Dec 14, 2018 · The antifuse element also follows the same rules as electrical and layout design rules as standard logic, with proven scalability down to the 7nm process node. The antifuse element also benefits from the same yield and reliability gains as other elements of a maturing process node, and this is also true for finFET processes.

The antifuse advantage for one-time programmable non-volatile memory Antifuse-based OTP NVM is highly scalable, has the area efficiency to enable macros of megabit capacities, and offers low read power.

The antifuse advantage for one-time programmable non-volatile memory Antifuse-based OTP NVM is highly scalable, has the area efficiency to enable macros of megabit capacities, and offers low read power.

Jan 25, 2019 · Antifuse-based OTP NVM is highly scalable, has the area efficiency to enable macros of megabit capacities, and offers low read power.

Apr 3, 2019 · The antifuse advantage for one-time programmable non-volatile memory Antifuse-based OTP NVM is highly scalable, has the area efficiency to enable macros of megabit capacities, and offers low read power.

Jan 7, 2019 · The antifuse advantage for one-time programmable non-volatile memory Antifuse-based OTP NVM is highly scalable, has the area efficiency to enable macros of megabit capacities, and offers low read power.