For nearest neighbour style halo swaps, usually one of the most efficient implementations is to use a set of `MPI_Sendrecv`

calls, usually two per each dimension:

**Half-step one - Transfer of data in positive direction:** each rank receives from the one on its left and into its left halo and sends data to the rank on its right

```
+-+-+---------+-+-+ +-+-+---------+-+-+ +-+-+---------+-+-+
--> |R| | (i,j-1) |S| | --> |R| | (i,j) |S| | --> |R| | (i,j+1) |S| | -->
+-+-+---------+-+-+ +-+-+---------+-+-+ +-+-+---------+-+-+
```

(`S`

designates the part of the local data being communicated while `R`

designates the halo into which data is being received, `(i,j)`

are the coordinates of the rank in the process grid)

**Half-step two - Transfer of data in negative direction:** each rank receives from the one on its right and into its right halo and sends data to the rank on its left

```
+-+-+---------+-+-+ +-+-+---------+-+-+ +-+-+---------+-+-+
<-- |X|S| (i,j-1) | |R| <-- |X|S| (i,j) | |R| <-- |X|S| (i,j+1) | |R| <--
+-+-+---------+-+-+ +-+-+---------+-+-+ +-+-+---------+-+-+
```

(`X`

is that part of the halo region that has already been populated in the previous half-step)

Most switched networks support multiple simultaneous bi-directional (full duplex) communications and the latency of the whole exchange is

Both of the above half-steps are repeated as many times as is the dimensionality of the domain decomposition.

The process is even more simplified in version 3.0 of the standard, which introduces the so-called neighbourhood collective communications. The whole multidimensional halo swap can be performed using a single call to `MPI_Neighbor_alltoallw`

.