[docs]classRAdam(Optimizer):r"""Implements RAdam algorithm. .. math:: \begin{aligned} &\rule{110mm}{0.4pt} \\ &\textbf{input} : \gamma \text{ (lr)}, \: \beta_1, \beta_2 \text{ (betas)}, \: \theta_0 \text{ (params)}, \:f(\theta) \text{ (objective)}, \: \lambda \text{ (weightdecay)}, \\ &\hspace{13mm} \epsilon \text{ (epsilon)} \\ &\textbf{initialize} : m_0 \leftarrow 0 \text{ ( first moment)}, v_0 \leftarrow 0 \text{ ( second moment)}, \\ &\hspace{18mm} \rho_{\infty} \leftarrow 2/(1-\beta_2) -1 \\[-1.ex] &\rule{110mm}{0.4pt} \\ &\textbf{for} \: t=1 \: \textbf{to} \: \ldots \: \textbf{do} \\ &\hspace{6mm}g_t \leftarrow \nabla_{\theta} f_t (\theta_{t-1}) \\ &\hspace{5mm} \textbf{if} \: \lambda \neq 0 \\ &\hspace{10mm} g_t \leftarrow g_t + \lambda \theta_{t-1} \\ &\hspace{6mm}m_t \leftarrow \beta_1 m_{t-1} + (1 - \beta_1) g_t \\ &\hspace{6mm}v_t \leftarrow \beta_2 v_{t-1} + (1-\beta_2) g^2_t \\ &\hspace{6mm}\widehat{m_t} \leftarrow m_t/\big(1-\beta_1^t \big) \\ &\hspace{6mm}\rho_t \leftarrow \rho_{\infty} - 2 t \beta^t_2 /\big(1-\beta_2^t \big) \\[0.1.ex] &\hspace{6mm}\textbf{if} \: \rho_t > 5 \\ &\hspace{12mm} l_t \leftarrow \sqrt{ (1-\beta^t_2) / \big( v_t +\epsilon \big) } \\ &\hspace{12mm} r_t \leftarrow \sqrt{\frac{(\rho_t-4)(\rho_t-2)\rho_{\infty}}{(\rho_{\infty}-4)(\rho_{\infty}-2) \rho_t}} \\ &\hspace{12mm}\theta_t \leftarrow \theta_{t-1} - \gamma \widehat{m_t} r_t l_t \\ &\hspace{6mm}\textbf{else} \\ &\hspace{12mm}\theta_t \leftarrow \theta_{t-1} - \gamma \widehat{m_t} \\ &\rule{110mm}{0.4pt} \\[-1.ex] &\bf{return} \: \theta_t \\[-1.ex] &\rule{110mm}{0.4pt} \\[-1.ex] \end{aligned} For further details regarding the algorithm we refer to `On the variance of the adaptive learning rate and beyond`_. Args: params (iterable): iterable of parameters to optimize or dicts defining parameter groups lr (float, optional): learning rate (default: 2e-3) betas (Tuple[float, float], optional): coefficients used for computing running averages of gradient and its square (default: (0.9, 0.999)) eps (float, optional): term added to the denominator to improve numerical stability (default: 1e-8) weight_decay (float, optional): weight decay (L2 penalty) (default: 0) .. _On the variance of the adaptive learning rate and beyond: https://arxiv.org/abs/1908.03265 """def__init__(self,params,lr=1e-3,betas=(0.9,0.999),eps=1e-8,weight_decay=0):ifnot0.0<=lr:raiseValueError("Invalid learning rate: {}".format(lr))ifnot0.0<=eps:raiseValueError("Invalid epsilon value: {}".format(eps))ifnot0.0<=betas[0]<1.0:raiseValueError("Invalid beta parameter at index 0: {}".format(betas[0]))ifnot0.0<=betas[1]<1.0:raiseValueError("Invalid beta parameter at index 1: {}".format(betas[1]))ifnot0.0<=weight_decay:raiseValueError("Invalid weight_decay value: {}".format(weight_decay))defaults=dict(lr=lr,betas=betas,eps=eps,weight_decay=weight_decay)super(RAdam,self).__init__(params,defaults)
[docs]@torch.no_grad()defstep(self,closure=None):"""Performs a single optimization step. Args: closure (callable, optional): A closure that reevaluates the model and returns the loss. """loss=NoneifclosureisnotNone:withtorch.enable_grad():loss=closure()forgroupinself.param_groups:params_with_grad=[]grads=[]exp_avgs=[]exp_avg_sqs=[]max_exp_avg_sqs=[]state_steps=[]beta1,beta2=group['betas']forpingroup['params']:ifp.gradisnotNone:params_with_grad.append(p)ifp.grad.is_sparse:raiseRuntimeError('RAdam does not support sparse gradients')grads.append(p.grad)state=self.state[p]# Lazy state initializationiflen(state)==0:state['step']=0# Exponential moving average of gradient valuesstate['exp_avg']=torch.zeros_like(p,memory_format=torch.preserve_format)# Exponential moving average of squared gradient valuesstate['exp_avg_sq']=torch.zeros_like(p,memory_format=torch.preserve_format)exp_avgs.append(state['exp_avg'])exp_avg_sqs.append(state['exp_avg_sq'])# update the steps for each param group updatestate['step']+=1# record the step after step updatestate_steps.append(state['step'])F.radam(params_with_grad,grads,exp_avgs,exp_avg_sqs,state_steps,beta1=beta1,beta2=beta2,lr=group['lr'],weight_decay=group['weight_decay'],eps=group['eps'])returnloss
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