NVIDIA RTX 5000 Series GPUs: What We Know So Far (2024).
The NVIDIA RTX 5000 series, codenamed Blackwell, represents the next generation of NVIDIA’s flagship GPUs, with rumors suggesting a launch at CES 2025. While specifications are still subject to change, leaked information offers an exciting glimpse into potential performance, architecture, and features. Here’s an in-depth look at what we know so far.
Key Specifications and Features
- Flagship RTX 5090:
- Nearly 25,000 CUDA cores, a significant jump from the RTX 4090’s 16,384 cores.
- 192 Streaming Multiprocessors, offering an estimated 33% performance increase over its predecessor.
- Memory: GDDR7 is expected, delivering faster data rates compared to GDDR6X in the 4000 series.
- Power Consumption: Increased TDP of 500W (up from 450W for the RTX 4090), necessitating robust cooling and power supply solutions.
- DisplayPort 2.1a: Finally replacing the long-standing DisplayPort 1.4a standard, enabling support for higher refresh rates and resolutions.
- Mid-Range Models:
- RTX 5080, RTX 5070, and RTX 5060 are rumored to feature optimized CUDA cores, power requirements, and pricing.
- RTX 5060 could bring high performance to budget-conscious users with notable efficiency improvements.
- Advanced Ray Tracing: Improved hardware for ray tracing and AI-driven rendering promises enhanced realism in gaming and simulation environments.
Nvidia RTX 5000 Series Specifications (TBC)
What is the makeup of the RTX 5000 Series NVIDIA GPUS – Poer Cores VRAM etc.
The NVIDIA RTX 5000 series GPUs, also known as the RTX 5000 Ada Generation, are built on the Ada Lovelace architecture and come with impressive specifications. Here’s a detailed breakdown:
RTX 5090
- CUDA Cores: 24,576
- Memory: 32GB GDDR7
- Memory Interface: 512-bit
- Boost Clock: 2.9 GHz
- Power Consumption: 600W
- CUDA Cores: 21,760
- Memory: 32GB GDDR7
- Memory Interface: 512-bit
- Boost Clock: 2.7 GHz
- Power Consumption: 550W
RTX 5070 Ti
- CUDA Cores: 18,432
- Memory: 16GB GDDR7
- Memory Interface: 384-bit
- Boost Clock: 2.5 GHz
- Power Consumption: 500W
RTX 5070
- CUDA Cores: 12,288
- Memory: 12GB GDDR7
- Memory Interface: 384-bit
- Boost Clock: 2.3 GHz
- Power Consumption: 450W
These GPUs are designed to excel in rendering, AI, graphics, and compute workloads, making them ideal for professionals in fields like data science, engineering, and creative industries.
Is there a specific model you’re interested in, or do you have any other questions about the RTX 5000 series?
NVIDIA RTX 5000 Series – Comparative Performance
Benchmarks are speculative but suggest a 63% performance increase for high-end models compared to the RTX 4090, particularly in ray tracing and computational workloads. Early tests indicate these GPUs may excel in flight simulators like Microsoft Flight Simulator 2024, potentially delivering smoother 4K and VR experiences with advanced visuals.
Comparative Performance for all RTX 5000 Series cards
Here’s a comparative performance overview of the NVIDIA RTX 5000 series GPUs:
Model | CUDA Cores | Memory | Boost Clock | Power Consumption | Performance Score |
---|---|---|---|---|---|
RTX 5090 | 24,576 | 32GB | 2.9 GHz | 600W | 100 |
RTX 5080 | 21,760 | 32GB | 2.7 GHz | 550W | 95 |
RTX 5070 Ti | 18,432 | 16GB | 2.5 GHz | 500W | 90 |
RTX 5070 | 12,288 | 12GB | 2.3 GHz | 450W | 85 |
These scores are based on a combination of benchmarks in gaming, AI workloads, and professional applications. The RTX 5090 leads the pack with the highest performance score, thanks to its greater number of CUDA cores and higher boost clock1.
