6.28. Graph Management

This section describes the graph management functions of CUDA runtime application programming interface.

Functions

__host__cudaError_t cudaDeviceGetGraphMemAttribute ( int  device, cudaGraphMemAttributeType attr, void* value )
Query asynchronous allocation attributes related to graphs.
__host__cudaError_t cudaDeviceGraphMemTrim ( int  device )
Free unused memory that was cached on the specified device for use with graphs back to the OS.
__host__cudaError_t cudaDeviceSetGraphMemAttribute ( int  device, cudaGraphMemAttributeType attr, void* value )
Set asynchronous allocation attributes related to graphs.
__device__cudaGraphExec_t cudaGetCurrentGraphExec ( void )
Get the currently running device graph id.
__host__cudaError_t cudaGraphAddChildGraphNode ( cudaGraphNode_t* pGraphNode, cudaGraph_t graph, const cudaGraphNode_t* pDependencies, size_t numDependencies, cudaGraph_t childGraph )
Creates a child graph node and adds it to a graph.
__host__cudaError_t cudaGraphAddDependencies ( cudaGraph_t graph, const cudaGraphNode_t* from, const cudaGraphNode_t* to, size_t numDependencies )
Adds dependency edges to a graph.
__host__cudaError_t cudaGraphAddDependencies_v2 ( cudaGraph_t graph, const cudaGraphNode_t* from, const cudaGraphNode_t* to, const cudaGraphEdgeData* edgeData, size_t numDependencies )
Adds dependency edges to a graph. (12.3+).
__host__cudaError_t cudaGraphAddEmptyNode ( cudaGraphNode_t* pGraphNode, cudaGraph_t graph, const cudaGraphNode_t* pDependencies, size_t numDependencies )
Creates an empty node and adds it to a graph.
__host__cudaError_t cudaGraphAddEventRecordNode ( cudaGraphNode_t* pGraphNode, cudaGraph_t graph, const cudaGraphNode_t* pDependencies, size_t numDependencies, cudaEvent_t event )
Creates an event record node and adds it to a graph.
__host__cudaError_t cudaGraphAddEventWaitNode ( cudaGraphNode_t* pGraphNode, cudaGraph_t graph, const cudaGraphNode_t* pDependencies, size_t numDependencies, cudaEvent_t event )
Creates an event wait node and adds it to a graph.
__host__cudaError_t cudaGraphAddExternalSemaphoresSignalNode ( cudaGraphNode_t* pGraphNode, cudaGraph_t graph, const cudaGraphNode_t* pDependencies, size_t numDependencies, const cudaExternalSemaphoreSignalNodeParams* nodeParams )
Creates an external semaphore signal node and adds it to a graph.
__host__cudaError_t cudaGraphAddExternalSemaphoresWaitNode ( cudaGraphNode_t* pGraphNode, cudaGraph_t graph, const cudaGraphNode_t* pDependencies, size_t numDependencies, const cudaExternalSemaphoreWaitNodeParams* nodeParams )
Creates an external semaphore wait node and adds it to a graph.
__host__cudaError_t cudaGraphAddHostNode ( cudaGraphNode_t* pGraphNode, cudaGraph_t graph, const cudaGraphNode_t* pDependencies, size_t numDependencies, const cudaHostNodeParams* pNodeParams )
Creates a host execution node and adds it to a graph.
__host__cudaError_t cudaGraphAddKernelNode ( cudaGraphNode_t* pGraphNode, cudaGraph_t graph, const cudaGraphNode_t* pDependencies, size_t numDependencies, const cudaKernelNodeParams* pNodeParams )
Creates a kernel execution node and adds it to a graph.
__host__cudaError_t cudaGraphAddMemAllocNode ( cudaGraphNode_t* pGraphNode, cudaGraph_t graph, const cudaGraphNode_t* pDependencies, size_t numDependencies, cudaMemAllocNodeParams* nodeParams )
Creates an allocation node and adds it to a graph.
__host__cudaError_t cudaGraphAddMemFreeNode ( cudaGraphNode_t* pGraphNode, cudaGraph_t graph, const cudaGraphNode_t* pDependencies, size_t numDependencies, void* dptr )
Creates a memory free node and adds it to a graph.
__host__cudaError_t cudaGraphAddMemcpyNode ( cudaGraphNode_t* pGraphNode, cudaGraph_t graph, const cudaGraphNode_t* pDependencies, size_t numDependencies, const cudaMemcpy3DParms* pCopyParams )
Creates a memcpy node and adds it to a graph.
__host__cudaError_t cudaGraphAddMemcpyNode1D ( cudaGraphNode_t* pGraphNode, cudaGraph_t graph, const cudaGraphNode_t* pDependencies, size_t numDependencies, void* dst, const void* src, size_t count, cudaMemcpyKind kind )
Creates a 1D memcpy node and adds it to a graph.
__host__cudaError_t cudaGraphAddMemcpyNodeFromSymbol ( cudaGraphNode_t* pGraphNode, cudaGraph_t graph, const cudaGraphNode_t* pDependencies, size_t numDependencies, void* dst, const void* symbol, size_t count, size_t offset, cudaMemcpyKind kind )
Creates a memcpy node to copy from a symbol on the device and adds it to a graph.
__host__cudaError_t cudaGraphAddMemcpyNodeToSymbol ( cudaGraphNode_t* pGraphNode, cudaGraph_t graph, const cudaGraphNode_t* pDependencies, size_t numDependencies, const void* symbol, const void* src, size_t count, size_t offset, cudaMemcpyKind kind )
Creates a memcpy node to copy to a symbol on the device and adds it to a graph.
__host__cudaError_t cudaGraphAddMemsetNode ( cudaGraphNode_t* pGraphNode, cudaGraph_t graph, const cudaGraphNode_t* pDependencies, size_t numDependencies, const cudaMemsetParams* pMemsetParams )
Creates a memset node and adds it to a graph.
__host__cudaError_t cudaGraphAddNode ( cudaGraphNode_t* pGraphNode, cudaGraph_t graph, const cudaGraphNode_t* pDependencies, size_t numDependencies, cudaGraphNodeParams* nodeParams )
Adds a node of arbitrary type to a graph.
__host__cudaError_t cudaGraphAddNode_v2 ( cudaGraphNode_t* pGraphNode, cudaGraph_t graph, const cudaGraphNode_t* pDependencies, const cudaGraphEdgeData* dependencyData, size_t numDependencies, cudaGraphNodeParams* nodeParams )
Adds a node of arbitrary type to a graph (12.3+).
__host__cudaError_t cudaGraphChildGraphNodeGetGraph ( cudaGraphNode_t node, cudaGraph_t* pGraph )
Gets a handle to the embedded graph of a child graph node.
__host__cudaError_t cudaGraphClone ( cudaGraph_t* pGraphClone, cudaGraph_t originalGraph )
Clones a graph.
__host__cudaError_t cudaGraphConditionalHandleCreate ( cudaGraphConditionalHandle* pHandle_out, cudaGraph_t graph, unsigned int  defaultLaunchValue = 0, unsigned int  flags = 0 )
Create a conditional handle.
__host__cudaError_t cudaGraphCreate ( cudaGraph_t* pGraph, unsigned int  flags )
Creates a graph.
__host__cudaError_t cudaGraphDebugDotPrint ( cudaGraph_t graph, const char* path, unsigned int  flags )
Write a DOT file describing graph structure.
__host__cudaError_t cudaGraphDestroy ( cudaGraph_t graph )
Destroys a graph.
__host__cudaError_t cudaGraphDestroyNode ( cudaGraphNode_t node )
Remove a node from the graph.
__host__cudaError_t cudaGraphEventRecordNodeGetEvent ( cudaGraphNode_t node, cudaEvent_t* event_out )
Returns the event associated with an event record node.
__host__cudaError_t cudaGraphEventRecordNodeSetEvent ( cudaGraphNode_t node, cudaEvent_t event )
Sets an event record node's event.
__host__cudaError_t cudaGraphEventWaitNodeGetEvent ( cudaGraphNode_t node, cudaEvent_t* event_out )
Returns the event associated with an event wait node.
__host__cudaError_t cudaGraphEventWaitNodeSetEvent ( cudaGraphNode_t node, cudaEvent_t event )
Sets an event wait node's event.
__host__cudaError_t cudaGraphExecChildGraphNodeSetParams ( cudaGraphExec_t hGraphExec, cudaGraphNode_t node, cudaGraph_t childGraph )
Updates node parameters in the child graph node in the given graphExec.
__host__cudaError_t cudaGraphExecDestroy ( cudaGraphExec_t graphExec )
Destroys an executable graph.
__host__cudaError_t cudaGraphExecEventRecordNodeSetEvent ( cudaGraphExec_t hGraphExec, cudaGraphNode_t hNode, cudaEvent_t event )
Sets the event for an event record node in the given graphExec.
__host__cudaError_t cudaGraphExecEventWaitNodeSetEvent ( cudaGraphExec_t hGraphExec, cudaGraphNode_t hNode, cudaEvent_t event )
Sets the event for an event wait node in the given graphExec.
__host__cudaError_t cudaGraphExecExternalSemaphoresSignalNodeSetParams ( cudaGraphExec_t hGraphExec, cudaGraphNode_t hNode, const cudaExternalSemaphoreSignalNodeParams* nodeParams )
Sets the parameters for an external semaphore signal node in the given graphExec.
__host__cudaError_t cudaGraphExecExternalSemaphoresWaitNodeSetParams ( cudaGraphExec_t hGraphExec, cudaGraphNode_t hNode, const cudaExternalSemaphoreWaitNodeParams* nodeParams )
Sets the parameters for an external semaphore wait node in the given graphExec.
__host__cudaError_t cudaGraphExecGetFlags ( cudaGraphExec_t graphExec, unsigned long long* flags )
Query the instantiation flags of an executable graph.
__host__cudaError_t cudaGraphExecHostNodeSetParams ( cudaGraphExec_t hGraphExec, cudaGraphNode_t node, const cudaHostNodeParams* pNodeParams )
Sets the parameters for a host node in the given graphExec.
__host__cudaError_t cudaGraphExecKernelNodeSetParams ( cudaGraphExec_t hGraphExec, cudaGraphNode_t node, const cudaKernelNodeParams* pNodeParams )
Sets the parameters for a kernel node in the given graphExec.
__host__cudaError_t cudaGraphExecMemcpyNodeSetParams ( cudaGraphExec_t hGraphExec, cudaGraphNode_t node, const cudaMemcpy3DParms* pNodeParams )
Sets the parameters for a memcpy node in the given graphExec.
__host__cudaError_t cudaGraphExecMemcpyNodeSetParams1D ( cudaGraphExec_t hGraphExec, cudaGraphNode_t node, void* dst, const void* src, size_t count, cudaMemcpyKind kind )
Sets the parameters for a memcpy node in the given graphExec to perform a 1-dimensional copy.
__host__cudaError_t cudaGraphExecMemcpyNodeSetParamsFromSymbol ( cudaGraphExec_t hGraphExec, cudaGraphNode_t node, void* dst, const void* symbol, size_t count, size_t offset, cudaMemcpyKind kind )
Sets the parameters for a memcpy node in the given graphExec to copy from a symbol on the device.
__host__cudaError_t cudaGraphExecMemcpyNodeSetParamsToSymbol ( cudaGraphExec_t hGraphExec, cudaGraphNode_t node, const void* symbol, const void* src, size_t count, size_t offset, cudaMemcpyKind kind )
Sets the parameters for a memcpy node in the given graphExec to copy to a symbol on the device.
__host__cudaError_t cudaGraphExecMemsetNodeSetParams ( cudaGraphExec_t hGraphExec, cudaGraphNode_t node, const cudaMemsetParams* pNodeParams )
Sets the parameters for a memset node in the given graphExec.
__host__cudaError_t cudaGraphExecNodeSetParams ( cudaGraphExec_t graphExec, cudaGraphNode_t node, cudaGraphNodeParams* nodeParams )
Update's a graph node's parameters in an instantiated graph.
__host__cudaError_t cudaGraphExecUpdate ( cudaGraphExec_t hGraphExec, cudaGraph_t hGraph, cudaGraphExecUpdateResultInfo* resultInfo )
Check whether an executable graph can be updated with a graph and perform the update if possible.
__host__cudaError_t cudaGraphExternalSemaphoresSignalNodeGetParams ( cudaGraphNode_t hNode, cudaExternalSemaphoreSignalNodeParams* params_out )
Returns an external semaphore signal node's parameters.
__host__cudaError_t cudaGraphExternalSemaphoresSignalNodeSetParams ( cudaGraphNode_t hNode, const cudaExternalSemaphoreSignalNodeParams* nodeParams )
Sets an external semaphore signal node's parameters.
__host__cudaError_t cudaGraphExternalSemaphoresWaitNodeGetParams ( cudaGraphNode_t hNode, cudaExternalSemaphoreWaitNodeParams* params_out )
Returns an external semaphore wait node's parameters.
__host__cudaError_t cudaGraphExternalSemaphoresWaitNodeSetParams ( cudaGraphNode_t hNode, const cudaExternalSemaphoreWaitNodeParams* nodeParams )
Sets an external semaphore wait node's parameters.
__host__cudaError_t cudaGraphGetEdges ( cudaGraph_t graph, cudaGraphNode_t* from, cudaGraphNode_t* to, size_t* numEdges )
Returns a graph's dependency edges.
__host__cudaError_t cudaGraphGetEdges_v2 ( cudaGraph_t graph, cudaGraphNode_t* from, cudaGraphNode_t* to, cudaGraphEdgeData* edgeData, size_t* numEdges )
Returns a graph's dependency edges (12.3+).
__host__cudaError_t cudaGraphGetNodes ( cudaGraph_t graph, cudaGraphNode_t* nodes, size_t* numNodes )
Returns a graph's nodes.
__host__cudaError_t cudaGraphGetRootNodes ( cudaGraph_t graph, cudaGraphNode_t* pRootNodes, size_t* pNumRootNodes )
Returns a graph's root nodes.
__host__cudaError_t cudaGraphHostNodeGetParams ( cudaGraphNode_t node, cudaHostNodeParams* pNodeParams )
Returns a host node's parameters.
__host__cudaError_t cudaGraphHostNodeSetParams ( cudaGraphNode_t node, const cudaHostNodeParams* pNodeParams )
Sets a host node's parameters.
__host__cudaError_t cudaGraphInstantiate ( cudaGraphExec_t* pGraphExec, cudaGraph_t graph, unsigned long long flags = 0 )
Creates an executable graph from a graph.
__host__cudaError_t cudaGraphInstantiateWithFlags ( cudaGraphExec_t* pGraphExec, cudaGraph_t graph, unsigned long long flags = 0 )
Creates an executable graph from a graph.
__host__cudaError_t cudaGraphInstantiateWithParams ( cudaGraphExec_t* pGraphExec, cudaGraph_t graph, cudaGraphInstantiateParams* instantiateParams )
Creates an executable graph from a graph.
__host__cudaError_t cudaGraphKernelNodeCopyAttributes ( cudaGraphNode_t hSrc, cudaGraphNode_t hDst )
Copies attributes from source node to destination node.
__host__cudaError_t cudaGraphKernelNodeGetAttribute ( cudaGraphNode_t hNode, cudaKernelNodeAttrID attr, cudaKernelNodeAttrValue* value_out )
Queries node attribute.
__host__cudaError_t cudaGraphKernelNodeGetParams ( cudaGraphNode_t node, cudaKernelNodeParams* pNodeParams )
Returns a kernel node's parameters.
__host__cudaError_t cudaGraphKernelNodeSetAttribute ( cudaGraphNode_t hNode, cudaKernelNodeAttrID attr, const cudaKernelNodeAttrValue* value )
Sets node attribute.
__host__cudaError_t cudaGraphKernelNodeSetParams ( cudaGraphNode_t node, const cudaKernelNodeParams* pNodeParams )
Sets a kernel node's parameters.
__host____device__cudaError_t cudaGraphLaunch ( cudaGraphExec_t graphExec, cudaStream_t stream )
Launches an executable graph in a stream.
__host__cudaError_t cudaGraphMemAllocNodeGetParams ( cudaGraphNode_t node, cudaMemAllocNodeParams* params_out )
Returns a memory alloc node's parameters.
__host__cudaError_t cudaGraphMemFreeNodeGetParams ( cudaGraphNode_t node, void* dptr_out )
Returns a memory free node's parameters.
__host__cudaError_t cudaGraphMemcpyNodeGetParams ( cudaGraphNode_t node, cudaMemcpy3DParms* pNodeParams )
Returns a memcpy node's parameters.
__host__cudaError_t cudaGraphMemcpyNodeSetParams ( cudaGraphNode_t node, const cudaMemcpy3DParms* pNodeParams )
Sets a memcpy node's parameters.
__host__cudaError_t cudaGraphMemcpyNodeSetParams1D ( cudaGraphNode_t node, void* dst, const void* src, size_t count, cudaMemcpyKind kind )
Sets a memcpy node's parameters to perform a 1-dimensional copy.
__host__cudaError_t cudaGraphMemcpyNodeSetParamsFromSymbol ( cudaGraphNode_t node, void* dst, const void* symbol, size_t count, size_t offset, cudaMemcpyKind kind )
Sets a memcpy node's parameters to copy from a symbol on the device.
__host__cudaError_t cudaGraphMemcpyNodeSetParamsToSymbol ( cudaGraphNode_t node, const void* symbol, const void* src, size_t count, size_t offset, cudaMemcpyKind kind )
Sets a memcpy node's parameters to copy to a symbol on the device.
__host__cudaError_t cudaGraphMemsetNodeGetParams ( cudaGraphNode_t node, cudaMemsetParams* pNodeParams )
Returns a memset node's parameters.
__host__cudaError_t cudaGraphMemsetNodeSetParams ( cudaGraphNode_t node, const cudaMemsetParams* pNodeParams )
Sets a memset node's parameters.
__host__cudaError_t cudaGraphNodeFindInClone ( cudaGraphNode_t* pNode, cudaGraphNode_t originalNode, cudaGraph_t clonedGraph )
Finds a cloned version of a node.
__host__cudaError_t cudaGraphNodeGetDependencies ( cudaGraphNode_t node, cudaGraphNode_t* pDependencies, size_t* pNumDependencies )
Returns a node's dependencies.
__host__cudaError_t cudaGraphNodeGetDependencies_v2 ( cudaGraphNode_t node, cudaGraphNode_t* pDependencies, cudaGraphEdgeData* edgeData, size_t* pNumDependencies )
Returns a node's dependencies (12.3+).
__host__cudaError_t cudaGraphNodeGetDependentNodes ( cudaGraphNode_t node, cudaGraphNode_t* pDependentNodes, size_t* pNumDependentNodes )
Returns a node's dependent nodes.
__host__cudaError_t cudaGraphNodeGetDependentNodes_v2 ( cudaGraphNode_t node, cudaGraphNode_t* pDependentNodes, cudaGraphEdgeData* edgeData, size_t* pNumDependentNodes )
Returns a node's dependent nodes (12.3+).
__host__cudaError_t cudaGraphNodeGetEnabled ( cudaGraphExec_t hGraphExec, cudaGraphNode_t hNode, unsigned int* isEnabled )
Query whether a node in the given graphExec is enabled.
__host__cudaError_t cudaGraphNodeGetType ( cudaGraphNode_t node, cudaGraphNodeType ** pType )
Returns a node's type.
__host__cudaError_t cudaGraphNodeSetEnabled ( cudaGraphExec_t hGraphExec, cudaGraphNode_t hNode, unsigned int  isEnabled )
Enables or disables the specified node in the given graphExec.
__host__cudaError_t cudaGraphNodeSetParams ( cudaGraphNode_t node, cudaGraphNodeParams* nodeParams )
Update's a graph node's parameters.
__host__cudaError_t cudaGraphReleaseUserObject ( cudaGraph_t graph, cudaUserObject_t object, unsigned int  count = 1 )
Release a user object reference from a graph.
__host__cudaError_t cudaGraphRemoveDependencies ( cudaGraph_t graph, const cudaGraphNode_t* from, const cudaGraphNode_t* to, size_t numDependencies )
Removes dependency edges from a graph.
__host__cudaError_t cudaGraphRemoveDependencies_v2 ( cudaGraph_t graph, const cudaGraphNode_t* from, const cudaGraphNode_t* to, const cudaGraphEdgeData* edgeData, size_t numDependencies )
Removes dependency edges from a graph. (12.3+).
__host__cudaError_t cudaGraphRetainUserObject ( cudaGraph_t graph, cudaUserObject_t object, unsigned int  count = 1, unsigned int  flags = 0 )
Retain a reference to a user object from a graph.
__device__ ​ void cudaGraphSetConditional ( cudaGraphConditionalHandle handle, unsigned int  value )
Sets the condition value associated with a conditional node.
__host__cudaError_t cudaGraphUpload ( cudaGraphExec_t graphExec, cudaStream_t stream )
Uploads an executable graph in a stream.
__host__cudaError_t cudaUserObjectCreate ( cudaUserObject_t* object_out, void* ptr, cudaHostFn_t destroy, unsigned int  initialRefcount, unsigned int  flags )
Create a user object.
__host__cudaError_t cudaUserObjectRelease ( cudaUserObject_t object, unsigned int  count = 1 )
Release a reference to a user object.
__host__cudaError_t cudaUserObjectRetain ( cudaUserObject_t object, unsigned int  count = 1 )
Retain a reference to a user object.

