import bitsandbytes as bnb import torch import torch.nn as nn class Linear8bit(nn.Linear): def __init__( self, input_features, output_features, bias=True, has_fp16_weights=False, memory_efficient_backward=False, threshold=6.0, weight_data=None, bias_data=None, ): super(Linear8bit, self).__init__(input_features, output_features, bias) self.state = bnb.MatmulLtState() self.bias = bias_data self.state.threshold = threshold self.state.has_fp16_weights = has_fp16_weights self.state.memory_efficient_backward = memory_efficient_backward if threshold > 0.0 and not has_fp16_weights: self.state.use_pool = True self.register_parameter("SCB", nn.Parameter(torch.empty(0), requires_grad=False)) self.weight = weight_data self.quant() def quant(self): weight = self.weight.data.contiguous().half().cuda() CB, _, SCB, _, _ = bnb.functional.double_quant(weight) delattr(self, "weight") setattr(self, "weight", nn.Parameter(CB, requires_grad=False)) delattr(self, "SCB") setattr(self, "SCB", nn.Parameter(SCB, requires_grad=False)) del weight def forward(self, x): self.state.is_training = self.training if self.bias is not None and self.bias.dtype != torch.float16: self.bias.data = self.bias.data.half() self.state.CB = self.weight.data self.state.SCB = self.SCB.data out = bnb.matmul(x, self.weight, bias=self.bias, state=self.state) del self.state.CxB return out def replace_module(model): for name, module in model.named_children(): if len(list(module.children())) > 0: replace_module(module) if isinstance(module, nn.Linear) and "out_proj" not in name: model._modules[name] = Linear8bit( input_features=module.in_features, output_features=module.out_features, threshold=6.0, weight_data=module.weight, bias_data=module.bias, ) return model def getModelSize(model): param_size = 0 param_sum = 0 for param in model.parameters(): param_size += param.nelement() * param.element_size() param_sum += param.nelement() buffer_size = 0 buffer_sum = 0 for buffer in model.buffers(): buffer_size += buffer.nelement() * buffer.element_size() buffer_sum += buffer.nelement() all_size = (param_size + buffer_size) / 1024 / 1024 print("Model Size: {:.3f}MB".format(all_size)) return (param_size, param_sum, buffer_size, buffer_sum, all_size)