# # of sets in direct mapped cache

If I have 9 address bits, how many sets are there in a direct mapped cache? If I have 10 address bits, how many sets are there in a direct mapped cache?

Is there a general formula for this question?

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For direct mapped, each address only maps to one location in the cache, thus the number of sets in a direct mapped cache is just the size of the cache.

There would be 0 bits for the tag, and you don't provide enough information to determine the index or displacement bits.

Assuming you are using word addressing and you meant there are 9 or 10 bits for the index + tag:

9 bits -> 2^9 sets

10 bits -> 2^10 sets

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Ok, how can I separate the tag, index, and byte offset? –  Chris Dargis Nov 23 '11 at 1:54
How big are the words, and how big is the cache? –  Anthony Blake Nov 23 '11 at 1:55
I think that is the problem I am having, none of that was specified. –  Chris Dargis Nov 23 '11 at 1:56
Well how big is the memory? If the memory is > 1024 words, you can probably assume that there are 1024 words in the cache, and thus 1024 sets. –  Anthony Blake Nov 23 '11 at 1:58
1024 words for cache isn't big and thus sounds about right -- thats only 4KB if the words are 32-bit –  Anthony Blake Nov 23 '11 at 1:59

OK, for (a), draw yourself 8 columns to start off with -- those will be your sets in the cache.

For each address, check if the address (only high bits -- ignore lowest two bits) is at the bottom of the column numbered by bits 2-4. If there is nothing written in that column, or the bits 2-10 don't match, its a miss. If bits 2-10 match what you currently have written at bottom of that column -- its a hit because you have that address in cache. Regardless of whether it is a hit or miss, cross out current value in the column, and write the new address there.

Hope that helps.

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The number of blocks will be equal to 1 in case of a direct map.

Now you can get the number of sets by (Size of cache)/(No. of blocks)

which here is (size of cache)/1 = size of cache.

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