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NVIDIA RTX 5000 Ada Generation Review | 118 Data compared

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  • Avg. price in UK: ~£3,760
  • Avg. price in US: ~$4,000
  • VRAM: 32 GB
  • Memory bus width: 256 bit
  • Thermal Design Power (TDP): 250 W

NVIDIA RTX 5000 Ada Generation review. Compare 118 technical specifications and user reviews to see how it ranks among graphics cards and if it is worth buying.

8.0

Overall score

What it is: An overall evaluation of the graphics card's quality, based on technical analyses and user reviews.

When it matters: When you need a quick reference to identify the best graphics cards on the market.

Score components:

90.0%

8.7

Technical Score

10.0%

1.7

User score

Excellent
8.7

Technical Score

What it is: An assessment of the graphics card's technical performance, covering key areas such as gaming and rendering performance, ray tracing, memory configuration, power efficiency, cooling, connectivity, features, and build quality.

When it matters: When you want to compare graphics cards based on technical performance and available features.

Score components:

44.0%

9.1

Performance

24.0%

8.7

Memory

12.0%

6.1

Power & Cooling

11.0%

9.6

Platform & Features

5.0%

8.9

Design

4.0%

8.8

Connectivity & Media

Excellent
1.7

User score

What it is: A rating that combines user reviews and the total number of reviews received by the graphics card.

When it matters: When you want to understand how a graphics card performs in real use and how reliable it is in terms of performance, temperatures, noise, stability, and long-term ownership.

Score components:

70.0%

2.0

User reviews

30.0%

1.0

Popularity

User score:
United Kingdom
amazon
1.0
(1)

(Reviews last updated: June 2026)

Very poor
  • 9.9
    Gaming

    Score components:

    45.0%

    10

    Floating-point performance

    25.0%

    10

    VRAM

    20.0%

    10

    Ray tracing cores / units

    10.0%

    8.8

    PCI Express (PCIe) version

  • 9.8
    Video editing

    Score components:

    35.0%

    10

    AV1 encode

    30.0%

    10

    VRAM

    20.0%

    10

    Floating-point performance

    15.0%

    8.8

    PCI Express (PCIe) version

  • 9.9
    1080p

    Score components:

    55.0%

    10

    Floating-point performance

    25.0%

    10

    VRAM

    10.0%

    10

    Ray tracing cores / units

    10.0%

    8.8

    PCI Express (PCIe) version

  • 9.9
    1440p

    Score components:

    50.0%

    10

    Floating-point performance

    30.0%

    10

    VRAM

    15.0%

    10

    Ray tracing cores / units

    5.0%

    8.8

    PCI Express (PCIe) version

  • 9.9
    4K

    Score components:

    40.0%

    10

    Floating-point performance

    35.0%

    10

    VRAM

    20.0%

    10

    Ray tracing cores / units

    5.0%

    8.8

    PCI Express (PCIe) version

  • nvidia-rtx-5000-ada-generation
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Best prices in UK

Best rankings

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Available: ranking among products currently available (including other versions of this product).
All: ranking among all products in the database.

Verdict

The NVIDIA RTX 5000 Ada Generation is a high-end professional workstation GPU built on the 4nm Ada Lovelace architecture, featuring 12,800 CUDA cores, 400 4th-generation Tensor Cores, and 100 3rd-generation RT cores. It is equipped with 32GB of GDDR6 ECC memory on a 256-bit interface, delivering a memory bandwidth of 576 GB/s and a peak single-precision performance of 65.3 TFLOPS within a 250W power envelope. Key advantages include its massive VRAM for complex 3D rendering and generative AI workloads, support for AV1 encoding, and significant performance gains—up to 1.5x to 2x—over the previous-generation RTX A5000. However, notable drawbacks include its high retail price compared to consumer counterparts like the RTX 4090, the lack of NVLink support for multi-GPU scaling, and its continued reliance on the older DisplayPort 1.4a standard.

Technical Specifications of NVIDIA RTX 5000 Ada Generation

Technical Score

What it is: An assessment of the graphics card's technical performance, covering key areas such as gaming and rendering performance, ray tracing, memory configuration, power efficiency, cooling, connectivity, features, and build quality.

