def _apply_model_parallel(self, tensor, encoder_output, encoder_mask, incr_state): """ Pipeline application of model parallelism. """ chunks = PipelineHelper.split( (tensor, encoder_output, encoder_mask, incr_state) ) work_items = PipelineHelper.schedule_work_items(self.layers, chunks) new_incr_state = {i: [] for i, _ in enumerate(self.layers)} for chunk_idx, layer_nos, next_device in work_items: s_tensor, s_enc_out, s_enc_mask, s_incr_state = chunks[chunk_idx] for layer_no in layer_nos: s_tensor, nis = self.layers[layer_no]( x=s_tensor, encoder_output=s_enc_out, encoder_mask=s_enc_mask, incr_state=s_incr_state.get(layer_no), ) new_incr_state[layer_no].append(nis) # don't move incr state, it's always on the correct device s_tensor, s_enc_out, s_enc_mask = PipelineHelper.chunk_to( (s_tensor, s_enc_out, s_enc_mask), next_device ) chunks[chunk_idx] = (s_tensor, s_enc_out, s_enc_mask, s_incr_state) tensor_out = PipelineHelper.join([c[0] for c in chunks]) new_incr_state = { layer_no: PipelineHelper.join(pieces) for layer_no, pieces in new_incr_state.items() } return tensor_out, new_incr_state
def _apply_model_parallel(self, tensor, encoder_output, encoder_mask, incr_state): """ Pipeline application of model parallelism. """ chunks = PipelineHelper.split( (tensor, encoder_output, encoder_mask, incr_state)) work_items = PipelineHelper.schedule_work_items(self.layers, chunks) new_incr_state = [{} for _ in chunks] for chunk_idx, layer_nos, next_device in work_items: s_tensor, s_enc_out, s_enc_mask, s_incr_state = chunks[chunk_idx] for layer_no in layer_nos: s_tensor, new_incr_state[chunk_idx][layer_no] = self.layers[ layer_no]( x=s_tensor, encoder_output=s_enc_out, encoder_mask=s_enc_mask, incr_state=s_incr_state.get(layer_no), ) chunks[chunk_idx] = PipelineHelper.chunk_to( (s_tensor, s_enc_out, s_enc_mask, s_incr_state), next_device) tensor_out = PipelineHelper.join([c[0] for c in chunks]) new_incr_state = PipelineHelper.join(new_incr_state) return tensor_out, new_incr_state
def _apply_model_parallel_with_extra( self, tensor, encoder_output, encoder_mask, incr_state, extra_output: torch.Tensor = None, extra_mask: torch.Tensor = None, ) -> Tuple[torch.Tensor, Dict[str, torch.Tensor]]: """ Copy paste from TransformerDecoder._apply_model_parallel while incorporating the extra output/extra mask. """ chunks = PipelineHelper.split( (tensor, encoder_output, encoder_mask, incr_state, extra_output, extra_mask) ) work_items = PipelineHelper.schedule_work_items(self.layers, chunks) new_incr_state = {i: [] for i, _ in enumerate(self.layers)} for chunk_idx, layer_nos, next_device in work_items: s_tensor, s_enc_out, s_enc_mask, s_incr_state, s_extra_out, s_extra_mask = chunks[ chunk_idx ] for layer_no in layer_nos: s_tensor, nis = self.layers[layer_no]( x=s_tensor, encoder_output=s_enc_out, encoder_mask=s_enc_mask, incr_state=s_incr_state.get(layer_no), extra_output=s_extra_out, extra_mask=s_extra_mask, ) new_incr_state[layer_no].append(nis) # don't move incr state, it's always on the correct device s_tensor, s_enc_out, s_enc_mask, s_extra_out, s_extra_mask = PipelineHelper.chunk_to( (s_tensor, s_enc_out, s_enc_mask, s_extra_out, s_extra_mask), next_device, ) chunks[chunk_idx] = ( s_tensor, s_enc_out, s_enc_mask, s_incr_state, s_extra_out, s_extra_mask, ) tensor_out = PipelineHelper.join([c[0] for c in chunks]) new_incr_state = { layer_no: PipelineHelper.join(pieces) for layer_no, pieces in new_incr_state.items() } return tensor_out, new_incr_state # type: ignore
def _apply_model_parallel(self, tensor, mask): """ Pipeline application of model parallelism. """ chunks = PipelineHelper.split((tensor, mask)) work_items = PipelineHelper.schedule_work_items(self.layers, chunks) for chunk_idx, layer_nos, next_device in work_items: s_tensor, s_mask = chunks[chunk_idx] for layer_no in layer_nos: s_tensor = self.layers[layer_no](s_tensor, s_mask) chunks[chunk_idx] = PipelineHelper.chunk_to((s_tensor, s_mask), next_device) tensor_out, mask_out = PipelineHelper.join(chunks) return tensor_out
def _apply_model_parallel(self, tensor, mask, **kwargs) -> Tuple[torch.Tensor, torch.Tensor]: """ Override to return attention weights. """ chunks = PipelineHelper.split((tensor, mask)) work_items = PipelineHelper.schedule_work_items(self.layers, chunks) for chunk_idx, layer_nos, next_device in work_items: s_weights = None try: s_tensor, s_mask = chunks[chunk_idx] except ValueError: s_tensor, s_mask, s_weights = chunks[chunk_idx] for layer_no in layer_nos: s_tensor, s_weights = self.layers[layer_no](s_tensor, s_mask, **kwargs) chunks[chunk_idx] = PipelineHelper.chunk_to( (s_tensor, s_mask, s_weights), next_device) joined = PipelineHelper.join(chunks) tensor_out, out_mask, weights = joined return tensor_out, weights