Time Symmetries of Memory Determine Thermodynamic Efficiency

Abstract: While Landauer's Principle sets a lower bound for the work required for a computation, that work is recoverable for efficient computations. However, practical physical computers, such as modern digital computers or biochemical systems, are subject to constraints that make them inefficientirreversibly dissipating significant energy. Recent results show that the dissipation in such systems is bounded by the nonreciprocity of the embedded computation. We investigate the consequences of this bound for different ty… Show more

“…And so, beyond technology impacts, the proposed device and protocols provide a fascinating experimental opportunity to measure energy flows that fluctuate at GHz timescales and at energy scales below thermal fluctuations. Success in these will open the way to theoretical investigations of the fundamental physics of information storage and manipulation, time symmetries, and fluctuation theorems [43,58].…”

Gigahertz Sub-Landauer Momentum Computing

“…And so, beyond technology impacts, the proposed device and protocols provide a fascinating experimental opportunity to measure energy flows that fluctuate at GHz timescales and at energy scales below thermal fluctuations. Success in these will open the way to theoretical investigations of the fundamental physics of information storage and manipulation, time symmetries, and fluctuation theorems [43,58].…”

Gigahertz Sub-Landauer Momentum Computing