void ExperimentFull(
api::Context& ctx, const std::string& type_as_string) {
// transmit data to all workers.
auto stream = ctx.GetNewCatStream();
// write phase
StatsTimer<true> write_timer(true);
{
auto writers = stream->OpenWriters();
auto data = Generator<Type>(g_bytes);
while (data.HasNext()) {
Type value = data.Next();
for (size_t tgt = 0; tgt < ctx.num_workers(); ++tgt) {
writers[tgt](value);
}
}
}
write_timer.Stop();
// read phase
StatsTimer<true> read_timer(true);
{
auto reader = stream->OpenCatReader(true);
while (reader.HasNext()) {
reader.Next<Type>();
}
}
read_timer.Stop();
size_t read_microsecs = read_timer.Microseconds();
read_microsecs =
ctx.AllReduce(read_microsecs, common::maximum<size_t>());
size_t write_microsecs = write_timer.Microseconds();
write_microsecs =
ctx.AllReduce(write_microsecs, common::maximum<size_t>());
uint64_t host_volume = ctx.num_workers() * g_bytes;
uint64_t total_volume = ctx.num_workers() * ctx.num_workers() * g_bytes;
if (ctx.my_rank() == 0) {
std::cout
<< "RESULT"
<< " datatype=" << type_as_string
<< " size=" << g_bytes
<< " write_time=" << write_microsecs
<< " read_time=" << read_microsecs
<< " write_speed_MiBs="
<< (g_bytes / write_microsecs * 1000000 / 1024 / 1024)
<< " read_speed_MiBs="
<< (g_bytes / read_microsecs * 1000000 / 1024 / 1024)
<< " host_write_speed_MiBs="
<< (host_volume / write_microsecs * 1000000 / 1024 / 1024)
<< " host_read_speed_MiBs="
<< (host_volume / read_microsecs * 1000000 / 1024 / 1024)
<< " total_write_speed_MiBs="
<< (total_volume / write_microsecs * 1000000 / 1024 / 1024)
<< " total_read_speed_MiBs="
<< (total_volume / read_microsecs * 1000000 / 1024 / 1024)
<< std::endl;
}
}
void ExperimentAllPairs(
api::Context& ctx, const std::string& type_as_string) {
for (size_t src = 0; src < ctx.num_workers(); ++src) {
for (size_t tgt = 0; tgt < ctx.num_workers(); ++tgt) {
// transmit data from worker src -> tgt: only send data if we are
// tgt, but as tgt receive from all.
auto stream = ctx.GetNewCatStream();
// write phase
StatsTimer<true> write_timer(true);
{
auto writers = stream->OpenWriters();
if (ctx.my_rank() == src) {
auto data = Generator<Type>(g_bytes);
auto& writer = writers[tgt];
while (data.HasNext()) {
writer(data.Next());
}
}
}
write_timer.Stop();
// read phase
StatsTimer<true> read_timer(true);
{
auto reader = stream->OpenCatReader(true);
while (reader.HasNext()) {
reader.Next<Type>();
}
}
read_timer.Stop();
size_t read_microsecs = read_timer.Microseconds();
read_microsecs =
ctx.AllReduce(read_microsecs, common::maximum<size_t>());
size_t write_microsecs = write_timer.Microseconds();
write_microsecs =
ctx.AllReduce(write_microsecs, common::maximum<size_t>());
if (ctx.my_rank() == 0) {
std::cout
<< "RESULT"
<< " datatype=" << type_as_string
<< " size=" << g_bytes
<< " src=" << src << " tgt=" << tgt
<< " write_time=" << write_microsecs
<< " read_time=" << read_microsecs
<< " write_speed_MiBs="
<< (g_bytes / write_microsecs * 1000000 / 1024 / 1024)
<< " read_speed_MiBs="
<< (g_bytes / read_microsecs * 1000000 / 1024 / 1024)
<< std::endl;
}
}
}
}