Direct performance comparison between the RTX Pro 5000 Blackwell and RTX 3090 across 26 standardized AI benchmarks collected from our production fleet. Testing shows the RTX Pro 5000 Blackwell winning 25 out of 26 benchmarks (96% win rate), while the RTX 3090 wins 1 tests. All benchmark results are automatically gathered from active rental servers, providing real-world performance data.
For production API servers and multi-agent AI systems running multiple concurrent requests, the RTX Pro 5000 Blackwell is 377% faster than the RTX 3090 (median across 2 benchmarks). For Qwen/Qwen3-4B, the RTX Pro 5000 Blackwell achieves 2343 tokens/s vs RTX 3090's 583 tokens/s (302% faster). The RTX Pro 5000 Blackwell wins 2 out of 2 high-throughput tests, making it the stronger choice for production chatbots and batch processing.
For personal AI assistants and local development with one request at a time, the RTX Pro 5000 Blackwell is 36% faster than the RTX 3090 (median across 8 benchmarks). Running llama3.1:8b, the RTX Pro 5000 Blackwell generates 205 tokens/s vs RTX 3090's 145 tokens/s (41% faster). The RTX Pro 5000 Blackwell wins 8 out of 8 single-user tests, making it ideal for personal coding assistants and prototyping.
For Stable Diffusion, SDXL, and Flux workloads, the RTX Pro 5000 Blackwell is 307% faster than the RTX 3090 (median across 12 benchmarks). Testing sd3.5-medium, the RTX Pro 5000 Blackwell completes at 5.5 s/image vs RTX 3090's 38 s/image (591% faster). The RTX Pro 5000 Blackwell wins 12 out of 12 image generation tests, making it the preferred GPU for AI art and image generation.
For high-concurrency vision workloads (16-64 parallel requests), the RTX Pro 5000 Blackwell delivers 97% higher throughput than the RTX 3090 (median across 2 benchmarks). Testing trocr-base, the RTX Pro 5000 Blackwell processes 1505 pages/min vs RTX 3090's 751 pages/min (100% faster). The RTX Pro 5000 Blackwell wins 2 out of 2 vision tests, making it the preferred GPU for production-scale document processing and multimodal AI.
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Our benchmarks are collected automatically from servers having GPUs of type RTX Pro 5000 Blackwell and RTX 3090 in our fleet. Unlike synthetic lab tests, these results come from real production servers handling actual AI workloads - giving you transparent, real-world performance data.
We test both vLLM (High-Throughput) and Ollama (Single-User) frameworks. vLLM benchmarks show how RTX Pro 5000 Blackwell and RTX 3090 perform with 16-64 concurrent requests - perfect for production chatbots, multi-agent AI systems, and API servers. Ollama benchmarks measure single-request speed for personal AI assistants and local development. Models tested include Llama 3.1, Qwen3, DeepSeek-R1, and more.
Image generation benchmarks cover Flux, SDXL, and SD3.5 architectures. That's critical for AI art generation, design prototyping, and creative applications. Focus on single prompt generation speed to understand how RTX Pro 5000 Blackwell and RTX 3090 handle your image workloads.
Vision benchmarks test multimodal and document processing with high concurrent load (16-64 parallel requests) using real-world test data. LLaVA 1.5 7B (7B parameter Vision-Language Model) analyzes a photograph of an elderly woman in a flower field with a golden retriever, testing scene understanding and visual reasoning at batch size 32 to report images per minute. TrOCR-base (334M parameter OCR model) processes 2,750 pages of Shakespeare's Hamlet scanned from historical books with period typography at batch size 16, measuring pages per minute for document digitization. See how RTX Pro 5000 Blackwell and RTX 3090 handle production-scale visual AI workloads - critical for content moderation, document processing, and automated image analysis.
También incluimos el poder de cómputo del CPU (que afecta la tokenización y preprocesamiento) y las velocidades de almacenamiento NVMe (críticas para cargar modelos grandes y conjuntos de datos) – la visión completa para sus cargas de trabajo de IA.
The TAIFlops (Trooper AI FLOPS) score shown in the first row combines all AI benchmark results into a single number. Using the RTX 3090 as baseline (100 TAIFlops), this score instantly tells you how RTX Pro 5000 Blackwell and RTX 3090 compare overall for AI workloads. Learn more about TAIFlops →
Nota: Los resultados pueden variar según la carga del sistema y su configuración. Estos benchmarks representan valores medios de múltiples ejecuciones de prueba.
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