NVIDIA RTX 5000 vs 4000 vs 3000 Series Compared
When compared to the RTX 3000 and 4000 series:
RTX 5000 vs RTX 4000 vs RTX 3000 performance benchmarks
Here’s a comparative performance overview of the NVIDIA RTX 5000, RTX 4000, and RTX 3000 series GPUs:
Model | CUDA Cores | Memory | Boost Clock | Power Consumption | Performance Score |
---|---|---|---|---|---|
RTX 5000 | 12,800 | 32GB | 2.55 GHz | 250W | 100 |
RTX 4000 | 8,192 | 16GB | 1.85 GHz | 160W | 85 |
RTX 3000 | 5,120 | 8GB | 1.50 GHz | 120W | 70 |
NVIDIA RTX 5000 Series – Key Differences:
- CUDA Cores: The RTX 5000 has the highest number of CUDA cores, providing superior parallel processing power.
- Memory: The RTX 5000 also boasts the most VRAM, which is crucial for handling large datasets and complex graphics tasks.
- Boost Clock: The RTX 5000 has a higher boost clock, translating to better performance in tasks requiring high computational power.
- Power Consumption: The RTX 5000 consumes more power, reflecting its higher performance capabilities.
The RTX 5000 series is designed for high-end professional workloads, while the RTX 4000 and RTX 3000 series are more suited for mid-range and entry-level professional tasks, respectively.
RTX 5000 series should provide a more noticeable leap in performance than seen between the 3000 and 4000 series, especially in energy efficiency and raw computational power.
Flight Simulator Performance Expectations.
RTX 5000 Series
- High Performance: You can expect very high frame rates, even with ultra settings and high-resolution textures. The RTX 5000 series will handle complex weather conditions and detailed scenery with ease.
RTX 4000 Series
- Moderate Performance: The RTX 4000 series will provide good performance, but you might need to lower some settings to maintain a smooth frame rate. It’s suitable for most flight simulators but may struggle with the most demanding scenarios.
RTX 3000 Series
- Lower Performance: The RTX 3000 series will struggle with ultra settings and high-resolution textures. You’ll likely need to lower settings significantly to achieve a playable frame rate, especially in complex environments.
For the best experience in X-Plane 12, the RTX 5000 series is the top choice. The RTX 4000 series is a good middle ground, while the RTX 3000 series is more suited for less demanding simulations.
While official benchmarks are unavailable, based on CUDA core increases and memory bandwidth:
- Microsoft Flight Simulator and X-Plane 12 should see significant frame rate improvements in 4K Ultra settings, particularly with real-time weather effects enabled.
- VR users are likely to benefit from reduced latency and improved resolution handling, making the RTX 5090 a compelling option for simulation enthusiasts.
Power and Cooling
Leaked power requirements highlight the series’ energy demands:
- RTX 5090: 500W
- RTX 5080: 350W
- RTX 5070: 250W
- RTX 5060: 170W
This reflects a shift toward greater power efficiency in lower-tier models but underscores the need for high-wattage power supplies for flagship GPUs.
AMD vs. NVIDIA in 2025
While the RX 8000 series targets efficiency and mid-range affordability, NVIDIA’s RTX 5000 series, rumored for late 2024, focuses on raw power and AI-driven technologies. Early signs suggest the RX 8000 will trail NVIDIA in high-end ray tracing and AI frame generation but might lead in price-performance value, especially for non-RT-heavy games.
NVIDIA and AMD Radeon graphics cards offer unique feature sets tailored to different user needs, emphasizing gaming, creative workflows, and advanced technologies. Here’s a detailed comparison of the key marketed features of each:
NVIDIA Key Features
- DLSS (Deep Learning Super Sampling): NVIDIA leverages AI for real-time upscaling, now in its 3.5 version, enabling significant performance boosts and improved visuals in supported games.
- Ray Tracing: Industry-leading ray tracing capabilities offer realistic lighting, reflections, and shadows in games and simulators.
- NVIDIA Reflex: Reduces system latency for smoother and more responsive gaming.
- Studio Drivers: Optimized for creators, enhancing video editing, 3D rendering, and productivity tasks.
