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I have seen other answers to a question like this, "fast memcpy", and others advice that, "figure out a way to not copy"...I have a program somewhat like this now that i'm trying to optimize...it has multiple threads doing memcpy on 1024 byte block, also using agner fog's asmlib to squeeze performance but is limited by the speed of the memory.

Can you give an example of how not to copy that it can be faster than memcpy in some cases?

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Well, why do you need to copy it? Where did it come from, and where is it going? –  Martin James Jul 30 '13 at 8:34
/* memcpy(dest, source, size); */ –  Alex Farber Jul 30 '13 at 8:34
It obviously depends on what you're doing, specifically what and why you're copying, so please be more concrete. That said, on a somewhat recent machine, I'd expect a 1 KiB copy to be almost as fast as just reading that 1 KiB (writing just hits the cache for a few cycles per word, and write-back takes care of main memory when you aren't looking - so latency is less of an issue, and bandwidth is plenty). –  delnan Jul 30 '13 at 8:34
You avoid copying if you have a pointer to the original memory. Of course, you can't modify it as you please then. –  Joachim Pileborg Jul 30 '13 at 8:35
This seems little like an XY problem, you have a solution you want to use and you ask us about how to use it, but you don't tell us why you want to use just that solution or the actual problem that caused you to select the solution. There might even be better solutions, but we won't be able to tell you them because we don't know why you doing what you're doing. –  Joachim Pileborg Jul 30 '13 at 8:49

2 Answers 2

Without seeing any code this is hard to explicitly answer. It sounds like you are reading two sectors of 512 byte data into a 1024 byte buffer but you want an extra 64 bytes to be appended to the end of the data.

Allocate a buffer of 1088 bytes, direct your reads into offset 0 and offset 512 of the buffer and then update the buffer with 64 bytes of data starting at offset 1024.

If you want another thread to have this data without memcpy then pass it the pointer to the start of the 1088 buffer.

Hope this is near to what your application is doing.

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thank you for the reply, yes, it is what i'm doing but the problem is, multiple threads are accessing the 1024byte block, but each thread is appending each own 64byte data to the end of the 1024byte block, since synchronization is NOT an option, my problem now is swapping pointer to the 1024byte block without clobbering the data appended by each thread (the 64byte), what i'm doing right now is transferring the whole 1024 block to a pre-allocated private buffer for each thread then changing the 64byte from there...hence no collision... –  Florentino Tuason Aug 3 '13 at 6:38
"since synchronization is NOT an option" - And why is synchronization not an option exactly? I mean, there aren't a ton of options; either you synchronize writes or you do something like you are doing now and give every thread a copy to work on and merge it all back at the end. –  Ed S. Aug 20 '13 at 17:50
@FlorentinoTuason, what you might be able to do is assign each thread a unique chunk of 64 bytes, and let them fill it in as they run. You would probably then want an array of bytes, one byte for each thread, so that when the thread has filled in its 64 bytes, it would set the byte to 1. When all bytes in the array have a 1 then all the slots have been filled. Thus, avoid synchronization by have massively parallel storage "bins". –  JackCColeman Aug 20 '13 at 19:43
@Ed S, i've coded it with synchronization and much slower than the one i'm using now, also i want the threadcount to increase, using synchronization will just badly hurt the performance, while it definitely makes sense to use syncronization here, i really want to avoid it... –  Florentino Tuason Aug 24 '13 at 19:33
@FlorentinoTuason, this is so application specific. But what if you were to develop a "work queue" and then have a thread that removes items from the queue updates the buffer and then gets the next item. Parallel working threads makes the most sense if you have a multi-processor core and use only as many threads as processors. –  JackCColeman Aug 24 '13 at 19:41

If you have processes working on memory in a multi processor environment, you can check NUMA architecture.

I do not know if NUMA affects treads. If not i can advice you to check how the cpu architecture you are working with works.

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