API Reference

Module Contents

class rmm.DeviceBuffer

Bases: object

Attributes:
nbytes

Gets the size of the buffer in bytes.

ptr

Gets a pointer to the underlying data.

size

Gets the size of the buffer in bytes.

Methods

capacity(self)

copy(self)

Returns a copy of DeviceBuffer.

copy_from_device(self, cuda_ary, ...)

Copy from a buffer on host to self

copy_from_host(self, ary, ...)

Copy from a buffer on host to self

copy_to_host(self[, ary])

Copy from a DeviceBuffer to a buffer on host.

reserve(self, size_t new_capacity, ...)

resize(self, size_t new_size, ...)

to_device(const unsigned char[, ...)

Calls to_device function on arguments provided.

tobytes(self, Stream stream=DEFAULT_STREAM)

capacity(self) size_t
copy(self)

Returns a copy of DeviceBuffer.

Returns:
A deep copy of existing DeviceBuffer

Examples

>>> import rmm
>>> db = rmm.DeviceBuffer.to_device(b"abc")
>>> db_copy = db.copy()
>>> db.copy_to_host()
array([97, 98, 99], dtype=uint8)
>>> db_copy.copy_to_host()
array([97, 98, 99], dtype=uint8)
>>> assert db is not db_copy
>>> assert db.ptr != db_copy.ptr
copy_from_device(self, cuda_ary, Stream stream=DEFAULT_STREAM)

Copy from a buffer on host to self

Parameters:
cuda_aryobject to copy from that has __cuda_array_interface__
streamCUDA stream to use for copying, default the default stream

Examples

>>> import rmm
>>> db = rmm.DeviceBuffer(size=5)
>>> db2 = rmm.DeviceBuffer.to_device(b"abc")
>>> db.copy_from_device(db2)
>>> hb = db.copy_to_host()
>>> print(hb)
array([97, 98, 99,  0,  0], dtype=uint8)
copy_from_host(self, ary, Stream stream=DEFAULT_STREAM)

Copy from a buffer on host to self

Parameters:
arybytes-like buffer to copy from
streamCUDA stream to use for copying, default the default stream

Examples

>>> import rmm
>>> db = rmm.DeviceBuffer(size=10)
>>> hb = b"abcdef"
>>> db.copy_from_host(hb)
>>> hb = db.copy_to_host()
>>> print(hb)
array([97, 98, 99,  0,  0,  0,  0,  0,  0,  0], dtype=uint8)
copy_to_host(self, ary=None, Stream stream=DEFAULT_STREAM)

Copy from a DeviceBuffer to a buffer on host.

Parameters:
arybytes-like buffer to write into
streamCUDA stream to use for copying, default the default stream

Examples

>>> import rmm
>>> db = rmm.DeviceBuffer.to_device(b"abc")
>>> hb = bytearray(db.nbytes)
>>> db.copy_to_host(hb)
>>> print(hb)
bytearray(b'abc')
>>> hb = db.copy_to_host()
>>> print(hb)
bytearray(b'abc')
nbytes

Gets the size of the buffer in bytes.

ptr

Gets a pointer to the underlying data.

reserve(self, size_t new_capacity, Stream stream=DEFAULT_STREAM) void
resize(self, size_t new_size, Stream stream=DEFAULT_STREAM) void
size

Gets the size of the buffer in bytes.

static to_device(const unsigned char[::1] b, Stream stream=DEFAULT_STREAM)

Calls to_device function on arguments provided.

tobytes(self, Stream stream=DEFAULT_STREAM) bytes
exception rmm.RMMError(errcode, msg)

Bases: Exception

rmm.disable_logging()

Disable logging if it was enabled previously using rmm.initialize() or rmm.enable_logging().

rmm.enable_logging(log_file_name=None)

Enable logging of run-time events for all devices.

Parameters:
log_file_name: str, optional

Name of the log file. If not specified, the environment variable RMM_LOG_FILE is used. A ValueError is thrown if neither is available. A separate log file is produced for each device, and the suffix “.dev{id}” is automatically added to the log file name.

Notes

Note that if you use the environment variable CUDA_VISIBLE_DEVICES with logging enabled, the suffix may not be what you expect. For example, if you set CUDA_VISIBLE_DEVICES=1, the log file produced will still have suffix 0. Similarly, if you set CUDA_VISIBLE_DEVICES=1,0 and use devices 0 and 1, the log file with suffix 0 will correspond to the GPU with device ID 1. Use rmm.get_log_filenames() to get the log file names corresponding to each device.

rmm.flush_logger()

Flush the debug logger. This will cause any buffered log messages to be written to the log file.

Debug logging prints messages to a log file. See Debug Logging for more information.

See also

set_flush_level

Set the flush level for the debug logger.

get_flush_level

Get the current debug logging flush level.