When it matters: When you want to compare graphics cards based on technical performance and available features.

Score components:

44.0%

9.1

Performance

24.0%

8.7

Memory

12.0%

6.1

Power & Cooling

11.0%

9.6

Platform & Features

5.0%

8.9

Design

4.0%

8.8

Connectivity & Media

8.7
NVIDIA RTX 5000 Ada Generation has a technical score of 8.67 points, which is higher than that of 94.4% of products in this category.
User score

What it is: A rating that combines user reviews and the total number of reviews received by the graphics card.

When it matters: When you want to understand how a graphics card performs in real use and how reliable it is in terms of performance, temperatures, noise, stability, and long-term ownership.

Score components:

70.0%

2.0

User reviews

30.0%

1.0

Popularity

User score:
United Kingdom
amazon
1.0
(1)

(Reviews last updated: June 2026)

1.7
NVIDIA RTX 5000 Ada Generation has a user score of 1.7 points, which is lower than that of 99.9% of products in this category.
Popularity
What it is: An indicator based on the number of reviews received by the graphics card.
When it matters: When you prefer a graphics card that has already been chosen and reviewed by many other users.
1.0
NVIDIA RTX 5000 Ada Generation has a popularity of 1 points, which is lower than 55.9% of products in this category.
Ratio quality/price

What it is: An indicator that combines the graphics card's overall rating with its cost.

When it matters: When you are looking for a graphics card that offers a strong balance of performance, features, and price.

Score components:

60.0%

8.0

Overall score

40.0%

1.0

Price

5.9
NVIDIA RTX 5000 Ada Generation has a quality-to-price ratio of 5.9 points, which is lower than 83.9% of products in this category.
3DMark Time Spy benchmark score
What it is: Benchmark result from 3DMark Time Spy, a synthetic DirectX 12 test often used as a quick gaming-performance reference.
When it matters: When you need a fast rough performance sort before digging into game-specific reviews and frame-rate data.

Importance: LOW

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3DMark Port Royal score
What it is: Benchmark result from 3DMark Port Royal, a synthetic test focused on ray tracing performance.
When it matters: When ray tracing matters in the games you actually play and you want one quick way to separate stronger and weaker RT cards.

Importance: LOW

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PassMark (G3D) result
What it is: Overall GPU performance score in PassMark G3D benchmark
When it matters: When you need one broad score to sort cards into rough performance tiers.

Importance: LOW

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PassMark (DirectCompute) result
What it is: PassMark score for DirectCompute performance tests
When it matters: When compute workloads matter alongside gaming performance.

Importance: LOW

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Floating-point performance
What it is: Theoretical floating-point compute performance of the GPU.
When it matters: When rendering, AI, or heavy compute work needs strong single-precision throughput.

Importance: LOW

65.3 TFLOPS
NVIDIA RTX 5000 Ada Generation delivers 65.3 TFLOPS floating-point performance, which is higher than that of 93.5% of graphics cards.
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VRAM
What it is: Total video memory available on the graphics card
When it matters: When you play at high settings, use texture mods, or work with large creative projects.

Importance: HIGH

32 GB
NVIDIA RTX 5000 Ada Generation has 32 GB of VRAM, which is more than 96.7% of graphics cards and equal to 3% of graphics cards.
Memory type
What it is: Type of graphics memory used (GDDR6, HBM2e, etc.)
When it matters: When memory technology is part of the buying decision because it affects bandwidth class, power use, and product positioning.

Importance: LOW

GDDR6
GDDR version
What it is: Generation of GDDR memory used by the graphics card.
When it matters: When you want to separate older memory generations from newer ones before comparing bandwidth, power behavior, and market tier.

Importance: LOW

GDDR6
NVIDIA RTX 5000 Ada Generation uses GDDR6 memory, which is newer than on 16.6% of graphics cards and equal to 39.1% of graphics cards.
Memory bus width
What it is: Width of the memory interface bus in bits
When it matters: When you care about steadier performance at higher resolutions, heavier texture settings, or ray-traced workloads that stress memory traffic.

