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According to "CUDA C Programming Guide", a constant memory access benefits only if a multiprocessor constant cache is hit (Section 5.3.2.4)1. Otherwise there can be even more memory requests for a half-warp than in case of the coalesced global memory read. So why the constant memory size is limited to 64 KB?

One more question in order not to ask twice. As far as I understand, in the Fermi architecture the texture cache is combined with the L2 cache. Does texture usage still make sense or the global memory reads are cached in the same manner?


1Constant Memory (Section 5.3.2.4)

The constant memory space resides in device memory and is cached in the constant cache mentioned in Sections F.3.1 and F.4.1.

For devices of compute capability 1.x, a constant memory request for a warp is first split into two requests, one for each half-warp, that are issued independently.

A request is then split into as many separate requests as there are different memory addresses in the initial request, decreasing throughput by a factor equal to the number of separate requests.

The resulting requests are then serviced at the throughput of the constant cache in case of a cache hit, or at the throughput of device memory otherwise.

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@pst: thanks for the example of asking questions ) –  AdelNick Apr 21 '12 at 5:20
    
+1 for not making me look at the cuda programming guide:) –  byrondrossos Apr 21 '12 at 9:04

1 Answer 1

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The constant memory size is 64 KB for compute capability 1.0-3.0 devices. The cache working set is only 8KB (see the CUDA Programming Guide v4.2 Table F-2).

Constant memory is used by the driver, compiler, and variables declared __device__ __constant__. The driver uses constant memory to communicate parameters, texture bindings, etc. The compiler uses constants in many of the instructions (see disassembly).

Variables placed in constant memory can be read and written using the host runtime functions cudaMemcpyToSymbol() and cudaMemcpyFromSymbol() (see the CUDA Programming Guide v4.2 section B.2.2). Constant memory is in device memory but is accessed through the constant cache.

On Fermi texture, constant, L1 and I-Cache are all level 1 caches in or around each SM. All level 1 caches access device memory through the L2 cache.

The 64 KB constant limit is per CUmodule which is a CUDA compilation unit. The concept of CUmodule is hidden under the CUDA runtime but accessible by the CUDA Driver API.

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Could you please explain some more things: 1. What does it mean "constant area is versioned with each launch"? 2. Is the constant cache accessible programmatically with CUDA Runtime API? 3. So it follows that there are no differences between the constant and global memories? Or by placing a variable in the constant memory we explicitly say to compiler that the variable must be cached? –  AdelNick Apr 22 '12 at 6:46
    
Added additional details and links to the answer. –  Greg Smith Apr 22 '12 at 15:32
    
Greg, I'm sorry for probably not being clear enough. I know how to use the constant memory. In the question I wonder why the size of the constant memory is limited to 64 KB if only cached 8 KB actually provide the performance better than that of the global memory. In the same manner the global memory can be accessed via L1 cache. So from the programmer point of view what is the difference between using the global memory or the constant memory as they both are cached in the same manner? –  AdelNick Apr 22 '12 at 16:14
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The constant cache is optimally sized for graphics and compute shaders. The CUDA API exposes the constant cache so that developers can take advantage of the additional cache. The constant cache has optimal performance when all threads access the same address. Hits are very fast. Misses can have same performance of a L1 miss. The constant cache can be used to reduce thrashing of the L1. Compute capability 1.x devices do not have a L1 or L2 cache so the constant cache was used to optimize some accesses. –  Greg Smith Apr 22 '12 at 19:57

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