock: 1750 MHz 14 Gbps effective

RTX 4000 SFF Ada Generation Key Specs

Launched in Mar 21st, 2023
Brand: NVIDIA
GPU: AD104
Tecnology: 5 nm
Clock: 720 MHz
20 GB Ram
Mem. Clock: 1750 MHz 14 Gbps effective

Let's read on the following sections in order to better understand in detail how and compares and decide which one is better for you.

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Reasons to choose RTX 4000 Ada Generation over RTX 4000 SFF Ada Generation

GPU Boost Clock	2175 MHz vs 1560 MHz	615 MHz faster Boost Clock
Pixel Rate	174.0 GPixel/s vs 124.8 GPixel/s	Better Pixel Rate
Texture Rate	417.6 GTexel/s vs 299.5 GTexel/s	Better Texture Performance
Performance	26.73 TFLOPS vs 19.17 TFLOPS	More processing power

Reasons to choose RTX 4000 SFF Ada Generation over RTX 4000 Ada Generation

Thermal Design Power (TDP)	70 W vs 130 W	Requires less cooling

Common Strengths of RTX 4000 Ada Generation and RTX 4000 SFF Ada Generation

Process Size	5 nm vs 5 nm	Latest Process Technology
Memory Size	20 GB vs 20 GB	Both GPUs have more than 4 GB Memory
Memory Clock Speeds	1750 MHz vs 1750 MHz	Over Average Memory Clock Speeds
Bus Interface	PCIe 4.0 x16 vs PCIe 4.0 x16	Both have latest Bus type

Common Weaknesses of RTX 4000 Ada Generation and RTX 4000 SFF Ada Generation

Launch Dates	2023-08-09 vs 2023-03-21	GPUs are older than 1 year
GPU Clock Speeds	720 MHz vs 720 MHz	Below the average in this year

PERFORMANCE

FLOPS

FLOPS is commonly used for measuring GPU performance in 32-bit floating-point operations, essential for scientific computing, data analysis, machine learning, and graphics tasks. A higher value indicates faster and more complex calculations, vital for scientific research, simulations, and high-performance computing.

FLOPS Comparison (TFLOPS)

non-mobile type GPUs

RTX 4000 Ada Generation

RTX 4000 SFF Ada Generation

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GPU BASE and BOOST CLOCK SPEED

The GPU base clock speed is the standard operating frequency, while the boost clock speed represents the maximum dynamic frequency the GPU can achieve under increased demand. These clock speeds influence the GPU's performance, with the base clock setting the standard level and the boost clock allowing for extra power when needed, enhancing overall responsiveness in demanding applications like gaming.

The base clock speed of the RTX 4000 Ada Generation is below average, which could be a sign of lower performance potential.

Base Clock Comparison (MHz)

non-mobile type GPUs

RTX 4000 Ada Generation

RTX 4000 SFF Ada Generation

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Boost Clock Comparison (MHz)

non-mobile type GPUs

RTX 4000 Ada Generation

RTX 4000 SFF Ada Generation

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MEMORY SIZE and MEMORY CLOCK SPEED

GPU memory size refers to the storage capacity for visual data. This capacity is crucial for tasks like gaming and graphic-intensive work. Memory clock speed affects how quickly the GPU's memory operates. Faster memory speed improves performance, especially in high-resolution gaming. Balancing memory size and clock speed is vital for a GPU's graphics handling capabilities..

The base clock speed of the RTX 4000 Ada Generation is below average, which could be a sign of lower performance potential. The base clock speed of the RTX 4000 SFF Ada Generation is below average, you may evaluate it further for your decision.

Memory Size Comparison (GB)

non-mobile type GPUs

RTX 4000 Ada Generation

RTX 4000 SFF Ada Generation

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Memory Clock Comparison (MHz)

non-mobile type GPUs

RTX 4000 Ada Generation

RTX 4000 SFF Ada Generation

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GPU THERMAL DESIGN POWER (TDP)

GPU TDP, or Thermal Design Power, quantifies the maximum heat a graphics processing unit (GPU) generates under load. It's vital for selecting appropriate cooling solutions and power efficiency. Higher TDP GPUs require better cooling, while lower TDP GPUs are more power-efficient. Understanding TDP aids in choosing the right GPU for a system.

RTX 4000 Ada Generation better than average with 130.00 W TDP in its class.

RTX 4000 SFF Ada Generation better than average with 70.00 W TDP in its class.

TDP Comparison (Watts)

non-mobile type GPUs

RTX 4000 Ada Generation

RTX 4000 SFF Ada Generation

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RTX 4000 Ada Generation vs RTX 4000 SFF Ada Generation: Specs Comparison Table

In this section, we will be comparing the specifications the RTX 4000 Ada Generation and the RTX 4000 SFF Ada Generation.

Processor
Model	RTX 4000 Ada Generation	RTX 4000 SFF Ada Generation
Generation	Quadro Ada (x000A)	Quadro Ada (x000A)
Predecessor	Quadro Ampere	Quadro Ampere
Release Date	2023-08-09	2023-03-21
Brand	NVIDIA	NVIDIA
GPU Name	AD104	AD104
Architecture	Ada Lovelace	Ada Lovelace
Foundry	TSMC	TSMC
Process Size	5 nm	5 nm
Number of Transistors	35,800 million	35,800 million
Density of Transistors	121.8M / mm²	121.8M / mm²
Die Size	294 mm²	294 mm²
GPU Base Clock Speed	720 MHz	720 MHz
GPU Clock Speed	2175 MHz	1560 MHz

Memory
Memory	20 GB	20 GB
Memory Type	GDDR6	GDDR6
Memory Frequency	1750 MHz	1750 MHz
Memory Bus	160 bit	160 bit
Memory Bandwith	280.0 GB/s	280.0 GB/s
Bus Interface	PCIe 4.0 x16	PCIe 4.0 x16

Render Configurations
Shading Units	6144	6144
TMUs	192	192
ROPs	80	80
RT Cores	48	48
SM Count	48	48
Tensor Cores	192	192
L1 Cache	128 KB (per SM)	128 KB (per SM)
L2 Cache	48 MB	48 MB

Performance and Features
Pixel Rate	174.0 GPixel/s	124.8 GPixel/s
Texture Rate	417.6 GTexel/s	299.5 GTexel/s
DirectX	12 Ultimate	12 Ultimate
OpenGL	4.6	4.6
OpenCL	3.0	3.0
Vulkan	1.3	1.3
Shader Model	6.7	6.7
FP16 Half	26.73 TFLOPS (1:1)	19.17 TFLOPS (1:1)
FP32	26.73 TFLOPS	19.17 TFLOPS
FP64 double	417.6 GFLOPS (1:64)	299.5 GFLOPS (1:64)
CUDA	8.9	8.9

OTHER
Length	245 mm 9.6 inches	168 mm 6.6 inches
Width	112 mm 4.4 inches	69 mm 2.7 inches
Suggested Power Supply	300 W	250 W
Slot Width	Single-slot	Dual-slot
TDP	130 W	70 W
Outputs	4x mini-DisplayPort 1.4a	4x mini-DisplayPort 1.4a
Power Connectors	1x 16-pin	None