A 2T P-Channel Logic Flash Cell for Reconfigurable Interconnection in Chiplet-Based Computing-In-Memory Accelerators

In this work, we propose a two-transistor (2T) p-type channel (p-channel) logic-compatible flash cell. Compared to the previous designs, the proposed structure features reduced area-cost and enhanced ability to pass through the logic '1'. Due to these advantages, we explore its application as the reconfigurable interconnections in the chiplet-based system. By integrating them into the silicon interposer, the 2T p-channel flash cells can potentially lead to the dense and flexible interconnection between multiple computing-in-memory (CIM) chiplets, resulting in highly reconfigurable and scalable chiplet-based CIM accelerators. A 180nm 1Kb 2T p-channel flash cell array is fabricated and characterized. The characterization results show the 2T p-channel flash cells exhibit a signal ratio >10(3) over 1000 program/erase (P/E) cycles and the device-to-device variations are less than 21.07%. Their typical behaviors as routers are also confirmed by circuit simulations.