In the late summer of 2020, as the semiconductor industry grappled with shrinking nodes and the demand for more efficient power electronics, the emerged as a critical pivot point for engineers. Based in Santa Clara, California , Silvaco had spent decades building its reputation in Technology Computer-Aided Design (TCAD) , but 2020 marked a shift toward more complex, physics-based simulations required for the next generation of devices. The Breakthrough in Process and Device Simulation
in emerging markets like IoT, automotive, and high-performance computing (HPC).
: The 2020 Baseline Release of Victory Process introduced significant enhancements to implantation , etching , and stress simulation modules. These updates were designed to help engineers simulate the intricate fabrication steps of modern chips with higher precision. Silvaco 2020 silvaco 2020 tcad silvacon
: On the simulation side, the release focused on emerging technologies. Key features included new organic models for OLED development and a dynamic model of incomplete ionization , which is crucial for accurately simulating wide-bandgap materials like Gallium Nitride (GaN) and Silicon Carbide (SiC) used in power electronics. Impact on the Industry
and next-generation nanowires as process nodes continued to shrink. In the late summer of 2020, as the
The "story" of the 2020 release was defined by two major pillars:
By the end of 2020, Silvaco had solidified its place not just as a software provider, but as a bridge between industry and academic physics, allowing users to harness advanced numerical methods to reduce time-to-market for the world's most complex electronics. Device Simulation – New Features in 2020 Baseline Release : The 2020 Baseline Release of Victory Process
During this period, Silvaco's TCAD suite became a "digital twin" for researchers. Instead of relying solely on expensive, time-consuming physical prototyping, engineers used these tools to: