To accelerate next-gen semiconductor R&D, our team developed DDCC-TCAD, a fully autonomous multi-physics simulation platform. It pioneers the integration of the "Localized Landscape" (LL) theory, boosting computational efficiency by 1000x to accurately model quantum effects and solve key material disorder challenges. Commercially licensed by industry leaders like Apple and Meta, and downloaded by over 1,000 academics worldwide, DDCC-TCAD has proven its high industrial and academic value.

1. Developing an autonomous multi-physics solver for complex solid-state systems.
 
 
 
 2. Pioneering the "Localized Landscape" (LL) theory in semiconductor simulation, revolutionizing quantum computation with 1000x efficiency.
 
 
 
 3. Creating a unique defect-assisted tail state transport model, becoming the first tool to accurately predict IV-IQE behavior in nitride LEDs by resolving the coupled effects of V-defects and random alloy fluctuations.

Our platform offers a versatile digital twin solution rivaling commercial software. Its unique "Localized Landscape" (LL) model provides superior physical insights. The technology＇s value is proven by commercial licensing to industry leaders like Apple and Meta, generating significant royalties. Critically, this autonomous platform breaks the foreign monopoly, ensuring Taiwan＇s strategic security and technological sovereignty in the semiconductor industry.