Examples

>>> import rmm
>>> rmm.flush_logger() # flush the logger
rmm.get_flush_level()

Get the current debug logging flush level for the RMM logger. Messages of this level or higher will automatically flush to the file.

Debug logging prints messages to a log file. See Debug Logging for more information.

Returns:
logging_level

The current flush level, an instance of the logging_level enum.

See also

set_flush_level

Set the flush level for the logger.

flush_logger

Flush the logger.

Examples

>>> import rmm
>>> rmm.flush_level() # get current flush level
<logging_level.INFO: 2>
rmm.get_log_filenames()

Returns the log filename (or None if not writing logs) for each device in use.

Examples

>>> import rmm
>>> rmm.reinitialize(devices=[0, 1], logging=True, log_file_name="rmm.log")
>>> rmm.get_log_filenames()
{0: '/home/user/workspace/rapids/rmm/python/rmm.dev0.log',
 1: '/home/user/workspace/rapids/rmm/python/rmm.dev1.log'}
rmm.get_logging_level()

Get the current debug logging level.

Debug logging prints messages to a log file. See Debug Logging for more information.

Returns:
levellogging_level

The current debug logging level, an instance of the logging_level enum.

See also

set_logging_level

Set the debug logging level.

Examples

>>> import rmm
>>> rmm.get_logging_level() # get current logging level
<logging_level.INFO: 2>
rmm.is_initialized()

Returns True if RMM has been initialized, False otherwise.

class rmm.logging_level(value, names=None, *, module=None, qualname=None, type=None, start=1, boundary=None)

Bases: IntFlag

The debug logging level for RMM.

Debug logging prints messages to a log file. See Debug Logging for more information.

Valid levels, in decreasing order of verbosity, are TRACE, DEBUG, INFO, WARN, ERR, CRITICAL, and OFF. Default is INFO.

See also

set_logging_level

Set the debug logging level

get_logging_level

Get the current debug logging level

Examples

>>> import rmm
>>> rmm.logging_level.DEBUG
<logging_level.DEBUG: 1>
>>> rmm.logging_level.DEBUG.value
1
>>> rmm.logging_level.DEBUG.name
'DEBUG'
Attributes:
denominator

the denominator of a rational number in lowest terms

imag

the imaginary part of a complex number

numerator

the numerator of a rational number in lowest terms

real

the real part of a complex number

Methods

as_integer_ratio(/)

Return integer ratio.

bit_count(/)

Number of ones in the binary representation of the absolute value of self.

bit_length(/)

Number of bits necessary to represent self in binary.

conjugate

Returns self, the complex conjugate of any int.

from_bytes(/, bytes[, byteorder, signed])

Return the integer represented by the given array of bytes.

to_bytes(/[, length, byteorder, signed])

Return an array of bytes representing an integer.

CRITICAL = 5
DEBUG = 1
ERR = 4
INFO = 2
OFF = 6
TRACE = 0
WARN = 3
rmm.register_reinitialize_hook(func, *args, **kwargs)

Add a function to the list of functions (“hooks”) that will be called before reinitialize().

A user or library may register hooks to perform any necessary cleanup before RMM is reinitialized. For example, a library with an internal cache of objects that use device memory allocated by RMM can register a hook to release those references before RMM is reinitialized, thus ensuring that the relevant device memory resource can be deallocated.

Hooks are called in the reverse order they are registered. This is useful, for example, when a library registers multiple hooks and needs them to run in a specific order for cleanup to be safe. Hooks cannot rely on being registered in a particular order relative to hooks registered by other packages, since that is determined by package import ordering.

Parameters:
funccallable

Function to be called before reinitialize()

args, kwargs

Positional and keyword arguments to be passed to func

rmm.reinitialize(pool_allocator=False, managed_memory=False, initial_pool_size=None, maximum_pool_size=None, devices=0, logging=False, log_file_name=None)

Finalizes and then initializes RMM using the options passed. Using memory from a previous initialization of RMM is undefined behavior and should be avoided.

Parameters:
pool_allocatorbool, default False

If True, use a pool allocation strategy which can greatly improve performance.

managed_memorybool, default False

If True, use managed memory for device memory allocation

initial_pool_sizeint, default None

When pool_allocator is True, this indicates the initial pool size in bytes. By default, 1/2 of the total GPU memory is used. When pool_allocator is False, this argument is ignored if provided.

maximum_pool_sizeint, default None

When pool_allocator is True, this indicates the maximum pool size in bytes. By default, the total available memory on the GPU is used. When pool_allocator is False, this argument is ignored if provided.

devicesint or List[int], default 0

GPU device IDs to register. By default registers only GPU 0.

loggingbool, default False

If True, enable run-time logging of all memory events (alloc, free, realloc). This has a significant performance impact.

log_file_namestr

Name of the log file. If not specified, the environment variable RMM_LOG_FILE is used. A ValueError is thrown if neither is available. A separate log file is produced for each device, and the suffix “.dev{id}” is automatically added to the log file name.

