RTX A2000 for Blender
Ampere GPU best suited to lighter Blender scenes, learning workflows, and budget-conscious rendering setups.
Last updated: May 26, 2026
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1,940
Entry-level speed — fine for learning and lighter scenes.
6 GB
Limited — best for simpler scenes and lighter workflows.
3,328
Lower core count — adequate for lighter rendering workloads.
Ampere
Previous-generation design — still competitive, especially at higher VRAM tiers.
288 GB/s
Lower bandwidth may become a bottleneck in texture-heavy or complex scenes.
1200 MHz
Lower clock speed — typical of older or workstation-class GPUs.
OptiX, CUDA
OptiX is typically the fastest option; CUDA provides a reliable fallback.
70 W
Low power — easy to cool and efficient for smaller builds.
2021
More technical details
Core specs
- Tensor cores: 104Tensor coresIn Blender, tensor cores primarily accelerate the OptiX AI denoiser, which can clean up noisy renders much faster than traditional denoising. They also help with AI-powered features like DLSS in the viewport.
- RT cores: 26Ray tracingHardware ray tracing support can speed up tasks that rely on realistic light transport, reflections, shadows, and path tracing.
- Base clock: 562 MHzBase clockIt is useful as a baseline specification, but real Blender performance depends on the full GPU design, not just the base clock number.
- Process size: 8 nmProcess nodeSmaller process nodes can improve efficiency and density, but they are not a direct performance score. They are best read as part of the overall architecture story.
Memory specs
- Memory type: GDDR6Memory typeYou will often see names like GDDR6 or GDDR6X. In practice, memory type matters less on its own than overall memory bandwidth and total VRAM.
- Memory bus: 192-bitMemory busA wider bus can move more data at once, but real performance also depends on memory speed and architecture. Bus width alone does not tell the full story.
Benchmark performance
This chart estimates how many seconds this GPU takes to render one frame of each standard Blender benchmark scene, so you can compare practical rendering speed at a glance.
These are single-frame estimates derived from Blender Open Data benchmark medians at the scene sample counts, not full-animation render times or guarantees for every real project.
View Blender Open Data sourceIs RTX A2000 good for Blender?
A concise editorial read on where this GPU looks strong, the tradeoffs to keep in mind, and who it suits best.
What stands out
- Ampere Architecture
- Workstation-focused Design
- Efficient 8 nm Process
- Boost clock of 1200 MHz
- 3328 CUDA cores for enhanced parallel processing
- GDDR6 memory type for faster data transfer
Tradeoffs to know
- Limited VRAM at 6 GB
- Not the best choice for high-end rendering tasks
Who should choose it
- Efficient for entry-level 3D rendering tasks
- Utilizes advanced Ampere architecture
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