TY - GEN
T1 - Modeling and design analysis of 3D vertical resistive memory - A low cost cross-point architecture
AU - Xu, Cong
AU - Niu, Dimin
AU - Yu, Shimeng
AU - Xie, Yuan
PY - 2014
Y1 - 2014
N2 - Resistive Random Access Memory (ReRAM) is one of the most promising emerging non-volatile memory (NVM) candidates due to its fast read/write speed, excellent scalability and low-power operation. Recently proposed 3D vertical cross-point ReRAM (3D-VRAM) architecture attracts a lot of attention because it offers a cost-competitive solution as NAND Flash replacement. In this work, we first develop an array-level model which includes the geometries and properties of all the components in the 3D structure. The model is capable of analyzing the read/write noise margin of a 3D-VRAM array in the presence of the sneak leakage current and voltage drop. Then we build a system-level design tool that is able to explore the design space with specified constraints and find the optimal design points with different targets. We also study the impact of different design parameters on the array size, bit density, and overall cost-per-bit. Compared to the state-of-the-art 3D horizontal ReRAM (3D-HRAM), the 3D-VRAM shows great cost advantage when stacking more than 16 layers.
AB - Resistive Random Access Memory (ReRAM) is one of the most promising emerging non-volatile memory (NVM) candidates due to its fast read/write speed, excellent scalability and low-power operation. Recently proposed 3D vertical cross-point ReRAM (3D-VRAM) architecture attracts a lot of attention because it offers a cost-competitive solution as NAND Flash replacement. In this work, we first develop an array-level model which includes the geometries and properties of all the components in the 3D structure. The model is capable of analyzing the read/write noise margin of a 3D-VRAM array in the presence of the sneak leakage current and voltage drop. Then we build a system-level design tool that is able to explore the design space with specified constraints and find the optimal design points with different targets. We also study the impact of different design parameters on the array size, bit density, and overall cost-per-bit. Compared to the state-of-the-art 3D horizontal ReRAM (3D-HRAM), the 3D-VRAM shows great cost advantage when stacking more than 16 layers.
UR - https://openalex.org/W2081394011
UR - https://www.scopus.com/pages/publications/84897898529
U2 - 10.1109/ASPDAC.2014.6742992
DO - 10.1109/ASPDAC.2014.6742992
M3 - Conference Paper published in a book
SN - 9781479928163
T3 - Proceedings of the Asia and South Pacific Design Automation Conference, ASP-DAC
SP - 825
EP - 830
BT - 2014 19th Asia and South Pacific Design Automation Conference, ASP-DAC 2014 - Proceedings
T2 - 2014 19th Asia and South Pacific Design Automation Conference, ASP-DAC 2014
Y2 - 20 January 2014 through 23 January 2014
ER -