Notes

Note that if you use the environment variable CUDA_VISIBLE_DEVICES with logging enabled, the suffix may not be what you expect. For example, if you set CUDA_VISIBLE_DEVICES=1, the log file produced will still have suffix 0. Similarly, if you set CUDA_VISIBLE_DEVICES=1,0 and use devices 0 and 1, the log file with suffix 0 will correspond to the GPU with device ID 1. Use rmm.get_log_filenames() to get the log file names corresponding to each device.

rmm.set_flush_level(level)

Set the flush level for the debug logger. Messages of this level or higher will automatically flush to the file.

Debug logging prints messages to a log file. See Debug Logging for more information.

Parameters:
levellogging_level

The debug logging level. Valid values are instances of the logging_level enum.

Raises:
TypeError

If the logging level is not an instance of the logging_level enum.

See also

get_flush_level

Get the current debug logging flush level.

flush_logger

Flush the logger.

Examples

>>> import rmm
>>> rmm.flush_on(rmm.logging_level.WARN) # set flush level to warn
rmm.set_logging_level(level)

Set the debug logging level.

Debug logging prints messages to a log file. See Debug Logging for more information.

Parameters:
levellogging_level

The debug logging level. Valid values are instances of the logging_level enum.

Raises:
TypeError

If the logging level is not an instance of the logging_level enum.

See also

get_logging_level

Get the current debug logging level.

Examples

>>> import rmm
>>> rmm.set_logging_level(rmm.logging_level.WARN) # set logging level to warn
rmm.should_log(level)

Check if a message at the given level would be logged.

A message at the given level would be logged if the current debug logging level is set to a level that is at least as verbose than the given level, and the RMM module is compiled for a logging level at least as verbose. If these conditions are not both met, this function will return false.

Debug logging prints messages to a log file. See Debug Logging for more information.

Parameters:
levellogging_level

The debug logging level. Valid values are instances of the logging_level enum.

Returns:
should_logbool

True if a message at the given level would be logged, False otherwise.

Raises:
TypeError

If the logging level is not an instance of the logging_level enum.

rmm.unregister_reinitialize_hook(func)

Remove func from list of hooks that will be called before reinitialize().

If func was registered more than once, every instance of it will be removed from the list of hooks.

Memory Resources

class rmm.mr.BinningMemoryResource(DeviceMemoryResource upstream_mr, int8_t min_size_exponent=-1, int8_t max_size_exponent=-1)

Bases: UpstreamResourceAdaptor

Allocates memory from a set of specified “bin” sizes based on a specified allocation size.

If min_size_exponent and max_size_exponent are specified, initializes with one or more FixedSizeMemoryResource bins in the range [2**min_size_exponent, 2**max_size_exponent].

Call add_bin() to add additional bin allocators.

Parameters:
upstream_mrDeviceMemoryResource

The memory resource to use for allocations larger than any of the bins.

min_size_exponentsize_t

The base-2 exponent of the minimum size FixedSizeMemoryResource bin to create.

max_size_exponentsize_t

The base-2 exponent of the maximum size FixedSizeMemoryResource bin to create.

Attributes:
bin_mrs

BinningMemoryResource.bin_mrs: list Get the list of binned memory resources.

upstream_mr

Methods

add_bin(self, size_t allocation_size, ...)

Adds a bin of the specified maximum allocation size to this memory resource.

allocate(self, size_t nbytes, ...)

Allocate nbytes bytes of memory.

deallocate(self, uintptr_t ptr, ...)

Deallocate memory pointed to by ptr of size nbytes.

get_upstream(self)

add_bin(self, size_t allocation_size, DeviceMemoryResource bin_resource=None)

Adds a bin of the specified maximum allocation size to this memory resource. If specified, uses bin_resource for allocation for this bin. If not specified, creates and uses a FixedSizeMemoryResource for allocation for this bin.

Allocations smaller than allocation_size and larger than the next smaller bin size will use this fixed-size memory resource.

Parameters:
allocation_sizesize_t

The maximum allocation size in bytes for the created bin

bin_resourceDeviceMemoryResource

The resource to use for this bin (optional)

allocate(self, size_t nbytes, Stream stream=DEFAULT_STREAM)

Allocate nbytes bytes of memory.

Parameters:
nbytessize_t

The size of the allocation in bytes

streamStream

Optional stream for the allocation

bin_mrs

BinningMemoryResource.bin_mrs: list Get the list of binned memory resources.

deallocate(self, uintptr_t ptr, size_t nbytes, Stream stream=DEFAULT_STREAM)

Deallocate memory pointed to by ptr of size nbytes.

