llmrun
NVIDIAAda Lovelace

Best AI Models for NVIDIA RTX 6000 Ada Generation (48.0GB)

VRAM:48.0 GB GDDR6·Bandwidth:960.0 GB/s·CUDA Cores:18,176·TDP:300W·MSRP:$6,799

With 48 GB of memory, this is a high-end configuration for local AI. You can comfortably run most open-source LLMs including large 70B parameter models at good quantization levels, making it one of the best setups for serious local AI work.

At this memory tier, nearly every popular open-source model is within reach. You can run Llama 3 70B at Q4_K_M or even Q5_K_M quantization with room to spare, handle coding assistants like DeepSeek Coder 33B at high quality, and easily run any 7B–30B model at full or near-full precision. Context windows remain generous even with larger models, so multi-turn conversations and long-document processing work smoothly.

Runs Well

  • 70B models (Llama 3 70B, Qwen 72B) at Q4–Q5
  • 30B models at Q6–Q8 quality
  • 7B–14B models at full FP16 precision
  • Vision models (LLaVA, CogVLM) without compromise

Challenging

  • Mixture-of-experts models like Mixtral 8x22B at higher quants
  • 120B+ models still require lower quantizations

What LLMs Can NVIDIA RTX 6000 Ada Generation Run?

113 models · 5 good

Showing compatibility for NVIDIA RTX 6000 Ada Generation

LLM models compatible with NVIDIA RTX 6000 Ada Generation — ranked by performance
ModelVRAMGrade
Qwen3 4B Instruct 25074.0B
Q4_K_M·215.2 t/s tok/s·262K ctx·EASY RUN
2.9 GBD28
Qwen1.5 14B14.2B
Q4_K_M·59.5 t/s tok/s·33K ctx·EASY RUN
10.5 GBC37
Llama 3.2 11B Vision Instruct10.7B
Q4_K_M·88.6 t/s tok/s·EASY RUN
7.0 GBC33
DeepSeek R1 Distill Llama 8B8.0B
Q4_K_M·115.8 t/s tok/s·131K ctx·EASY RUN
5.4 GBC31
DeepSeek R1 0528 Qwen3 8B8.2B
Q4_K_M·113.0 t/s tok/s·131K ctx·EASY RUN
5.5 GBC31
Qwen1.5 7B7.7B
Q4_K_M·103.8 t/s tok/s·33K ctx·EASY RUN
6.0 GBC32
Llama 3.2 1B Instruct1.2B
Q4_K_M·761.0 t/s tok/s·131K ctx·EASY RUN
0.8 GBD26
DeepSeek R1 Distill Qwen 7B7.6B
Q4_K_M·125.1 t/s tok/s·131K ctx·EASY RUN
5.0 GBC30
Hermes 3 Llama 3.1 8B8.0B
Q4_K_M·115.8 t/s tok/s·131K ctx·EASY RUN
5.4 GBC31
Llama 2 13B HF13.0B
Q4_K_M·72.6 t/s tok/s·EASY RUN
8.6 GBC34
Gemma 3 4B IT4.3B
Q4_K_M·219.7 t/s tok/s·EASY RUN
2.8 GBD28
Phi 3 Mini 4k Instruct3.8B
Q4_K_M·183.5 t/s tok/s·4K ctx·EASY RUN
3.4 GBD29
Olmo 3 7B Instruct7.3B
Q4_K_M·108.5 t/s tok/s·66K ctx·EASY RUN
5.8 GBC31
Phi 4 Mini Instruct3.8B
Q4_K_M·217.4 t/s tok/s·131K ctx·EASY RUN
2.9 GBD28
Deepseek Coder 6.7B Instruct6.7B
Q4_K_M·115.1 t/s tok/s·16K ctx·EASY RUN
5.4 GBC31
Phi 4 Reasoning14.7B
Q4_K_M·65.5 t/s tok/s·33K ctx·EASY RUN
9.5 GBC35

NVIDIA RTX 6000 Ada Generation Specifications

Brand
NVIDIA
Architecture
Ada Lovelace
Compute Capability
8.9 (CUDA SM version)
VRAM
48.0 GB GDDR6
Memory Bandwidth
960.0 GB/s
CUDA Cores
18,176
Tensor Cores
568
FP16 Performance
364.30 TFLOPS
TDP
300W
Release Date
2022-12-03
MSRP
$6,799

Get Started

Ollama (Recommended)

$curl -fsSL https://ollama.com/install.sh | sh
$ollama run llama3:8b

LM Studio

LM Studio

Download LM Studio, search for a model, and run it with one click.

