A high-density dual-port memory cell operation and array architecture for ULSI DRAMs

A high-density dual-port DRAM architecture is proposed. It realizes a two-transistor/one-capacitor (2Tr-1C) dual-port memory cell array with immunity against the array noise caused by the dual-port operation. This architecture, called a truly dual-port (TDP) DRAM, adopts the previously proposed divided/shared bit-line (DSB) sensing scheme in a dual-port 2Tr-1C DRAM array. A 2Tr-1C dual-port memory cell array with folded bit-line sensing operation, which does not increase the number of bit lines of the 1Tr-1C folded bit-line memory array, is realized, thus reducing the memory cell size. This architecture offers a solution to the fundamental limitations in the 2Tr-1C dual-port memory cell, and it is easily applicable to dual-port memory cores in ASIC environments. An analysis of the memory array noise in various dual-port architectures shows a significant improvement with this architecture. Applications to the complete pipelining operation of a DRAM array and a refresh-free DRAM core are also discussed