# Populate a memory array of 64K words – each word is 20 bits wide – out of 1K by 4 bit memory chips. How many such chips will you need? [closed]

I know this doesn't exactly fit the mold of this site, but this is a better place to ask than say Yahoo Answers. Can anyone help me with this?

Suppose you are instructed to populate a memory array of 64K words – where each word is 20 bits wide (let’s assume the extra 4 bits are for error correction) – out of 1K by 4 bit memory chips. How many such chips will you need?

Thanks!

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I think the assumtion is wrong. If the word is define as 20 bits don't assume that it must be contained in a multiple of 8 bits. –  Brett Walker Nov 22 '11 at 10:23

## closed as too localized by Tim Post♦Mar 26 '13 at 16:35

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I'll take a guess :-)

24bits/word, 65536 words = 1572864 bits.

1K x 4-bit memory means 4096 bits/chip, is that correct?

Then we have 1572864 bits / 4096 bits/chip = 384 chips.

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I think you are right... but what about parts B and C: b. How many address bits will go directly to the memory chips? c. How many address bits will need to be decoded before being routed to the individual memory chips? –  jcampos8782 Nov 22 '11 at 10:43
Do I just need a power of 2 > 384 for part b? or is that part c? I find this question really confusing. –  jcampos8782 Nov 22 '11 at 10:43
If you have 384 chips, you need 9 bits to address them (2 ^ 9 = 512). –  Roy Dictus Nov 22 '11 at 10:54
And then, I suppose, you'll have to decode 16 bits to get the address of the correct chip, because you can't just process 9 bits. –  Roy Dictus Nov 22 '11 at 10:55