private static void _update_params(
List <List <NDArray> > param_arrays,
List <List <NDArray> > grad_arrays,
Action <int, NDArray, NDArray> updater,
int num_device, KVStore kvstore = null)
{
for (int index = 0; index < param_arrays.Count; index++)
{
var arg_list = param_arrays[index];
var grad_list = grad_arrays[index];
if (grad_list[0] == null)
{
continue;
}
if (kvstore != null)
{
//push gradient, priority is negative index
kvstore.Push(index, grad_list, priority: -index);
//pull back the weights
kvstore.Pull(index, arg_list, priority: -index);
}
for (int k = 0; k < arg_list.Count; k++)
{
var w = arg_list[k];
var g = grad_list[k];
updater(index * num_device + k, g, w);
}
}
}
private static void _initialize_kvstore(KVStore kvstore,
List <List <NDArray> > param_arrays,
Dictionary <string, NDArray> arg_params,
List <string> param_names,
bool update_on_kvstore)
{
for (int idx = 0; idx < param_arrays.Count; idx++)
{
var param_on_devs = param_arrays[idx];
kvstore.Init(idx, arg_params[param_names[idx]]);
if (update_on_kvstore)
{
kvstore.Pull(idx, param_on_devs, priority: -idx);
}
}
}
private static void _update_params_on_kvstore(
List <List <NDArray> > param_arrays,
List <List <NDArray> > grad_arrays,
KVStore kvstore)
{
for (int index = 0; index < param_arrays.Count; index++)
{
var arg_list = param_arrays[index];
var grad_list = grad_arrays[index];
if (grad_list[0] == null)
{
continue;
}
//push gradient, priority is negative index
kvstore.Push(index, grad_list, priority: -index);
//pull back the weights
kvstore.Pull(index, arg_list, priority: -index);
}
}
private static Tuple <KVStore, bool> _create_kvstore(
string kvstore, int count, Dictionary <string, NDArray> arg_params)
{
KVStore kv;
if (kvstore == null)
{
kv = null;
}
else
{
if (count == 1 && !kvstore.Contains("dist"))
{
kv = null;
}
else
{
if (kvstore == "local")
{
//automatically select a proper local
var max_size = arg_params.Select(s => Util.Prod(s.Value.Get_shape())).Max();
if (max_size < 1024 * 1024 * 16)
{
kvstore = "local_update_cpu";
}
else
{
kvstore = "local_allreduce_cpu";
}
}
kv = new KVStore(kvstore);
}
}
bool update_on_kvstore = !(kv == null || kv.type.Contains("local_allreduce"));
return(Tuple.Create(kv, update_on_kvstore));
}
private static void _train_multi_device(Symbol symbol, List <Context> ctx, List <string> arg_names,
List <string> param_names, List <string> aux_names, Dictionary <string, NDArray> arg_params,
Dictionary <string, NDArray> aux_params, int begin_epoch, int end_epoch, int?epoch_size, Optimizer optimizer,
IDataIter train_data, IDataIter eval_data, EvalMetric eval_metric, List <Action> epoch_end_callback,
List <Action <BatchEndParam> > batch_end_callback, KVStore kvstore, bool update_on_kvstore, ILog logger, List <int> work_load_list,
Monitor monitor, Action eval_batch_end_callback, SymbolGenerate sym_gen)
{
if (logger == null)
{
logger = LogManager.GetLogger("");
}
var executor_manager = new DataParallelExecutorManager(symbol: symbol,
sym_gen: sym_gen,
ctx: ctx,
train_data: train_data,
param_names: param_names,
arg_names: arg_names,
aux_names: aux_names,
work_load_list: work_load_list,
logger: logger);
if (monitor != null)
{
executor_manager.install_monitor(monitor);
}
executor_manager.set_params(arg_params, aux_params);
Action <int, NDArray, NDArray> updater = null;
if (!update_on_kvstore)
{
updater = Optimizer.get_updater(optimizer);
}
if (kvstore != null)
{
_initialize_kvstore(kvstore: kvstore,
param_arrays: executor_manager.param_arrays,
arg_params: arg_params,
param_names: executor_manager.param_names,
update_on_kvstore: update_on_kvstore);
}
if (update_on_kvstore)
{
kvstore.set_optimizer(optimizer);
}
//Now start training
for (int epoch = 0; epoch < end_epoch - begin_epoch; epoch++)
{
// Training phase
Stopwatch toc = new Stopwatch();
toc.Start();
eval_metric.Reset();
var nbatch = 0;
// Iterate over training data.
while (true)
{
var do_reset = true;
foreach (var data_batch in train_data)
{
executor_manager.load_data_batch(data_batch);
monitor?.Tic();
executor_manager.Forward(is_train: true);
executor_manager.Backward();
if (update_on_kvstore)
{
_update_params_on_kvstore(
executor_manager.param_arrays,
executor_manager.grad_arrays,
kvstore);
}
else
{
_update_params(executor_manager.param_arrays,
executor_manager.grad_arrays,
updater: updater,
num_device: ctx.Count,
kvstore: kvstore);
}
monitor?.toc_print();
// evaluate at end, so we can lazy copy
executor_manager.update_metric(eval_metric, data_batch.label);
nbatch += 1;
//batch callback (for print purpose)
if (batch_end_callback != null)
{
var batch_end_params = new BatchEndParam(epoch: epoch,
nbatch: nbatch,
eval_metric: eval_metric,
locals: Thread.CurrentThread.CurrentCulture);
foreach (var call in batch_end_callback)
{
call(batch_end_params);
}
}
if (epoch_size != null && nbatch >= epoch_size)
{
do_reset = false;
break;
}
}
if (do_reset)
{
logger.Info($"Epoch[{epoch}] Resetting Data Iterator");
train_data.Reset();
}
if (epoch_size == null || nbatch >= epoch_size)
{
break;
}
}
logger.Info($"Epoch[{epoch}] Time cost={(toc.ElapsedMilliseconds/1000):.000}");
}
}
