Best AI Models for NVIDIA RTX PRO 4000 Blackwell (24.0GB)
24 GB is the enthusiast tier for running AI models locally. It comfortably handles 7B–13B models at high quality and opens the door to larger 30B models at moderate quantization.
This is one of the most popular memory tiers for local AI, found in GPUs like the RTX 4090 and RTX 3090. You can run Llama 3 8B, Mistral 7B, and Qwen 2.5 7B at Q5_K_M or Q6_K quality with fast token generation and generous context windows. Larger 14B models like DeepSeek R1 Distill fit comfortably at Q4_K_M. For even bigger models, 30B class runs at Q2–Q3, but 70B models are generally too heavy for single-GPU inference at this tier.
Runs Well
- 7B models (Llama 3 8B, Mistral 7B) at Q5–Q8 quality
- 13B–14B models at Q4–Q5 quality
- Small models (3B–4B) at FP16 precision
- Multimodal models like LLaVA 7B
Challenging
- 30B models only at Q2–Q3 quantization
- 70B models do not fit in VRAM
- Large context windows with 14B+ models
What LLMs Can NVIDIA RTX PRO 4000 Blackwell Run?
105 models · 7 excellent · 15 good
Showing compatibility for NVIDIA RTX PRO 4000 Blackwell
| Model | Quant | VRAM | Speed | Context | Status | Grade |
|---|---|---|---|---|---|---|
Q4_K_M·25.1 t/s tok/s·262K ctx·GREAT FIT | Q4_K_M | 17.4 GB | 25.1 t/s | 262K | GREAT FIT | S88 |
Q4_K_M·24.1 t/s tok/s·131K ctx·GREAT FIT | Q4_K_M | 18.1 GB | 24.1 t/s | 131K | GREAT FIT | S90 |
Q4_K_M·26.4 t/s tok/s·262K ctx·GREAT FIT | Q4_K_M | 16.6 GB | 26.4 t/s | 262K | GREAT FIT | S85 |
Q4_K_M·24.3 t/s tok/s·8K ctx·GREAT FIT | Q4_K_M | 18.0 GB | 24.3 t/s | 8K | GREAT FIT | S90 |
Q4_K_M·23.3 t/s tok/s·262K ctx·GREAT FIT | Q4_K_M | 18.7 GB | 23.3 t/s | 262K | GREAT FIT | S86 |
Q4_K_M·23.3 t/s tok/s·262K ctx·GREAT FIT | Q4_K_M | 18.7 GB | 23.3 t/s | 262K | GREAT FIT | S86 |
Q4_K_M·23.3 t/s tok/s·262K ctx·GREAT FIT | Q4_K_M | 18.7 GB | 23.3 t/s | 262K | GREAT FIT | S86 |
Q4_K_M·28.9 t/s tok/s·131K ctx·GOOD FIT | Q4_K_M | 15.1 GB | 28.9 t/s | 131K | GOOD FIT | A80 |
BF16·28.4 t/s tok/s·4K ctx·GOOD FIT | BF16 | 15.4 GB | 28.4 t/s | 4K | GOOD FIT | A81 |
Q4_K_M·32.9 t/s tok/s·131K ctx·GOOD FIT | Q4_K_M | 13.3 GB | 32.9 t/s | 131K | GOOD FIT | A70 |
BF16·28.5 t/s tok/s·8K ctx·GOOD FIT | BF16 | 15.3 GB | 28.5 t/s | 8K | GOOD FIT | A81 |
Q4_K_M·29.4 t/s tok/s·33K ctx·GOOD FIT | Q4_K_M | 14.9 GB | 29.4 t/s | 33K | GOOD FIT | A78 |
Q4_K_M·29.4 t/s tok/s·41K ctx·GOOD FIT | Q4_K_M | 14.9 GB | 29.4 t/s | 41K | GOOD FIT | A78 |
FP16·28.4 t/s tok/s·2K ctx·GOOD FIT | FP16 | 15.4 GB | 28.4 t/s | 2K | GOOD FIT | A81 |
Q4_K_M·29.5 t/s tok/s·4K ctx·GOOD FIT | Q4_K_M | 14.8 GB | 29.5 t/s | 4K | GOOD FIT | A78 |
Q4_K_M·21.5 t/s tok/s·41K ctx·GOOD FIT | Q4_K_M | 20.3 GB | 21.5 t/s | 41K | GOOD FIT | A70 |
NVIDIA RTX PRO 4000 Blackwell Specifications
- Brand
- NVIDIA
- Architecture
- Blackwell
- Compute Capability
- 12.0 (CUDA SM version)
- VRAM
- 24.0 GB GDDR7
- Memory Bandwidth
- 672.0 GB/s
- CUDA Cores
- 8,960
- Tensor Cores
- 280
- TDP
- 145W
- Release Date
- 2025-04-01
- MSRP
- $1,500
Get Started
GPUs to Consider Over NVIDIA RTX PRO 4000 Blackwell
Similar GPUs and upgrades with more VRAM or higher bandwidth for AI
NVIDIA GeForce RTX 5090
NVIDIA · Blackwell
NVIDIA GeForce RTX 3090 Ti
NVIDIA · Ampere
NVIDIA GeForce RTX 4090
NVIDIA · Ada Lovelace
AMD Radeon RX 7900 XTX
AMD · RDNA 3
NVIDIA GeForce RTX 3090
NVIDIA · Ampere
NVIDIA GeForce RTX 5090 Laptop GPU
NVIDIA · Blackwell
Frequently Asked Questions
- Can NVIDIA RTX PRO 4000 Blackwell run Qwen3.6 27B?