Parameters:
ptruintptr_t

Pointer to be deallocated

nbytessize_t

Size of the allocation in bytes

streamStream

Optional stream for the deallocation

get_upstream(self) DeviceMemoryResource
upstream_mr
class rmm.mr.CallbackMemoryResource(allocate_func, deallocate_func)

Bases: DeviceMemoryResource

A memory resource that uses the user-provided callables to do memory allocation and deallocation.

CallbackMemoryResource should really only be used for debugging memory issues, as there is a significant performance penalty associated with using a Python function for each memory allocation and deallocation.

Parameters:
allocate_func: callable

The allocation function must accept two arguments. An integer representing the number of bytes to allocate and a Stream on which to perform the allocation, and return an integer representing the pointer to the allocated memory.

deallocate_func: callable

The deallocation function must accept three arguments. an integer representing the pointer to the memory to free, a second integer representing the number of bytes to free, and a Stream on which to perform the deallocation.

Examples

>>> import rmm
>>> base_mr = rmm.mr.CudaMemoryResource()
>>> def allocate_func(size, stream):
...     print(f"Allocating {size} bytes")
...     return base_mr.allocate(size, stream)
...
>>> def deallocate_func(ptr, size, stream):
...     print(f"Deallocating {size} bytes")
...     return base_mr.deallocate(ptr, size, stream)
...
>>> rmm.mr.set_current_device_resource(
    rmm.mr.CallbackMemoryResource(allocate_func, deallocate_func)
)
>>> dbuf = rmm.DeviceBuffer(size=256)
Allocating 256 bytes
>>> del dbuf
Deallocating 256 bytes

Methods

allocate(self, size_t nbytes, ...)

Allocate nbytes bytes of memory.

deallocate(self, uintptr_t ptr, ...)

Deallocate memory pointed to by ptr of size nbytes.

allocate(self, size_t nbytes, Stream stream=DEFAULT_STREAM)

Allocate nbytes bytes of memory.

Parameters:
nbytessize_t

The size of the allocation in bytes

streamStream

Optional stream for the allocation

deallocate(self, uintptr_t ptr, size_t nbytes, Stream stream=DEFAULT_STREAM)

Deallocate memory pointed to by ptr of size nbytes.

Parameters:
ptruintptr_t

Pointer to be deallocated

nbytessize_t

Size of the allocation in bytes

streamStream

Optional stream for the deallocation

class rmm.mr.CudaAsyncMemoryResource

Bases: DeviceMemoryResource

Memory resource that uses cudaMallocAsync/cudaFreeAsync for allocation/deallocation.

Parameters:
initial_pool_sizeint, optional

Initial pool size in bytes. By default, half the available memory on the device is used.

release_threshold: int, optional

Release threshold in bytes. If the pool size grows beyond this value, unused memory held by the pool will be released at the next synchronization point.

enable_ipc: bool, optional

If True, enables export of POSIX file descriptor handles for the memory allocated by this resource so that it can be used with CUDA IPC.

Methods

allocate(self, size_t nbytes, ...)

Allocate nbytes bytes of memory.

deallocate(self, uintptr_t ptr, ...)

Deallocate memory pointed to by ptr of size nbytes.

allocate(self, size_t nbytes, Stream stream=DEFAULT_STREAM)

Allocate nbytes bytes of memory.

Parameters:
nbytessize_t

The size of the allocation in bytes

streamStream

Optional stream for the allocation

deallocate(self, uintptr_t ptr, size_t nbytes, Stream stream=DEFAULT_STREAM)

Deallocate memory pointed to by ptr of size nbytes.

Parameters:
ptruintptr_t

Pointer to be deallocated

nbytessize_t

Size of the allocation in bytes

streamStream

Optional stream for the deallocation

class rmm.mr.CudaMemoryResource

Bases: DeviceMemoryResource

Memory resource that uses cudaMalloc/cudaFree for allocation/deallocation.

Methods

allocate(self, size_t nbytes, ...)

Allocate nbytes bytes of memory.

deallocate(self, uintptr_t ptr, ...)

Deallocate memory pointed to by ptr of size nbytes.

allocate(self, size_t nbytes, Stream stream=DEFAULT_STREAM)

Allocate nbytes bytes of memory.

Parameters:
nbytessize_t

The size of the allocation in bytes

streamStream

Optional stream for the allocation

deallocate(self, uintptr_t ptr, size_t nbytes, Stream stream=DEFAULT_STREAM)

Deallocate memory pointed to by ptr of size nbytes.

Parameters:
ptruintptr_t

Pointer to be deallocated

nbytessize_t

Size of the allocation in bytes

streamStream

Optional stream for the deallocation

class rmm.mr.DeviceMemoryResource

Bases: object

Methods

allocate(self, size_t nbytes, ...)

Allocate nbytes bytes of memory.

deallocate(self, uintptr_t ptr, ...)

Deallocate memory pointed to by ptr of size nbytes.

allocate(self, size_t nbytes, Stream stream=DEFAULT_STREAM)

Allocate nbytes bytes of memory.

