WebThe TSMC University Shuttle Program was established to provide professors at leading research universities worldwide with access to the advanced silicon process technologies … WebTo access this technology, please contact [email protected]. CMC is offering access to this 65nm LP CMOS through TSMC’s shuttle service. The process flavour supported by CMC is: Mixed-signal/RF 1P9M process configured for 1.2/2.5V and ultra-thick (34kA) top metal options which is suitable for: Low power circuits. RF/mixed-signal designs.
TSMC R&D Chief: There’s Light at the End of the Chip Shortage
WebHow to access: • Academic research in Canada: Apply directly from the FAB Schedule. • Industrial R&D or academic research outside Canada: Contact [email protected] for price options. • For more information, including Canadian academic pricing, see FAB services for making working prototypes. Posted Design Submission deadlines must be strictly adhered to. WebCurrently, we provide shuttle services for processes from 0.18μm to 14nm on a regular basis. Product ranges include logic, mixed-signal/RF CMOS, EEPROM/Flash, CIS, BCD, ect. … boxwood backdrop rental
MPW Shuttle Partner Foundry Samsung Semiconductor Global
WebPrivate Shuttle. Private Shuttle is "Customer-owned CyberShuttle", also called "Combo Tape Out", a method in which you may combine multiple devices or/and processes of the same technology node into a single mask set. Lower mask cost than full-mask tape out; ... tsmc 65GP, 1P9M process WebSemiconductor lithography and wafer mask set have developed dramatically in recent years. As technology migrated into nanometer geometries mask set price has increased exponentially. The good news is that mask cost is decreasing every year due to maturity in production process and other factors such as market demand, competition landscape etc ... WebOct 5, 2005 · The first shuttle employed two versions of the TSMC 65-nm process: the CLN65LP low-power process which includes low-standard and high-threshold transistors; … boxwood backdrop rental near me