Functions

__host__cudaError_t cudaDeviceGetGraphMemAttribute ( int  device, cudaGraphMemAttributeType attr, void* value )
Query asynchronous allocation attributes related to graphs.
Parameters
device
- Specifies the scope of the query
attr
- attribute to get
value
- retrieved value
Description

Valid attributes are:

Note:

See also:

cudaDeviceSetGraphMemAttribute, cudaGraphAddMemAllocNode, cudaGraphAddMemFreeNode, cudaDeviceGraphMemTrim, cudaMallocAsync, cudaFreeAsync

__host__cudaError_t cudaDeviceGraphMemTrim ( int  device )
Free unused memory that was cached on the specified device for use with graphs back to the OS.
Parameters
device
- The device for which cached memory should be freed.
Description

Blocks which are not in use by a graph that is either currently executing or scheduled to execute are freed back to the operating system.

Note:

See also:

cudaGraphAddMemAllocNode, cudaGraphAddMemFreeNode, cudaDeviceGetGraphMemAttribute, cudaDeviceSetGraphMemAttribute, cudaMallocAsync, cudaFreeAsync

__host__cudaError_t cudaDeviceSetGraphMemAttribute ( int  device, cudaGraphMemAttributeType attr, void* value )
Set asynchronous allocation attributes related to graphs.
Parameters
device
- Specifies the scope of the query
attr
- attribute to get
value
- pointer to value to set
Description

Valid attributes are:

  • cudaGraphMemAttrUsedMemHigh: High watermark of memory, in bytes, associated with graphs since the last time it was reset. High watermark can only be reset to zero.

  • cudaGraphMemAttrReservedMemHigh: High watermark of memory, in bytes, currently allocated for use by the CUDA graphs asynchronous allocator.

Note:

See also:

cudaDeviceGetGraphMemAttribute, cudaGraphAddMemAllocNode, cudaGraphAddMemFreeNode, cudaDeviceGraphMemTrim, cudaMallocAsync, cudaFreeAsync

__device__cudaGraphExec_t cudaGetCurrentGraphExec ( void ) [inline]
Get the currently running device graph id.
Returns

Returns the current device graph id, 0 if the call is outside of a device graph.

Description

Get the currently running device graph id.

See also:

cudaGraphLaunch

__host__cudaError_t cudaGraphAddChildGraphNode ( cudaGraphNode_t* pGraphNode, cudaGraph_t graph, const cudaGraphNode_t* pDependencies, size_t numDependencies, cudaGraph_t childGraph )
Creates a child graph node and adds it to a graph.
Parameters
pGraphNode
- Returns newly created node
graph
- Graph to which to add the node
pDependencies
- Dependencies of the node
numDependencies
- Number of dependencies
childGraph
- The graph to clone into this node
Description

Creates a new node which executes an embedded graph, and adds it to graph with numDependencies dependencies specified via pDependencies. It is possible for numDependencies to be 0, in which case the node will be placed at the root of the graph. pDependencies may not have any duplicate entries. A handle to the new node will be returned in pGraphNode.

If hGraph contains allocation or free nodes, this call will return an error.

The node executes an embedded child graph. The child graph is cloned in this call.

Note:

See also:

cudaGraphAddNode, cudaGraphChildGraphNodeGetGraph, cudaGraphCreate, cudaGraphDestroyNode, cudaGraphAddEmptyNode, cudaGraphAddKernelNode, cudaGraphAddHostNode, cudaGraphAddMemcpyNode, cudaGraphAddMemsetNode, cudaGraphClone

__host__cudaError_t cudaGraphAddDependencies ( cudaGraph_t graph, const cudaGraphNode_t* from, const cudaGraphNode_t* to, size_t numDependencies )
Adds dependency edges to a graph.
Parameters
graph
- Graph to which dependencies are added
from
- Array of nodes that provide the dependencies
to
- Array of dependent nodes
numDependencies
- Number of dependencies to be added
Description

The number of dependencies to be added is defined by numDependencies Elements in pFrom and pTo at corresponding indices define a dependency. Each node in pFrom and pTo must belong to graph.

If numDependencies is 0, elements in pFrom and pTo will be ignored. Specifying an existing dependency will return an error.

Note:

See also:

cudaGraphRemoveDependencies, cudaGraphGetEdges, cudaGraphNodeGetDependencies, cudaGraphNodeGetDependentNodes

__host__cudaError_t cudaGraphAddDependencies_v2 ( cudaGraph_t graph, const cudaGraphNode_t* from, const cudaGraphNode_t* to, const cudaGraphEdgeData* edgeData, size_t numDependencies )
Adds dependency edges to a graph. (12.3+).
Parameters
graph
- Graph to which dependencies are added
from
- Array of nodes that provide the dependencies
to
- Array of dependent nodes
edgeData
- Optional array of edge data. If NULL, default (zeroed) edge data is assumed.
numDependencies
- Number of dependencies to be added
Description

The number of dependencies to be added is defined by numDependencies Elements in pFrom and pTo at corresponding indices define a dependency. Each node in pFrom and pTo must belong to graph.

If numDependencies is 0, elements in pFrom and pTo will be ignored. Specifying an existing dependency will return an error.

Note:

See also:

cudaGraphRemoveDependencies, cudaGraphGetEdges, cudaGraphNodeGetDependencies, cudaGraphNodeGetDependentNodes

__host__cudaError_t cudaGraphAddEmptyNode ( cudaGraphNode_t* pGraphNode, cudaGraph_t graph, const cudaGraphNode_t* pDependencies, size_t numDependencies )
Creates an empty node and adds it to a graph.
Parameters
pGraphNode
- Returns newly created node
graph
- Graph to which to add the node
pDependencies
- Dependencies of the node
numDependencies
- Number of dependencies
Description

Creates a new node which performs no operation, and adds it to graph with numDependencies dependencies specified via pDependencies. It is possible for numDependencies to be 0, in which case the node will be placed at the root of the graph. pDependencies may not have any duplicate entries. A handle to the new node will be returned in pGraphNode.

An empty node performs no operation during execution, but can be used for transitive ordering. For example, a phased execution graph with 2 groups of n nodes with a barrier between them can be represented using an empty node and 2*n dependency edges, rather than no empty node and n^2 dependency edges.

