DeepSeek R1 Distill Qwen 32B (FP16) — 47.4 GBon NVIDIA RTX A6000
Overview
DeepSeek R1 Distill Qwen 32B is a 32.76B parameter dense language model by DeepSeek, with code, multilingual, thinking, tool-calls capabilities. It supports a context window of up to 131,072 tokens.
DeepSeek R1 Distill Qwen 32B is a 32.76-billion-parameter dense transformer from DeepSeek, distilled from the larger R1 reasoning model into a Qwen-based architecture. It excels at chain-of-thought reasoning, code generation, and multilingual tasks with built-in thinking capabilities. Compared to standard 30B-class instruct models, it provides stronger logical and mathematical reasoning. The model supports nine languages and a 128K context window, making it suitable for developers and researchers who need reasoning-focused inference on mid-range GPU setups.
At FP16 quantization (full-precision quality tier), the model weighs 61.03 GB. This exceeds the 48 GB of VRAM on NVIDIA RTX A6000. Inference is still possible via CPU offload or memory-mapped loading from disk, but expect significantly reduced performance.
The NVIDIA RTX A6000 is a professional GPU with 48 GB of GDDR6 VRAM and 768 GB/s memory bandwidth. It delivers 38.7 FP16 TFLOPS with Ampere architecture and CUDA compute 8.6. Suited for workstation inference on quantized models up to 30B parameters.
Hardware Requirements
| Model size | 61.03 GB |
| VRAM available | 48 GB |
| VRAM used | 47.4 GB |
| System RAM | |
| Min RAM required | 15.3 GB |
| GPU layers | 48 / 64 |
| Context size | 2,508 |
| Backend | cuda13 |
| Flash attention | Yes |
| Reading from disk | Yes |
Performance Notes
Deploy
Prerequisites
Ensure your GPU nodes are prepared with the NVIDIA container toolkit:
ansible-playbook prositronic.infra.nvidia_container_toolkitCommand
helmfile --state-values-file <(curl -s https://www.prositronic.eu/values/deepseek-r1-distill-qwen-32b/fp16/nvidia-a6000.yaml) applyGenerated values.yaml
/values/deepseek-r1-distill-qwen-32b/fp16/nvidia-a6000.yaml
Loading values…Frequently Asked Questions
How much VRAM does DeepSeek R1 Distill Qwen 32B (FP16) need?
The FP16 quantization of DeepSeek R1 Distill Qwen 32B requires 61.03 GB. 48 of 64 layers fit in the 48 GB of VRAM on NVIDIA RTX A6000; remaining layers are offloaded to CPU.
Can I run DeepSeek R1 Distill Qwen 32B on NVIDIA RTX A6000?
Yes, with reduced performance. NVIDIA RTX A6000 can run DeepSeek R1 Distill Qwen 32B (FP16), but only 48 of 64 layers fit in VRAM. The rest are offloaded to CPU.
What is quantization?
Quantization reduces a model's numerical precision from its original floating-point format to a more compact representation. This shrinks the file size and VRAM footprint, making it possible to run large models on consumer hardware. The trade-off is a small reduction in output quality. FP16 compresses DeepSeek R1 Distill Qwen 32B from its original size down to 61.03 GB.
What quantization should I choose for DeepSeek R1 Distill Qwen 32B?
FP16 is a full-precision quantization. Higher-quality quants (Q8, Q6) preserve more model accuracy but need more VRAM. Lower quants (Q4, Q3, Q2) reduce VRAM usage at the cost of some quality. Choose based on your available hardware and quality requirements.
What is flash attention and why is it enabled?
Flash attention is a memory-efficient algorithm that speeds up the attention mechanism in transformer models. It reduces VRAM usage during inference by avoiding the materialisation of the full attention matrix. For DeepSeek R1 Distill Qwen 32B on NVIDIA RTX A6000, flash attention is enabled to maximise context length and throughput within the available 48 GB of VRAM.
Why are some layers offloaded to CPU?
NVIDIA RTX A6000 has 48 GB of VRAM, but DeepSeek R1 Distill Qwen 32B (FP16) requires approximately 61.03 GB. Only 48 of 64 layers fit in VRAM; the remaining layers run on CPU, which is slower but still functional.
How do I run DeepSeek R1 Distill Qwen 32B (FP16) with Ollama?
Run ollama run deepseek-r1:32b-qwen-distill-fp16 to start DeepSeek R1 Distill Qwen 32B (FP16). Ollama handles downloading the model weights automatically on first run.