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KEYSIGHT, SYNOPSYS, AND ANSYS DELIVER RADIO FREQUENCY DESIGN MIGRATION FLOW TO TSMC’S N6RF+ PROCESS NODE

New flow provides an efficient, integrated radio frequency circuit re-design solution based on Synopsys Custom Design Family, Keysight Electromagnetic Simulation, and Ansys Device Synthesis.


KEYSIGHT, SYNOPSYS, AND ANSYS DELIVER RADIO FREQUENCY DESIGN MIGRATION FLOW TO TSMC’S N6RF+ PROCESS NODE
The new Synopsys, Keysight, and Ansys N16 to N6RF+ integrated radio frequency design migration workflow.

Keysight Technologies, Synopsys, and Ansys introduce a new integrated radio frequency (RF) design migration flow from TSMC's N16 process to its N6RF+ technology to address the power, performance, and area (PPA) requirements of today's most demanding wireless integrated circuit applications. The new migration workflow integrates millimeter wave (mmWave) and RF solutions from Keysight, Synopsys, and Ansys into an efficient design flow that streamlines the re-design of passive devices and design components to TSMC's more advanced RF process.

This RF design migration initiative extends TSMC's Analog Design Migration (ADM) methodology with additional capabilities for RF circuit designers. Beyond the productivity gains offered by ADM, the Keysight, Synopsys, and Ansys migration workflow demonstrates significant power reduction for a 2.4GHz low noise amplifier (LNA) design re-targeted to the N6RF+ process.

Key components of the design migration flow include:
RF circuit designers can adopt the migration flow to rapidly re-design their devices to the N6RF+ process specifications and accelerate time-to-market. Keysight RFPro enables parameterization of passive devices including inductors and automatically re-creates highly accurate simulation models with layout tuned to the new process. Designers view the re-created device layout in Synopsys Custom Compiler along with synthesized inductors from Ansys VeloceRF, and then perform interactive EM analysis in complex wireless chips.

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