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Mar
21
accepted C preprocessor macro: concatenation (example for Fortan90)
Oct
22
awarded  Student
Apr
5
accepted C preprocessor macro to convert string of Fortran program to lowercase?
Jan
21
comment Missing CUDA inline PTX constraint letter for 8 bit variables in order to disable L1 cache for 8 bit variable (bool)
I made some test with a kernel with a loop containing a call to ld_gbl_cg and to st_gbl_cg. The time for iteration is really the same whether I use .cg for read and write or .cv (load volatile) and .wt (write through). Nevertheless, I accept the given answer above as it essentially responds to my original question. If anybody reports some experience with effects of cache operators on load store performance, I would of course be very happy...
Jan
21
accepted Missing CUDA inline PTX constraint letter for 8 bit variables in order to disable L1 cache for 8 bit variable (bool)
Jan
14
comment Missing CUDA inline PTX constraint letter for 8 bit variables in order to disable L1 cache for 8 bit variable (bool)
If I use the following asm statement in the 'st_gbl_cg' function, it compiles without warnings and allows to store data to a global location (for the 64 bit address case): asm ("st.global.cg.u8 [%0], %1;" :: "l"(addr) , "h"((short)t)); The only thing, that I am not sure yet, is whether 'ld_gbl_cg' and 'st_gbl_cg' really act on the L2 cache rather than on global memory. In fact, using the Cache operators .cg for 'ld_gbl_cg' and 'st_gbl_cg' so far give me the same performance as using .cv (load volatile) and .wt (write through). I.e. both seem to read from the same location...
Jan
14
comment Missing CUDA inline PTX constraint letter for 8 bit variables in order to disable L1 cache for 8 bit variable (bool)
Thank you very much for this comment. I will try a bit based on this (yet PTX is really foreign land for me). If I do not misunderstand the PTX 3.1 documentation (docs.nvidia.com/cuda/pdf/ptx_isa_3.1.pdf), "cache mode suffixes" do exist: Table 84, page 120 lists "Cache Operators for Memory Store Instructions".
Jan
14
revised Missing CUDA inline PTX constraint letter for 8 bit variables in order to disable L1 cache for 8 bit variable (bool)
Update of title
Jan
14
comment Missing CUDA inline PTX constraint letter for 8 bit variables in order to disable L1 cache for 8 bit variable (bool)
Thank you very much for your answer! It seems to work! (And the additional conversion should not be of importance for me :)) To know whether it definitely works, I need however the store function that is complementary to the above ld_gbl_cg function. I added this to the question above (see UPDATE). It would be amazing if you could help me out with this!
Jan
14
revised Missing CUDA inline PTX constraint letter for 8 bit variables in order to disable L1 cache for 8 bit variable (bool)
section "UPDATE" and "Additional information" added. No other changes.
Jan
11
comment Missing CUDA inline PTX constraint letter for 8 bit variables in order to disable L1 cache for 8 bit variable (bool)
@Robert - Thank you for your comment. Yes, I know that .u8 stands for 8 bit unsigned integer in PTX. What I cannot find however is the constraint letter in CUDA inline PTX that corresponds to a .u8 register in PTX. I.e. I do not know with what letter to replace the "???" in the above code (2nd code in the introduction). If I replace it for example with "r", I get the following error: "error: asm operand type size(1) does not match type/size implied by constraint 'r'". This error appears because r stands for a 4 byte unsigned integer, not a 1 byte unsigned integer...
Jan
10
asked Missing CUDA inline PTX constraint letter for 8 bit variables in order to disable L1 cache for 8 bit variable (bool)
Apr
17
comment C preprocessor macro: concatenation (example for Fortan90)
Does not work. Thanks for your comment though.
Apr
17
comment C preprocessor macro: concatenation (example for Fortan90)
This solution works fine with the IMB XL compiler and with the intel compiler. Unfortunately, I now had to find out that this solution, however, does not work with the c-preprocessor called by gfortran (I tried: gcc version 4.6.2 (GCC), gcc version 4.4.4 (GCC), gcc version 4.1.2 20070115 (SUSE Linux)). The problem remains the same as described above in the "PS": the actual concatenation is simply not performed. We are aiming for code working with any common compiler. I would be very grateful, if we could find a solution that works with the gcc compiler too. Thank you very much in advance.
Apr
17
awarded  Commentator
Apr
16
revised C preprocessor macro: concatenation (example for Fortan90)
edited tags
Apr
13
comment C preprocessor macro: concatenation (example for Fortan90)
Well, I admit it is not well formulated my statement. I simply did not want to discuss this issue, so I put a quick approximate explanation. Nevertheless, we have our reasons to do what we do...
Apr
13
comment C preprocessor macro: concatenation (example for Fortan90)
I had tried '#define d_dx(A,s) PASTE(s,d_dx(A))'. Why did that not work?
Apr
13
awarded  Scholar
Apr
13
comment C preprocessor macro: concatenation (example for Fortan90)
It is indeed as simple as this, thank you!