Parameters:
nbytessize_t

The size of the allocation in bytes

streamStream

Optional stream for the allocation

deallocate(self, uintptr_t ptr, size_t nbytes, Stream stream=DEFAULT_STREAM)

Deallocate memory pointed to by ptr of size nbytes.

Parameters:
ptruintptr_t

Pointer to be deallocated

nbytessize_t

Size of the allocation in bytes

streamStream

Optional stream for the deallocation

class rmm.mr.FailureCallbackResourceAdaptor(DeviceMemoryResource upstream_mr, callback)

Bases: UpstreamResourceAdaptor

Memory resource that call callback when memory allocation fails.

Parameters:
upstreamDeviceMemoryResource

The upstream memory resource.

callbackcallable

Function called when memory allocation fails.

Attributes:
upstream_mr

Methods

allocate(self, size_t nbytes, ...)

Allocate nbytes bytes of memory.

deallocate(self, uintptr_t ptr, ...)

Deallocate memory pointed to by ptr of size nbytes.

get_upstream(self)

allocate(self, size_t nbytes, Stream stream=DEFAULT_STREAM)

Allocate nbytes bytes of memory.

Parameters:
nbytessize_t

The size of the allocation in bytes

streamStream

Optional stream for the allocation

deallocate(self, uintptr_t ptr, size_t nbytes, Stream stream=DEFAULT_STREAM)

Deallocate memory pointed to by ptr of size nbytes.

Parameters:
ptruintptr_t

Pointer to be deallocated

nbytessize_t

Size of the allocation in bytes

streamStream

Optional stream for the deallocation

get_upstream(self) DeviceMemoryResource
upstream_mr
class rmm.mr.FixedSizeMemoryResource(DeviceMemoryResource upstream_mr, size_t block_size=0x100000, size_t blocks_to_preallocate=128)

Bases: UpstreamResourceAdaptor

Memory resource which allocates memory blocks of a single fixed size.

Parameters:
upstream_mrDeviceMemoryResource

The DeviceMemoryResource from which to allocate blocks for the pool.

block_sizeint, optional

The size of blocks to allocate (default is 1MiB).

blocks_to_preallocateint, optional

The number of blocks to allocate to initialize the pool.

Notes

Supports only allocations of size smaller than the configured block_size.

Attributes:
upstream_mr

Methods

allocate(self, size_t nbytes, ...)

Allocate nbytes bytes of memory.

deallocate(self, uintptr_t ptr, ...)

Deallocate memory pointed to by ptr of size nbytes.

get_upstream(self)

allocate(self, size_t nbytes, Stream stream=DEFAULT_STREAM)

Allocate nbytes bytes of memory.

Parameters:
nbytessize_t

The size of the allocation in bytes

streamStream

Optional stream for the allocation

deallocate(self, uintptr_t ptr, size_t nbytes, Stream stream=DEFAULT_STREAM)

Deallocate memory pointed to by ptr of size nbytes.

Parameters:
ptruintptr_t

Pointer to be deallocated

nbytessize_t

Size of the allocation in bytes

streamStream

Optional stream for the deallocation

get_upstream(self) DeviceMemoryResource
upstream_mr
class rmm.mr.LimitingResourceAdaptor(DeviceMemoryResource upstream_mr, size_t allocation_limit)

Bases: UpstreamResourceAdaptor

Memory resource that limits the total allocation amount possible performed by an upstream memory resource.

Parameters:
upstream_mrDeviceMemoryResource

The upstream memory resource.

allocation_limitsize_t

Maximum memory allowed for this allocator.

Attributes:
upstream_mr

Methods

allocate(self, size_t nbytes, ...)

Allocate nbytes bytes of memory.

deallocate(self, uintptr_t ptr, ...)

Deallocate memory pointed to by ptr of size nbytes.

get_allocated_bytes(self)

Query the number of bytes that have been allocated.

get_allocation_limit(self)

Query the maximum number of bytes that this allocator is allowed to allocate.

get_upstream(self)

allocate(self, size_t nbytes, Stream stream=DEFAULT_STREAM)

Allocate nbytes bytes of memory.

Parameters:
nbytessize_t

The size of the allocation in bytes

streamStream

Optional stream for the allocation

deallocate(self, uintptr_t ptr, size_t nbytes, Stream stream=DEFAULT_STREAM)

Deallocate memory pointed to by ptr of size nbytes.

