0.4V Reconfigurable Near-Threshold TCAM in 28nm High-k Metal-Gate CMOS Process

This paper presents a near-threshold configurable ternary content addressable memory (TCAM) design for energy-constrained neural network or software-defined network (SDN) applications. A TCAM architecture based on foundry-based 6 $T$ SRAM mini-array improves area efficiency and minimizes disturbs to enable operation down to 0.4V, and provides configurable lookup tables for users. To minimize dynamic power consumption, hierarchical precharge structure (HPRE) and don't-care based ripple search-line scheme are utilized for decreasing both the switching activities and wire capacitance. Moreover, power-gating technique, self-timed control and $\mathbf{V}_{\mathbf{trip}}$ -tracking write-assist are used to reduce standby power, speed-up propagation delays of global signals and improve write-ability at low voltage, respectively. A reconfigurable TCAM is implemented using UMC 28nm high-k metal gate (HKMG) CMOS process. The design achieves operating frequency of 240MHz (20MHz) with energy consumption of 1.146 (0.621) fJ/bit/search at 0.9V (0.4V).