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The L1/L2 cache are inclusive in Intel and L1 / L2 cache is 8 way associativity, means in a set there are 8 different cache lines exist. The cache lines are operated as a whole, means if I want to remove few bytes from a cache line, the whole cache line will be removed , not the only those bytes which I want to remove. Am I right ?

Now, my question is whenever a cache line of a set is removed/evicted from cache, either by some other process or by using clflush(manual eviction of a cache line/block ), does system store the evicted data of that cache line somewhere (in any buffer, register etc), so that next time it can load the data from that place to reduce the latency as compared to loading the data from main memory or higher level of cache, OR it ALWAYS simply invalidate the data in cache and next time loaded the data from next higher level.

Any suggestion or any link for the article will be highly appreciated. Thanks in advance.

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1 Answer 1

L1/L2 are not necessarily inclusive, only the last-level cache is known to be so, which on i7 would be the L3. You are right in saying that a cache line is the basic caching element, you would have to throw a whole cacheline in order to fill in a new one (or when invalidating that single line). You can read some more about that here - http://www.tomshardware.com/reviews/Intel-i7-nehalem-cpu,2041-10.html

When a line is removed, the action taken depends on its MESI state (MESI and its derivatives are the protocols for cache coherency maintenance). If the line if modified, ("M") then the data must be "written-back" to the next level cache (in case of a miss it may allocate there, or "write-through" on to the next level - depends on the policy that cache maintains). Note that when you reach the last level cache you would have to hit as it's inclusive. When evicting a line from the last level cache - it would have to get written to the memory. Either way, failing to write back a modified line would result in loss of coherency, which would most likely result in incorrect execution.

If the line is not modified (Invalid, Exclusive or Shared), than the CPU may silently drop it without need of writeback, thereby saving bandwidth. By the way, there are also several other states in more complicated cache protocols (like MESIF or MOESI).

You can find lots of explanations by googling for "cache coherence protocols". If you prefer a more solid source, you can refer to any CPU architecture or cache design textbook, I personally recommend Hennessy&Patterson's "Computer Architecture, a quantitative approach", there's a whole chapter on cache performance, but that's a bit off topic here.

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thanks leeor for answering. I got this link where they say both L2 and L3 are inclusive. bit-tech.net/hardware/cpus/2009/09/08/… how can we confirm inclusive/exclusive property of L1/L2/L3 in our own system ? Is there anyway in command line or we need to follow intel architecture manual ? –  bholanath Oct 24 '13 at 11:03

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