Patent ID: 11610104

Abstract:
Methods of performing mixed-signal/analog multiply-accumulate (MAC) operations used for matrix multiplication in fully connected artificial neural networks in integrated circuits (IC) are described in this disclosure having traits such as: (1) inherently fast and efficient for approximate computing due to current-mode signal processing where summation is performed by simply coupling wires, (2) free from noisy and power hungry clocks with asynchronous fully-connected operations, (3) saving on silicon area and power consumption for requiring neither any data-converters nor any memory for intermediate activation signals, (4) reduced dynamic power consumption due to Compute-In-Memory operations, (5) avoiding over-flow conditions along key signals paths and lowering power consumption by training MACs in neural networks in such a manner that the population and or combinations of multi-quadrant activation signals and multi-quadrant weight signals follow a programmable statistical distribution profile, (6) programmable current consumption versus degree of precision/approximate computing, (7) suitable for ‘always-on’ operations and capable of ‘self power-off’, (8) inherently simple arrangement for non-linear activation operations such as Rectified Linear Unit, ReLu, and (9) manufacturable on main-stream, low cost, and lagging edge standard digital CMOS process requiring neither any resistors nor any capacitors.