All compatibility checks

Compatibility check

Can you run DeepSeek R1 Distill Qwen 14B on the RTX 6000 Ada?

Yes — runs in full precision

Yes. DeepSeek R1 Distill Qwen 14B fits on the RTX 6000 Ada (48 GB) in full FP16/BF16 precision, using about 34.8 GB including a 0.8 GB KV cache at 4,096 tokens. You have comfortable headroom for longer prompts and modest batching.

Memory breakdown

Weights plus a 0.8 GB KV cache at 4,096tokens, against the card's 48 GB. Verdicts leave ~10% headroom for activations and fragmentation.

PrecisionWeightsKV cacheTotal% of 48 GBFit
FP16 / BF16full quality34 GB0.8 GB34.8 GB73%Fits
INT8 (8-bit)near-full quality17 GB0.8 GB17.8 GB37%Fits
INT4 (4-bit)GPTQ / AWQ / GGUF Q48.5 GB0.8 GB9.3 GB19%Fits

Planning estimates, not a substitute for profiling. Real usage varies with the inference runtime, batch size, and how much context you actually use — the KV cache grows linearly with prompt length.

GPUs that run DeepSeek R1 Distill Qwen 14B

Cards where this model fits (at its best precision):

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Frequently asked questions

Can the RTX 6000 Ada run DeepSeek R1 Distill Qwen 14B?

Yes. In FP16 it uses about 34.8 GB, which fits the RTX 6000 Ada's 48 GB.

How much VRAM does DeepSeek R1 Distill Qwen 14B need?

Approximately 34 GB in FP16, 17 GB in INT8, and 8.5 GB in 4-bit for the weights, plus a KV cache of about 0.8 GB at 4,096 tokens.

Does quantization let DeepSeek R1 Distill Qwen 14B fit on the RTX 6000 Ada?

Yes. Dropping to FP16 / BF16 brings total usage to about 34.8 GB, which fits the 48 GB card with headroom for the KV cache.

What happens to memory with longer context?

The KV cache grows linearly with prompt length. At 4,096 tokens it is about 0.8 GB here; doubling the context roughly doubles that term, so long-context use can push a tight fit over the edge.