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In: A Shortcut Through Time - The Path to the Quantum Computer, by George Johnson

alt text

he states:

"In the early 1960s, a physicist named Rolf Landauer proved that every time a bit is erased from a register, a minimum amount of heat is dissipated: wasted energy. ...

The only way to eliminate the heat is to avoid erasing the information in the first place, and that means saving all the intermediary results. As circuitry continues to shirnk and cooling technologies are exploited to their limits, engineers are beginning to confront the problem of how to eliminate this final source of waste. ...

A farsighted few began thinking about how to make reversible gates for a future breed of classicl classical computers - gates that do not throw out information. Given the output, you know what the input must have been. A whole subfield called "reversible computing" has emerged in which circuits are designed, and sometimes constructed, that preserve every step of the computation. ...

The work is not all theoretical. A few energy-efficient experimental chips, made entirely from reversible components have been assembled. And some circuits have been incorporatied into laptop computers to save battery power."

Reversible computing includes both hardware and software technologies.

Search "reversible computing" on Google for more on this.
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In: A Shortcut Through Time - The Path to the Quantum Computer, by George Johnson

alt text

he states:

"In the early 1960s, a physicist named Rolf Landauer proved that every time a bit is erased from a register, a minimum amount of heat is dissipated: wasted energy. ...

The only way to eliminate the heat is to avoid erasing the information in the first place, and that means saving all the intermediary results. As circuitry continues to shirnk and cooling technologies are exploited to their limits, engineers are beginning to confront the problem of how to eliminate this final source of waste. ...

A farsighted few began thinking about how to make reversible gates for a future breed of classicl computers - gates that do not throw out information. Given the output, you know what the input must have been. A whole subfield called "reversible computing" has emerged in which circuits are designed, and sometimes constructed, that preserve every step of the computation. ...

The work is not all theoretical. A few energy-efficient experimental chips, made entirely from reversible components have been assembled. And some circuits have been incorporatied into laptop computers to save battery powerpower."

Search "reversible computing" on Google for more on this.
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In: A Shortcut Through Time - The Path to the Quantum Computer, by George Johnson

alt text

he states:

"In the early 1960s, a physicist named Rolf Landauer proved that every time a bit is erased from a register, a minimum amount of heat is dissipated: wasted energy. ...

The only way to eliminate the heat is to avoid erasing the information in the first place, and that means saving all the intermediary results. As circuitry continues to shirnk and cooling technologies are exploited to their limits, engineers are beginning to confront the problem of how to eliminate this final source of waste. ...

A farsighted few began thinking about how to make reversible gates for a future breed of classicl computers - gates that do not throw out information. Given the output, you know what the input must have been. A whole subfield called "reversible computing" has emerged in which circuits are designed, and sometimes constructed, that preserve every step of the computation. ...

The work is not all theoretical. A few energy-efficient experimental chips, made entirely from reversible components have been assembled. And some circuits have been incorporatied into laptop computers to save battery power.
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