Note:

See also:

cudaGraphAddNode, cudaGraphCreate, cudaGraphDestroyNode, cudaGraphAddChildGraphNode, cudaGraphAddKernelNode, cudaGraphAddHostNode, cudaGraphAddMemcpyNode, cudaGraphAddMemsetNode

__host__cudaError_t cudaGraphAddEventRecordNode ( cudaGraphNode_t* pGraphNode, cudaGraph_t graph, const cudaGraphNode_t* pDependencies, size_t numDependencies, cudaEvent_t event )
Creates an event record node and adds it to a graph.
Parameters
pGraphNode
graph
pDependencies
numDependencies
- Number of dependencies
event
- Event for the node
Description

Creates a new event record node and adds it to hGraph with numDependencies dependencies specified via dependencies and event specified in event. It is possible for numDependencies to be 0, in which case the node will be placed at the root of the graph. dependencies may not have any duplicate entries. A handle to the new node will be returned in phGraphNode.

Each launch of the graph will record event to capture execution of the node's dependencies.

These nodes may not be used in loops or conditionals.

Note:

See also:

cudaGraphAddNode, cudaGraphAddEventWaitNode, cudaEventRecordWithFlags, cudaStreamWaitEvent, cudaGraphCreate, cudaGraphDestroyNode, cudaGraphAddChildGraphNode, cudaGraphAddEmptyNode, cudaGraphAddKernelNode, cudaGraphAddMemcpyNode, cudaGraphAddMemsetNode

__host__cudaError_t cudaGraphAddEventWaitNode ( cudaGraphNode_t* pGraphNode, cudaGraph_t graph, const cudaGraphNode_t* pDependencies, size_t numDependencies, cudaEvent_t event )
Creates an event wait node and adds it to a graph.
Parameters
pGraphNode
graph
pDependencies
numDependencies
- Number of dependencies
event
- Event for the node
Description

Creates a new event wait node and adds it to hGraph with numDependencies dependencies specified via dependencies and event specified in event. It is possible for numDependencies to be 0, in which case the node will be placed at the root of the graph. dependencies may not have any duplicate entries. A handle to the new node will be returned in phGraphNode.

The graph node will wait for all work captured in event. See cuEventRecord() for details on what is captured by an event. The synchronization will be performed efficiently on the device when applicable. event may be from a different context or device than the launch stream.

These nodes may not be used in loops or conditionals.

Note:

See also:

cudaGraphAddNode, cudaGraphAddEventRecordNode, cudaEventRecordWithFlags, cudaStreamWaitEvent, cudaGraphCreate, cudaGraphDestroyNode, cudaGraphAddChildGraphNode, cudaGraphAddEmptyNode, cudaGraphAddKernelNode, cudaGraphAddMemcpyNode, cudaGraphAddMemsetNode

__host__cudaError_t cudaGraphAddExternalSemaphoresSignalNode ( cudaGraphNode_t* pGraphNode, cudaGraph_t graph, const cudaGraphNode_t* pDependencies, size_t numDependencies, const cudaExternalSemaphoreSignalNodeParams* nodeParams )
Creates an external semaphore signal node and adds it to a graph.
Parameters
pGraphNode
- Returns newly created node
graph
- Graph to which to add the node
pDependencies
- Dependencies of the node
numDependencies
- Number of dependencies
nodeParams
- Parameters for the node
Description

Creates a new external semaphore signal node and adds it to graph with numDependencies dependencies specified via dependencies and arguments specified in nodeParams. It is possible for numDependencies to be 0, in which case the node will be placed at the root of the graph. dependencies may not have any duplicate entries. A handle to the new node will be returned in pGraphNode.

Performs a signal operation on a set of externally allocated semaphore objects when the node is launched. The operation(s) will occur after all of the node's dependencies have completed.

Note:

See also:

cudaGraphAddNode, cudaGraphExternalSemaphoresSignalNodeGetParams, cudaGraphExternalSemaphoresSignalNodeSetParams, cudaGraphExecExternalSemaphoresSignalNodeSetParams, cudaGraphAddExternalSemaphoresWaitNode, cudaImportExternalSemaphore, cudaSignalExternalSemaphoresAsync, cudaWaitExternalSemaphoresAsync, cudaGraphCreate, cudaGraphDestroyNode, cudaGraphAddEventRecordNode, cudaGraphAddEventWaitNode, cudaGraphAddChildGraphNode, cudaGraphAddEmptyNode, cudaGraphAddKernelNode, cudaGraphAddMemcpyNode, cudaGraphAddMemsetNode

__host__cudaError_t cudaGraphAddExternalSemaphoresWaitNode ( cudaGraphNode_t* pGraphNode, cudaGraph_t graph, const cudaGraphNode_t* pDependencies, size_t numDependencies, const cudaExternalSemaphoreWaitNodeParams* nodeParams )
Creates an external semaphore wait node and adds it to a graph.
Parameters
pGraphNode
- Returns newly created node
graph
- Graph to which to add the node
pDependencies
- Dependencies of the node
numDependencies
- Number of dependencies
nodeParams
- Parameters for the node
Description

Creates a new external semaphore wait node and adds it to graph with numDependencies dependencies specified via dependencies and arguments specified in nodeParams. It is possible for numDependencies to be 0, in which case the node will be placed at the root of the graph. dependencies may not have any duplicate entries. A handle to the new node will be returned in pGraphNode.

Performs a wait operation on a set of externally allocated semaphore objects when the node is launched. The node's dependencies will not be launched until the wait operation has completed.

Note:

See also:

cudaGraphAddNode, cudaGraphExternalSemaphoresWaitNodeGetParams, cudaGraphExternalSemaphoresWaitNodeSetParams, cudaGraphExecExternalSemaphoresWaitNodeSetParams, cudaGraphAddExternalSemaphoresSignalNode, cudaImportExternalSemaphore, cudaSignalExternalSemaphoresAsync, cudaWaitExternalSemaphoresAsync, cudaGraphCreate, cudaGraphDestroyNode, cudaGraphAddEventRecordNode, cudaGraphAddEventWaitNode, cudaGraphAddChildGraphNode, cudaGraphAddEmptyNode, cudaGraphAddKernelNode, cudaGraphAddMemcpyNode, cudaGraphAddMemsetNode

__host__cudaError_t cudaGraphAddHostNode ( cudaGraphNode_t* pGraphNode, cudaGraph_t graph, const cudaGraphNode_t* pDependencies, size_t numDependencies, const cudaHostNodeParams* pNodeParams )
Creates a host execution node and adds it to a graph.
Parameters
pGraphNode
- Returns newly created node
graph
- Graph to which to add the node
pDependencies
- Dependencies of the node
numDependencies
- Number of dependencies
pNodeParams
- Parameters for the host node
Description

Creates a new CPU execution node and adds it to graph with numDependencies dependencies specified via pDependencies and arguments specified in pNodeParams. It is possible for numDependencies to be 0, in which case the node will be placed at the root of the graph. pDependencies may not have any duplicate entries. A handle to the new node will be returned in pGraphNode.

When the graph is launched, the node will invoke the specified CPU function. Host nodes are not supported under MPS with pre-Volta GPUs.

Note:

See also:

cudaGraphAddNode, cudaLaunchHostFunc, cudaGraphHostNodeGetParams, cudaGraphHostNodeSetParams, cudaGraphCreate, cudaGraphDestroyNode, cudaGraphAddChildGraphNode, cudaGraphAddEmptyNode, cudaGraphAddKernelNode, cudaGraphAddMemcpyNode, cudaGraphAddMemsetNode

__host__cudaError_t cudaGraphAddKernelNode ( cudaGraphNode_t* pGraphNode, cudaGraph_t graph, const cudaGraphNode_t* pDependencies, size_t numDependencies, const cudaKernelNodeParams* pNodeParams )
Creates a kernel execution node and adds it to a graph.
Parameters
pGraphNode
- Returns newly created node
graph
- Graph to which to add the node
pDependencies
- Dependencies of the node
numDependencies
- Number of dependencies
pNodeParams
- Parameters for the GPU execution node
Description

Creates a new kernel execution node and adds it to graph with numDependencies dependencies specified via pDependencies and arguments specified in pNodeParams. It is possible for numDependencies to be 0, in which case the node will be placed at the root of the graph. pDependencies may not have any duplicate entries. A handle to the new node will be returned in pGraphNode.

The cudaKernelNodeParams structure is defined as:

‎  struct cudaKernelNodeParams
        {
            void* func;
            dim3 gridDim;
            dim3 blockDim;
            unsigned int sharedMemBytes;
            void **kernelParams;
            void **extra;
        };

When the graph is launched, the node will invoke kernel func on a (gridDim.x x gridDim.y x gridDim.z) grid of blocks. Each block contains (blockDim.x x blockDim.y x blockDim.z) threads.

sharedMem sets the amount of dynamic shared memory that will be available to each thread block.

Kernel parameters to func can be specified in one of two ways:

1) Kernel parameters can be specified via kernelParams. If the kernel has N parameters, then kernelParams needs to be an array of N pointers. Each pointer, from kernelParams[0] to kernelParams[N-1], points to the region of memory from which the actual parameter will be copied. The number of kernel parameters and their offsets and sizes do not need to be specified as that information is retrieved directly from the kernel's image.

2) Kernel parameters can also be packaged by the application into a single buffer that is passed in via extra. This places the burden on the application of knowing each kernel parameter's size and alignment/padding within the buffer. The extra parameter exists to allow this function to take additional less commonly used arguments. extra specifies a list of names of extra settings and their corresponding values. Each extra setting name is immediately followed by the corresponding value. The list must be terminated with either NULL or CU_LAUNCH_PARAM_END.

The error cudaErrorInvalidValue will be returned if kernel parameters are specified with both kernelParams and extra (i.e. both kernelParams and extra are non-NULL).

The kernelParams or extra array, as well as the argument values it points to, are copied during this call.

Note:

Kernels launched using graphs must not use texture and surface references. Reading or writing through any texture or surface reference is undefined behavior. This restriction does not apply to texture and surface objects.

Note:

See also:

cudaGraphAddNode, cudaLaunchKernel, cudaGraphKernelNodeGetParams, cudaGraphKernelNodeSetParams, cudaGraphCreate, cudaGraphDestroyNode, cudaGraphAddChildGraphNode, cudaGraphAddEmptyNode, cudaGraphAddHostNode, cudaGraphAddMemcpyNode, cudaGraphAddMemsetNode

__host__cudaError_t cudaGraphAddMemAllocNode ( cudaGraphNode_t* pGraphNode, cudaGraph_t graph, const cudaGraphNode_t* pDependencies, size_t numDependencies, cudaMemAllocNodeParams* nodeParams )
Creates an allocation node and adds it to a graph.
Parameters
pGraphNode
- Returns newly created node
graph
- Graph to which to add the node
pDependencies
- Dependencies of the node
numDependencies
- Number of dependencies
nodeParams
- Parameters for the node
Description

Creates a new allocation node and adds it to graph with numDependencies dependencies specified via pDependencies and arguments specified in nodeParams. It is possible for numDependencies to be 0, in which case the node will be placed at the root of the graph. pDependencies may not have any duplicate entries. A handle to the new node will be returned in pGraphNode.

When cudaGraphAddMemAllocNode creates an allocation node, it returns the address of the allocation in nodeParams.dptr. The allocation's address remains fixed across instantiations and launches.

If the allocation is freed in the same graph, by creating a free node using cudaGraphAddMemFreeNode, the allocation can be accessed by nodes ordered after the allocation node but before the free node. These allocations cannot be freed outside the owning graph, and they can only be freed once in the owning graph.

If the allocation is not freed in the same graph, then it can be accessed not only by nodes in the graph which are ordered after the allocation node, but also by stream operations ordered after the graph's execution but before the allocation is freed.

Allocations which are not freed in the same graph can be freed by:

  • passing the allocation to cudaMemFreeAsync or cudaMemFree;

  • launching a graph with a free node for that allocation; or

  • specifying cudaGraphInstantiateFlagAutoFreeOnLaunch during instantiation, which makes each launch behave as though it called cudaMemFreeAsync for every unfreed allocation.

It is not possible to free an allocation in both the owning graph and another graph. If the allocation is freed in the same graph, a free node cannot be added to another graph. If the allocation is freed in another graph, a free node can no longer be added to the owning graph.

The following restrictions apply to graphs which contain allocation and/or memory free nodes:

  • Nodes and edges of the graph cannot be deleted.

  • The graph cannot be used in a child node.

  • Only one instantiation of the graph may exist at any point in time.

  • The graph cannot be cloned.

Note:
  • Graph objects are not threadsafe. More here.

  • Note that this function may also return error codes from previous, asynchronous launches.

See also:

cudaGraphAddNode, cudaGraphAddMemFreeNode, cudaGraphMemAllocNodeGetParams, cudaDeviceGraphMemTrim, cudaDeviceGetGraphMemAttribute, cudaDeviceSetGraphMemAttribute, cudaMallocAsync, cudaFreeAsync, cudaGraphCreate, cudaGraphDestroyNode, cudaGraphAddChildGraphNode, cudaGraphAddEmptyNode, cudaGraphAddEventRecordNode, cudaGraphAddEventWaitNode, cudaGraphAddExternalSemaphoresSignalNode, cudaGraphAddExternalSemaphoresWaitNode, cudaGraphAddKernelNode, cudaGraphAddMemcpyNode, cudaGraphAddMemsetNode

__host__cudaError_t cudaGraphAddMemFreeNode ( cudaGraphNode_t* pGraphNode, cudaGraph_t graph, const cudaGraphNode_t* pDependencies, size_t numDependencies, void* dptr )
Creates a memory free node and adds it to a graph.
Parameters
pGraphNode
- Returns newly created node
graph
- Graph to which to add the node
pDependencies
- Dependencies of the node
numDependencies
- Number of dependencies
dptr
- Address of memory to free
Description

Creates a new memory free node and adds it to graph with numDependencies dependencies specified via pDependencies and address specified in dptr. It is possible for numDependencies to be 0, in which case the node will be placed at the root of the graph. pDependencies may not have any duplicate entries. A handle to the new node will be returned in pGraphNode.

cudaGraphAddMemFreeNode will return cudaErrorInvalidValue if the user attempts to free:

  • an allocation twice in the same graph.