Parameters:
ptruintptr_t

Pointer to be deallocated

nbytessize_t

Size of the allocation in bytes

streamStream

Optional stream for the deallocation

get_allocated_bytes(self) size_t

Query the number of bytes that have been allocated. Note that this can not be used to know how large of an allocation is possible due to both possible fragmentation and also internal page sizes and alignment that is not tracked by this allocator.

get_allocation_limit(self) size_t

Query the maximum number of bytes that this allocator is allowed to allocate. This is the limit on the allocator and not a representation of the underlying device. The device may not be able to support this limit.

get_upstream(self) DeviceMemoryResource
upstream_mr
class rmm.mr.LoggingResourceAdaptor(DeviceMemoryResource upstream_mr, log_file_name=None)

Bases: UpstreamResourceAdaptor

Memory resource that logs information about allocations/deallocations performed by an upstream memory resource.

Parameters:
upstreamDeviceMemoryResource

The upstream memory resource.

log_file_namestr

Path to the file to which logs are written.

Attributes:
upstream_mr

Methods

allocate(self, size_t nbytes, ...)

Allocate nbytes bytes of memory.

deallocate(self, uintptr_t ptr, ...)

Deallocate memory pointed to by ptr of size nbytes.

flush(self)

get_file_name(self)

get_upstream(self)

allocate(self, size_t nbytes, Stream stream=DEFAULT_STREAM)

Allocate nbytes bytes of memory.

Parameters:
nbytessize_t

The size of the allocation in bytes

streamStream

Optional stream for the allocation

deallocate(self, uintptr_t ptr, size_t nbytes, Stream stream=DEFAULT_STREAM)

Deallocate memory pointed to by ptr of size nbytes.

Parameters:
ptruintptr_t

Pointer to be deallocated

nbytessize_t

Size of the allocation in bytes

streamStream

Optional stream for the deallocation

flush(self)
get_file_name(self)
get_upstream(self) DeviceMemoryResource
upstream_mr
class rmm.mr.ManagedMemoryResource

Bases: DeviceMemoryResource

Memory resource that uses cudaMallocManaged/cudaFree for allocation/deallocation.

Methods

allocate(self, size_t nbytes, ...)

Allocate nbytes bytes of memory.

deallocate(self, uintptr_t ptr, ...)

Deallocate memory pointed to by ptr of size nbytes.

allocate(self, size_t nbytes, Stream stream=DEFAULT_STREAM)

Allocate nbytes bytes of memory.

Parameters:
nbytessize_t

The size of the allocation in bytes

streamStream

Optional stream for the allocation

deallocate(self, uintptr_t ptr, size_t nbytes, Stream stream=DEFAULT_STREAM)

Deallocate memory pointed to by ptr of size nbytes.

Parameters:
ptruintptr_t

Pointer to be deallocated

nbytessize_t

Size of the allocation in bytes

streamStream

Optional stream for the deallocation

class rmm.mr.PoolMemoryResource(DeviceMemoryResource upstream_mr, initial_pool_size=None, maximum_pool_size=None)

Bases: UpstreamResourceAdaptor

Coalescing best-fit suballocator which uses a pool of memory allocated from an upstream memory resource.

Parameters:
upstream_mrDeviceMemoryResource

The DeviceMemoryResource from which to allocate blocks for the pool.

initial_pool_sizeint, optional

Initial pool size in bytes. By default, half the available memory on the device is used.

maximum_pool_sizeint, optional

Maximum size in bytes, that the pool can grow to.

Attributes:
upstream_mr

Methods

allocate(self, size_t nbytes, ...)

Allocate nbytes bytes of memory.

deallocate(self, uintptr_t ptr, ...)

Deallocate memory pointed to by ptr of size nbytes.

get_upstream(self)

pool_size(self)

allocate(self, size_t nbytes, Stream stream=DEFAULT_STREAM)

Allocate nbytes bytes of memory.

Parameters:
nbytessize_t

The size of the allocation in bytes

streamStream

Optional stream for the allocation

deallocate(self, uintptr_t ptr, size_t nbytes, Stream stream=DEFAULT_STREAM)

Deallocate memory pointed to by ptr of size nbytes.

Parameters:
ptruintptr_t

Pointer to be deallocated

nbytessize_t

Size of the allocation in bytes

streamStream

Optional stream for the deallocation

get_upstream(self) DeviceMemoryResource
pool_size(self)
upstream_mr
class rmm.mr.StatisticsResourceAdaptor(DeviceMemoryResource upstream_mr)

Bases: UpstreamResourceAdaptor

Memory resource that tracks the current, peak and total allocations/deallocations performed by an upstream memory resource. Includes the ability to query these statistics at any time.

Parameters:
upstreamDeviceMemoryResource

The upstream memory resource.

Attributes:
allocation_counts

StatisticsResourceAdaptor.allocation_counts: dict

upstream_mr

Methods

allocate(self, size_t nbytes, ...)

Allocate nbytes bytes of memory.

deallocate(self, uintptr_t ptr, ...)

Deallocate memory pointed to by ptr of size nbytes.

get_upstream(self)

allocate(self, size_t nbytes, Stream stream=DEFAULT_STREAM)

Allocate nbytes bytes of memory.