Importance: HIGH

256 bit
NVIDIA RTX 5000 Ada Generation uses a 256 bit memory bus, which is wider than that of 49.5% of graphics cards and equal to that of 36.1% of graphics cards.
Maximum memory bandwidth
What it is: Maximum data transfer rate between GPU and its memory
When it matters: When 4K gaming, ray tracing, or creator work can choke a slower memory subsystem.

Importance: HIGH

576 GB/s
NVIDIA RTX 5000 Ada Generation reaches 576 GB/s memory bandwidth, which is higher than that of 62.2% of graphics cards and equal to that of 0.8% of graphics cards.
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PCI Express (PCIe) version
What it is: Version of PCI Express interface supported
When it matters: When you are pairing the card with an older motherboard and want to avoid leaving bandwidth or future compatibility on the table.

Importance: LOW

4.0
NVIDIA RTX 5000 Ada Generation supports PCIe 4.0, which is newer than on 22.5% of graphics cards and equal to 52% of graphics cards.
PCIe lanes
What it is: Number of PCI Express lanes used for communication
When it matters: When limited lane width could bottleneck the card in some systems.

Importance: LOW

x16
NVIDIA RTX 5000 Ada Generation uses x16 PCIe lanes, which is more than 31.5% of graphics cards and equal to 68.6% of graphics cards.
DirectX version
What it is: Highest supported DirectX API version
When it matters: When you play newer Windows games that depend on the latest graphics features.

Importance: LOW

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Vulkan version
What it is: Highest supported Vulkan API version
When it matters: When modern games, emulators, or creative apps lean on Vulkan support.

Importance: LOW

1.3
NVIDIA RTX 5000 Ada Generation supports Vulkan 1.3, which is older than on 73.5% of graphics cards and equal to 22.5% of graphics cards.
OpenGL version
What it is: Highest supported OpenGL API version
When it matters: When older games or pro apps still depend on OpenGL compatibility.

Importance: LOW

4.6
NVIDIA RTX 5000 Ada Generation supports OpenGL 4.6, which is more advanced than on 4.8% of graphics cards and equal to 95.2% of graphics cards.
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Max displays supported
What it is: Total number of external displays supported simultaneously
When it matters: When you run a multi-monitor desk for sim racing, trading, or editing.

Importance: LOW

4
NVIDIA RTX 5000 Ada Generation supports up to 4 displays, which is more than 7.8% of graphics cards and equal to 89.2% of graphics cards.
Max digital resolution
What it is: Maximum supported digital display resolution
When it matters: When you plan to drive 4K or 8K panels at their native resolution.

Importance: LOW

7680x4320
NVIDIA RTX 5000 Ada Generation supports a maximum digital resolution of 7680x4320, which is higher than that of 44.4% of graphics cards and equal to that of 55.6% of graphics cards.
DisplayPort outputs
What it is: Number of DisplayPort video outputs
When it matters: When your setup needs several high-refresh monitors without adapters.

Importance: LOW

4
NVIDIA RTX 5000 Ada Generation offers 4 DisplayPort outputs, which is more than 98.2% of graphics cards and equal to 1.6% of graphics cards.
DisplayPort version
What it is: Version of DisplayPort standard supported
When it matters: When your monitor setup depends on newer DisplayPort features for higher refresh rates, higher resolution, or better cable flexibility.

Importance: LOW

1.4a
NVIDIA RTX 5000 Ada Generation supports DisplayPort 1.4a, which is more advanced than on 22.7% of graphics cards and equal to 44.2% of graphics cards.
DisplayPort link rates
What it is: Supported data link rates for DisplayPort connections
When it matters: When you are pushing high resolution and refresh rate over DisplayPort.

Importance: LOW

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Thermal Design Power (TDP)
What it is: Typical power consumption under full load (TDP)
When it matters: When you need a realistic idea of power draw before choosing a PSU or case.