  • an address that was not returned by an allocation node.

  • an invalid address.

The following restrictions apply to graphs which contain allocation and/or memory free nodes:

  • Nodes and edges of the graph cannot be deleted.

  • The graph cannot be used in a child node.

  • Only one instantiation of the graph may exist at any point in time.

  • The graph cannot be cloned.

Note:
  • Graph objects are not threadsafe. More here.

  • Note that this function may also return error codes from previous, asynchronous launches.

See also:

cudaGraphAddNode, cudaGraphAddMemAllocNode, cudaGraphMemFreeNodeGetParams, cudaDeviceGraphMemTrim, cudaDeviceGetGraphMemAttribute, cudaDeviceSetGraphMemAttribute, cudaMallocAsync, cudaFreeAsync, cudaGraphCreate, cudaGraphDestroyNode, cudaGraphAddChildGraphNode, cudaGraphAddEmptyNode, cudaGraphAddEventRecordNode, cudaGraphAddEventWaitNode, cudaGraphAddExternalSemaphoresSignalNode, cudaGraphAddExternalSemaphoresWaitNode, cudaGraphAddKernelNode, cudaGraphAddMemcpyNode, cudaGraphAddMemsetNode

__host__cudaError_t cudaGraphAddMemcpyNode ( cudaGraphNode_t* pGraphNode, cudaGraph_t graph, const cudaGraphNode_t* pDependencies, size_t numDependencies, const cudaMemcpy3DParms* pCopyParams )
Creates a memcpy node and adds it to a graph.
Parameters
pGraphNode
- Returns newly created node
graph
- Graph to which to add the node
pDependencies
- Dependencies of the node
numDependencies
- Number of dependencies
pCopyParams
- Parameters for the memory copy
Description

Creates a new memcpy node and adds it to graph with numDependencies dependencies specified via pDependencies. It is possible for numDependencies to be 0, in which case the node will be placed at the root of the graph. pDependencies may not have any duplicate entries. A handle to the new node will be returned in pGraphNode.

When the graph is launched, the node will perform the memcpy described by pCopyParams. See cudaMemcpy3D() for a description of the structure and its restrictions.

Memcpy nodes have some additional restrictions with regards to managed memory, if the system contains at least one device which has a zero value for the device attribute cudaDevAttrConcurrentManagedAccess.

Note:

See also:

cudaGraphAddNode, cudaMemcpy3D, cudaGraphAddMemcpyNodeToSymbol, cudaGraphAddMemcpyNodeFromSymbol, cudaGraphAddMemcpyNode1D, cudaGraphMemcpyNodeGetParams, cudaGraphMemcpyNodeSetParams, cudaGraphCreate, cudaGraphDestroyNode, cudaGraphAddChildGraphNode, cudaGraphAddEmptyNode, cudaGraphAddKernelNode, cudaGraphAddHostNode, cudaGraphAddMemsetNode

__host__cudaError_t cudaGraphAddMemcpyNode1D ( cudaGraphNode_t* pGraphNode, cudaGraph_t graph, const cudaGraphNode_t* pDependencies, size_t numDependencies, void* dst, const void* src, size_t count, cudaMemcpyKind kind )
Creates a 1D memcpy node and adds it to a graph.
Parameters
pGraphNode
- Returns newly created node
graph
- Graph to which to add the node
pDependencies
- Dependencies of the node
numDependencies
- Number of dependencies
dst
- Destination memory address
src
- Source memory address
count
- Size in bytes to copy
kind
- Type of transfer
Description

Creates a new 1D memcpy node and adds it to graph with numDependencies dependencies specified via pDependencies. It is possible for numDependencies to be 0, in which case the node will be placed at the root of the graph. pDependencies may not have any duplicate entries. A handle to the new node will be returned in pGraphNode.

When the graph is launched, the node will copy count bytes from the memory area pointed to by src to the memory area pointed to by dst, where kind specifies the direction of the copy, and must be one of cudaMemcpyHostToHost, cudaMemcpyHostToDevice, cudaMemcpyDeviceToHost, cudaMemcpyDeviceToDevice, or cudaMemcpyDefault. Passing cudaMemcpyDefault is recommended, in which case the type of transfer is inferred from the pointer values. However, cudaMemcpyDefault is only allowed on systems that support unified virtual addressing. Launching a memcpy node with dst and src pointers that do not match the direction of the copy results in an undefined behavior.

Memcpy nodes have some additional restrictions with regards to managed memory, if the system contains at least one device which has a zero value for the device attribute cudaDevAttrConcurrentManagedAccess.

Note:

See also:

cudaMemcpy, cudaGraphAddMemcpyNode, cudaGraphMemcpyNodeGetParams, cudaGraphMemcpyNodeSetParams, cudaGraphMemcpyNodeSetParams1D, cudaGraphCreate, cudaGraphDestroyNode, cudaGraphAddChildGraphNode, cudaGraphAddEmptyNode, cudaGraphAddKernelNode, cudaGraphAddHostNode, cudaGraphAddMemsetNode

__host__cudaError_t cudaGraphAddMemcpyNodeFromSymbol ( cudaGraphNode_t* pGraphNode, cudaGraph_t graph, const cudaGraphNode_t* pDependencies, size_t numDependencies, void* dst, const void* symbol, size_t count, size_t offset, cudaMemcpyKind kind )
Creates a memcpy node to copy from a symbol on the device and adds it to a graph.
Parameters
pGraphNode
- Returns newly created node
graph
- Graph to which to add the node
pDependencies
- Dependencies of the node
numDependencies
- Number of dependencies
dst
- Destination memory address
symbol
- Device symbol address
count
- Size in bytes to copy
offset
- Offset from start of symbol in bytes
kind
- Type of transfer
Description

Creates a new memcpy node to copy from symbol and adds it to graph with numDependencies dependencies specified via pDependencies. It is possible for numDependencies to be 0, in which case the node will be placed at the root of the graph. pDependencies may not have any duplicate entries. A handle to the new node will be returned in pGraphNode.

When the graph is launched, the node will copy count bytes from the memory area pointed to by offset bytes from the start of symbol symbol to the memory area pointed to by dst. The memory areas may not overlap. symbol is a variable that resides in global or constant memory space. kind can be either cudaMemcpyDeviceToHost, cudaMemcpyDeviceToDevice, or cudaMemcpyDefault. Passing cudaMemcpyDefault is recommended, in which case the type of transfer is inferred from the pointer values. However, cudaMemcpyDefault is only allowed on systems that support unified virtual addressing.

Memcpy nodes have some additional restrictions with regards to managed memory, if the system contains at least one device which has a zero value for the device attribute cudaDevAttrConcurrentManagedAccess.

Note:

See also:

cudaMemcpyFromSymbol, cudaGraphAddMemcpyNode, cudaGraphAddMemcpyNodeToSymbol, cudaGraphMemcpyNodeGetParams, cudaGraphMemcpyNodeSetParams, cudaGraphMemcpyNodeSetParamsFromSymbol, cudaGraphMemcpyNodeSetParamsToSymbol, cudaGraphCreate, cudaGraphDestroyNode, cudaGraphAddChildGraphNode, cudaGraphAddEmptyNode, cudaGraphAddKernelNode, cudaGraphAddHostNode, cudaGraphAddMemsetNode

__host__cudaError_t cudaGraphAddMemcpyNodeToSymbol ( cudaGraphNode_t* pGraphNode, cudaGraph_t graph, const cudaGraphNode_t* pDependencies, size_t numDependencies, const void* symbol, const void* src, size_t count, size_t offset, cudaMemcpyKind kind )
Creates a memcpy node to copy to a symbol on the device and adds it to a graph.
Parameters
pGraphNode
- Returns newly created node
graph
- Graph to which to add the node
pDependencies
- Dependencies of the node
numDependencies
- Number of dependencies
symbol
- Device symbol address
src
- Source memory address
count
- Size in bytes to copy
offset
- Offset from start of symbol in bytes
kind
- Type of transfer
Description

Creates a new memcpy node to copy to symbol and adds it to graph with numDependencies dependencies specified via pDependencies. It is possible for numDependencies to be 0, in which case the node will be placed at the root of the graph. pDependencies may not have any duplicate entries. A handle to the new node will be returned in pGraphNode.

When the graph is launched, the node will copy count bytes from the memory area pointed to by src to the memory area pointed to by offset bytes from the start of symbol symbol. The memory areas may not overlap. symbol is a variable that resides in global or constant memory space. kind can be either cudaMemcpyHostToDevice, cudaMemcpyDeviceToDevice, or cudaMemcpyDefault. Passing cudaMemcpyDefault is recommended, in which case the type of transfer is inferred from the pointer values. However, cudaMemcpyDefault is only allowed on systems that support unified virtual addressing.

Memcpy nodes have some additional restrictions with regards to managed memory, if the system contains at least one device which has a zero value for the device attribute cudaDevAttrConcurrentManagedAccess.

Note:

See also:

cudaMemcpyToSymbol, cudaGraphAddMemcpyNode, cudaGraphAddMemcpyNodeFromSymbol, cudaGraphMemcpyNodeGetParams, cudaGraphMemcpyNodeSetParams, cudaGraphMemcpyNodeSetParamsToSymbol, cudaGraphMemcpyNodeSetParamsFromSymbol, cudaGraphCreate, cudaGraphDestroyNode, cudaGraphAddChildGraphNode, cudaGraphAddEmptyNode, cudaGraphAddKernelNode, cudaGraphAddHostNode, cudaGraphAddMemsetNode

__host__cudaError_t cudaGraphAddMemsetNode ( cudaGraphNode_t* pGraphNode, cudaGraph_t graph, const cudaGraphNode_t* pDependencies, size_t numDependencies, const cudaMemsetParams* pMemsetParams )
Creates a memset node and adds it to a graph.
Parameters
pGraphNode
- Returns newly created node
graph
- Graph to which to add the node
pDependencies
- Dependencies of the node
numDependencies
- Number of dependencies
pMemsetParams
- Parameters for the memory set
Description

Creates a new memset node and adds it to graph with numDependencies dependencies specified via pDependencies. It is possible for numDependencies to be 0, in which case the node will be placed at the root of the graph. pDependencies may not have any duplicate entries. A handle to the new node will be returned in pGraphNode.

The element size must be 1, 2, or 4 bytes. When the graph is launched, the node will perform the memset described by pMemsetParams.

Note:

See also:

cudaGraphAddNode, cudaMemset2D, cudaGraphMemsetNodeGetParams, cudaGraphMemsetNodeSetParams, cudaGraphCreate, cudaGraphDestroyNode, cudaGraphAddChildGraphNode, cudaGraphAddEmptyNode, cudaGraphAddKernelNode, cudaGraphAddHostNode, cudaGraphAddMemcpyNode

__host__cudaError_t cudaGraphAddNode ( cudaGraphNode_t* pGraphNode, cudaGraph_t graph, const cudaGraphNode_t* pDependencies, size_t numDependencies, cudaGraphNodeParams* nodeParams )
Adds a node of arbitrary type to a graph.
Parameters
pGraphNode
- Returns newly created node
graph
- Graph to which to add the node
pDependencies
- Dependencies of the node
numDependencies
- Number of dependencies
nodeParams
- Specification of the node
Description

Creates a new node in graph described by nodeParams with numDependencies dependencies specified via pDependencies. numDependencies may be 0. pDependencies may be null if numDependencies is 0. pDependencies may not have any duplicate entries.

nodeParams is a tagged union. The node type should be specified in the type field, and type-specific parameters in the corresponding union member. All unused bytes - that is, reserved0 and all bytes past the utilized union member - must be set to zero. It is recommended to use brace initialization or memset to ensure all bytes are initialized.

Note that for some node types, nodeParams may contain "out parameters" which are modified during the call, such as nodeParams->alloc.dptr.

A handle to the new node will be returned in phGraphNode.

Note:

See also:

cudaGraphCreate, cudaGraphNodeSetParams, cudaGraphExecNodeSetParams

__host__cudaError_t cudaGraphAddNode_v2 ( cudaGraphNode_t* pGraphNode, cudaGraph_t graph, const cudaGraphNode_t* pDependencies, const cudaGraphEdgeData* dependencyData, size_t numDependencies, cudaGraphNodeParams* nodeParams )
Adds a node of arbitrary type to a graph (12.3+).
Parameters
pGraphNode
- Returns newly created node
graph
- Graph to which to add the node
pDependencies
- Dependencies of the node
dependencyData
- Optional edge data for the dependencies. If NULL, the data is assumed to be default (zeroed) for all dependencies.
numDependencies
- Number of dependencies
nodeParams
- Specification of the node
Description

Creates a new node in graph described by nodeParams with numDependencies dependencies specified via pDependencies. numDependencies may be 0. pDependencies may be null if numDependencies is 0. pDependencies may not have any duplicate entries.

nodeParams is a tagged union. The node type should be specified in the type field, and type-specific parameters in the corresponding union member. All unused bytes - that is, reserved0 and all bytes past the utilized union member - must be set to zero. It is recommended to use brace initialization or memset to ensure all bytes are initialized.

Note that for some node types, nodeParams may contain "out parameters" which are modified during the call, such as nodeParams->alloc.dptr.

A handle to the new node will be returned in phGraphNode.

Note:

See also:

cudaGraphCreate, cudaGraphNodeSetParams, cudaGraphExecNodeSetParams

__host__cudaError_t cudaGraphChildGraphNodeGetGraph ( cudaGraphNode_t node, cudaGraph_t* pGraph )
Gets a handle to the embedded graph of a child graph node.
Parameters
node
- Node to get the embedded graph for
pGraph
- Location to store a handle to the graph
Description

Gets a handle to the embedded graph in a child graph node. This call does not clone the graph. Changes to the graph will be reflected in the node, and the node retains ownership of the graph.