Parameters:
nbytessize_t

The size of the allocation in bytes

streamStream

Optional stream for the allocation

allocation_counts

StatisticsResourceAdaptor.allocation_counts: dict

Gets the current, peak, and total allocated bytes and number of allocations.

The dictionary keys are current_bytes, current_count, peak_bytes, peak_count, total_bytes, and total_count.

Returns:

dict: Dictionary containing allocation counts and bytes.

deallocate(self, uintptr_t ptr, size_t nbytes, Stream stream=DEFAULT_STREAM)

Deallocate memory pointed to by ptr of size nbytes.

Parameters:
ptruintptr_t

Pointer to be deallocated

nbytessize_t

Size of the allocation in bytes

streamStream

Optional stream for the deallocation

get_upstream(self) DeviceMemoryResource
upstream_mr
class rmm.mr.TrackingResourceAdaptor(DeviceMemoryResource upstream_mr, bool capture_stacks=False)

Bases: UpstreamResourceAdaptor

Memory resource that logs tracks allocations/deallocations performed by an upstream memory resource. Includes the ability to query all outstanding allocations with the stack trace, if desired.

Parameters:
upstreamDeviceMemoryResource

The upstream memory resource.

capture_stacksbool

Whether or not to capture the stack trace with each allocation.

Attributes:
upstream_mr

Methods

allocate(self, size_t nbytes, ...)

Allocate nbytes bytes of memory.

deallocate(self, uintptr_t ptr, ...)

Deallocate memory pointed to by ptr of size nbytes.

get_allocated_bytes(self)

Query the number of bytes that have been allocated.

get_outstanding_allocations_str(self)

Returns a string containing information about the current outstanding allocations.

get_upstream(self)

log_outstanding_allocations(self)

Logs the output of get_outstanding_allocations_str to the current RMM log file if enabled.

allocate(self, size_t nbytes, Stream stream=DEFAULT_STREAM)

Allocate nbytes bytes of memory.

Parameters:
nbytessize_t

The size of the allocation in bytes

streamStream

Optional stream for the allocation

deallocate(self, uintptr_t ptr, size_t nbytes, Stream stream=DEFAULT_STREAM)

Deallocate memory pointed to by ptr of size nbytes.

Parameters:
ptruintptr_t

Pointer to be deallocated

nbytessize_t

Size of the allocation in bytes

streamStream

Optional stream for the deallocation

get_allocated_bytes(self) size_t

Query the number of bytes that have been allocated. Note that this can not be used to know how large of an allocation is possible due to both possible fragmentation and also internal page sizes and alignment that is not tracked by this allocator.

get_outstanding_allocations_str(self) str

Returns a string containing information about the current outstanding allocations. For each allocation, the address, size and optional stack trace are shown.

get_upstream(self) DeviceMemoryResource
log_outstanding_allocations(self)

Logs the output of get_outstanding_allocations_str to the current RMM log file if enabled.

upstream_mr
class rmm.mr.UpstreamResourceAdaptor

Bases: DeviceMemoryResource

Parent class for all memory resources that track an upstream.

Upstream resource tracking requires maintaining a reference to the upstream mr so that it is kept alive and may be accessed by any downstream resource adaptors.

Attributes:
upstream_mr

Methods

allocate(self, size_t nbytes, ...)

Allocate nbytes bytes of memory.

deallocate(self, uintptr_t ptr, ...)

Deallocate memory pointed to by ptr of size nbytes.

get_upstream(self)

allocate(self, size_t nbytes, Stream stream=DEFAULT_STREAM)

Allocate nbytes bytes of memory.

Parameters:
nbytessize_t

The size of the allocation in bytes

streamStream

Optional stream for the allocation

deallocate(self, uintptr_t ptr, size_t nbytes, Stream stream=DEFAULT_STREAM)

Deallocate memory pointed to by ptr of size nbytes.

Parameters:
ptruintptr_t

Pointer to be deallocated

nbytessize_t

Size of the allocation in bytes

streamStream

Optional stream for the deallocation

get_upstream(self) DeviceMemoryResource
upstream_mr
rmm.mr.disable_logging()

Disable logging if it was enabled previously using rmm.initialize() or rmm.enable_logging().

rmm.mr.enable_logging(log_file_name=None)

Enable logging of run-time events for all devices.

Parameters:
log_file_name: str, optional

Name of the log file. If not specified, the environment variable RMM_LOG_FILE is used. A ValueError is thrown if neither is available. A separate log file is produced for each device, and the suffix “.dev{id}” is automatically added to the log file name.

Notes

Note that if you use the environment variable CUDA_VISIBLE_DEVICES with logging enabled, the suffix may not be what you expect. For example, if you set CUDA_VISIBLE_DEVICES=1, the log file produced will still have suffix 0. Similarly, if you set CUDA_VISIBLE_DEVICES=1,0 and use devices 0 and 1, the log file with suffix 0 will correspond to the GPU with device ID 1. Use rmm.get_log_filenames() to get the log file names corresponding to each device.

rmm.mr.get_current_device_resource() DeviceMemoryResource

Get the memory resource used for RMM device allocations on the current device.

