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hwlocality_memattrs(3)      Hardware Locality (hwloc)     hwlocality_memattrs(3)




NAME

       hwlocality_memattrs - Comparing memory node attributes for finding where
       to allocate on


SYNOPSIS

   Data Structures
       struct hwloc_location

   Typedefs
       typedef unsigned hwloc_memattr_id_t

   Enumerations
       enum hwloc_memattr_id_e { HWLOC_MEMATTR_ID_CAPACITY,
           HWLOC_MEMATTR_ID_LOCALITY, HWLOC_MEMATTR_ID_BANDWIDTH,
           HWLOC_MEMATTR_ID_READ_BANDWIDTH, HWLOC_MEMATTR_ID_WRITE_BANDWIDTH,
           HWLOC_MEMATTR_ID_LATENCY, HWLOC_MEMATTR_ID_READ_LATENCY,
           HWLOC_MEMATTR_ID_WRITE_LATENCY, HWLOC_MEMATTR_ID_MAX }
       enum hwloc_location_type_e { HWLOC_LOCATION_TYPE_CPUSET,
           HWLOC_LOCATION_TYPE_OBJECT }
       enum hwloc_local_numanode_flag_e {
           HWLOC_LOCAL_NUMANODE_FLAG_LARGER_LOCALITY,
           HWLOC_LOCAL_NUMANODE_FLAG_SMALLER_LOCALITY,
           HWLOC_LOCAL_NUMANODE_FLAG_ALL }

   Functions
       int hwloc_memattr_get_by_name (hwloc_topology_t topology, const char
           *name, hwloc_memattr_id_t *id)
       int hwloc_get_local_numanode_objs (hwloc_topology_t topology, struct
           hwloc_location *location, unsigned *nr, hwloc_obj_t *nodes, unsigned
           long flags)
       int hwloc_memattr_get_value (hwloc_topology_t topology,
           hwloc_memattr_id_t attribute, hwloc_obj_t target_node, struct
           hwloc_location *initiator, unsigned long flags, hwloc_uint64_t
           *value)
       int hwloc_memattr_get_best_target (hwloc_topology_t topology,
           hwloc_memattr_id_t attribute, struct hwloc_location *initiator,
           unsigned long flags, hwloc_obj_t *best_target, hwloc_uint64_t *value)
       int hwloc_memattr_get_best_initiator (hwloc_topology_t topology,
           hwloc_memattr_id_t attribute, hwloc_obj_t target, unsigned long
           flags, struct hwloc_location *best_initiator, hwloc_uint64_t *value)


Detailed Description

       Platforms with heterogeneous memory require ways to decide whether a
       buffer should be allocated on 'fast' memory (such as HBM), 'normal'
       memory (DDR) or even 'slow' but large-capacity memory (non-volatile
       memory). These memory nodes are called 'Targets' while the CPU accessing
       them is called the 'Initiator'. Access performance depends on their
       locality (NUMA platforms) as well as the intrinsic performance of the
       targets (heterogeneous platforms).

       The following attributes describe the performance of memory accesses from
       an Initiator to a memory Target, for instance their latency or bandwidth.
       Initiators performing these memory accesses are usually some PUs or Cores
       (described as a CPU set). Hence a Core may choose where to allocate a
       memory buffer by comparing the attributes of different target memory
       nodes nearby.

       There are also some attributes that are system-wide. Their value does not
       depend on a specific initiator performing an access. The memory node
       Capacity is an example of such attribute without initiator.

       One way to use this API is to start with a cpuset describing the Cores
       where a program is bound. The best target NUMA node for allocating memory
       in this program on these Cores may be obtained by passing this cpuset as
       an initiator to hwloc_memattr_get_best_target() with the relevant memory
       attribute. For instance, if the code is latency limited, use the Latency
       attribute.

       A more flexible approach consists in getting the list of local NUMA nodes
       by passing this cpuset to hwloc_get_local_numanode_objs(). Attribute
       values for these nodes, if any, may then be obtained with
       hwloc_memattr_get_value() and manually compared with the desired
       criteria.

       See also
           An example is available in doc/examples/memory-attributes.c in the
           source tree.

       Note
           The API also supports specific objects as initiator, but it is
           currently not used internally by hwloc. Users may for instance use it
           to provide custom performance values for host memory accesses
           performed by GPUs.

           The interface actually also accepts targets that are not NUMA nodes.


Typedef Documentation

   typedef unsigned hwloc_memattr_id_t
       A memory attribute identifier. May be either one of hwloc_memattr_id_e or
       a new id returned by hwloc_memattr_register().


Enumeration Type Documentation

   enum hwloc_local_numanode_flag_e
       Flags for selecting target NUMA nodes.