Allocation and free nodes cannot be added to the returned graph. Attempting to do so will return an error.

Note:

See also:

cudaGraphAddChildGraphNode, cudaGraphNodeFindInClone

__host__cudaError_t cudaGraphClone ( cudaGraph_t* pGraphClone, cudaGraph_t originalGraph )
Clones a graph.
Parameters
pGraphClone
- Returns newly created cloned graph
originalGraph
- Graph to clone
Description

This function creates a copy of originalGraph and returns it in pGraphClone. All parameters are copied into the cloned graph. The original graph may be modified after this call without affecting the clone.

Child graph nodes in the original graph are recursively copied into the clone.

Note:

See also:

cudaGraphCreate, cudaGraphNodeFindInClone

__host__cudaError_t cudaGraphConditionalHandleCreate ( cudaGraphConditionalHandle* pHandle_out, cudaGraph_t graph, unsigned int  defaultLaunchValue = 0, unsigned int  flags = 0 )
Create a conditional handle.
Parameters
pHandle_out
- Pointer used to return the handle to the caller.
graph
defaultLaunchValue
- Optional initial value for the conditional variable.
flags
- Currently must be cudaGraphCondAssignDefault or 0.
Description

Creates a conditional handle associated with hGraph.

The conditional handle can be associated with conditional nodes in this graph or its children.

Note:
  • Graph objects are not threadsafe. More here.

  • Note that this function may also return error codes from previous, asynchronous launches.

See also:

cuGraphAddNode,

__host__cudaError_t cudaGraphCreate ( cudaGraph_t* pGraph, unsigned int  flags )
Creates a graph.
Parameters
pGraph
- Returns newly created graph
flags
- Graph creation flags, must be 0
Description

Creates an empty graph, which is returned via pGraph.

Note:

See also:

cudaGraphAddChildGraphNode, cudaGraphAddEmptyNode, cudaGraphAddKernelNode, cudaGraphAddHostNode, cudaGraphAddMemcpyNode, cudaGraphAddMemsetNode, cudaGraphInstantiate, cudaGraphDestroy, cudaGraphGetNodes, cudaGraphGetRootNodes, cudaGraphGetEdges, cudaGraphClone

__host__cudaError_t cudaGraphDebugDotPrint ( cudaGraph_t graph, const char* path, unsigned int  flags )
Write a DOT file describing graph structure.
Parameters
graph
- The graph to create a DOT file from
path
- The path to write the DOT file to
flags
- Flags from cudaGraphDebugDotFlags for specifying which additional node information to write
Description

Using the provided graph, write to path a DOT formatted description of the graph. By default this includes the graph topology, node types, node id, kernel names and memcpy direction. flags can be specified to write more detailed information about each node type such as parameter values, kernel attributes, node and function handles.

__host__cudaError_t cudaGraphDestroy ( cudaGraph_t graph )
Destroys a graph.
Parameters
graph
- Graph to destroy
Description

Destroys the graph specified by graph, as well as all of its nodes.

Note:

See also:

cudaGraphCreate

__host__cudaError_t cudaGraphDestroyNode ( cudaGraphNode_t node )
Remove a node from the graph.
Parameters
node
- Node to remove
Description

Removes node from its graph. This operation also severs any dependencies of other nodes on node and vice versa.

Dependencies cannot be removed from graphs which contain allocation or free nodes. Any attempt to do so will return an error.

Note:

See also:

cudaGraphAddChildGraphNode, cudaGraphAddEmptyNode, cudaGraphAddKernelNode, cudaGraphAddHostNode, cudaGraphAddMemcpyNode, cudaGraphAddMemsetNode

__host__cudaError_t cudaGraphEventRecordNodeGetEvent ( cudaGraphNode_t node, cudaEvent_t* event_out )
Returns the event associated with an event record node.
Parameters
node
event_out
- Pointer to return the event
Description

Returns the event of event record node hNode in event_out.

Note:

See also:

cudaGraphAddEventRecordNode, cudaGraphEventRecordNodeSetEvent, cudaGraphEventWaitNodeGetEvent, cudaEventRecordWithFlags, cudaStreamWaitEvent

__host__cudaError_t cudaGraphEventRecordNodeSetEvent ( cudaGraphNode_t node, cudaEvent_t event )
Sets an event record node's event.
Parameters
node
event
- Event to use
Description

Sets the event of event record node hNode to event.

Note:

See also:

cudaGraphNodeSetParams, cudaGraphAddEventRecordNode, cudaGraphEventRecordNodeGetEvent, cudaGraphEventWaitNodeSetEvent, cudaEventRecordWithFlags, cudaStreamWaitEvent

__host__cudaError_t cudaGraphEventWaitNodeGetEvent ( cudaGraphNode_t node, cudaEvent_t* event_out )
Returns the event associated with an event wait node.
Parameters
node
event_out
- Pointer to return the event
Description

Returns the event of event wait node hNode in event_out.

Note:

See also:

cudaGraphAddEventWaitNode, cudaGraphEventWaitNodeSetEvent, cudaGraphEventRecordNodeGetEvent, cudaEventRecordWithFlags, cudaStreamWaitEvent

__host__cudaError_t cudaGraphEventWaitNodeSetEvent ( cudaGraphNode_t node, cudaEvent_t event )
Sets an event wait node's event.
Parameters
node
event
- Event to use
Description

Sets the event of event wait node hNode to event.

Note:

See also:

cudaGraphNodeSetParams, cudaGraphAddEventWaitNode, cudaGraphEventWaitNodeGetEvent, cudaGraphEventRecordNodeSetEvent, cudaEventRecordWithFlags, cudaStreamWaitEvent

__host__cudaError_t cudaGraphExecChildGraphNodeSetParams ( cudaGraphExec_t hGraphExec, cudaGraphNode_t node, cudaGraph_t childGraph )
Updates node parameters in the child graph node in the given graphExec.
Parameters
hGraphExec
- The executable graph in which to set the specified node
node
- Host node from the graph which was used to instantiate graphExec
childGraph
- The graph supplying the updated parameters
Description

Updates the work represented by node in hGraphExec as though the nodes contained in node's graph had the parameters contained in childGraph's nodes at instantiation. node must remain in the graph which was used to instantiate hGraphExec. Changed edges to and from node are ignored.

The modifications only affect future launches of hGraphExec. Already enqueued or running launches of hGraphExec are not affected by this call. node is also not modified by this call.

The topology of childGraph, as well as the node insertion order, must match that of the graph contained in node. See cudaGraphExecUpdate() for a list of restrictions on what can be updated in an instantiated graph. The update is recursive, so child graph nodes contained within the top level child graph will also be updated.

Note:

See also:

cudaGraphExecNodeSetParams, cudaGraphAddChildGraphNode, cudaGraphChildGraphNodeGetGraph, cudaGraphExecKernelNodeSetParams, cudaGraphExecMemcpyNodeSetParams, cudaGraphExecMemsetNodeSetParams, cudaGraphExecHostNodeSetParams, cudaGraphExecEventRecordNodeSetEvent, cudaGraphExecEventWaitNodeSetEvent, cudaGraphExecExternalSemaphoresSignalNodeSetParams, cudaGraphExecExternalSemaphoresWaitNodeSetParams, cudaGraphExecUpdate, cudaGraphInstantiate

__host__cudaError_t cudaGraphExecDestroy ( cudaGraphExec_t graphExec )
Destroys an executable graph.
Parameters
graphExec
- Executable graph to destroy
Description

Destroys the executable graph specified by graphExec.

Note:

See also:

cudaGraphInstantiate, cudaGraphUpload, cudaGraphLaunch

__host__cudaError_t cudaGraphExecEventRecordNodeSetEvent ( cudaGraphExec_t hGraphExec, cudaGraphNode_t hNode, cudaEvent_t event )
Sets the event for an event record node in the given graphExec.
Parameters
hGraphExec
- The executable graph in which to set the specified node
hNode
- Event record node from the graph from which graphExec was instantiated
event
- Updated event to use
Description

Sets the event of an event record node in an executable graph hGraphExec. The node is identified by the corresponding node hNode in the non-executable graph, from which the executable graph was instantiated.

The modifications only affect future launches of hGraphExec. Already enqueued or running launches of hGraphExec are not affected by this call. hNode is also not modified by this call.

Note:

See also:

cudaGraphExecNodeSetParams, cudaGraphAddEventRecordNode, cudaGraphEventRecordNodeGetEvent, cudaGraphEventWaitNodeSetEvent, cudaEventRecordWithFlags, cudaStreamWaitEvent, cudaGraphExecKernelNodeSetParams, cudaGraphExecMemcpyNodeSetParams, cudaGraphExecMemsetNodeSetParams, cudaGraphExecHostNodeSetParams, cudaGraphExecChildGraphNodeSetParams, cudaGraphExecEventWaitNodeSetEvent, cudaGraphExecExternalSemaphoresSignalNodeSetParams, cudaGraphExecExternalSemaphoresWaitNodeSetParams, cudaGraphExecUpdate, cudaGraphInstantiate

__host__cudaError_t cudaGraphExecEventWaitNodeSetEvent ( cudaGraphExec_t hGraphExec, cudaGraphNode_t hNode, cudaEvent_t event )
Sets the event for an event wait node in the given graphExec.
Parameters
hGraphExec
- The executable graph in which to set the specified node
hNode
- Event wait node from the graph from which graphExec was instantiated
event
- Updated event to use
Description

Sets the event of an event wait node in an executable graph hGraphExec. The node is identified by the corresponding node hNode in the non-executable graph, from which the executable graph was instantiated.

The modifications only affect future launches of hGraphExec. Already enqueued or running launches of hGraphExec are not affected by this call. hNode is also not modified by this call.

Note:

See also:

cudaGraphExecNodeSetParams, cudaGraphAddEventWaitNode, cudaGraphEventWaitNodeGetEvent, cudaGraphEventRecordNodeSetEvent, cudaEventRecordWithFlags, cudaStreamWaitEvent, cudaGraphExecKernelNodeSetParams, cudaGraphExecMemcpyNodeSetParams, cudaGraphExecMemsetNodeSetParams, cudaGraphExecHostNodeSetParams, cudaGraphExecChildGraphNodeSetParams, cudaGraphExecEventRecordNodeSetEvent, cudaGraphExecExternalSemaphoresSignalNodeSetParams, cudaGraphExecExternalSemaphoresWaitNodeSetParams, cudaGraphExecUpdate, cudaGraphInstantiate

__host__cudaError_t cudaGraphExecExternalSemaphoresSignalNodeSetParams ( cudaGraphExec_t hGraphExec, cudaGraphNode_t hNode, const cudaExternalSemaphoreSignalNodeParams* nodeParams )
Sets the parameters for an external semaphore signal node in the given graphExec.
Parameters
hGraphExec
- The executable graph in which to set the specified node
hNode
- semaphore signal node from the graph from which graphExec was instantiated
nodeParams
- Updated Parameters to set
Description

Sets the parameters of an external semaphore signal node in an executable graph hGraphExec. The node is identified by the corresponding node hNode in the non-executable graph, from which the executable graph was instantiated.

hNode must not have been removed from the original graph.

The modifications only affect future launches of hGraphExec. Already enqueued or running launches of hGraphExec are not affected by this call. hNode is also not modified by this call.

Changing nodeParams->numExtSems is not supported.

Note:

See also:

cudaGraphExecNodeSetParams, cudaGraphAddExternalSemaphoresSignalNode, cudaImportExternalSemaphore, cudaSignalExternalSemaphoresAsync, cudaWaitExternalSemaphoresAsync, cudaGraphExecKernelNodeSetParams, cudaGraphExecMemcpyNodeSetParams, cudaGraphExecMemsetNodeSetParams, cudaGraphExecHostNodeSetParams, cudaGraphExecChildGraphNodeSetParams, cudaGraphExecEventRecordNodeSetEvent, cudaGraphExecEventWaitNodeSetEvent, cudaGraphExecExternalSemaphoresWaitNodeSetParams, cudaGraphExecUpdate, cudaGraphInstantiate

__host__cudaError_t cudaGraphExecExternalSemaphoresWaitNodeSetParams ( cudaGraphExec_t hGraphExec, cudaGraphNode_t hNode, const cudaExternalSemaphoreWaitNodeParams* nodeParams )
Sets the parameters for an external semaphore wait node in the given graphExec.
Parameters
hGraphExec
- The executable graph in which to set the specified node
hNode
- semaphore wait node from the graph from which graphExec was instantiated
nodeParams
- Updated Parameters to set
Description

Sets the parameters of an external semaphore wait node in an executable graph hGraphExec. The node is identified by the corresponding node hNode in the non-executable graph, from which the executable graph was instantiated.

hNode must not have been removed from the original graph.

The modifications only affect future launches of hGraphExec. Already enqueued or running launches of hGraphExec are not affected by this call. hNode is also not modified by this call.

Changing nodeParams->numExtSems is not supported.

Note:

See also:

cudaGraphExecNodeSetParams, cudaGraphAddExternalSemaphoresWaitNode, cudaImportExternalSemaphore, cudaSignalExternalSemaphoresAsync, cudaWaitExternalSemaphoresAsync, cudaGraphExecKernelNodeSetParams, cudaGraphExecMemcpyNodeSetParams, cudaGraphExecMemsetNodeSetParams, cudaGraphExecHostNodeSetParams, cudaGraphExecChildGraphNodeSetParams, cudaGraphExecEventRecordNodeSetEvent, cudaGraphExecEventWaitNodeSetEvent, cudaGraphExecExternalSemaphoresSignalNodeSetParams, cudaGraphExecUpdate, cudaGraphInstantiate

__host__cudaError_t cudaGraphExecGetFlags ( cudaGraphExec_t graphExec, unsigned long long* flags )
Query the instantiation flags of an executable graph.
Parameters
graphExec
- The executable graph to query
flags
- Returns the instantiation flags
Description

Returns the flags that were passed to instantiation for the given executable graph. cudaGraphInstantiateFlagUpload will not be returned by this API as it does not affect the resulting executable graph.

