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In the book "Computer Architecture", by Hennessy/Patterson, 5th ed, on page 360 they describe MSI protocol, and write something like:

If the line is in state "Exclusive" (Modified), then on receiving "Write Miss" from the bus the current CPU 1) writes back the line into the bus, and then 2) goes into "Invalid" state.

Why do we need to write-back the line, if it will be overwritten anyway by the successive write by the other CPU?

Is it connected with the fact that every CPU should see the same writes? (but I don't see why is it a problem not see this particular write by some other CPU)

Here is the protocol from their book (question in green, in purple it is clear: we need to write-back in order to supply the line to requesting CPU): enter image description here

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Writing back the modified data to memory is not strictly necessary in a MSI protocol. The state diagrams also seem to assume a system with low cost memory access (data is supplied by memory even when found in the shared state in another cache) and a shared bus connecting to the memory interface.

However, the modified data cannot simply be dropped as in shared state since the requesting processor might only be modifying part of the cache block (e.g., only one byte). Whatever portions of the block that are not modified by the requesting processor must still be available either in memory or at the requesting processor (the other processor has already invalidated its copy). With a shared bus and low cost memory access the cost difference of adding a write-back to memory over just communicating the data to the other processor is small.

In addition, even on a word-addressed system with word-sized cache blocks, keeping the old data available allows the write miss request to be sent speculatively (as with out-of-order execution or prefetch-for-write) without correctness issues.

(Per-byte tracking of modified [or valid as a superset of modified] state would allow some data communication to be avoided at the cost of extra state bits and a more complex communication system.)

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Amazing. This is not written in the book. Thanks! Just a note: "data is supplied by memory even when found in the shared state in another cache" -- the diagram is not clear for this case. But in the book they have a table and in there: if ReadMiss on the bus and state is Shared/Modified then _attempt to _share data: place cache block on bus -- looks like data is supplied by the cache, not by the memory. – Ayrat Jan 18 '14 at 8:56
@Ayrat Textbook authors have to manage trade-offs of accuracy and completeness vs. ease of communication and simplicity (and time-to-market), so eliding some information is normal. Sadly, some simplifications can make understanding more difficult. (Incidentally, source-from-memory can be desirable for some directory-based coherence systems, especially when the directory is co-resident with the data in memory so the memory access is free. Such can reduce the hop-count [latency] to the requester and reduce use of interconnect bandwidth.) – Paul A. Clayton Jan 18 '14 at 18:13

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