Reversible computation allows computation to proceed not only in the standard, forward direction, but also backward, recovering past states. While reversible computation has attracted interest for its multiple applications, covering areas as different as low-power computing, simulation, robotics and debugging, such applications need to be supported by a clear understanding of the foundations of reversible computation. We report below on many threads of research in the area of foundations of reversible computing, giving particular emphasis to the results obtained in the framework of the European COST Action IC1405, entitled “Reversible Computation - Extending Horizons of Computing”, which took place in the years 2015–2019
AbstractThe λ-calculus is destructive: its main computational mechanism – beta reduction – destroys ...
Software plays a central role in all aspects of reversible computing. We survey the breadth of topic...
Reversible computing is one of the most intensively developing research areas nowadays. We present a...
Reversible computation allows computation to proceed not only in the standard, forward direction, bu...
Reversible computation allows computation to proceed not only in the standard, forward direction, bu...
Reversible computation allows computation to proceed not only in the standard, forward direction, bu...
This open access State-of-the-Art Survey presents the main recent scientific outcomes in the area of...
AbstractReversible computing is a paradigm where computing models are defined so that they reflect p...
Reversible computation is a computing paradigm where execution can progress backward as well as in t...
Reversible computing is a paradigm where computing models are defined so that they reflect physical ...
International audienceReversible computing allows one to execute programs both in the standard, forw...
Reversible computing is a paradigm where programs can execute backward as well as in the usual forwa...
AbstractReversibility is a key issue in the interface between computation and physics, and of growin...
AbstractThe λ-calculus is destructive: its main computational mechanism – beta reduction – destroys ...
Software plays a central role in all aspects of reversible computing. We survey the breadth of topic...
Reversible computing is one of the most intensively developing research areas nowadays. We present a...
Reversible computation allows computation to proceed not only in the standard, forward direction, bu...
Reversible computation allows computation to proceed not only in the standard, forward direction, bu...
Reversible computation allows computation to proceed not only in the standard, forward direction, bu...
This open access State-of-the-Art Survey presents the main recent scientific outcomes in the area of...
AbstractReversible computing is a paradigm where computing models are defined so that they reflect p...
Reversible computation is a computing paradigm where execution can progress backward as well as in t...
Reversible computing is a paradigm where computing models are defined so that they reflect physical ...
International audienceReversible computing allows one to execute programs both in the standard, forw...
Reversible computing is a paradigm where programs can execute backward as well as in the usual forwa...
AbstractReversibility is a key issue in the interface between computation and physics, and of growin...
AbstractThe λ-calculus is destructive: its main computational mechanism – beta reduction – destroys ...
Software plays a central role in all aspects of reversible computing. We survey the breadth of topic...
Reversible computing is one of the most intensively developing research areas nowadays. We present a...