A dual-page programming scheme for high-speed multigigabit-scale NAND flash memories

Abstract

To realize a low-cost and high-speed programming NAND flash memory, a new programming scheme, a "dual-page programming scheme," has been proposed. This architecture drastically increases the program throughput without circuit area overhead. In the proposed scheme, two memory cells are programmed at the same time using only one page buffer. Therefore, the page size, i.e., the number of memory cells programmed simultaneously, is doubled and the program speed is improved. As the number of page buffers required in the proposed scheme is the same as that in the conventional one, there is no circuit area increase. This novel operation is made possible by using a bitline as a dynamic latch to temporarily store the program data. As a result, the programming is accelerated by 73% in a 1-Gb generation and 62% in a 4-Gb generation, 18.2-MB/s 1-Gb or 30.7-MB/s 4-Gb NAND flash memory can be realized with this new architecture.