GPUs to Consider Over NVIDIA RTX 6000 Ada Generation

Similar GPUs and upgrades with more VRAM or higher bandwidth for AI

NVIDIA H100 SXM

NVIDIA · Hopper

80 GB
3352.0 GB/s16,896 CUDA700W TDP

NVIDIA A100 80GB SXM

NVIDIA · Ampere

80 GB
2039.0 GB/s6,912 CUDA400W TDP

NVIDIA H100 PCIe

NVIDIA · Hopper

80 GB
2039.0 GB/s14,592 CUDA350W TDP

NVIDIA RTX PRO 6000 Blackwell Max-Q Workstation Edition

NVIDIA · Blackwell

96 GB
1792.0 GB/s24,064 CUDA300W TDP$8,565

NVIDIA RTX PRO 6000 Blackwell Workstation Edition

NVIDIA · Blackwell

96 GB
1792.0 GB/s24,064 CUDA600W TDP$8,565

AMD Instinct MI210

AMD · CDNA 2

64 GB
1638.4 GB/s6,656 SP300W TDP
All GPUs with 48+ GB VRAM →

Frequently Asked Questions

Can NVIDIA RTX 6000 Ada Generation run Mixtral 8x7B Instruct v0.1?

Yes, the NVIDIA RTX 6000 Ada Generation with 48 GB can run Mixtral 8x7B Instruct v0.1, Mixtral 8x7B v0.1, Falcon 40B, and 1334 other models. 11 models run at excellent quality, and 31 at good quality. Check the compatibility table above for the full list with VRAM usage and estimated speed.

Is NVIDIA RTX 6000 Ada Generation good for AI?

The NVIDIA RTX 6000 Ada Generation has 48 GB of GDDR6, making it excellent for running local AI models. It supports 42 models at good quality or better. With 960.0 GB/s memory bandwidth, it delivers fast token generation speeds. This is an enthusiast-grade GPU that handles most popular open-source LLMs.

How many parameters can NVIDIA RTX 6000 Ada Generation handle?

With 48 GB, the NVIDIA RTX 6000 Ada Generation supports models from 3B to 70B+ parameters depending on quantization level. At Q4_K_M (the recommended sweet spot), you can fit roughly 80B parameters. This means 7B models at high quality (Q6/Q8) or 30B+ models at Q4.

What quantization should I use on NVIDIA RTX 6000 Ada Generation?

For the best balance of quality and speed on the NVIDIA RTX 6000 Ada Generation, 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 6000 Ada Generation for AI inference?

With 960.0 GB/s memory bandwidth, the NVIDIA RTX 6000 Ada Generation achieves approximately 139 tokens/sec on a 7B model at Q4_K_M — that's very fast, well above conversational speed. A 14B model runs at ~69 tok/s. Token generation speed scales inversely with model size — smaller models are significantly faster.

tok/s = (960 GB/s ÷ model GB) × efficiency

Smaller models = faster inference. Memory bandwidth is the main bottleneck for token generation speed.

Estimated speed on NVIDIA RTX 6000 Ada Generation

~22 tok/s
~22 tok/s
~23 tok/s
~24 tok/s

Real-world results typically within ±20%. Speed depends on quantization kernel, batch size, and software stack.

Learn more about tok/s estimation →

What's the best model for NVIDIA RTX 6000 Ada Generation?

The top-rated models for the NVIDIA RTX 6000 Ada Generation are Mixtral 8x7B Instruct v0.1, Mixtral 8x7B v0.1, Falcon 40B. 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 6000 Ada Generation need?

The NVIDIA RTX 6000 Ada Generation has a TDP of 300 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 650 W PSU or larger. At this power level, a high-airflow case matters: aim for at least two front intake fans and one rear exhaust, with tidy cabling so hot air isn't trapped around the card. LLM inference sustains full GPU load continuously — longer and more consistently than most gaming workloads — so also make sure your CPU cooler can keep up under combined load.