Provided by: lam-runtime_7.1.4-7_amd64 
NAME
bhost - LAM boot schema (host file) format
SYNTAX
#
# comments
#
<machine> [cpu=<cpucount>] [user=<userid>]
<machine> [cpu=<cpucount>] [user=<userid>]
...
DESCRIPTION
A boot schema describes the machines that will combine to form a multicomputer running
LAM. It is used by recon(1) to verify initial conditions for running LAM, by lamboot(1)
to start LAM, and by lamhalt(1) to terminate LAM (note that lamwipe(1) has been deprecated
by the lamhalt(1) command).
The particular syntax of a LAM boot schema is sometimes called the "host file" syntax. It
is line oriented. One line indicates the name of a machine, typically the full Internet
domain name, an optional number of CPUs available on that machine, and optionally the
userid with which to access it.
Common boot schema for a particular site may be created by the system administrator and
placed in the installation directory under etc/. They typically start with the prefix
bhost. Individual users usually create their own boot schema, especially if the
configurations are simple.
NAME RESOLUTION
Note that lamboot resolves all names listed in bhost on the node in which lamboot was
invoked on. The lamboot(1) man page contains information about address resolution,
examples on how to handle multiple network interface cards (NICs) in a node, etc.
EXAMPLE
Here is an example three node boot schema:
#
# example LAM host file
#
server.cluster.example.com schedule=no
beowulf1.cluster.example.com cpu=2
beowulf2.cluster.example.com
beowulf2.cluster.example.com
somewhere.else.example.com user=guest
Note that the "guest" ID is significant, since the user has an alternate login ID on
somewhere.else.example.com. Additionally note that beowulf1 has a CPU count of 2 listed
(a CPU count of 1 is assumed if it is not given). This value is used by mpirun(1),
MPI_Comm_spawn(2), and MPI_Comm_spawn_multiple(2) for the "C" (or CPU) notation that
specifies how many ranks to start. This is particularly useful for running on SMP
machines.
Note the schedule=no clause. This means that LAM will boot a daemon on that node, but by
default, will not launch any MPI processes on that node. This is handy for when you want
to control your MPI applications from one node (e.g., a server), but don't want to run any
MPI applications on it. In some environments this is the default (e.g., BProc). See the
LAM User's Guide for more details.
beowulf2 is listed twice, but has no specific CPU count listed. In this case, LAM will
keep a running tally of the total number of CPUs for that host. Hence, LAM will calculate
that beowulf2 has two CPUs available for use. Calculating the number of CPUs by counting
occurances of a hostname is useful in a batch environment where a hostfile may list the
same hostname multiple times, indicating that the batch scheduler has allocated multiple
CPUs for a single job (e.g., PBS operates this way).
For the above-mentioned schema, the command "mpirun C foo" would start five instances of
the foo program; two on beowulf1, two on beowulf2, and one on somewhere.else.
FILES
$LAMHOME/etc/bhost.def default boot schema file
SEE ALSO
LAM User's Guide, lamboot(1), lamhalt(1), mpirun(1), MPI_Comm_spawn(1),
MPI_Comm_spawn_multiple(1), recon(1), lamwipe(1)