import torch import torch.nn as nn import torch.nn.functional as F from typing import List from .yolov8_basic import BasicConv, ELANLayer # Modified YOLOv8's PaFPN class Yolov8PaFPN(nn.Module): def __init__(self, cfg, in_dims :List = [256, 512, 1024], ) -> None: super(Yolov8PaFPN, self).__init__() print('==============================') print('FPN: {}'.format("Yolo PaFPN")) # --------------------------- Basic Parameters --------------------------- self.in_dims = in_dims[::-1] self.out_dims = [round(cfg.head_dim * cfg.width)] * 3 # ---------------- Top dwon ---------------- ## P5 -> P4 self.top_down_layer_1 = ELANLayer(in_dim = self.in_dims[0] + self.in_dims[1], out_dim = round(512*cfg.width), expansion = 0.5, num_blocks = round(3 * cfg.depth), shortcut = False, act_type = cfg.fpn_act, norm_type = cfg.fpn_norm, depthwise = cfg.fpn_depthwise, ) ## P4 -> P3 self.top_down_layer_2 = ELANLayer(in_dim = self.in_dims[2] + round(512*cfg.width), out_dim = round(256*cfg.width), expansion = 0.5, num_blocks = round(3 * cfg.depth), shortcut = False, act_type = cfg.fpn_act, norm_type = cfg.fpn_norm, depthwise = cfg.fpn_depthwise, ) # ---------------- Bottom up ---------------- ## P3 -> P4 self.dowmsample_layer_1 = BasicConv(round(256*cfg.width), round(256*cfg.width), kernel_size=3, padding=1, stride=2, act_type=cfg.fpn_act, norm_type=cfg.fpn_norm, depthwise=cfg.fpn_depthwise) self.bottom_up_layer_1 = ELANLayer(in_dim = round(256*cfg.width) + round(512*cfg.width), out_dim = round(512*cfg.width), expansion = 0.5, num_blocks = round(3 * cfg.depth), shortcut = False, act_type = cfg.fpn_act, norm_type = cfg.fpn_norm, depthwise = cfg.fpn_depthwise, ) ## P4 -> P5 self.dowmsample_layer_2 = BasicConv(round(512*cfg.width), round(512*cfg.width), kernel_size=3, padding=1, stride=2, act_type=cfg.fpn_act, norm_type=cfg.fpn_norm, depthwise=cfg.fpn_depthwise) self.bottom_up_layer_2 = ELANLayer(in_dim = round(512*cfg.width) + self.in_dims[0], out_dim = round(512*cfg.width*cfg.ratio), expansion = 0.5, num_blocks = round(3 * cfg.depth), shortcut = False, act_type = cfg.fpn_act, norm_type = cfg.fpn_norm, depthwise = cfg.fpn_depthwise, ) self.out_layers = nn.ModuleList([ BasicConv(feat_dim, self.out_dims[i], kernel_size=1, act_type=cfg.fpn_act, norm_type=cfg.fpn_norm) for i, feat_dim in enumerate([round(256*cfg.width), round(512*cfg.width), round(512*cfg.width*cfg.ratio)]) ]) self.init_weights() def init_weights(self): """Initialize the parameters.""" for m in self.modules(): if isinstance(m, torch.nn.Conv2d): # In order to be consistent with the source code, # reset the Conv2d initialization parameters m.reset_parameters() def forward(self, features): c3, c4, c5 = features # ------------------ Top down FPN ------------------ ## P5 -> P4 p5_up = F.interpolate(c5, scale_factor=2.0) p4 = self.top_down_layer_1(torch.cat([p5_up, c4], dim=1)) ## P4 -> P3 p4_up = F.interpolate(p4, scale_factor=2.0) p3 = self.top_down_layer_2(torch.cat([p4_up, c3], dim=1)) # ------------------ Bottom up FPN ------------------ ## p3 -> P4 p3_ds = self.dowmsample_layer_1(p3) p4 = self.bottom_up_layer_1(torch.cat([p3_ds, p4], dim=1)) ## P4 -> 5 p4_ds = self.dowmsample_layer_2(p4) p5 = self.bottom_up_layer_2(torch.cat([p4_ds, c5], dim=1)) out_feats = [p3, p4, p5] # [P3, P4, P5] # output proj layers out_feats_proj = [] for feat, layer in zip(out_feats, self.out_layers): out_feats_proj.append(layer(feat)) return out_feats_proj