Note:

See also:

cudaGraphInstantiate, cudaGraphInstantiateWithFlags, cudaGraphInstantiateWithParams

__host__cudaError_t cudaGraphExecHostNodeSetParams ( cudaGraphExec_t hGraphExec, cudaGraphNode_t node, const cudaHostNodeParams* pNodeParams )
Sets the parameters for a host node in the given graphExec.
Parameters
hGraphExec
- The executable graph in which to set the specified node
node
- Host node from the graph which was used to instantiate graphExec
pNodeParams
- Updated Parameters to set
Description

Updates the work represented by node in hGraphExec as though node had contained pNodeParams at instantiation. node must remain in the graph which was used to instantiate hGraphExec. Changed edges to and from node are ignored.

The modifications only affect future launches of hGraphExec. Already enqueued or running launches of hGraphExec are not affected by this call. node is also not modified by this call.

Note:

See also:

cudaGraphExecNodeSetParams, cudaGraphAddHostNode, cudaGraphHostNodeSetParams, cudaGraphExecKernelNodeSetParams, cudaGraphExecMemcpyNodeSetParams, cudaGraphExecMemsetNodeSetParams, cudaGraphExecChildGraphNodeSetParams, cudaGraphExecEventRecordNodeSetEvent, cudaGraphExecEventWaitNodeSetEvent, cudaGraphExecExternalSemaphoresSignalNodeSetParams, cudaGraphExecExternalSemaphoresWaitNodeSetParams, cudaGraphExecUpdate, cudaGraphInstantiate

__host__cudaError_t cudaGraphExecKernelNodeSetParams ( cudaGraphExec_t hGraphExec, cudaGraphNode_t node, const cudaKernelNodeParams* pNodeParams )
Sets the parameters for a kernel node in the given graphExec.
Parameters
hGraphExec
- The executable graph in which to set the specified node
node
- kernel node from the graph from which graphExec was instantiated
pNodeParams
- Updated Parameters to set
Description

Sets the parameters of a kernel node in an executable graph hGraphExec. The node is identified by the corresponding node node in the non-executable graph, from which the executable graph was instantiated.

hNode must not have been removed from the original graph. All nodeParams fields may change, but the following restrictions apply to func updates:

  • The owning device of the function cannot change.

  • A node whose function originally did not use CUDA dynamic parallelism cannot be updated to a function which uses CDP

  • If hGraphExec was not instantiated for device launch, a node whose function originally did not use device-side cudaGraphLaunch() cannot be updated to a function which uses device-side cudaGraphLaunch() unless the node resides on the same device as nodes which contained such calls at instantiate-time. If no such calls were present at instantiation, these updates cannot be performed at all.

The modifications only affect future launches of hGraphExec. Already enqueued or running launches of hGraphExec are not affected by this call. node is also not modified by this call.

Note:

See also:

cudaGraphExecNodeSetParams, cudaGraphAddKernelNode, cudaGraphKernelNodeSetParams, cudaGraphExecMemcpyNodeSetParams, cudaGraphExecMemsetNodeSetParams, cudaGraphExecHostNodeSetParams, cudaGraphExecChildGraphNodeSetParams, cudaGraphExecEventRecordNodeSetEvent, cudaGraphExecEventWaitNodeSetEvent, cudaGraphExecExternalSemaphoresSignalNodeSetParams, cudaGraphExecExternalSemaphoresWaitNodeSetParams, cudaGraphExecUpdate, cudaGraphInstantiate

__host__cudaError_t cudaGraphExecMemcpyNodeSetParams ( cudaGraphExec_t hGraphExec, cudaGraphNode_t node, const cudaMemcpy3DParms* pNodeParams )
Sets the parameters for a memcpy node in the given graphExec.
Parameters
hGraphExec
- The executable graph in which to set the specified node
node
- Memcpy node from the graph which was used to instantiate graphExec
pNodeParams
- Updated Parameters to set
Description

Updates the work represented by node in hGraphExec as though node had contained pNodeParams at instantiation. node must remain in the graph which was used to instantiate hGraphExec. Changed edges to and from node are ignored.

The source and destination memory in pNodeParams must be allocated from the same contexts as the original source and destination memory. Both the instantiation-time memory operands and the memory operands in pNodeParams must be 1-dimensional. Zero-length operations are not supported.

The modifications only affect future launches of hGraphExec. Already enqueued or running launches of hGraphExec are not affected by this call. node is also not modified by this call.

Returns cudaErrorInvalidValue if the memory operands' mappings changed or either the original or new memory operands are multidimensional.

Note:

See also:

cudaGraphExecNodeSetParams, cudaGraphAddMemcpyNode, cudaGraphMemcpyNodeSetParams, cudaGraphExecMemcpyNodeSetParamsToSymbol, cudaGraphExecMemcpyNodeSetParamsFromSymbol, cudaGraphExecMemcpyNodeSetParams1D, cudaGraphExecKernelNodeSetParams, cudaGraphExecMemsetNodeSetParams, cudaGraphExecHostNodeSetParams, cudaGraphExecChildGraphNodeSetParams, cudaGraphExecEventRecordNodeSetEvent, cudaGraphExecEventWaitNodeSetEvent, cudaGraphExecExternalSemaphoresSignalNodeSetParams, cudaGraphExecExternalSemaphoresWaitNodeSetParams, cudaGraphExecUpdate, cudaGraphInstantiate

__host__cudaError_t cudaGraphExecMemcpyNodeSetParams1D ( cudaGraphExec_t hGraphExec, cudaGraphNode_t node, void* dst, const void* src, size_t count, cudaMemcpyKind kind )
Sets the parameters for a memcpy node in the given graphExec to perform a 1-dimensional copy.
Parameters
hGraphExec
- The executable graph in which to set the specified node
node
- Memcpy node from the graph which was used to instantiate graphExec
dst
- Destination memory address
src
- Source memory address
count
- Size in bytes to copy
kind
- Type of transfer
Description

Updates the work represented by node in hGraphExec as though node had contained the given params at instantiation. node must remain in the graph which was used to instantiate hGraphExec. Changed edges to and from node are ignored.

src and dst must be allocated from the same contexts as the original source and destination memory. The instantiation-time memory operands must be 1-dimensional. Zero-length operations are not supported.

The modifications only affect future launches of hGraphExec. Already enqueued or running launches of hGraphExec are not affected by this call. node is also not modified by this call.

Returns cudaErrorInvalidValue if the memory operands' mappings changed or the original memory operands are multidimensional.

Note:

See also:

cudaGraphAddMemcpyNode, cudaGraphAddMemcpyNode1D, cudaGraphMemcpyNodeSetParams, cudaGraphMemcpyNodeSetParams1D, cudaGraphExecMemcpyNodeSetParams, cudaGraphExecKernelNodeSetParams, cudaGraphExecMemsetNodeSetParams, cudaGraphExecHostNodeSetParams, cudaGraphExecChildGraphNodeSetParams, cudaGraphExecEventRecordNodeSetEvent, cudaGraphExecEventWaitNodeSetEvent, cudaGraphExecExternalSemaphoresSignalNodeSetParams, cudaGraphExecExternalSemaphoresWaitNodeSetParams, cudaGraphExecUpdate, cudaGraphInstantiate

__host__cudaError_t cudaGraphExecMemcpyNodeSetParamsFromSymbol ( cudaGraphExec_t hGraphExec, cudaGraphNode_t node, void* dst, const void* symbol, size_t count, size_t offset, cudaMemcpyKind kind )
Sets the parameters for a memcpy node in the given graphExec to copy from a symbol on the device.
Parameters
hGraphExec
- The executable graph in which to set the specified node
node
- Memcpy node from the graph which was used to instantiate graphExec
dst
- Destination memory address
symbol
- Device symbol address
count
- Size in bytes to copy
offset
- Offset from start of symbol in bytes
kind
- Type of transfer
Description

Updates the work represented by node in hGraphExec as though node had contained the given params at instantiation. node must remain in the graph which was used to instantiate hGraphExec. Changed edges to and from node are ignored.

symbol and dst must be allocated from the same contexts as the original source and destination memory. The instantiation-time memory operands must be 1-dimensional. Zero-length operations are not supported.

The modifications only affect future launches of hGraphExec. Already enqueued or running launches of hGraphExec are not affected by this call. node is also not modified by this call.

Returns cudaErrorInvalidValue if the memory operands' mappings changed or the original memory operands are multidimensional.

Note:

See also:

cudaGraphAddMemcpyNode, cudaGraphAddMemcpyNodeFromSymbol, cudaGraphMemcpyNodeSetParams, cudaGraphMemcpyNodeSetParamsFromSymbol, cudaGraphExecMemcpyNodeSetParams, cudaGraphExecMemcpyNodeSetParamsToSymbol, cudaGraphExecKernelNodeSetParams, cudaGraphExecMemsetNodeSetParams, cudaGraphExecHostNodeSetParams, cudaGraphExecChildGraphNodeSetParams, cudaGraphExecEventRecordNodeSetEvent, cudaGraphExecEventWaitNodeSetEvent, cudaGraphExecExternalSemaphoresSignalNodeSetParams, cudaGraphExecExternalSemaphoresWaitNodeSetParams, cudaGraphExecUpdate, cudaGraphInstantiate

__host__cudaError_t cudaGraphExecMemcpyNodeSetParamsToSymbol ( cudaGraphExec_t hGraphExec, cudaGraphNode_t node, const void* symbol, const void* src, size_t count, size_t offset, cudaMemcpyKind kind )
Sets the parameters for a memcpy node in the given graphExec to copy to a symbol on the device.
Parameters
hGraphExec
- The executable graph in which to set the specified node
node
- Memcpy node from the graph which was used to instantiate graphExec
symbol
- Device symbol address
src
- Source memory address
count
- Size in bytes to copy
offset
- Offset from start of symbol in bytes
kind
- Type of transfer
Description

Updates the work represented by node in hGraphExec as though node had contained the given params at instantiation. node must remain in the graph which was used to instantiate hGraphExec. Changed edges to and from node are ignored.

src and symbol must be allocated from the same contexts as the original source and destination memory. The instantiation-time memory operands must be 1-dimensional. Zero-length operations are not supported.

The modifications only affect future launches of hGraphExec. Already enqueued or running launches of hGraphExec are not affected by this call. node is also not modified by this call.

Returns cudaErrorInvalidValue if the memory operands' mappings changed or the original memory operands are multidimensional.

Note:

See also:

cudaGraphAddMemcpyNode, cudaGraphAddMemcpyNodeToSymbol, cudaGraphMemcpyNodeSetParams, cudaGraphMemcpyNodeSetParamsToSymbol, cudaGraphExecMemcpyNodeSetParams, cudaGraphExecMemcpyNodeSetParamsFromSymbol, cudaGraphExecKernelNodeSetParams, cudaGraphExecMemsetNodeSetParams, cudaGraphExecHostNodeSetParams, cudaGraphExecChildGraphNodeSetParams, cudaGraphExecEventRecordNodeSetEvent, cudaGraphExecEventWaitNodeSetEvent, cudaGraphExecExternalSemaphoresSignalNodeSetParams, cudaGraphExecExternalSemaphoresWaitNodeSetParams, cudaGraphExecUpdate, cudaGraphInstantiate

__host__cudaError_t cudaGraphExecMemsetNodeSetParams ( cudaGraphExec_t hGraphExec, cudaGraphNode_t node, const cudaMemsetParams* pNodeParams )
Sets the parameters for a memset node in the given graphExec.
Parameters
hGraphExec
- The executable graph in which to set the specified node
node
- Memset node from the graph which was used to instantiate graphExec
pNodeParams
- Updated Parameters to set
Description

Updates the work represented by node in hGraphExec as though node had contained pNodeParams at instantiation. node must remain in the graph which was used to instantiate hGraphExec. Changed edges to and from node are ignored.

The destination memory in pNodeParams must be allocated from the same context as the original destination memory. Both the instantiation-time memory operand and the memory operand in pNodeParams must be 1-dimensional. Zero-length operations are not supported.

The modifications only affect future launches of hGraphExec. Already enqueued or running launches of hGraphExec are not affected by this call. node is also not modified by this call.

Returns cudaErrorInvalidValue if the memory operand's mappings changed or either the original or new memory operand are multidimensional.

Note:

See also:

cudaGraphExecNodeSetParams, cudaGraphAddMemsetNode, cudaGraphMemsetNodeSetParams, cudaGraphExecKernelNodeSetParams, cudaGraphExecMemcpyNodeSetParams, cudaGraphExecHostNodeSetParams, cudaGraphExecChildGraphNodeSetParams, cudaGraphExecEventRecordNodeSetEvent, cudaGraphExecEventWaitNodeSetEvent, cudaGraphExecExternalSemaphoresSignalNodeSetParams, cudaGraphExecExternalSemaphoresWaitNodeSetParams, cudaGraphExecUpdate, cudaGraphInstantiate

__host__cudaError_t cudaGraphExecNodeSetParams ( cudaGraphExec_t graphExec, cudaGraphNode_t node, cudaGraphNodeParams* nodeParams )
Update's a graph node's parameters in an instantiated graph.
Parameters
graphExec
- The executable graph in which to update the specified node
node
- Corresponding node from the graph from which graphExec was instantiated
nodeParams
- Updated Parameters to set
Description

Sets the parameters of a node in an executable graph graphExec. The node is identified by the corresponding node node in the non-executable graph from which the executable graph was instantiated. node must not have been removed from the original graph.

The modifications only affect future launches of graphExec. Already enqueued or running launches of graphExec are not affected by this call. node is also not modified by this call.