Importance: MEDIUM

250 W
NVIDIA RTX 5000 Ada Generation has a TDP of 250 W, which is higher than that of 58.4% of graphics cards and equal to that of 6.1% of graphics cards.
Power consumption while under peak load
What it is: Peak power draw of the graphics card under maximum load.
When it matters: When transient-heavy gaming loads could stress your power supply.

Importance: LOW

250 W
NVIDIA RTX 5000 Ada Generation draws 250 W under peak load, which is higher than 58.1% of graphics cards and equal to 5.3% of graphics cards.
Recommended PSU wattage
What it is: Recommended wattage of the system power supply
When it matters: When you are checking whether your current power supply is enough.

Importance: LOW

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Board power limit
What it is: Maximum configurable power limit for the GPU board
When it matters: When you care about how far the card can be pushed through tuning or factory power settings.

Importance: LOW

250 W
NVIDIA RTX 5000 Ada Generation has a board power limit of 250 W, which is higher than that of 56.2% of graphics cards and equal to that of 4.2% of graphics cards.
PCIe power spec
What it is: PCIe power delivery specification followed
When it matters: When you are checking whether the slot and external cables match the card's intended power-delivery standard.

Importance: LOW

250 W
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Size
What it is: Physical size of the GPU card
When it matters: When you need the card to fit a compact case without blocking nearby hardware.

Importance: LOW

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Length
What it is: Physical length of the GPU card
When it matters: When front radiators or drive cages leave only limited GPU clearance.

Importance: LOW

267 mm
NVIDIA RTX 5000 Ada Generation is 267 mm long, which is shorter than 59.6% of graphics cards and equal in length to 3.4% of graphics cards.
Height
What it is: Physical height of the GPU card
When it matters: When side panels, brackets, or tight case layouts reduce vertical clearance.

Importance: LOW

112 mm
NVIDIA RTX 5000 Ada Generation is 112 mm tall, which is shorter than 84.4% of graphics cards and equal in height to 2.8% of graphics cards.
Slot width
What it is: Number of PCIe slots occupied by the card
When it matters: When you need room for another PCIe card or better airflow under the GPU.

Importance: LOW

2 slot/s
NVIDIA RTX 5000 Ada Generation occupies 2 slot/s, which is slimmer than 49.2% of graphics cards and equal in width to 47.3% of graphics cards.
Weight
What it is: Total weight of the graphics card
When it matters: When sag, bracket support, or shipping stress matters in your build.

Importance: LOW

1,079.7 g
NVIDIA RTX 5000 Ada Generation weighs 1079.7 g, which is heavier than 55.9% of graphics cards.
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NVIDIA RTX 5000 Ada Generation vs the average graphics card

  • 20 GB more VRAM
    NVIDIA RTX 5000 Ada Generation has more VRAM than the average graphics card (32 GB vs 12 GB). The average graphics card has 12 GB VRAM.
    What it is: Total video memory available on the graphics card
    When it matters: When you play at high settings, use texture mods, or work with large creative projects.

    Importance: HIGH

    NVIDIA RTX 5000 Ada Generation has more VRAM than the average graphics card (32 GB vs 12 GB). The average graphics card has 12 GB VRAM.32 GB vs 12 GB
  • 60 more compute units
    NVIDIA RTX 5000 Ada Generation has more compute units than the average graphics card (100 vs 40). The average graphics card has 40 compute units.
    What it is: Total number of shader multiprocessors or compute units
    When it matters: When you want a better sense of the GPU's overall parallel hardware resources before relying on game benchmarks alone.

    Importance: HIGH

    NVIDIA RTX 5000 Ada Generation has more compute units than the average graphics card (100 vs 40). The average graphics card has 40 compute units.100 vs 40
  • 52 more ray tracing cores
    NVIDIA RTX 5000 Ada Generation has more ray tracing cores than the average graphics card (100 vs 48). The average graphics card has 48 ray tracing cores.
    What it is: Number of dedicated ray tracing processing cores or units
    When it matters: When you care about ray-traced lighting, reflections, and shadows in newer games.

