rbanffy

✨ Seasoned software developer, proficient in Python, Java. Less proficient in Ruby and Lisp. A bit rusty in C and C++. Learning Erlang very slowly. Also a computer collector and restorer, lover of 8-bit computers, mainframes and interesting Unix workstations.

email: username at that google mail thing

http://about.me/rbanffy

https://linkedin.com/in/ricardobanffy

[ my public key: https://keybase.io/rbanffy; my proof: https://keybase.io/rbanffy/sigs/HtF1uAf_RNpwIkNP1-YGWP_-3doWV6S5Cc1KywXeLYo ]

πŸ“… Joined in 2008

πŸ”Ό 186,694 Karma

✍️ 61,741 posts

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15 latest posts

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(Replying to PARENT post)

Probably because that's just the infrastructure they have.
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(Replying to PARENT post)

> At this point the most likely place for fast RISC-V to appear is China.

Or we just adopt Loongson.

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(Replying to PARENT post)

I did read it. A Banana Pi is not the fastest developer platform. The title is misleading.

BTW, it's quite impressive how the s390x is so fast per core compared to the others. I mean, of course it's fast - we all knew that.

And don't let IBM legal see this can be considered a published benchmark, because they are very shy about s390x performance numbers.

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(Replying to PARENT post)

Don't blame the ISA - blame the silicon implementations AND the software with no architecture-specific optimisations.

RISC-V will get there, eventually.

I remember that ARM started as a speed demon with conscious power consumption, then was surpassed by x86s and PPCs on desktops and moved to embedded, where it shone by being very frugal with power, only to now be leaving the embedded space with implementations optimised for speed more than power.

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(Replying to PARENT post)

If we think of spacetime as some sort of cellular automaton, where each state of a given point is a function (with some randomness, because God likes to throw dice) of previous states of the surrounding points, if the rules for a new state generation are extremely complex, there will be some significant overhead in dimensions we don't see, because the rules need to be somehow represented outside the observable reality. Another issue with this idea is that while the rules might be "outside", the parameters themselves have to be somehow encoded in the state of a cell, and can't propagate faster than light, or one cell (an indivisible unit of space) per indivisible unit of time), which limits the number of parameters accessible to any given cell to the ones immediately surrounding it.

Disclaimer: I hope it's obvious, but I'm no physicist. This is just how I would build a universe.

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(Replying to PARENT post)

Sean Bean meme saying β€œone does not simply make a sequel to 2001”.

I would completely redo the sets and get rid of CRTs everywhere, add understandable displays in Russian to the Leonov, and re-add the 1:1 flat displays to the Discovery. Also, remove the keyboards, which weren’t there in 2001.

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(Replying to PARENT post)

I feel the stories got successively smaller from 2010 and on. 2010's epilogue hints at the developments after 20,000 years, and 2061 and 3001 feel small in comparison.

2010 is a good follow on to the 2001 book, and answers some of the questions the first book left while expanding the mysteries and the sense of wonder.

My wife and I still quote it when answering questions such as what's for dinner.

"Something wonderful".

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(Replying to PARENT post)

> I too got bored, as you said the book did not seem to go anywhere.

I tried to rationalise those humans were from a world very different from my own, but not even that worked. It was like watching a reality show with uninteresting people.

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