       Enumerator

       HWLOC_LOCAL_NUMANODE_FLAG_LARGER_LOCALITY
              Select NUMA nodes whose locality is larger than the given cpuset.
              For instance, if a single PU (or its cpuset) is given in
              initiator, select all nodes close to the package that contains
              this PU.

       HWLOC_LOCAL_NUMANODE_FLAG_SMALLER_LOCALITY
              Select NUMA nodes whose locality is smaller than the given cpuset.
              For instance, if a package (or its cpuset) is given in initiator,
              also select nodes that are attached to only a half of that
              package.

       HWLOC_LOCAL_NUMANODE_FLAG_ALL
              Select all NUMA nodes in the topology. The initiator initiator is
              ignored.

   enum hwloc_location_type_e
       Type of location.

       Enumerator

       HWLOC_LOCATION_TYPE_CPUSET
              Location is given as a cpuset, in the location cpuset union field.

       HWLOC_LOCATION_TYPE_OBJECT
              Location is given as an object, in the location object union
              field.

   enum hwloc_memattr_id_e
       Memory node attributes.

       Enumerator

       HWLOC_MEMATTR_ID_CAPACITY
              The "Capacity" is returned in bytes (local_memory attribute in
              objects). Best capacity nodes are nodes with higher capacity.

       No initiator is involved when looking at this attribute. The
       corresponding attribute flags are HWLOC_MEMATTR_FLAG_HIGHER_FIRST.

       HWLOC_MEMATTR_ID_LOCALITY
              The "Locality" is returned as the number of PUs in that locality
              (e.g. the weight of its cpuset). Best locality nodes are nodes
              with smaller locality (nodes that are local to very few PUs). Poor
              locality nodes are nodes with larger locality (nodes that are
              local to the entire machine).

       No initiator is involved when looking at this attribute. The
       corresponding attribute flags are HWLOC_MEMATTR_FLAG_HIGHER_FIRST.

       HWLOC_MEMATTR_ID_BANDWIDTH
              The "Bandwidth" is returned in MiB/s, as seen from the given
              initiator location. Best bandwidth nodes are nodes with higher
              bandwidth.

       The corresponding attribute flags are HWLOC_MEMATTR_FLAG_HIGHER_FIRST and
       HWLOC_MEMATTR_FLAG_NEED_INITIATOR.

       This is the average bandwidth for read and write accesses. If the
       platform provides individual read and write bandwidths but no explicit
       average value, hwloc computes and returns the average.

       HWLOC_MEMATTR_ID_READ_BANDWIDTH
              The "ReadBandwidth" is returned in MiB/s, as seen from the given
              initiator location. Best bandwidth nodes are nodes with higher
              bandwidth.

       The corresponding attribute flags are HWLOC_MEMATTR_FLAG_HIGHER_FIRST and
       HWLOC_MEMATTR_FLAG_NEED_INITIATOR.

       HWLOC_MEMATTR_ID_WRITE_BANDWIDTH
              The "WriteBandwidth" is returned in MiB/s, as seen from the given
              initiator location. Best bandwidth nodes are nodes with higher
              bandwidth.

       The corresponding attribute flags are HWLOC_MEMATTR_FLAG_HIGHER_FIRST and
       HWLOC_MEMATTR_FLAG_NEED_INITIATOR.

       HWLOC_MEMATTR_ID_LATENCY
              The "Latency" is returned as nanoseconds, as seen from the given
              initiator location. Best latency nodes are nodes with smaller
              latency.

       The corresponding attribute flags are HWLOC_MEMATTR_FLAG_LOWER_FIRST and
       HWLOC_MEMATTR_FLAG_NEED_INITIATOR.

       This is the average latency for read and write accesses. If the platform
       provides individual read and write latencies but no explicit average
       value, hwloc computes and returns the average.

       HWLOC_MEMATTR_ID_READ_LATENCY
              The "ReadLatency" is returned as nanoseconds, as seen from the
              given initiator location. Best latency nodes are nodes with
              smaller latency.

       The corresponding attribute flags are HWLOC_MEMATTR_FLAG_LOWER_FIRST and
       HWLOC_MEMATTR_FLAG_NEED_INITIATOR.

       HWLOC_MEMATTR_ID_WRITE_LATENCY
              The "WriteLatency" is returned as nanoseconds, as seen from the
              given initiator location. Best latency nodes are nodes with
              smaller latency.

       The corresponding attribute flags are HWLOC_MEMATTR_FLAG_LOWER_FIRST and
       HWLOC_MEMATTR_FLAG_NEED_INITIATOR.


Function Documentation

   int hwloc_get_local_numanode_objs (hwloc_topology_t topology, struct
       hwloc_location * location, unsigned * nr, hwloc_obj_t * nodes, unsigned
       long flags)
       Return an array of local NUMA nodes. By default only select the NUMA
       nodes whose locality is exactly the given location. More nodes may be
       selected if additional flags are given as a OR'ed set of
       hwloc_local_numanode_flag_e.