If the returned memory resource is used when a different device is the active CUDA device, behavior is undefined.

rmm.mr.get_current_device_resource_type()

Get the memory resource type used for RMM device allocations on the current device.

rmm.mr.get_log_filenames()

Returns the log filename (or None if not writing logs) for each device in use.

Examples

>>> import rmm
>>> rmm.reinitialize(devices=[0, 1], logging=True, log_file_name="rmm.log")
>>> rmm.get_log_filenames()
{0: '/home/user/workspace/rapids/rmm/python/rmm.dev0.log',
 1: '/home/user/workspace/rapids/rmm/python/rmm.dev1.log'}
rmm.mr.get_per_device_resource(int device)

Get the default memory resource for the specified device.

If the returned memory resource is used when a different device is the active CUDA device, behavior is undefined.

Parameters:
deviceint

The ID of the device for which to get the memory resource.

rmm.mr.get_per_device_resource_type(int device)

Get the memory resource type used for RMM device allocations on the specified device.

Parameters:
deviceint

The device ID

rmm.mr.is_initialized()

Check whether RMM is initialized

rmm.mr.set_current_device_resource(DeviceMemoryResource mr)

Set the default memory resource for the current device.

Parameters:
mrDeviceMemoryResource

The memory resource to set. Must have been created while the current device is the active CUDA device.

rmm.mr.set_per_device_resource(int device, DeviceMemoryResource mr)

Set the default memory resource for the specified device.

Parameters:
deviceint

The ID of the device for which to get the memory resource.

mrDeviceMemoryResource

The memory resource to set. Must have been created while device was the active CUDA device.

Memory Allocators

rmm.allocators.cupy.rmm_cupy_allocator(nbytes)

A CuPy allocator that makes use of RMM.

Examples

>>> from rmm.allocators.cupy import rmm_cupy_allocator
>>> import cupy
>>> cupy.cuda.set_allocator(rmm_cupy_allocator)
class rmm.allocators.numba.RMMNumbaManager(*args, **kwargs)

Bases: HostOnlyCUDAMemoryManager

External Memory Management Plugin implementation for Numba. Provides on-device allocation only.

See https://numba.readthedocs.io/en/stable/cuda/external-memory.html for details of the interface being implemented here.

Attributes:
interface_version

Returns an integer specifying the version of the EMM Plugin interface supported by the plugin implementation.

Methods

defer_cleanup()

Returns a context manager that disables cleanup of mapped or pinned host memory in the current context whilst it is active.

get_ipc_handle(memory)

Get an IPC handle for the MemoryPointer memory with offset modified by the RMM memory pool.

get_memory_info()

Returns (free, total) memory in bytes in the context.

initialize()

Perform any initialization required for the EMM plugin instance to be ready to use.

memalloc(size)

Allocate an on-device array from the RMM pool.

memhostalloc(size[, mapped, portable, wc])

Implements the allocation of pinned host memory.

mempin(owner, pointer, size[, mapped])

Implements the pinning of host memory.

reset()

Clears up all host memory (mapped and/or pinned) in the current context.

memallocmanaged

defer_cleanup()

Returns a context manager that disables cleanup of mapped or pinned host memory in the current context whilst it is active.

EMM Plugins that override this method must obtain the context manager from this method before yielding to ensure that cleanup of host allocations is also deferred.

get_ipc_handle(memory)

Get an IPC handle for the MemoryPointer memory with offset modified by the RMM memory pool.

get_memory_info()

Returns (free, total) memory in bytes in the context.

This implementation raises NotImplementedError because the allocation will be performed using rmm’s currently set default mr, which may be a pool allocator.

initialize()

Perform any initialization required for the EMM plugin instance to be ready to use.

Returns:

None

property interface_version

Returns an integer specifying the version of the EMM Plugin interface supported by the plugin implementation. Should always return 1 for implementations of this version of the specification.

memalloc(size)

Allocate an on-device array from the RMM pool.

memallocmanaged(size, attach_global)
memhostalloc(size, mapped=False, portable=False, wc=False)

Implements the allocation of pinned host memory.

It is recommended that this method is not overridden by EMM Plugin implementations - instead, use the numba.cuda.BaseCUDAMemoryManager.

mempin(owner, pointer, size, mapped=False)

Implements the pinning of host memory.

It is recommended that this method is not overridden by EMM Plugin implementations - instead, use the numba.cuda.BaseCUDAMemoryManager.

reset()

Clears up all host memory (mapped and/or pinned) in the current context.

EMM Plugins that override this method must call super().reset() to ensure that host allocations are also cleaned up.