Yes, the NVIDIA RTX PRO 4000 Blackwell with 24 GB can run Qwen3.6 27B, Gemma 3 27B IT, Gemma 4 26B A4B IT, and 1264 other models. 69 models run at excellent quality, and 153 at good quality. Check the compatibility table above for the full list with VRAM usage and estimated speed.
- Is NVIDIA RTX PRO 4000 Blackwell good for AI?
The NVIDIA RTX PRO 4000 Blackwell has 24 GB of GDDR7, making it excellent for running local AI models. It supports 222 models at good quality or better. With 672.0 GB/s memory bandwidth, it delivers solid token generation speeds. This is an enthusiast-grade GPU that handles most popular open-source LLMs.
- How many parameters can NVIDIA RTX PRO 4000 Blackwell handle?
With 24 GB, the NVIDIA RTX PRO 4000 Blackwell supports models from 3B to 30B parameters depending on quantization level. At Q4_K_M (the recommended sweet spot), you can fit roughly 40B parameters. This means 7B models at high quality (Q6/Q8) or 30B+ models at Q4.
- What quantization should I use on NVIDIA RTX PRO 4000 Blackwell?
For the best balance of quality and speed on the NVIDIA RTX PRO 4000 Blackwell, start with Q4_K_M — it preserves ~85% of the original model quality while keeping VRAM usage reasonable. With 24+ GB, you have the headroom to run 7B models at Q5_K_M or even Q6_K for noticeably better output quality. For larger 30B models, Q4_K_M remains the sweet spot.
- How fast is NVIDIA RTX PRO 4000 Blackwell for AI inference?
With 672.0 GB/s memory bandwidth, the NVIDIA RTX PRO 4000 Blackwell achieves approximately 97 tokens/sec on a 7B model at Q4_K_M — that's very fast, well above conversational speed. A 14B model runs at ~49 tok/s. Token generation speed scales inversely with model size — smaller models are significantly faster.
tok/s = (672 GB/s ÷ model GB) × efficiency
Smaller models = faster inference. Memory bandwidth is the main bottleneck for token generation speed.
Estimated speed on NVIDIA RTX PRO 4000 Blackwell
~25 tok/s~24 tok/s~26 tok/s~24 tok/sReal-world results typically within ±20%. Speed depends on quantization kernel, batch size, and software stack.
- What's the best model for NVIDIA RTX PRO 4000 Blackwell?
The top-rated models for the NVIDIA RTX PRO 4000 Blackwell are Qwen3.6 27B, Gemma 3 27B IT, Gemma 4 26B A4B IT. The best choice depends on your use case: coding assistants benefit from code-tuned models, while general chat works well with instruction-tuned models like Llama or Qwen.
- What power supply and cooling does NVIDIA RTX PRO 4000 Blackwell need?
The NVIDIA RTX PRO 4000 Blackwell has a TDP of 145 W. A good rule of thumb is to provide at least double the GPU's TDP to cover the rest of the system — that means a 550 W PSU or larger. It's a relatively low-power card, so most mid-tower cases with basic airflow handle it comfortably. Still, ensure the GPU slot has clearance and vents aren't obstructed during long inference sessions.