def test_horovod_alltoall_splits_type_error(self):
"""Test that the alltoall returns an error if the splits tensor does not
contain 32-bit integers."""
hvd.init()
rank = hvd.rank()
size = hvd.size()
# This test does not apply if using gloo controller
if hvd.gloo_enabled():
self.skipTest(
"Alltoall currently does not support Gloo controller.")
# This test does not apply if NCCL version < 2.7.0
if hvd.nccl_built() and hvd.nccl_built() < 2700:
self.skipTest(
"NCCL-based Alltoall requires NCCL version >= 2.7.0.")
ctx = self._current_context()
tensor = mx.ndarray.empty([size], ctx=ctx)
splits = mx.ndarray.ones([size], dtype='float32', ctx=ctx)
try:
hvd.alltoall(tensor, splits)
assert False, 'hvd.alltoall did not throw error'
except (MXNetError, ValueError):
pass
def test_horovod_alltoall_equal_split_length_error(self):
"""Test that the alltoall with default splitting returns an error if the first dimension
of tensor is not a multiple of the number of workers."""
hvd.init()
rank = hvd.rank()
size = hvd.size()
# This test does not apply if there is only one worker.
if size == 1:
self.skipTest("Only one worker available")
# This test does not apply if using gloo controller
if hvd.gloo_enabled():
self.skipTest(
"Alltoall currently does not support Gloo controller.")
# This test does not apply if NCCL version < 2.7.0
if hvd.nccl_built() and hvd.nccl_built() < 2700:
self.skipTest(
"NCCL-based Alltoall requires NCCL version >= 2.7.0.")
ctx = self._current_context()
tensor = mx.ndarray.empty([size + 1], ctx=ctx)
try:
hvd.alltoall(tensor)
assert False, 'hvd.alltoall did not throw error'
except (MXNetError, RuntimeError):
pass
def test_horovod_alltoall_type_error(self):
"""Test that the alltoall returns an error if the tensor types differ
across the processes."""
hvd.init()
rank = hvd.rank()
size = hvd.size()
# This test does not apply if there is only one worker.
if size == 1:
self.skipTest("Only one worker available")
# This test does not apply if NCCL version < 2.7.0
if hvd.nccl_built() and hvd.nccl_built() < 2700:
self.skipTest(
"NCCL-based Alltoall requires NCCL version >= 2.7.0.")
ctx = self._current_context()
if rank % 2:
tensor = mx.ndarray.empty([size], dtype='int32', ctx=ctx)
else:
tensor = mx.ndarray.empty([size], dtype='float32', ctx=ctx)
try:
output = hvd.alltoall(tensor)
output.wait_to_read()
assert False, 'hvd.alltoall did not throw error'
except (MXNetError, RuntimeError):
pass
def test_horovod_alltoall_equal_split(self):
"""Test that the alltoall correctly distributes 1D tensors with default splitting."""
hvd.init()
rank = hvd.rank()
size = hvd.size()
# This test does not apply if NCCL version < 2.7.0
if hvd.nccl_built() and hvd.nccl_built() < 2700:
self.skipTest(
"NCCL-based Alltoall requires NCCL version >= 2.7.0.")
dtypes = ['int32', 'int64', 'float32', 'float64']
dims = [1, 2, 3]
ctx = self._current_context()
for dtype, dim in itertools.product(dtypes, dims):
vals = []
for i in range(size):
vals += [i] * (rank + 1)
tensor = mx.ndarray.array(vals, dtype=dtype, ctx=ctx)
for _ in range(dim - 1):
tensor = mx.ndarray.expand_dims(tensor, axis=1)
tensor = mx.ndarray.concat(tensor, tensor, dim=1)
collected = hvd.alltoall(tensor)
assert collected.min(
) == rank, 'hvd.alltoall produces incorrect collected tensor'
assert collected.max(
) == rank, 'hvd.alltoall produces incorrect collected tensor'
assert collected.size == size * (size + 1) // 2 * 2**(
dim - 1), 'hvd.alltoall collected wrong number of values'
def test_horovod_alltoall_rank_error(self):
"""Test that the alltoall returns an error if any dimension besides
the first is different among the tensors being processed."""
hvd.init()
rank = hvd.rank()
size = hvd.size()
# This test does not apply if there is only one worker.
if size == 1:
self.skipTest("Only one worker available")
# This test does not apply if NCCL version < 2.7.0
if hvd.nccl_built() and hvd.nccl_built() < 2700:
self.skipTest(
"NCCL-based Alltoall requires NCCL version >= 2.7.0.")
ctx = self._current_context()
tensor_size = [2 * size] * 3
tensor_size[1] = 10 * (rank + 1)
tensor = mx.ndarray.ones(shape=tensor_size, ctx=ctx)
try:
output = hvd.alltoall(tensor)
output.wait_to_read()
assert False, 'hvd.alltoall did not throw error'
except (MXNetError, RuntimeError):
pass
def test_horovod_alltoall(self):
"""Test that the alltoall correctly distributes 1D, 2D, and 3D tensors."""
hvd.init()
rank = hvd.rank()
size = hvd.size()
# This test does not apply if NCCL version < 2.7.0
if hvd.nccl_built() and hvd.nccl_built() < 2700:
self.skipTest("NCCL-based Alltoall requires NCCL version >= 2.7.0.")
dtypes = ['int32', 'int64',
'float32', 'float64']
dims = [1,2,3]
ctx = self._current_context()
for dtype, dim in itertools.product(dtypes, dims):
vals = []
for i in range(size):
vals += [i] * (rank + 1)
tensor = mx.ndarray.array(vals, dtype=dtype, ctx=ctx)
for _ in range(dim - 1):
tensor = mx.ndarray.expand_dims(tensor, axis=1)
tensor = mx.ndarray.concat(tensor, tensor, dim=1)
splits = mx.ndarray.array([rank + 1] * size, dtype='int32', ctx=ctx)
collected, received_splits = hvd.alltoall(tensor, splits)
assert collected.min() == rank, 'hvd.alltoall produces incorrect collected tensor'
assert collected.max() == rank, 'hvd.alltoall produces incorrect collected tensor'
assert collected.size == size * (size + 1) // 2 * 2**(dim - 1), 'hvd.alltoall collected wrong number of values'
self.assertSequenceEqual(received_splits.asnumpy().tolist(), [rk + 1 for rk in range(size)],
"hvd.alltoall returned incorrect received_splits")
def test_horovod_alltoall_splits_error(self):
"""Test that the alltoall returns an error if the sum of the splits entries exceeds
the first dimension of the input tensor."""
hvd.init()
rank = hvd.rank()
size = hvd.size()
# This test does not apply if NCCL version < 2.7.0
if hvd.nccl_built() and hvd.nccl_built() < 2700:
self.skipTest(
"NCCL-based Alltoall requires NCCL version >= 2.7.0.")
ctx = self._current_context()
tensor = mx.ndarray.empty([size - 1], ctx=ctx)
splits = mx.ndarray.ones([size], dtype='int32', ctx=ctx)
try:
hvd.alltoall(tensor, splits)
assert False, 'hvd.alltoall did not throw error'
except (MXNetError, RuntimeError):
pass