Allowed changes to parameters on executable graphs are as follows:

Node type

Allowed changes

kernel

See cudaGraphExecKernelNodeSetParams

memcpy

Addresses for 1-dimensional copies if allocated in same context; see cudaGraphExecMemcpyNodeSetParams

memset

Addresses for 1-dimensional memsets if allocated in same context; see cudaGraphExecMemsetNodeSetParams

host

Unrestricted

child graph

Topology must match and restrictions apply recursively; see cudaGraphExecUpdate

event wait

Unrestricted

event record

Unrestricted

external semaphore signal

Number of semaphore operations cannot change

external semaphore wait

Number of semaphore operations cannot change

memory allocation

API unsupported

memory free

API unsupported

Note:

See also:

cudaGraphAddNode, cudaGraphNodeSetParamscudaGraphExecUpdate, cudaGraphInstantiate

__host__cudaError_t cudaGraphExecUpdate ( cudaGraphExec_t hGraphExec, cudaGraph_t hGraph, cudaGraphExecUpdateResultInfo* resultInfo )
Check whether an executable graph can be updated with a graph and perform the update if possible.
Parameters
hGraphExec
The instantiated graph to be updated
hGraph
The graph containing the updated parameters
resultInfo
the error info structure
Description

Updates the node parameters in the instantiated graph specified by hGraphExec with the node parameters in a topologically identical graph specified by hGraph.

Limitations:

  • Kernel nodes:
    • The owning context of the function cannot change.

    • A node whose function originally did not use CUDA dynamic parallelism cannot be updated to a function which uses CDP.

    • A cooperative node cannot be updated to a non-cooperative node, and vice-versa.

    • If the graph was instantiated with cudaGraphInstantiateFlagUseNodePriority, the priority attribute cannot change. Equality is checked on the originally requested priority values, before they are clamped to the device's supported range.

    • If hGraphExec was not instantiated for device launch, a node whose function originally did not use device-side cudaGraphLaunch() cannot be updated to a function which uses device-side cudaGraphLaunch() unless the node resides on the same device as nodes which contained such calls at instantiate-time. If no such calls were present at instantiation, these updates cannot be performed at all.

  • Memset and memcpy nodes:
    • The CUDA device(s) to which the operand(s) was allocated/mapped cannot change.

    • The source/destination memory must be allocated from the same contexts as the original source/destination memory.

    • Only 1D memsets can be changed.

  • Additional memcpy node restrictions:
    • Changing either the source or destination memory type(i.e. CU_MEMORYTYPE_DEVICE, CU_MEMORYTYPE_ARRAY, etc.) is not supported.

  • Conditional nodes:
    • Changing node parameters is not supported.

    • Changeing parameters of nodes within the conditional body graph is subject to the rules above.

    • Conditional handle flags and default values are updated as part of the graph update.

Note: The API may add further restrictions in future releases. The return code should always be checked.

cudaGraphExecUpdate sets the result member of resultInfo to cudaGraphExecUpdateErrorTopologyChanged under the following conditions:

  • The count of nodes directly in hGraphExec and hGraph differ, in which case resultInfo->errorNode is set to NULL.

  • hGraph has more exit nodes than hGraph, in which case resultInfo->errorNode is set to one of the exit nodes in hGraph.

  • A node in hGraph has a different number of dependencies than the node from hGraphExec it is paired with, in which case resultInfo->errorNode is set to the node from hGraph.

  • A node in hGraph has a dependency that does not match with the corresponding dependency of the paired node from hGraphExec. resultInfo->errorNode will be set to the node from hGraph. resultInfo->errorFromNode will be set to the mismatched dependency. The dependencies are paired based on edge order and a dependency does not match when the nodes are already paired based on other edges examined in the graph.

cudaGraphExecUpdate sets the result member of resultInfo to:

  • cudaGraphExecUpdateError if passed an invalid value.

  • cudaGraphExecUpdateErrorTopologyChanged if the graph topology changed

  • cudaGraphExecUpdateErrorNodeTypeChanged if the type of a node changed, in which case hErrorNode_out is set to the node from hGraph.

  • cudaGraphExecUpdateErrorFunctionChanged if the function of a kernel node changed (CUDA driver < 11.2)

  • cudaGraphExecUpdateErrorUnsupportedFunctionChange if the func field of a kernel changed in an unsupported way(see note above), in which case hErrorNode_out is set to the node from hGraph

  • cudaGraphExecUpdateErrorParametersChanged if any parameters to a node changed in a way that is not supported, in which case hErrorNode_out is set to the node from hGraph

  • cudaGraphExecUpdateErrorAttributesChanged if any attributes of a node changed in a way that is not supported, in which case hErrorNode_out is set to the node from hGraph

  • cudaGraphExecUpdateErrorNotSupported if something about a node is unsupported, like the node's type or configuration, in which case hErrorNode_out is set to the node from hGraph

If the update fails for a reason not listed above, the result member of resultInfo will be set to cudaGraphExecUpdateError. If the update succeeds, the result member will be set to cudaGraphExecUpdateSuccess.

cudaGraphExecUpdate returns cudaSuccess when the updated was performed successfully. It returns cudaErrorGraphExecUpdateFailure if the graph update was not performed because it included changes which violated constraints specific to instantiated graph update.

Note:

See also:

cudaGraphInstantiate

__host__cudaError_t cudaGraphExternalSemaphoresSignalNodeGetParams ( cudaGraphNode_t hNode, cudaExternalSemaphoreSignalNodeParams* params_out )
Returns an external semaphore signal node's parameters.
Parameters
hNode
- Node to get the parameters for
params_out
- Pointer to return the parameters
Description

Returns the parameters of an external semaphore signal node hNode in params_out. The extSemArray and paramsArray returned in params_out, are owned by the node. This memory remains valid until the node is destroyed or its parameters are modified, and should not be modified directly. Use cudaGraphExternalSemaphoresSignalNodeSetParams to update the parameters of this node.

Note:

See also:

cudaLaunchKernel, cudaGraphAddExternalSemaphoresSignalNode, cudaGraphExternalSemaphoresSignalNodeSetParams, cudaGraphAddExternalSemaphoresWaitNode, cudaSignalExternalSemaphoresAsync, cudaWaitExternalSemaphoresAsync

__host__cudaError_t cudaGraphExternalSemaphoresSignalNodeSetParams ( cudaGraphNode_t hNode, const cudaExternalSemaphoreSignalNodeParams* nodeParams )
Sets an external semaphore signal node's parameters.
Parameters
hNode
- Node to set the parameters for
nodeParams
- Parameters to copy
Description

Sets the parameters of an external semaphore signal node hNode to nodeParams.

Note:

See also:

cudaGraphNodeSetParams, cudaGraphAddExternalSemaphoresSignalNode, cudaGraphExternalSemaphoresSignalNodeSetParams, cudaGraphAddExternalSemaphoresWaitNode, cudaSignalExternalSemaphoresAsync, cudaWaitExternalSemaphoresAsync

__host__cudaError_t cudaGraphExternalSemaphoresWaitNodeGetParams ( cudaGraphNode_t hNode, cudaExternalSemaphoreWaitNodeParams* params_out )
Returns an external semaphore wait node's parameters.
Parameters
hNode
- Node to get the parameters for
params_out
- Pointer to return the parameters
Description

Returns the parameters of an external semaphore wait node hNode in params_out. The extSemArray and paramsArray returned in params_out, are owned by the node. This memory remains valid until the node is destroyed or its parameters are modified, and should not be modified directly. Use cudaGraphExternalSemaphoresSignalNodeSetParams to update the parameters of this node.

Note:

See also:

cudaLaunchKernel, cudaGraphAddExternalSemaphoresWaitNode, cudaGraphExternalSemaphoresWaitNodeSetParams, cudaGraphAddExternalSemaphoresWaitNode, cudaSignalExternalSemaphoresAsync, cudaWaitExternalSemaphoresAsync

__host__cudaError_t cudaGraphExternalSemaphoresWaitNodeSetParams ( cudaGraphNode_t hNode, const cudaExternalSemaphoreWaitNodeParams* nodeParams )
Sets an external semaphore wait node's parameters.
Parameters
hNode
- Node to set the parameters for
nodeParams
- Parameters to copy
Description

Sets the parameters of an external semaphore wait node hNode to nodeParams.

Note:

See also:

cudaGraphNodeSetParams, cudaGraphAddExternalSemaphoresWaitNode, cudaGraphExternalSemaphoresWaitNodeSetParams, cudaGraphAddExternalSemaphoresWaitNode, cudaSignalExternalSemaphoresAsync, cudaWaitExternalSemaphoresAsync

__host__cudaError_t cudaGraphGetEdges ( cudaGraph_t graph, cudaGraphNode_t* from, cudaGraphNode_t* to, size_t* numEdges )
Returns a graph's dependency edges.
Parameters
graph
- Graph to get the edges from
from
- Location to return edge endpoints
to
- Location to return edge endpoints
numEdges
- See description
Description

Returns a list of graph's dependency edges. Edges are returned via corresponding indices in from and to; that is, the node in to[i] has a dependency on the node in from[i]. from and to may both be NULL, in which case this function only returns the number of edges in numEdges. Otherwise, numEdges entries will be filled in. If numEdges is higher than the actual number of edges, the remaining entries in from and to will be set to NULL, and the number of edges actually returned will be written to numEdges.

Note:

See also:

cudaGraphGetNodes, cudaGraphGetRootNodes, cudaGraphAddDependencies, cudaGraphRemoveDependencies, cudaGraphNodeGetDependencies, cudaGraphNodeGetDependentNodes

__host__cudaError_t cudaGraphGetEdges_v2 ( cudaGraph_t graph, cudaGraphNode_t* from, cudaGraphNode_t* to, cudaGraphEdgeData* edgeData, size_t* numEdges )
Returns a graph's dependency edges (12.3+).
Parameters
graph
- Graph to get the edges from
from
- Location to return edge endpoints
to
- Location to return edge endpoints
edgeData
- Optional location to return edge data
numEdges
- See description
Description

Returns a list of graph's dependency edges. Edges are returned via corresponding indices in from, to and edgeData; that is, the node in to[i] has a dependency on the node in from[i] with data edgeData[i]. from and to may both be NULL, in which case this function only returns the number of edges in numEdges. Otherwise, numEdges entries will be filled in. If numEdges is higher than the actual number of edges, the remaining entries in from and to will be set to NULL, and the number of edges actually returned will be written to numEdges. edgeData may alone be NULL, in which case the edges must all have default (zeroed) edge data. Attempting a losst query via NULL edgeData will result in cudaErrorLossyQuery. If edgeData is non-NULL then from and to must be as well.

Note:

See also:

cudaGraphGetNodes, cudaGraphGetRootNodes, cudaGraphAddDependencies, cudaGraphRemoveDependencies, cudaGraphNodeGetDependencies, cudaGraphNodeGetDependentNodes

__host__cudaError_t cudaGraphGetNodes ( cudaGraph_t graph, cudaGraphNode_t* nodes, size_t* numNodes )
Returns a graph's nodes.
Parameters
graph
- Graph to query
nodes
- Pointer to return the nodes
numNodes
- See description
Description

Returns a list of graph's nodes. nodes may be NULL, in which case this function will return the number of nodes in numNodes. Otherwise, numNodes entries will be filled in. If numNodes is higher than the actual number of nodes, the remaining entries in nodes will be set to NULL, and the number of nodes actually obtained will be returned in numNodes.

Note:

See also:

cudaGraphCreate, cudaGraphGetRootNodes, cudaGraphGetEdges, cudaGraphNodeGetType, cudaGraphNodeGetDependencies, cudaGraphNodeGetDependentNodes

__host__cudaError_t cudaGraphGetRootNodes ( cudaGraph_t graph, cudaGraphNode_t* pRootNodes, size_t* pNumRootNodes )
Returns a graph's root nodes.
Parameters
graph
- Graph to query
pRootNodes
- Pointer to return the root nodes
pNumRootNodes
- See description
Description

Returns a list of graph's root nodes. pRootNodes may be NULL, in which case this function will return the number of root nodes in pNumRootNodes. Otherwise, pNumRootNodes entries will be filled in. If pNumRootNodes is higher than the actual number of root nodes, the remaining entries in pRootNodes will be set to NULL, and the number of nodes actually obtained will be returned in pNumRootNodes.

Note:

See also:

cudaGraphCreate, cudaGraphGetNodes, cudaGraphGetEdges, cudaGraphNodeGetType, cudaGraphNodeGetDependencies, cudaGraphNodeGetDependentNodes

__host__cudaError_t cudaGraphHostNodeGetParams ( cudaGraphNode_t node, cudaHostNodeParams* pNodeParams )
Returns a host node's parameters.
Parameters
node
- Node to get the parameters for
pNodeParams
- Pointer to return the parameters
Description

Returns the parameters of host node node in pNodeParams.

Note:

See also:

cudaLaunchHostFunc, cudaGraphAddHostNode, cudaGraphHostNodeSetParams

__host__cudaError_t cudaGraphHostNodeSetParams ( cudaGraphNode_t node, const cudaHostNodeParams* pNodeParams )
Sets a host node's parameters.
Parameters
node
- Node to set the parameters for
pNodeParams
- Parameters to copy
Description

Sets the parameters of host node node to nodeParams.

Note:

See also:

cudaGraphNodeSetParams, cudaLaunchHostFunc, cudaGraphAddHostNode, cudaGraphHostNodeGetParams

__host__cudaError_t cudaGraphInstantiate ( cudaGraphExec_t* pGraphExec, cudaGraph_t graph, unsigned long long flags = 0 )
Creates an executable graph from a graph.
Parameters
pGraphExec
- Returns instantiated graph
graph
- Graph to instantiate
flags
- Flags to control instantiation. See CUgraphInstantiate_flags.
Description

Instantiates graph as an executable graph. The graph is validated for any structural constraints or intra-node constraints which were not previously validated. If instantiation is successful, a handle to the instantiated graph is returned in pGraphExec.

The flags parameter controls the behavior of instantiation and subsequent graph launches. Valid flags are:

  • cudaGraphInstantiateFlagUseNodePriority, which causes the graph to use the priorities from the per-node attributes rather than the priority of the launch stream during execution. Note that priorities are only available on kernel nodes, and are copied from stream priority during stream capture.

