def __init__()

in step7_pipeline_parallel_afab/process_group_manager.py [0:0]

• 28 lines of code
• 10 McCabe index (conditional complexity)

    def __init__(self, dp_size, pp_size, tp_size):
        self.global_rank = dist.get_rank()
        self.world_size = dist.get_world_size()
        self.local_rank = int(os.environ.get("LOCAL_RANK", self.global_rank % self.world_size))
        
        assert self.world_size == dp_size * pp_size * tp_size, f"World size ({self.world_size}) != DP ({self.dp_size}) * PP ({self.pp_size}) * TP ({self.tp_size})"

        self.grid = torch.arange(self.world_size).view(dp_size, pp_size, tp_size)  # DP * PP * TP grid
        # Find the position of the current process in the grid
        self.dp_rank, self.pp_rank, self.tp_rank = (self.grid == self.global_rank).nonzero().flatten().tolist()

        # Process group creation - Update indexing to match new grid order
        self.tp_group = dist.new_subgroups_by_enumeration([self.grid[d, p, :].tolist() for d in range(dp_size) for p in range(pp_size)])[0]
        self.pp_group = dist.new_subgroups_by_enumeration([self.grid[d, :, t].tolist() for d in range(dp_size) for t in range(tp_size)])[0]
        self.dp_group = dist.new_subgroups_by_enumeration([self.grid[:, p, t].tolist() for p in range(pp_size) for t in range(tp_size)])[0]
        self.pp_dp_group = dist.new_subgroups_by_enumeration([self.grid[:, :, t].flatten().tolist() for t in range(tp_size)])[0]

        self.world_group = dist.group.WORLD
        
        # Update group IDs with new grid ordering
        self.tp_group_ids = self.grid[self.dp_rank, self.pp_rank, :].tolist()
        self.pp_group_ids = self.grid[self.dp_rank, :, self.tp_rank].tolist()
        self.dp_group_ids = self.grid[:, self.pp_rank, self.tp_rank].tolist()
               
        # Tensor parallelism
        self.tp_world_size = dist.get_world_size(group=self.tp_group)
        self.tp_first_rank = self.tp_group_ids[0]
        self.tp_last_rank = self.tp_group_ids[-1]

        # Pipeline parallelism
        self.pp_world_size = dist.get_world_size(group=self.pp_group)
        self.pp_first_rank = self.pp_group_ids[0]
        self.pp_last_rank = self.pp_group_ids[-1]
        self.pp_is_first_stage = self.pp_rank == 0
        self.pp_is_last_stage = self.pp_rank == self.pp_world_size - 1
        self.pp_next_rank = None if self.pp_rank == self.pp_world_size - 1 else int(self.grid[self.dp_rank, self.pp_rank + 1, self.tp_rank].item())
        self.pp_prev_rank = None if self.pp_rank == 0 else int(self.grid[self.dp_rank, self.pp_rank - 1, self.tp_rank].item())

        # Data parallelism
        self.dp_world_size = dist.get_world_size(group=self.dp_group)
        self.dp_first_rank = self.dp_group_ids[0]
        self.dp_last_rank = self.dp_group_ids[-1]