On Wed, Dec 12, 2018 at 6:04 PM Brent Meeker <[email protected]> wrote:
> > > On 12/12/2018 3:29 AM, Bruno Marchal wrote: > > > On 11 Dec 2018, at 20:20, Brent Meeker <[email protected]> wrote: > > > > On 12/11/2018 11:06 AM, Jason Resch wrote: > > > > On Tue, Dec 11, 2018 at 12:53 PM Philip Thrift <[email protected]> > wrote: > >> >> >> On Tuesday, December 11, 2018 at 12:45:13 PM UTC-6, Jason wrote: >>> >>> >>> >>> On Tue, Dec 11, 2018 at 11:29 AM Brent Meeker <[email protected]> >>> wrote: >>> >>>> >>>> >>>> On 12/11/2018 12:31 AM, Philip Thrift wrote: >>>> >>>> >>>> >>>> On Monday, December 10, 2018 at 7:05:17 PM UTC-6, Jason wrote: >>>>> >>>>> >>>>> >>>>> No one is refuting the existence of matter, only the idea that matter >>>>> is primary. That is, that matter is not derivative from something more >>>>> fundamental. >>>>> >>>>> Jason >>>>> >>>> >>>> >>>> I can understand an (immaterial) computationalism (e.g. *The universal >>>> numbers. From Biology to Physics.* Marchal B [ >>>> https://www.ncbi.nlm.nih.gov/pubmed/26140993 ]) as providing a purely >>>> informational basis for (thinking of) matter and consciousness, but then >>>> why would *actual matter* need to come into existence at all? Actual >>>> matter itself would seem to be superfluous. >>>> >>>> If actual matter is not needed for experientiality (consciousness), and >>>> actual matter does no exist at all, then we live in a type of simulation of >>>> pure numericality. There would be no reason for actual matter to come into >>>> existence. >>>> >>>> >>>> If it feels like matter and it looks like matter and obeys the >>>> equations of matter how is it not "actual" matter? Bruno's idea is that >>>> consciousness of matter and it's effects are all we can know about matter. >>>> So if the "simulation" that is simulating us, also simulates those >>>> conscious thoughts about matter then that's a "actual" as anything gets. >>>> Remember Bruno is a theologian so all this "simulation" is in the mind of >>>> God=arithmetic; and arithmetic/God is the ur-stuff. >>>> >>> >>> It's not just Bruno who reached this conclusion. from Markus Muller's >>> paper: >>> >>> In particular, her observations do not fundamentally supervene on this >>>> “physical universe”; it is merely a useful tool to predict her future >>>> observations. Nonetheless, this universe will seem perfectly real to her, >>>> since its state is strongly correlated with her experiences. If the measure >>>> µ that is computed within her computational universe assigns probability >>>> close to one to the experience of hitting her head against a brick, then >>>> the corresponding experience of pain will probably render all abstract >>>> insights into the non-fundamental nature of that brick irrelevant. >>> >>> >>> Jason >>> >> >> >> >> >> >> What is the computer that running "her computational universe"? >> >> > The very same that powers the equations that bring life to our universe as > you see it evolve. > > >> What is its power supply? >> >> > Power is only required to erase information, and that is only a concept of > the physical laws of this universe. Even the laws of our universe permit > the creation of computers which require no power to run. > > See the bit about reversible computing: > https://en.wikipedia.org/wiki/Landauer%27s_principle (computations that > are reversible require no energy). > > > And they produce no results since they run both ways. They are not even > computations in the CT sense. > > > They are computations in the CT sense. > > > CT computations halt. A program that can just wander back an forth at > random doesn't halt. > A reversible computation can still halt. It doesn't have to be a never ending circle, it just has to be possible to re-wind back to the original state, in theory (by not throwing away information). > > All computations can be done reversibly. > > > OK. Here's my result, 1029394857. What two numbers did I add to > compute it? > Here you collapsed two operands down to one (you destroyed information). Had you preserved either of the other operands as outputs in the circuit, the question could be answered. Reversible logic gates require as many bits of outputs as bits of inputs, and must be defined with all outputs states having 1-to-1 mappings from input states. > > Read and write needs some energy, but is not part of the computation, > > > A quantum computation stops when you read its output. A CT computation > must halt to provide and output...otherwise you can't recognize an output > (and there would be no Halting Problem). > They can halt. Halting is just a final state that when reached, indicates the computation is done. Jason -- You received this message because you are subscribed to the Google Groups "Everything List" group. To unsubscribe from this group and stop receiving emails from it, send an email to [email protected]. To post to this group, send email to [email protected]. Visit this group at https://groups.google.com/group/everything-list. For more options, visit https://groups.google.com/d/optout.
