'Reversible' Computers More Energy Efficient

James Clark writes "As Congress continues work on a federal energy bill, a group of University of Florida researchers is working to implement a radical idea for making computers more energy efficient -- as well as smaller and faster." Reversible computing rears its head again.

"Reversible" a bad name?

[cant_get_a_good_nick]

Wouldn't "regenerative", like regenerative braking on most electrics/hybrids been a better term?

Re:Thermodynamics 101

[iggymanz]

funny this topic has popped up again after I saw it featured in Scientific American over 10 years ago....the real problem is that no one wants to halve the number of useful gates on a chp in order to bulid all the extra circuitry required to reduce (of course, not eliminate, entropy still will increase though at lessened rate) the thermodynamic cost of "forgetting" data.

I attack instead the basic premise, that there is a shortage of energy, or that we must accept lower standard of life or lower capability in our machinery. What we DO need to do is get smarter about where we get our energy - instead of adding to net heat budget and pollution budget of earth getting really serious about solar energy (which might just mean making hydrocarbon fuel out of plant & suitable waste materials)

Asynchronous Logic will be here first.

[Cordath]

Asynchronous Logic (i.e. no clock) has many of the same benefits, as well as potentially increasing the speed of processors significantly.

A rather large portion of the heat genreated by a processor is just from the clock signal propagating to every bloody logic gate in the mess including the parts not in use. With asynchronous logic, if a part isn't in use, it gets no current. Of course, clock signals have been used for the last half century for a reason. Clock signals are used to time signals so that you don't have 3 digits of a number showing up before the rest, etc. With asynchronous logic you have to worry about path lengths down to the picometer so you don't need the clock to act like a traffic warden. The biggest holdup to asynchronous logic has been the immense design difficulty involved, but that is changing as new design tools are developed.

Anyways, the big reason why Asynchronous logic is going to arrive on the processor scene long before reversable logic is that it already has. Intel and other manufacturers are already incorporating asynchronous logic into their designs, and plan to increase the ammount used as time goes by. The different manufacturing techniques required are slowly being phased in. Reversible computing, on the other hand, has virtually no chance of showing up within the decade.

My point is that the article linked made no allowance for the increasing use of asynchronous logic. It's going to have a significant impact on heat dissipation in the neBuew years.

Re:Vaporware?

[Bingo+Foo]

Sorry, but reversible computing is about having N distinct ouputs for N distinct inputs in any logical operation. Think thermodynamics and statistical mechanics, where reversibility is intimately coupled with "no production of entropy" which means "no loss of information."

It is at the information theory and logic level of description where reversible computing must be implemented.