VSDCA: A Voltage Sensing Differential Column Architecture Based on 1T2R RRAM Array for Computing-in-Memory Accelerators.

Non-volatile memory (NVM) such as RRAM and PCM has become the key component in high energy efficiency computing-in-memory (CIM) architectures. However, the computing accuracy and energy efficiency improvement of conventional 1T1R RRAM array based current sensing CIM scheme is hindered by device variation and large output current. In this work, we propose a voltage sensing differential column architecture (VSDCA) based on 1T2R RRAM array for binary memory and CIM applications. The memory mode of VSDCA macro can improve $1.12\times $ to $5.29\times $ relative read margin compared to conventional 1T1R current sensing memory. The computing mode supports 8-bit input, 9-bit weight and 18-bit output high precision and rows fully parallel computing. The VSDCA macro design is evaluated under SMIC 40 nm technology node, the energy efficiency for the high precision CIM reaches 39.52 TOPS/W. The CIFAR10 inference accuracy of the simulated VGG16 and ResNet18 model is 85.91% and 89.32% respectively. [ABSTRACT FROM AUTHOR]