    Importance: HIGH

    NVIDIA RTX 5000 Ada Generation has more ray tracing cores than the average graphics card (100 vs 48). The average graphics card has 48 ray tracing cores.100 vs 48
  • 112 more ROPs
    NVIDIA RTX 5000 Ada Generation has more ROPs than the average graphics card (176 vs 64). The average graphics card has 64 ROPs.
    What it is: Total number of render output units on the GPU
    When it matters: When you want more context on pixel output capacity, especially for high-resolution play and older raster-heavy engines.

    Importance: HIGH

    NVIDIA RTX 5000 Ada Generation has more ROPs than the average graphics card (176 vs 64). The average graphics card has 64 ROPs.176 vs 64
  • 2.71x higher texture rate
    NVIDIA RTX 5000 Ada Generation has a higher texture rate than the average graphics card (1,020 GTexel/s vs 376.8 GTexel/s). The average graphics card has a texture rate of 376.8 GTexel/s.
    What it is: Number of textured pixels the GPU can process per second
    When it matters: When fast texture handling matters in high-refresh gaming workloads.

    Importance: HIGH

    NVIDIA RTX 5000 Ada Generation has a higher texture rate than the average graphics card (1,020 GTexel/s vs 376.8 GTexel/s). The average graphics card has a texture rate of 376.8 GTexel/s.1020 GTexel/s vs 376.8 GTexel/s
  • 216 more TMUs
    NVIDIA RTX 5000 Ada Generation has more TMUs than the average graphics card (400 vs 184). The average graphics card has 184 TMUs.
    What it is: Total count of texture mapping units on the GPU
    When it matters: When texture-heavy gaming performance matters and you want extra hardware context behind texture-rate claims.

    Importance: HIGH

    NVIDIA RTX 5000 Ada Generation has more TMUs than the average graphics card (400 vs 184). The average graphics card has 184 TMUs.400 vs 184
  • 2.72x higher pixel rate
    NVIDIA RTX 5000 Ada Generation has a higher pixel rate than the average graphics card (448.8 GPixel/s vs 165.2 GPixel/s). The average graphics card has a pixel rate of 165.2 GPixel/s.
    What it is: Number of pixels the GPU can render per second
    When it matters: When you play at high resolutions or care about older raster-heavy games.

    Importance: MEDIUM

    NVIDIA RTX 5000 Ada Generation has a higher pixel rate than the average graphics card (448.8 GPixel/s vs 165.2 GPixel/s). The average graphics card has a pixel rate of 165.2 GPixel/s.448.8 GPixel/s vs 165.2 GPixel/s
  • 208 more AI cores
    NVIDIA RTX 5000 Ada Generation has more AI cores than the average graphics card (400 vs 192). The average graphics card has 192 AI cores.
    What it is: Number of tensor or AI processing cores
    When it matters: When AI features, frame generation, or creator tools use dedicated matrix hardware.

