English
TSMC plans 1.6nm process for 2026
By Nick Flaherty, eeNews Europe (April 25, 2024)
TSMC is planning a 1.6nm process, called A16, for production in 2026 alongside a wafer-scale chiplet substrate and an automotive chiplet process.
The A16 process uses the TSMC Super Power Rail architecture with its nanosheet transistors for planned production in 2026. It improves logic density and performance by dedicating front-side routing resources to signals for high performance computing and AI chips with complex signal routes and dense power delivery networks. This will take on Intel’s backside power architecture that is key to the 18A and 14A process nodes.
The A16 TSMC process will provide 8-10% speed improvement at the same supply voltage as the N2P 2nm process, 15-20% power reduction at the same speed, and up to 1.10X chip density improvement.
|
E-mail This Article | 
|
|
Printer-Friendly Page |
|
||||||
Related News
- Omni Design Announces Silicon Validated Data Converters on TSMC 16nm Process
- Kalray announces the Tape-Out of Coolidge on TSMC 16NM process technology
- Analog Bits Showcases PCIe Gen2 / Gen3 / Gen4 Reference Clock PHY Design Kits Available on TSMC 7nm / 12nm / 16nm / 22nm process technology
- PLDA and MegaChips announce a cooperation to design PCIe controllers and PCIe PHY IP on TSMC's 16nm Process Technology
- M31 Deploys a Full Range of IP for TSMC 16nm FFC Process
Breaking News
- RISC-V International Promotes Andrea Gallo to CEO
- See the 2025 Best Edge AI Processor IP at the Embedded Vision Summit
- Andes Technology Showcases RISC-V AI Leadership at RISC-V Summit Europe 2025
- RISC-V Royalty-Driven Revenue to Exceed License Revenue by 2027
- Keysom Unveils Keysom Core Explorer V1.0
Most Popular
- RISC-V International Promotes Andrea Gallo to CEO
- See the 2025 Best Edge AI Processor IP at the Embedded Vision Summit
- Andes Technology Showcases RISC-V AI Leadership at RISC-V Summit Europe 2025
- Ceva, Inc. Announces First Quarter 2025 Financial Results
- Cadence Unveils Millennium M2000 Supercomputer with NVIDIA Blackwell Systems to Transform AI-Driven Silicon, Systems and Drug Design