NVIDIA Architecture Roadmap
Track GPU architecture generations and plan for future features.
Future
Feynman
2028
Process: TBD
Memory: TBD
RT Cores: TBD
Tensor Cores: TBD
Officially teased by NVIDIA as the architecture following Rubin, slated for 2028.
Rubin
2026
Process: TSMC 3nm
Memory: HBM4
RT Cores: TBD
Tensor Cores: TBD
Expected at the end of 2026. Purpose-built for massive AI contexts and generative video.
Current Generation
Blackwell
2025
Process: TSMC 4N
Memory: GDDR7
RT Cores: 4 Gen
Tensor Cores: 5 Gen
RTX 50-series
Launched in early 2025 for consumers. Features fourth-generation RT cores and fifth-generation Tensor cores.
Previous Generations
Ada Lovelace
2022
Process: TSMC 4N
Memory: GDDR6X
RT Cores: 3 Gen
Tensor Cores: 4 Gen
RTX 40-series
Introduced third-generation RT cores and fourth-generation Tensor cores with DLSS 3 Frame Generation.
Hopper
2022
Process: TSMC 4N
Memory: HBM3
RT Cores: TBD
Tensor Cores: 4 Gen
Datacenter-only architecture. Powers H100, H200 GPUs. First NVIDIA GPU with Transformer Engine.
Ampere
2020
Process: Samsung 8nm / TSMC 7nm
Memory: GDDR6X
RT Cores: 2 Gen
Tensor Cores: 3 Gen
RTX 30-series
Introduced second-generation RT cores. Consumer cards used Samsung 8nm, datacenter used TSMC 7nm.
Architecture Feature Comparison
| Architecture | Year | Process | RT Cores | Tensor Cores | Memory | Consumer Series |
|---|---|---|---|---|---|---|
FeynmanAnnounced | 2028 | TBD | TBD | TBD | TBD | TBD |
RubinUpcoming | 2026 | TSMC 3nm | TBD | TBD | HBM4 | TBD |
BlackwellCurrent | 2025 | TSMC 4N | 4 Gen | 5 Gen | GDDR7 | RTX 50-series |
Ada LovelacePrevious | 2022 | TSMC 4N | 3 Gen | 4 Gen | GDDR6X | RTX 40-series |
HopperPrevious | 2022 | TSMC 4N | TBD | 4 Gen | HBM3 | TBD |
AmperePrevious | 2020 | Samsung 8nm / TSMC 7nm | 2 Gen | 3 Gen | GDDR6X | RTX 30-series |