    Importance: MEDIUM

    NVIDIA RTX 5000 Ada Generation has more AI cores than the average graphics card (400 vs 192). The average graphics card has 192 AI cores.400 vs 192
  • 60 more compute units
    NVIDIA RTX 5000 Ada Generation has more compute units than the average graphics card (100 vs 40). The average graphics card has 40 compute units.
  • 52 more ray tracing cores
    NVIDIA RTX 5000 Ada Generation has more ray tracing cores than the average graphics card (100 vs 48). The average graphics card has 48 ray tracing cores.
  • 112 more ROPs
    NVIDIA RTX 5000 Ada Generation has more ROPs than the average graphics card (176 vs 64). The average graphics card has 64 ROPs.
  • 2.71x higher texture rate
    NVIDIA RTX 5000 Ada Generation has a higher texture rate than the average graphics card (1,020 GTexel/s vs 376.8 GTexel/s). The average graphics card has a texture rate of 376.8 GTexel/s.
  • 216 more TMUs
    NVIDIA RTX 5000 Ada Generation has more TMUs than the average graphics card (400 vs 184). The average graphics card has 184 TMUs.
  • 2.72x higher pixel rate
    NVIDIA RTX 5000 Ada Generation has a higher pixel rate than the average graphics card (448.8 GPixel/s vs 165.2 GPixel/s). The average graphics card has a pixel rate of 165.2 GPixel/s.
  • 208 more AI cores
    NVIDIA RTX 5000 Ada Generation has more AI cores than the average graphics card (400 vs 192). The average graphics card has 192 AI cores.
  • 2.86x higher FP32 performance
    NVIDIA RTX 5000 Ada Generation has a higher FP32 performance than the average graphics card (65.3 TFLOPS vs 22.86 TFLOPS). The average graphics card has FP32 performance of 22.86 TFLOPS.
  • 2% higher boost clock speed
    NVIDIA RTX 5000 Ada Generation has a higher boost GPU clock than the average graphics card (2,550 MHz vs 2,500 MHz). The average graphics card has a boost GPU clock of 2,500 MHz.
  • 8,448 more FP32 units
    NVIDIA RTX 5000 Ada Generation has more FP32 units than the average graphics card (12,800 vs 4,352). The average graphics card has 4,352 FP32 units.
  • 2.83x higher compute throughput
    NVIDIA RTX 5000 Ada Generation has a higher compute throughput than the average graphics card (65.3 TFLOPS vs 23.105 TFLOPS). The average graphics card has compute throughput of 23.105 TFLOPS.
  • 2.24x higher INT8 performance
    NVIDIA RTX 5000 Ada Generation has a higher INT8 performance than the average graphics card (1,044.4 TOPS vs 466 TOPS). The average graphics card has INT8 performance of 466 TOPS.
  • 20 GB more VRAM
    NVIDIA RTX 5000 Ada Generation has more VRAM than the average graphics card (32 GB vs 12 GB). The average graphics card has 12 GB VRAM.
  • 28.6% faster VRAM clock
    NVIDIA RTX 5000 Ada Generation has a higher VRAM clock than the average graphics card (2,250 MHz vs 1,750 MHz). The average graphics card runs its VRAM at 1,750 MHz.
  • Supports ECC memory
    NVIDIA RTX 5000 Ada Generation supports ECC memory, the average graphics card does not.
  • 2.25x larger L2 cache
    NVIDIA RTX 5000 Ada Generation has more L2 cache than the average graphics card (72 MB vs 32 MB). The average graphics card has 32 MB L2 cache.
  • 28.6% higher memory bandwidth
    NVIDIA RTX 5000 Ada Generation has a higher memory bandwidth than the average graphics card (576 GB/s vs 448 GB/s). The average graphics card has a memory bandwidth of 448 GB/s.
  • Supports virtual GPU
    NVIDIA RTX 5000 Ada Generation supports virtual GPU features, the average graphics card does not.
  • 3.48x more transistors
    NVIDIA RTX 5000 Ada Generation has more transistors than the average graphics card (76,300 million vs 21,900 million). The average graphics card has 21,900 million transistors.
  • 1 more DisplayPort outputs
    NVIDIA RTX 5000 Ada Generation has more DisplayPort outputs than the average graphics card (4 vs 3). The average graphics card has 3 DisplayPort outputs.
  • More NVENC sessions
    NVIDIA RTX 5000 Ada Generation has more concurrent NVENC sessions than the average graphics card (Unlimited vs 8). The average graphics card has 8 concurrent NVENC sessions.
  • 15 mm lower card height
    NVIDIA RTX 5000 Ada Generation is shorter than the average graphics card (112 mm vs 127 mm). The average graphics card has a height of 127 mm.

