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While learning MPI using MPICH in windows (1.4.1p1) I found some sample code here. Originally, when I ran the server, I would have to copy the generated port_name and start the client with it. That way, the client can connect to the server. I modified it to include MPI_Publish_name() in the server instead. After launching the server with a name of aaaa, I launch the client which fails MPI_Lookup_name() with

Invalid service name (see MPI_Publish_name), error stack:
MPID_NS_Lookup(87): Lookup failed for service name aaaa

Here are the snipped bits of code:

server.c

MPI_Comm client; 
MPI_Status status; 
char port_name[MPI_MAX_PORT_NAME];
char serv_name[256];
double buf[MAX_DATA]; 
int size, again; 
int res = 0;

MPI_Init( &argc, &argv ); 
MPI_Comm_size(MPI_COMM_WORLD, &size); 
MPI_Open_port(MPI_INFO_NULL, port_name);
sprintf(serv_name, "aaaa");
MPI_Publish_name(serv_name, MPI_INFO_NULL, port_name);

while (1) 
{ 
    MPI_Comm_accept( port_name, MPI_INFO_NULL, 0, MPI_COMM_WORLD, &client );
    /*...snip...*/
}

client.c

MPI_Comm server; 
double buf[MAX_DATA]; 
char port_name[MPI_MAX_PORT_NAME]; 
memset(port_name,'\0',MPI_MAX_PORT_NAME);
char serv_name[256];
memset(serv_name,'\0',256);

strcpy(serv_name, argv[1] )
MPI_Lookup_name(serv_name, MPI_INFO_NULL, port_name);
MPI_Comm_connect( port_name, MPI_INFO_NULL, 0, MPI_COMM_WORLD, &server ); 
MPI_Send( buf, 0, MPI_DOUBLE, 0, tag, server ); 
MPI_Comm_disconnect( &server ); 
MPI_Finalize(); 
return 0; 

I cannot find any information about altering visibility of published names, if that is even the problem. MPICH seems to not have implemented anything with MPI_INFO. I would try openMPI but I am having trouble just building it. Any suggestions?

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I have the same problem. I think the communication only works if you start a program on several computers using mpirun. I'll post a new question, maybe we're lucky. –  Rafael Reiter Feb 21 '13 at 16:09
    
Could you describe what you're trying to accomplish? If you're just learning MPI, I'll note that this is a very obscure feature set, that I have literally never seen or heard of being used in an application. In other words, it's probably not what you should be spending time and attention on. –  Novelocrat Aug 12 '13 at 16:39
    
@Novelocrat I wanted to get clients to reliably find the server without user to read off the published name by the server on start up. It's been a while and I have forgotten many things. (To any future readers)I was doing an initial explore of MPI to get a feel of what it can do but I did not have much luck and moved on to other things (ended up using boost asio for my work distribution needs). –  Morpork Aug 13 '13 at 3:12
    
The point is that when launching an MPI job, the normal pattern is that mpirun starts up all of your processes in one go, and they're then part of MPI_COMM_WORLD. They can send and receive messages amongst themselves with no further setup on the application's part. Unless you're doing something strange, simply getting a parallel program with some work distribution up and running should be trivial. –  Novelocrat Aug 13 '13 at 15:45
    
@Novelocrat Correct me if I'm wrong, but does work distribution not mean to a network of other computers? Surely mpirun cannot start processes on other computers? My understanding was that for the other computers to join the WORLD they need to know the port, which is PUBLISHED by the server. However when I called MPI_Lookup_name on the clients, they were still unable to locate where the server was. (Maybe I should have just copied the port number and gave it to the clients, and avoided publish_name/lookup_name altogether?) –  Morpork Aug 14 '13 at 0:48
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1 Answer

up vote 1 down vote accepted

This approach of publishing names, looking them up, and connecting to them is outlandish relative to normal MPI usage.

The standard pattern is to use mpirun to specify a set of nodes on which to launch a given number of processes. The operation of common implementations of mpirun implementations is explained in another question

Once the processes are all launched as part of a single parallel job, the MPI library reads whatever information the launcher provided during MPI_Init to set up MPI_COMM_WORLD, a communicator over the group of all processes in the job.

Using that communicator, the parallel application can distribute work, exchange information, and so forth. It would do this using the common MPI_Send and MPI_Recv routines, in all their variants, the collective operations, and so forth.

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