PROCSCHEMA(5) | LAM FILE FORMATS | PROCSCHEMA(5) |
procschema - LAM process schema format
# # comment # <program> [$delay] [$inet_topo] [<arguments>] <program> [$delay] [$inet_topo] [<arguments>]
...
Most LAM/MPI users can disregard this page.
A process schema (once ambiguously called a configuration file) lists the programs that will constitute the LAM environment on a particular node. It drives the operation of hboot(1). LAM system developers will find process schemata very useful for debugging and for generating custom systems. By convention these files begin with the prefix conf.
The default process schema selected by lamboot(1) (conf.lam) contains only one program, the LAM daemon (lamd). A one program process schema makes the whole business of process schemata and hboot(1) rather redundant. LAM can also be run in a de-clustered mode with the daemon reduced to a simple local message-passing server (the "kernel") and several system clients for network message-passing and remote services. This form of LAM is described in the process schema, conf.otb.
The syntax is line oriented. Comments begin with # and terminate with a newline.
Process lines consist of a filename, command line arguments, and possibly options and substitution variables. The command line arguments are passed to the process when it is started. The process options control how the process is started. Currently supported process options are:
Substitution variables are set by the tools that interpret the process schema and are a way of customizing the process at runtime. See hboot(1). Currently supported substitution variables are:
The programs found in the LAM de-clustered mode process schema, conf.otb, are listed below.
bufferd Creates, kills, sweeps, and states buffers. bforward Forward messages; helper for bufferd. died Monitors for death of user processes. dli_inet UDP/IP incoming connection to other nodes dlo_inet UDP/IP outgoing connection to other nodes echod Echoes messages; can be used to test nodes and links. filed Serves file access. flatd Provides symbolic access to node memory. kenyad Controls and monitors processes. kernel Coordinates local message-passing. loadd Loads executable files onto nodes. router Maintains network information. traced Collects and transports trace data.
Processes are started in the order given in the process schema, and for LAM, the order is important. In particular, the kernel must be first.
The de-clustered debug mode LAM process schema is shown below:
## ## The kernel is listed first. ## kernel $delay ## ## daemons ## router kenyad dli_inet $inet_topo dlo_inet bufferd bforward loadd echod flatd filed traced
July, 2007 | LAM 7.1.4 |