import torch from torch import nn from layers.Transformer_EncDec import Encoder, EncoderLayer from layers.SelfAttention_Family import FullAttention, AttentionLayer from layers.Embed import PatchEmbedding from transformers import AutoModelForCausalLM class Model(nn.Module): def __init__(self, configs): """ patch_len: int, patch len for patch_embedding stride: int, stride for patch_embedding """ super().__init__() self.model = AutoModelForCausalLM.from_pretrained('thuml/sundial-base-128m', trust_remote_code=True) self.task_name = configs.task_name self.seq_len = configs.seq_len self.pred_len = configs.pred_len def forecast(self, x_enc, x_mark_enc, x_dec, x_mark_dec): outputs = [] for i in range(x_enc.shape[-1]): output = self.model.generate(x_enc[...,i], max_new_tokens=self.pred_len, num_samples=20) output = output.mean(dim=1) outputs.append(output) dec_out = torch.stack(outputs, dim=-1) return dec_out def forward(self, x_enc, x_mark_enc, x_dec, x_mark_dec, mask=None): if self.task_name == 'zero_shot_forecast': dec_out = self.forecast(x_enc, x_mark_enc, x_dec, x_mark_dec) return dec_out return None