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Mar
15
comment CUDA's nvcc Does Not Properly Compile Ternary Operators/Conditional Shorthand?
I'm not sure what you're talking about this being a GNU extension - a ? b : c is the C ternary operator (en.wikipedia.org/wiki/Ternary_operation) and is completely, totally, universally standard in C and C-derived languages. GNU does have a funny extension of this where you can omit b and it will return the expression a in its place (so, eg, you're returning a unless a is zero, in which case you return c) but as far as I can see you're not using that.
Mar
14
comment MPI Isend/Irecv performance behavior
Can you reproduce this on smaller numbers of processors?
Mar
13
comment sending multiple mpi non blocking send - will it preserve the sent order
I think you're right, and that I've been misreading this question this whole time, so missed the main point of your first comment.
Mar
11
comment sending multiple mpi non blocking send - will it preserve the sent order
Yes, unless you want to distinguish them with tags. Or, for that matter, communicators. But newbies to MPI almost never are carefully using tags for these things, and the OP never mentions them anywhere in the post.
Mar
11
comment sending multiple mpi non blocking send - will it preserve the sent order
Dude, that's what I said in the second paragraph of my answer.
Mar
5
comment getting error in reading a data
er, no exclamation mark in the print lines there, sorry.
Mar
5
comment Fortran: the largest and the smallest integer
First part: yes, huge(j4) should be 2147483647, because j4 is defined to be integer(kind=selected_int_kind(9)). But note that you had to define j4 to be of that kind. You can't just change kinds after the variables have been defined; eg, you can call selected_int_kind() as many times as you want afterwards and it doesn't change anything. The example above shows you how to define types of the various kinds.
Mar
5
comment getting error in reading a data
No; they're text. If you want to read them into an array of integers, so you can use them as numbers, then you should use @bananafish's answer, and read them in not as a character array but as an integer array; everything else is the same above. Eg, replace character(len=3),dimension(10,10) ::text with integer, dimension(10,10) :: text and the only other thing you have to change is the output, print "(10('<',a,'>',1x))", (trim(text(i,j))!, j=1,10) becomes print "(10('<',I3,'>',1x))", (text(i,j)!, j=1,10).
Mar
2
comment Cumulative sum in two dimensions on array in nested loop — CUDA implementation?
+1: "Start simple, measure performance, and then decide how to optimize." -- great advice generally, especially with something like GPU.
Mar
1
comment Convert a MPICH2 enabled code to OpenCL code
There's no problem linking in other libraries (eg, dlls) with mpi, or mpich2 for that matter, so it's not at all clear what you're asking.
Mar
1
comment Convert a MPICH2 enabled code to OpenCL code
+1; stop using file I/O as a communications medium. But also, MPI and OpenCL are orthogonal; one is for speeding up computations by communicating parts of the problem between nodes (or processors on a node) and one is for accelerating computation on a node. There's no reason for things to be one or the other.
Mar
1
comment How to combine subarrays of different widths using only one array for send and receive in MPI
No problem; you had it 90% figured out.
Feb
27
comment using pthreads in fortran
You might want to just trust your OpenMP implementation at this point; in practice, current OpenMP implementations do create a threadpool and reuse it rather than constantly creating and deleting threads. Then you end up with a program that is standards compliant and should work with pretty much any Fortran compiler anywhere.
Feb
24
comment “Saving” a common block
+1; wow, that's something that not only did I not know, I "knew" it exactly wrong. But on the other hand, I guess it's normally the case in practice that named common blocks are used precisely to share data throughout a call tree. Just another tricky reason never to use the darned things.
Feb
22
comment MPI coding practices with large projects multiple MPI_Finalize(); or just one?
+1, with a caveat. MPI_Init() is not in charge of starting the other processes; it's in charge of initializing the library, whatever that may mean for any given implementation. The standard doesn't say when the other processes are started, but generally it's by mpiexec/mpirun. You're not allowed to call any other MPI function once you've called MPI_Finalize(), so you only want to call it once.
Feb
20
comment How to deal with underflow in scientific computing?
Why don't you just scale everything by ~1e300 (or so); that gives you an exponent range of ~616 and significanltly in excess of 6 digits? Otherwise, you can just use quad precision; in Fortran that would be trivial, in Java it's straightforward to implement it in software with two double precision numbers per value; just take a look at ddfun90 (crd-legacy.lbl.gov/~dhbailey/mpdist) or dsmath.c in this forum (forums.nvidia.com/index.php?showtopic=73067). You wouldn't need to change your matrix or vector, just do the matrix-vector products in this software-extended precision.
Feb
20
comment How to deal with underflow in scientific computing?
What is the desired range of exponents, and digits precision of results?
Feb
20
comment Best approach to read and write large files with collective MPI-IO
Oof. Yeah, I'm expecting MPI_Count to make its way into other routines eventually but not for 3.0. You might be out of luck, then, and have to go with the manual displacement approach. Alternately, depending on what you do with the data, you could have a smaller pattern that repeats - either explicitly or by pretending it's a (say) 2d array - and still get pretty good load-balancing; but that'll depend on what you do with the 1d subarrays once they're loaded.
Feb
20
comment How to deal with underflow in scientific computing?
You're not interested in accuracy, but you are worried about underflowing? Underflowing isn't an accuracy consideration? I don't think I understand what you're looking for.
Feb
18
comment Range of MPI_offset in MPI
Oof, that's a tough one; I remember you asking about a version of this before, I think. I think the answer is no, there isn't a better way given the file you have. If you know the file has records of maximum 30 bytes, is it feasible for you to run a one-time conversion to make sure every record has exactly 30 bytes (eg, just pad the short lines) and then use MPI-IO on that? You'd pay a one-time conversion cost, but the operations on the fixed-record-length file would then be much faster and simpler.