gpullm-inferenceimage-gencomfyui

RTX 4500 Ada Generation

Updated Jun 8, 2026
VRAM
24 GB
Bandwidth
432 GB/s
TDP
210 W
MSRP
-
Category
gpu

RTX 4500 Ada Generation

The RTX 4500 Ada Generation is an NVIDIA GPU built on the Ada Lovelace architecture, released 2023-08-09. For running AI locally, the numbers that matter are its 24 GB of GDDR6 and 432 GB/s of memory bandwidth. VRAM decides which models fit at all; bandwidth sets how fast they generate text.

What you can run on 24 GB

At Q4_K_M quantization (the usual local default), 24 GB holds models up to roughly 38B parameters, leaving headroom for context. On this card you can run, among others:

Larger models need a higher-VRAM card, a second GPU, or CPU offload (which is much slower). Check any specific model with the VRAM calculator, or see the full picture on what can I run.

Local LLM speed (LLaMA 3, llama.cpp)

Single-stream token-generation throughput - estimated from memory bandwidth:

Model (quant)Speed on RTX 4500 Ada Generation
Llama 3 8B (Q4_K_M)50.6 tok/s
Llama 3 8B (F16)23 tok/s
Llama 3 70B (Q4_K_M)✗ won't fit

Because decode is memory-bandwidth bound, the 432 GB/s figure is the best single predictor of chat speed on this card. Estimates are calibrated against measured RTX-40-series cards and are typically within ~15%.

Memory and power

  • VRAM: 24 GB GDDR6 (192-bit bus)
  • Bandwidth: 432 GB/s
  • TDP: 210 W - a 550 W+ power supply is recommended
  • Process: 5 nm
  • Interface: PCIe 4.0 x16

Quantization and context

Quantization trades a little quality for a lot of VRAM. On 24 GB you can fit roughly a 38B model at Q4_K_M, about a 20B model at the higher-quality Q8, or a smaller model at full FP16. Longer context windows also consume VRAM (the KV cache grows with context length), so leave a few GB of headroom if you plan to use large prompts or many concurrent requests. For most chat and coding use, Q4_K_M on this card is the sweet spot between speed, quality, and the 24 GB budget.

How it compares

Similar cards for local AI, by VRAM and 8B-Q4 speed:

GPUVRAMBandwidthLlama 3 8B Q4
RTX 4500 Ada Generation24 GB432 GB/s50.6 tok/s
AMD Radeon RX 7900 XTX24 GB960 GB/s112.3 tok/s
Arc Pro B6024 GB456 GB/s53.4 tok/s
NVIDIA Tesla P4024 GB347 GB/s40.6 tok/s

Bottom line

The RTX 4500 Ada Generation is best for llm-inference, image-gen, comfyui. With 24 GB+ it comfortably handles most open models, including 30B-class at Q4. If you need more, compare with AMD Radeon RX 7900 XTX and Arc Pro B60.

Sources

Specs and benchmarks last checked 2026-06-08. Verify current pricing before buying.

Frequently asked

Quick answers to common questions

How much VRAM does the RTX 4500 Ada Generation have?

The RTX 4500 Ada Generation has 24 GB of VRAM with 432 GB/s memory bandwidth.

What local AI models can run on the RTX 4500 Ada Generation?

The RTX 4500 Ada Generation with 24 GB VRAM can run many models depending on quantization. Models up to ~36B params may fit at Q4_K_M. Use our VRAM calculator to check specific models.

Is the RTX 4500 Ada Generation good for local AI inference?

RTX 4500 Ada Generation is best for llm-inference, image-gen, comfyui. With ample VRAM it handles most open models well.

Where can I buy the RTX 4500 Ada Generation?

Check our buy links above for the best current prices on Amazon, Newegg, and B&H. Prices vary by retailer and availability.

How does the RTX 4500 Ada Generation compare to other GPUs?

RTX 4500 Ada Generation has 24 GB VRAM and 432 GB/s bandwidth. This puts it in the high-end category, suitable for most open models. Browse our hardware directory for side-by-side comparisons.

What power supply do I need for the RTX 4500 Ada Generation?

The RTX 4500 Ada Generation has a TDP of 210W. A standard quality PSU of 650W+ should suffice. Always check the manufacturer's recommendations for your specific build.

Nearby options

Similar hardware and models that fit

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