def moe_infer()

in src/hyperpod_nemo_adapter/collections/model/nlp/custom_models/modeling_deepseek.py [0:0]

• 61 lines of code
• 8 McCabe index (conditional complexity)

    def moe_infer(self, x, topk_ids, topk_weight):
        cnts = topk_ids.new_zeros((topk_ids.shape[0], len(self.experts)))
        cnts.scatter_(1, topk_ids, 1)
        tokens_per_expert = cnts.sum(dim=0)
        idxs = topk_ids.view(-1).argsort()
        sorted_tokens = x[idxs // topk_ids.shape[1]]
        sorted_tokens_shape = sorted_tokens.shape
        if self.ep_size > 1:
            tokens_per_ep_rank = tokens_per_expert.view(self.ep_size, -1).sum(dim=1)
            tokens_per_expert_group = tokens_per_expert.new_empty(tokens_per_expert.shape[0])
            dist.all_to_all_single(tokens_per_expert_group, tokens_per_expert)
            output_splits = tokens_per_expert_group.view(self.ep_size, -1).sum(1).cpu().numpy().tolist()
            gathered_tokens = sorted_tokens.new_empty(
                tokens_per_expert_group.sum(dim=0).cpu().item(), sorted_tokens.shape[1]
            )
            input_split_sizes = tokens_per_ep_rank.cpu().numpy().tolist()
            dist.all_to_all(
                list(gathered_tokens.split(output_splits)),
                list(sorted_tokens.split(input_split_sizes)),
            )
            tokens_per_expert_post_gather = tokens_per_expert_group.view(self.ep_size, self.experts_per_rank).sum(dim=0)
            gatherd_idxs = np.zeros(shape=(gathered_tokens.shape[0],), dtype=np.int32)
            s = 0
            for i, k in enumerate(tokens_per_expert_group.cpu().numpy()):
                gatherd_idxs[s : s + k] = i % self.experts_per_rank
                s += k
            gatherd_idxs = gatherd_idxs.argsort()
            sorted_tokens = gathered_tokens[gatherd_idxs]
            tokens_per_expert = tokens_per_expert_post_gather
        tokens_per_expert = tokens_per_expert.cpu().numpy()

        outputs = []
        start_idx = 0
        for i, num_tokens in enumerate(tokens_per_expert):
            end_idx = start_idx + num_tokens
            if num_tokens == 0 and os.getenv("FORCE_ACTIVATE", "") == "":
                continue
            expert = self.experts[i + self.ep_rank * self.experts_per_rank]
            tokens_for_this_expert = sorted_tokens[start_idx:end_idx]
            expert_out = expert(tokens_for_this_expert)
            outputs.append(expert_out)
            start_idx = end_idx

        outs = torch.cat(outputs, dim=0) if len(outputs) else sorted_tokens.new_empty(0)
        if self.ep_size > 1:
            new_x = torch.empty_like(outs)
            new_x[gatherd_idxs] = outs
            gathered_tokens = new_x.new_empty(*sorted_tokens_shape)
            dist.all_to_all(
                list(gathered_tokens.split(input_split_sizes)),
                list(new_x.split(output_splits)),
            )
            outs = gathered_tokens

        new_x = torch.empty_like(outs)
        new_x[idxs] = outs
        final_out = (
            new_x.view(*topk_ids.shape, -1)
            .type(topk_weight.dtype)
            .mul_(topk_weight.unsqueeze(dim=-1))
            .sum(dim=1)
            .type(new_x.dtype)
        )
        return final_out