Version 6 (modified by 10 years ago) (diff) | ,
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The Barrier Library
The barrier.c and barrier.h files define a synchronisation service between several tasks sharing the same address space in a parallel multi-tasks application.
There is actually two types of barriers:
A) Simple Barrier
The giet_barrier_t is a simple sense-reversing barrier. It can be safely used several times (in a loop for example), but it does not scale, and should not be used when the number of expected tasks is larger than few tens.
The available functions are:
- barrier_init( giet_barrier_t * barrier, unsigned int ntasks )
- barrier_wait( giet_barrier_t * barrier )
The barrier argument is a pointer on a giet_barrier_t object. The ntasks argument is the number of expected tasks.
Neither the barrier_init(), nor the barrier_wait() function contains a system call.
B) Distributed Barrier
The giet_sbt_barrier_t can be used in multi-clusters architectures, and is implemented as a physically distributed Sliced-Binary-Tree (SBT). The SBT topology is completely defined by the number of tasks, with the following constraints:
- The number of tasks must be a power of 2.
- There is one task per processor.
- The involved clusters form a mesh[X][Y] where (X = Y) or (X = 2*Y).
- The lower left involved cluster is cluster(0,0).
- All involved clusters must contain a heap[x][y] vseg declared in the mapping.
The available functions are:
- sbt_barrier_init( giet_sbt_barrier_t * barrier, unsigned int ntasks )
- sbt_barrier_wait( giet_sbt_barrier_t * barrier )
The barrier argument is a pointer on a giet_barrier_t object. The ntasks argument is the number of expected tasks.
The sbt_barrier_init() contains a system call, but the sbt_barrier_wait() does not.
WARNING: For both types of barriers, the barrier initialisation should be done by one single task.