Total
Performance
Memory
Platform & Features
Connectivity & Media
Design
  • 39.8% lower base clock speed
    NVIDIA RTX 5000 Ada Generation has a lower base GPU clock than the average graphics card (1,155 MHz vs 1,920 MHz). The average graphics card has a base GPU clock of 1,920 MHz.
  • 5.3% slower memory speed
    NVIDIA RTX 5000 Ada Generation has a lower effective memory speed than the average graphics card (18,000 MHz vs 19,000 MHz). The average graphics card reaches an effective memory speed of 19,000 MHz.
  • Older Vulkan version
    NVIDIA RTX 5000 Ada Generation supports an older Vulkan version than the average graphics card (1.3 vs 1.4).
  • Older shader model
    NVIDIA RTX 5000 Ada Generation supports an older shader model than the average graphics card (6.7 vs 6.8).
  • Older HDCP version
    NVIDIA RTX 5000 Ada Generation supports an older HDCP version than the average graphics card (2.2 vs 2.3).
  • No HDMI output
    NVIDIA RTX 5000 Ada Generation does not include HDMI output, the average graphics card does.
  • 2 fewer fans
    NVIDIA RTX 5000 Ada Generation has fewer fans than the average graphics card (1 vs 3).
  • No fan stop
    NVIDIA RTX 5000 Ada Generation does not support fan stop, the average graphics card does.
  • 16.3% higher TDP
    NVIDIA RTX 5000 Ada Generation has a higher TDP than the average graphics card (250 W vs 215 W). The average graphics card has a TDP of 215 W.
  • 12.5 dB noisier under load
    NVIDIA RTX 5000 Ada Generation has a higher load noise level than the average graphics card (47.5 dB vs 35 dB). The average graphics card has a load noise level of 35 dB.
  • 40 dB noisier at idle
    NVIDIA RTX 5000 Ada Generation has a higher idle noise level than the average graphics card (40 dB vs 0 dB). The average graphics card has an idle noise level of 0 dB.
  • 54.5% higher idle power draw
    NVIDIA RTX 5000 Ada Generation has a higher idle power draw than the average graphics card (17 W vs 11 W). The average graphics card has an idle power draw of 11 W.
  • No RGB lighting
    NVIDIA RTX 5000 Ada Generation does not include RGB lighting, the average graphics card does.
  • 2 fewer fans
    NVIDIA RTX 5000 Ada Generation has fewer fans than the average graphics card (1 vs 3).
    What it is: Total number of cooling fans
    When it matters: When you compare cooler designs and want one more clue about thermal potential.

    Importance: MEDIUM

    NVIDIA RTX 5000 Ada Generation has fewer fans than the average graphics card (1 vs 3).1 vs 3
  • 39.8% lower base clock speed
    NVIDIA RTX 5000 Ada Generation has a lower base GPU clock than the average graphics card (1,155 MHz vs 1,920 MHz). The average graphics card has a base GPU clock of 1,920 MHz.
    What it is: Base operating frequency of the GPU core under standard conditions
    When it matters: When you want to understand the card's guaranteed starting frequency instead of looking only at optimistic boost figures.

    Importance: HIGH

    NVIDIA RTX 5000 Ada Generation has a lower base GPU clock than the average graphics card (1,155 MHz vs 1,920 MHz). The average graphics card has a base GPU clock of 1,920 MHz.1155 MHz vs 1920 MHz
  • No fan stop
    NVIDIA RTX 5000 Ada Generation does not support fan stop, the average graphics card does.
    What it is: Fans automatically stop when temperature is low
    When it matters: When the PC spends a lot of time at idle and you care about keeping the desktop quiet during browsing, office work, or video playback.

    Importance: LOW

    NVIDIA RTX 5000 Ada Generation does not support fan stop, the average graphics card does.
  • No RGB lighting
    NVIDIA RTX 5000 Ada Generation does not include RGB lighting, the average graphics card does.
    What it is: Includes customizable RGB lighting effects
    When it matters: When the GPU is part of a windowed build with synchronized lighting.

    Importance: LOW

    NVIDIA RTX 5000 Ada Generation does not include RGB lighting, the average graphics card does.
  • 7.09x more expensive
    NVIDIA RTX 5000 Ada Generation is more expensive than the average graphics card (£3,760 vs £530).
    NVIDIA RTX 5000 Ada Generation is more expensive than the average graphics card (£3,760 vs £530).£3,760 vs £530
  • Older Vulkan version
    NVIDIA RTX 5000 Ada Generation supports an older Vulkan version than the average graphics card (1.3 vs 1.4).
    What it is: Highest supported Vulkan API version
    When it matters: When modern games, emulators, or creative apps lean on Vulkan support.

