Koji je najveći iznos RAM-a koji bi teoretski mogao staviti na 64-bitno računalo?

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Koji je najveći iznos RAM-a koji bi teoretski mogao staviti na 64-bitno računalo?
Koji je najveći iznos RAM-a koji bi teoretski mogao staviti na 64-bitno računalo?

Video: Koji je najveći iznos RAM-a koji bi teoretski mogao staviti na 64-bitno računalo?

Video: Koji je najveći iznos RAM-a koji bi teoretski mogao staviti na 64-bitno računalo?
Video: Privacy, Security, Society - Computer Science for Business Leaders 2016 - YouTube 2024, Ožujak
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Većina ljudi nadogradi s 32-bitnog računalstva na 64-bitnu računalnu mrežu kako bi probila 4 GB RAM-a, ali kakodaleko možete li upasti kroz tu granicu nakon što ste ušli u područje 64-bitnih računala?

Današnja pitanja o pitanjima i odgovorima daju nam zahvaljujući SuperUser, podjela Škole razmjene, zajednice-driven grupiranje Q & A web stranica. Slika Petra Kratochvila.

Pitanje

SuperUser čitač KingNestor znatiželjan je koliko RAM-a može držati 64-bitno računalo:

I’m reading through my computer architecture book and I see that in an x86, 32bit CPU, the program counter is 32 bit.

So, the number of bytes it can address is 2^32 bytes, or 4GB. So it makes sense to me that most 32 bit machines limit the amount of ram to 4gb (ignoring PAE).

Am I right in assuming that a 64bit machine could theoretically address 2^64 bytes, or 16 exabytes of ram?!

Što kažete? Sada, sada, ne može biti pohlepan. Rado ćemo početi s terabajtom ili dva.

Odgovor

Odgovori na KingNestorov upit su zanimljiva mješavina praktičnih i teorijskih razmatranja. Matt Ball skoči s teorijskim odgovorom:

Theoretically: 16.8 million terabytes. In practice: your computer case is a little too small to fit all that RAM.

https://en.wikipedia.org/wiki/64-bit#Limitations_of_practical_processors

Conrad Dean skoči s bilješkom o tome kako bi bilo posve nepraktično da bi se maksimizirala teorijska granica RAM-a pomoću današnje tehnologije:

To supplement Matt Ball’s answer, the current largest stick of RAM I can find on one particular online retailer is 32GB. It would take 32 of these to reach 1 terabyte. At about a half inch per stick this brings us to a devoted 16 inches of space on your motherboard for a terabyte of commercial ram. To reach 16.8 million terabytes would require a motherboard 4,242.42 miles. The distance from LA to NYC is about 2141 miles, so the motherboard would stretch across the country and back to accomodate that much RAM.

Clearly this is impractical.

How about we didn’t put our RAM all in one row like on most motherboards, but instead placed them side-by-side. I want to say the average stick of ram is about six inches long, so if we allow a half an inch for width, you can have a square unit of 12 sticks of ram in a 6 inch square. Let’s call this square a RAM-tile. A RAM-tile then holds 384GB of RAM. To reach the required 16.8 million terabytes in 384GB tiles would take 44.8 million tiles. Let’s be messy, and use square root of that to conclude that this will fit in a square of 6693 by 6694 tiles, or 13,386 by 13,388 feet, which is close enough to 2.5 feet squared, enough to cover downtown Seattle in shadow, as if they didn’t already have enough to complain about.

Konačno, David Schwartz primjećuje da čak i teorijska granica opadaju zbog trenutne CPU arhitekture:

Note that no existing x86 64-bit processor can actually do this. Their caches don’t have enough tag bits, their address buses don’t have enough width, and so on. 46-bits (8TB) is the maximum for many modern x86 CPUs.

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