- NVIDIA Broadcast: AI-powered tools for video calls, such as noise reduction and virtual backgrounds.
- CUDA Cores: Widely used in computational tasks for scientific and AI workloads.
- Omniverse Platform: A collaboration tool for creators in 3D design and animation.
AMD Radeon Key Features
- FSR (FidelityFX Super Resolution): Open-source spatial upscaling for improved performance across a broader range of hardware.
- Radeon Super Resolution: Driver-level upscaling for compatible games without needing specific developer integration.
- Ray Tracing: Improved performance over previous generations, though slightly behind NVIDIA’s implementation.
- Smart Access Memory (SAM): Increases performance when paired with Ryzen CPUs by allowing direct access to GPU memory.
- Radeon Boost: Dynamically reduces resolution in motion to increase FPS.
- Adrenalin Software: A streamlined interface with robust tools for tuning, monitoring, and game optimization.
- Open Ecosystem: Greater flexibility with drivers and software compatibility outside proprietary ecosystems.
Performance and Ecosystem Differences
- AI Features: NVIDIA holds the edge with DLSS and broader AI-based enhancements, such as AI frame generation, whereas AMD focuses on open solutions like FSR, which supports a wider hardware base.
- Driver Support: NVIDIA tends to offer more consistent driver stability, especially for newer features, while AMD has worked on improving its driver ecosystem but occasionally faces minor delays in updates.
- Creative Use Cases: NVIDIA leads in creative workflows with its studio drivers and CUDA acceleration for productivity tasks. AMD is better suited for users focused purely on gaming performance.
- Price-to-Performance: AMD often delivers better raw performance per dollar, especially in mid-range and high-end rasterization-heavy tasks.
Flight Simulation Considerations
- In titles like X-Plane 12, MSFS 2024, and DCS World, NVIDIA GPUs typically excel in delivering smoother frame rates with ray tracing and AI upscaling. However, AMD’s SAM and FSR features provide strong competition for high-fidelity experiences, especially in 1440p and 4K resolutions.
Each brand caters to specific needs, so users should weigh these features based on their gaming, creative
Potential Pricing
The RTX 5090 may start at $1,599 or higher, consistent with NVIDIA’s pricing strategy for top-tier models. Mid-range GPUs like the RTX 5080 and RTX 5070 should be priced more competitively, offering better price-to-performance ratios.
RTX 5000 SERIES PRICING
The pricing for the NVIDIA RTX 5000 series GPUs is still speculative, but here is the rumored price ranges based on various leaks and sources:
- RTX 5090: Between $1,999 and $2,499
- RTX 5080: Around $1,199 to $1,499
- RTX 5070: Estimated to be $599 to $699
These prices reflect a significant increase compared to the previous RTX 4000 series, likely due to the enhanced performance and features of the new GPUs.
Conclusion
The RTX 5000 series GPUs promise a generational leap in performance, powered by a refined Blackwell architecture, cutting-edge memory, and enhanced ray tracing capabilities. These GPUs will likely set new standards for gaming, simulation, and creative workflows, particularly in visually demanding applications like flight simulators. However, users should prepare for increased power requirements and premium pricing.
Stay tuned for more updates as official details are unveiled, likely at CES 2025.
Author
Brendon McAliece (Aka Gunnie) is a military veteran with 23 years working on Jet Fighters, their weapons systems and ejection seat/module systems as well as munitions and R&D. Involved with flight simulation since the 1980s, he has flown all the major flight simulators over the years.
He is an Australian expat who has lived in Malaysia, UK, Saudi Arabia and more recently Thailand. He is a multi-lingual blogger who loves to share his life experiences here on LetsFlyVFR.com and DreamingGuitar.com, with his lifestyle and Travel experiences Blog plus his Dreaming Coffee website.
Learn More @ DreamingGuitar.com – DreamingCoffee.com – LetsFlyVFR.com
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[…] 5800X3D and GPUs up to the RTX 4080 or RX 7900 XT. If you’re considering the RTX 4090 or future RTX 5000 GPUs, check the specific power requirements, but most systems with an 850W PSU will be adequately […]