Exploring the state dependent SET sensitivity of asynchronous logic - The muller-pipeline example

Abstract: Asynchronous circuits exhibit considerable advantages over their synchronous counterparts, like lower dynamic power and inherent variation tolerance, which makes them increasingly interesting. Their fault-tolerance behavior, however, is not yet fully explored. In particular, temporal masking, as seen with synchronous circuits, seems to be completely nonexistent in asynchronous logic. Instead, there seem to be other masking mechanisms in the control structure that establish an extra barrier for transient fault … Show more

“…In some event-driven applications, such as Spiking Neural Networks (SNN), asynchronous circuits can control circuits in an event-driven manner more naturally than clock gating. As a result, asynchronous logic has been advocated as a means of reducing power consumption in many applications [11,12] . IBMs TrueNorth, which successfully implements SNN on a chip, has a low power requirement of 65 mW [13] , and the energy consumption in every state change of the neuron in Intel's Loihi is only 52-81 pJ [14] .…”

Design and tool flow of a reconfigurable asynchronous neural network accelerator

“…In some event-driven applications, such as Spiking Neural Networks (SNN), asynchronous circuits can control circuits in an event-driven manner more naturally than clock gating. As a result, asynchronous logic has been advocated as a means of reducing power consumption in many applications [11,12] . IBMs TrueNorth, which successfully implements SNN on a chip, has a low power requirement of 65 mW [13] , and the energy consumption in every state change of the neuron in Intel's Loihi is only 52-81 pJ [14] .…”

Design and tool flow of a reconfigurable asynchronous neural network accelerator

A versatile architecture for long-term monitoring of single-event transient durations

An Asynchronous Energy-Efficient CNN Accelerator with Reconfigurable Architecture