       If location is given as an explicit object, its CPU set is used to find
       NUMA nodes with the corresponding locality. If the object does not have a
       CPU set (e.g. I/O object), the CPU parent (where the I/O object is
       attached) is used.

       On input, nr points to the number of nodes that may be stored in the
       nodes array. On output, nr will be changed to the number of stored nodes,
       or the number of nodes that would have been stored if there were enough
       room.

       Note
           Some of these NUMA nodes may not have any memory attribute values and
           hence not be reported as actual targets in other functions.

           The number of NUMA nodes in the topology (obtained by
           hwloc_bitmap_weight() on the root object nodeset) may be used to
           allocate the nodes array.

           When an object CPU set is given as locality, for instance a Package,
           and when flags contain both HWLOC_LOCAL_NUMANODE_FLAG_LARGER_LOCALITY
           and HWLOC_LOCAL_NUMANODE_FLAG_SMALLER_LOCALITY, the returned array
           corresponds to the nodeset of that object.

   int hwloc_memattr_get_best_initiator (hwloc_topology_t topology,
       hwloc_memattr_id_t attribute, hwloc_obj_t target, unsigned long flags,
       struct hwloc_location * best_initiator, hwloc_uint64_t * value)
       Return the best initiator for the given attribute and target NUMA node.
       If the attribute does not relate to a specific initiator (it does not
       have the flag HWLOC_MEMATTR_FLAG_NEED_INITIATOR), -1 is returned and
       errno is set to EINVAL.

       If value is non NULL, the corresponding value is returned there.

       If multiple initiators have the same attribute values, only one is
       returned (and there is no way to clarify how that one is chosen).
       Applications that want to detect initiators with identical/similar
       values, or that want to look at values for multiple attributes, should
       rather get all values using hwloc_memattr_get_value() and manually select
       the initiator they consider the best.

       The returned initiator should not be modified or freed, it belongs to the
       topology.

       flags must be 0 for now.

       If there are no matching initiators, -1 is returned with errno set to
       ENOENT;

   int hwloc_memattr_get_best_target (hwloc_topology_t topology,
       hwloc_memattr_id_t attribute, struct hwloc_location * initiator, unsigned
       long flags, hwloc_obj_t * best_target, hwloc_uint64_t * value)
       Return the best target NUMA node for the given attribute and initiator.
       If the attribute does not relate to a specific initiator (it does not
       have the flag HWLOC_MEMATTR_FLAG_NEED_INITIATOR), location initiator is
       ignored and may be NULL.

       If value is non NULL, the corresponding value is returned there.

       If multiple targets have the same attribute values, only one is returned
       (and there is no way to clarify how that one is chosen). Applications
       that want to detect targets with identical/similar values, or that want
       to look at values for multiple attributes, should rather get all values
       using hwloc_memattr_get_value() and manually select the target they
       consider the best.

       flags must be 0 for now.

       If there are no matching targets, -1 is returned with errno set to
       ENOENT;

       Note
           The initiator initiator should be of type HWLOC_LOCATION_TYPE_CPUSET
           when refering to accesses performed by CPU cores.
           HWLOC_LOCATION_TYPE_OBJECT is currently unused internally by hwloc,
           but users may for instance use it to provide custom information about
           host memory accesses performed by GPUs.

   int hwloc_memattr_get_by_name (hwloc_topology_t topology, const char * name,
       hwloc_memattr_id_t * id)
       Return the identifier of the memory attribute with the given name.

   int hwloc_memattr_get_value (hwloc_topology_t topology, hwloc_memattr_id_t
       attribute, hwloc_obj_t target_node, struct hwloc_location * initiator,
       unsigned long flags, hwloc_uint64_t * value)
       Return an attribute value for a specific target NUMA node. If the
       attribute does not relate to a specific initiator (it does not have the
       flag HWLOC_MEMATTR_FLAG_NEED_INITIATOR), location initiator is ignored
       and may be NULL.

       flags must be 0 for now.

       Note
           The initiator initiator should be of type HWLOC_LOCATION_TYPE_CPUSET
           when refering to accesses performed by CPU cores.
           HWLOC_LOCATION_TYPE_OBJECT is currently unused internally by hwloc,
           but users may for instance use it to provide custom information about
           host memory accesses performed by GPUs.


Author

       Generated automatically by Doxygen for Hardware Locality (hwloc) from the
       source code.



Version 2.9.1                    Tue Mar 28 2023          hwlocality_memattrs(3)

hwloc 2.9.1 - Generated Fri Apr 21 05:51:45 CDT 2023
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