IM3A: Boosting Deep Neural Network Efficiency via I n- M emory A ddressing- A ssisted A cceleration

Most existing RRAM-based designs require expensive analog-to-digital converters (ADCs) digital-to-analog converters (DACs) and excessively occupied crossbars to achieve efficient acceleration. To reduce the overhead of DACs, the existing solution is to split the input into a bit sequence, but the MAC operation that can be completed by one cycle is forced to multiple cycles to the energy-efficiency decrease. For ADCs, it generally partitions the weight into multiple cells, resulting in an excessive number of crossbars or frequent writes on account of insufficient number. To solve this problem, we propose IM3A, an In-Memory Addressing-Assisted Acceleration scheme IM3A decompose MAC operations into multiplication and accumulation, which are implemented separately through the content-addressable and multiply-accumulated capabilities of the crossbar. The energy-efficiency is improved by the CAM crossbar supporting the parallel search of very large numbers of data bits, and the RRAM crossbar selectively enabling the rows to be read based on the hit result of the CAM search. Therefore, only the possibility of operands involved in MAC is deployed on the crossbar. Experimental results show that IM3A applied on various networks achieves system energy-efficiency improvement by 1.7x ∼ 15.9x over two state-of-the-art crossbar accelerators: ISAAC and PIM-Prune.