    Importance: LOW

    NVIDIA RTX 5000 Ada Generation supports an older Vulkan version than the average graphics card (1.3 vs 1.4).1.3 vs 1.4
  • 16.3% higher TDP
    NVIDIA RTX 5000 Ada Generation has a higher TDP than the average graphics card (250 W vs 215 W). The average graphics card has a TDP of 215 W.
    What it is: Typical power consumption under full load (TDP)
    When it matters: When you need a realistic idea of power draw before choosing a PSU or case.

    Importance: MEDIUM

    NVIDIA RTX 5000 Ada Generation has a higher TDP than the average graphics card (250 W vs 215 W). The average graphics card has a TDP of 215 W.250 W vs 215 W
  • 4.71x lower user score
    NVIDIA RTX 5000 Ada Generation has a lower user score than the average graphics card (1.70 vs 8.000).
    What it is: A rating that combines user reviews and the total number of reviews received by the graphics card.
    When it matters: When you want to understand how a graphics card performs in real use and how reliable it is in terms of performance, temperatures, noise, stability, and long-term ownership.
    NVIDIA RTX 5000 Ada Generation has a lower user score than the average graphics card (1.70 vs 8.000).1.7 vs 8
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Graphic comparison of NVIDIA RTX 5000 Ada Generation and

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Third-party reviews

United Kingdom
amazon
1.0
1 Reviews

(Reviews last updated: June 2026)

What customers like about NVIDIA RTX 5000 Ada Generation?

  • Significant performance leap over the previous A5000 and even outpaces the A6000 flagship in many rendering tasks
  • High-capacity 32GB ECC memory is ideal for large datasets, CAD, and AI inference
  • Excellent power efficiency, offering near-flagship performance at a lower 250W TDP
  • Dual-slot blower design allows for easier integration into multi-GPU workstation setups and server chassis
  • Certified driver support ensures stability and reliability for professional ISV applications

What customers dislike about NVIDIA RTX 5000 Ada Generation?

  • Lack of NVLink support prevents scaling memory across multiple cards for massive projects
  • Extremely high price point compared to consumer-grade cards like the RTX 4090/5090 which offer similar VRAM
  • VRAM capacity is still lower than the 48GB found in the top-tier RTX 6000 Ada
  • Blower-style cooling can run warm and loud under sustained heavy workloads
  • Poor value proposition for pure gaming compared to significantly cheaper GeForce alternatives

Expert reviews

F
forums.leadtek.com
26/12/2023
Review | Revealing the Performance of NVIDIA RTX 5000 Ada Leadtek

Based on the provided review, the NVIDIA RTX 5000 Ada Generation GPU is a high-end, 4nm professional graphics card built on the Ada Lovelace architecture. It features 12,800 CUDA cores, 400 4th-generation Tensor Cores, 100 3rd-generation RT Cores, and a massive 32GB of ECC memory, all contained within the same exterior design as the older RTX A5000. In benchmarking tests, the RTX...Read more

P
pugetsystems.com
12/01/2024
NVIDIA RTX Ada Generation Content Creation Review

The NVIDIA RTX Ada Generation professional GPUs deliver massive performance leaps over the previous Ampere "RTX A" series, especially in heavy GPU rendering applications like Blender, V-Ray, and Octane, where the flagship RTX 6000 Ada can perform up to two times faster than its predecessor, the RTX A6000. Higher-end models like the 6000 Ada ($6,800) and 5000 Ada ($4,000) offer...Read more

F
forums.leadtek.com
26/12/2023
Review | Revealing the Performance of NVIDIA RTX 5000 Ada

The NVIDIA RTX 5000 Ada Generation GPU, built on the 4nm Ada Lovelace architecture, delivers massive performance leaps over the previous-generation RTX A5000, particularly in high-end graphical interaction, real-time rendering, and offline computational tasks. Equipped with 12,800 CUDA cores, 400 4th-generation Tensor Cores, and 32GB of ECC memory, it achieves a single-precision...Read more

(Translated)Show original

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