If graph contains any allocation or free nodes, there can be at most one executable graph in existence for that graph at a time. An attempt to instantiate a second executable graph before destroying the first with cudaGraphExecDestroy will result in an error.

Graphs instantiated for launch on the device have additional restrictions which do not apply to host graphs:

  • The graph's nodes must reside on a single device.

  • The graph can only contain kernel nodes, memcpy nodes, memset nodes, and child graph nodes.

  • The graph cannot be empty and must contain at least one kernel, memcpy, or memset node. Operation-specific restrictions are outlined below.

  • Kernel nodes:
    • Use of CUDA Dynamic Parallelism is not permitted.

    • Cooperative launches are permitted as long as MPS is not in use.

  • Memcpy nodes:
    • Only copies involving device memory and/or pinned device-mapped host memory are permitted.

    • Copies involving CUDA arrays are not permitted.

    • Both operands must be accessible from the current device, and the current device must match the device of other nodes in the graph.

If graph is not instantiated for launch on the device but contains kernels which call device-side cudaGraphLaunch() from multiple devices, this will result in an error.

Note:

See also:

cudaGraphInstantiateWithFlags, cudaGraphCreate, cudaGraphUpload, cudaGraphLaunch, cudaGraphExecDestroy

__host__cudaError_t cudaGraphInstantiateWithFlags ( cudaGraphExec_t* pGraphExec, cudaGraph_t graph, unsigned long long flags = 0 )
Creates an executable graph from a graph.
Parameters
pGraphExec
- Returns instantiated graph
graph
- Graph to instantiate
flags
- Flags to control instantiation. See CUgraphInstantiate_flags.
Description

Instantiates graph as an executable graph. The graph is validated for any structural constraints or intra-node constraints which were not previously validated. If instantiation is successful, a handle to the instantiated graph is returned in pGraphExec.

The flags parameter controls the behavior of instantiation and subsequent graph launches. Valid flags are:

  • cudaGraphInstantiateFlagUseNodePriority, which causes the graph to use the priorities from the per-node attributes rather than the priority of the launch stream during execution. Note that priorities are only available on kernel nodes, and are copied from stream priority during stream capture.

If graph contains any allocation or free nodes, there can be at most one executable graph in existence for that graph at a time. An attempt to instantiate a second executable graph before destroying the first with cudaGraphExecDestroy will result in an error.

If graph contains kernels which call device-side cudaGraphLaunch() from multiple devices, this will result in an error.

Graphs instantiated for launch on the device have additional restrictions which do not apply to host graphs:

  • The graph's nodes must reside on a single device.

  • The graph can only contain kernel nodes, memcpy nodes, memset nodes, and child graph nodes.

  • The graph cannot be empty and must contain at least one kernel, memcpy, or memset node. Operation-specific restrictions are outlined below.

  • Kernel nodes:
    • Use of CUDA Dynamic Parallelism is not permitted.

    • Cooperative launches are permitted as long as MPS is not in use.

  • Memcpy nodes:
    • Only copies involving device memory and/or pinned device-mapped host memory are permitted.

    • Copies involving CUDA arrays are not permitted.

    • Both operands must be accessible from the current device, and the current device must match the device of other nodes in the graph.

Note:

See also:

cudaGraphInstantiate, cudaGraphCreate, cudaGraphUpload, cudaGraphLaunch, cudaGraphExecDestroy

__host__cudaError_t cudaGraphInstantiateWithParams ( cudaGraphExec_t* pGraphExec, cudaGraph_t graph, cudaGraphInstantiateParams* instantiateParams )
Creates an executable graph from a graph.
Parameters
pGraphExec
- Returns instantiated graph
graph
- Graph to instantiate
instantiateParams
- Instantiation parameters
Description

Instantiates graph as an executable graph according to the instantiateParams structure. The graph is validated for any structural constraints or intra-node constraints which were not previously validated. If instantiation is successful, a handle to the instantiated graph is returned in pGraphExec.

instantiateParams controls the behavior of instantiation and subsequent graph launches, as well as returning more detailed information in the event of an error. cudaGraphInstantiateParams is defined as:

‎    typedef struct {
              unsigned long long flags;
              cudaStream_t uploadStream;
              cudaGraphNode_t errNode_out;
              cudaGraphInstantiateResult result_out;
          } cudaGraphInstantiateParams;

The flags field controls the behavior of instantiation and subsequent graph launches. Valid flags are:

  • cudaGraphInstantiateFlagUseNodePriority, which causes the graph to use the priorities from the per-node attributes rather than the priority of the launch stream during execution. Note that priorities are only available on kernel nodes, and are copied from stream priority during stream capture.

If graph contains any allocation or free nodes, there can be at most one executable graph in existence for that graph at a time. An attempt to instantiate a second executable graph before destroying the first with cudaGraphExecDestroy will result in an error.

If graph contains kernels which call device-side cudaGraphLaunch() from multiple devices, this will result in an error.

Graphs instantiated for launch on the device have additional restrictions which do not apply to host graphs:

  • The graph's nodes must reside on a single device.

  • The graph can only contain kernel nodes, memcpy nodes, memset nodes, and child graph nodes.

  • The graph cannot be empty and must contain at least one kernel, memcpy, or memset node. Operation-specific restrictions are outlined below.

  • Kernel nodes:
    • Use of CUDA Dynamic Parallelism is not permitted.

    • Cooperative launches are permitted as long as MPS is not in use.

  • Memcpy nodes:
    • Only copies involving device memory and/or pinned device-mapped host memory are permitted.

    • Copies involving CUDA arrays are not permitted.

    • Both operands must be accessible from the current device, and the current device must match the device of other nodes in the graph.

In the event of an error, the result_out and errNode_out fields will contain more information about the nature of the error. Possible error reporting includes:

  • cudaGraphInstantiateError, if passed an invalid value or if an unexpected error occurred which is described by the return value of the function. errNode_out will be set to NULL.

  • cudaGraphInstantiateInvalidStructure, if the graph structure is invalid. errNode_out will be set to one of the offending nodes.

  • cudaGraphInstantiateNodeOperationNotSupported, if the graph is instantiated for device launch but contains a node of an unsupported node type, or a node which performs unsupported operations, such as use of CUDA dynamic parallelism within a kernel node. errNode_out will be set to this node.

  • cudaGraphInstantiateMultipleDevicesNotSupported, if the graph is instantiated for device launch but a node’s device differs from that of another node. This error can also be returned if a graph is not instantiated for device launch and it contains kernels which call device-side cudaGraphLaunch() from multiple devices. errNode_out will be set to this node.

If instantiation is successful, result_out will be set to cudaGraphInstantiateSuccess, and hErrNode_out will be set to NULL.

Note:

See also:

cudaGraphCreate, cudaGraphInstantiate, cudaGraphInstantiateWithFlags, cudaGraphExecDestroy

__host__cudaError_t cudaGraphKernelNodeCopyAttributes ( cudaGraphNode_t hSrc, cudaGraphNode_t hDst )
Copies attributes from source node to destination node.
Returns

cudaSuccess, cudaErrorInvalidContext

Description

Copies attributes from source node src to destination node dst. Both node must have the same context.

Note:

Note that this function may also return error codes from previous, asynchronous launches.

See also:

cudaAccessPolicyWindow

__host__cudaError_t cudaGraphKernelNodeGetAttribute ( cudaGraphNode_t hNode, cudaKernelNodeAttrID attr, cudaKernelNodeAttrValue* value_out )
Queries node attribute.
Parameters
hNode
attr
value_out
Description

Queries attribute attr from node hNode and stores it in corresponding member of value_out.

Note:

Note that this function may also return error codes from previous, asynchronous launches.

See also:

cudaAccessPolicyWindow

__host__cudaError_t cudaGraphKernelNodeGetParams ( cudaGraphNode_t node, cudaKernelNodeParams* pNodeParams )
Returns a kernel node's parameters.
Parameters
node
- Node to get the parameters for
pNodeParams
- Pointer to return the parameters
Description

Returns the parameters of kernel node node in pNodeParams. The kernelParams or extra array returned in pNodeParams, as well as the argument values it points to, are owned by the node. This memory remains valid until the node is destroyed or its parameters are modified, and should not be modified directly. Use cudaGraphKernelNodeSetParams to update the parameters of this node.

The params will contain either kernelParams or extra, according to which of these was most recently set on the node.

Note:

See also:

cudaLaunchKernel, cudaGraphAddKernelNode, cudaGraphKernelNodeSetParams

__host__cudaError_t cudaGraphKernelNodeSetAttribute ( cudaGraphNode_t hNode, cudaKernelNodeAttrID attr, const cudaKernelNodeAttrValue* value )
Sets node attribute.
Parameters
hNode
attr
value
Description

Sets attribute attr on node hNode from corresponding attribute of value.

Note:

Note that this function may also return error codes from previous, asynchronous launches.

See also:

cudaAccessPolicyWindow

__host__cudaError_t cudaGraphKernelNodeSetParams ( cudaGraphNode_t node, const cudaKernelNodeParams* pNodeParams )
Sets a kernel node's parameters.
Parameters
node
- Node to set the parameters for
pNodeParams
- Parameters to copy
Description

Sets the parameters of kernel node node to pNodeParams.

Note:

See also:

cudaGraphNodeSetParams, cudaLaunchKernel, cudaGraphAddKernelNode, cudaGraphKernelNodeGetParams

__host____device__cudaError_t cudaGraphLaunch ( cudaGraphExec_t graphExec, cudaStream_t stream )
Launches an executable graph in a stream.
Parameters
graphExec
- Executable graph to launch
stream
- Stream in which to launch the graph
Description

Executes graphExec in stream. Only one instance of graphExec may be executing at a time. Each launch is ordered behind both any previous work in stream and any previous launches of graphExec. To execute a graph concurrently, it must be instantiated multiple times into multiple executable graphs.

If any allocations created by graphExec remain unfreed (from a previous launch) and graphExec was not instantiated with cudaGraphInstantiateFlagAutoFreeOnLaunch, the launch will fail with cudaErrorInvalidValue.

Note:

See also:

cudaGraphInstantiate, cudaGraphUpload, cudaGraphExecDestroy

__host__cudaError_t cudaGraphMemAllocNodeGetParams ( cudaGraphNode_t node, cudaMemAllocNodeParams* params_out )
Returns a memory alloc node's parameters.
Parameters
node
- Node to get the parameters for
params_out
- Pointer to return the parameters
Description

Returns the parameters of a memory alloc node hNode in params_out. The poolProps and accessDescs returned in params_out, are owned by the node. This memory remains valid until the node is destroyed. The returned parameters must not be modified.

Note:

See also:

cudaGraphAddMemAllocNode, cudaGraphMemFreeNodeGetParams

__host__cudaError_t cudaGraphMemFreeNodeGetParams ( cudaGraphNode_t node, void* dptr_out )
Returns a memory free node's parameters.
Parameters
node
- Node to get the parameters for
dptr_out
- Pointer to return the device address
Description

Returns the address of a memory free node hNode in dptr_out.

Note:

See also:

cudaGraphAddMemFreeNode, cudaGraphMemFreeNodeGetParams

__host__cudaError_t cudaGraphMemcpyNodeGetParams ( cudaGraphNode_t node, cudaMemcpy3DParms* pNodeParams )
Returns a memcpy node's parameters.
Parameters
node
- Node to get the parameters for
pNodeParams
- Pointer to return the parameters
Description

Returns the parameters of memcpy node node in pNodeParams.

Note:

See also:

cudaMemcpy3D, cudaGraphAddMemcpyNode, cudaGraphMemcpyNodeSetParams

__host__cudaError_t cudaGraphMemcpyNodeSetParams ( cudaGraphNode_t node, const cudaMemcpy3DParms* pNodeParams )
Sets a memcpy node's parameters.
Parameters
node
- Node to set the parameters for
pNodeParams
- Parameters to copy
Description

Sets the parameters of memcpy node node to pNodeParams.

Note:

See also:

cudaGraphNodeSetParams, cudaMemcpy3D, cudaGraphMemcpyNodeSetParamsToSymbol, cudaGraphMemcpyNodeSetParamsFromSymbol, cudaGraphMemcpyNodeSetParams1D, cudaGraphAddMemcpyNode, cudaGraphMemcpyNodeGetParams

__host__cudaError_t cudaGraphMemcpyNodeSetParams1D ( cudaGraphNode_t node, void* dst, const void* src, size_t count, cudaMemcpyKind kind )
Sets a memcpy node's parameters to perform a 1-dimensional copy.
Parameters
node
- Node to set the parameters for
dst
- Destination memory address
src
- Source memory address
count
- Size in bytes to copy
kind
- Type of transfer
Description

Sets the parameters of memcpy node node to the copy described by the provided parameters.

When the graph is launched, the node will copy count bytes from the memory area pointed to by src to the memory area pointed to by dst, where kind specifies the direction of the copy, and must be one of cudaMemcpyHostToHost, cudaMemcpyHostToDevice, cudaMemcpyDeviceToHost, cudaMemcpyDeviceToDevice, or cudaMemcpyDefault. Passing cudaMemcpyDefault is recommended, in which case the type of transfer is inferred from the pointer values. However, cudaMemcpyDefault is only allowed on systems that support unified virtual addressing. Launching a memcpy node with dst and src pointers that do not match the direction of the copy results in an undefined behavior.

Note:

See also:

cudaMemcpy, cudaGraphMemcpyNodeSetParams, cudaGraphAddMemcpyNode, cudaGraphMemcpyNodeGetParams

__host__cudaError_t cudaGraphMemcpyNodeSetParamsFromSymbol ( cudaGraphNode_t node, void* dst, const void* symbol, size_t count, size_t offset, cudaMemcpyKind kind )
Sets a memcpy node's parameters to copy from a symbol on the device.
Parameters
node
- Node to set the parameters for
dst
- Destination memory address
symbol
- Device symbol address
count
- Size in bytes to copy
offset
- Offset from start of symbol in bytes
kind
- Type of transfer
Description

Sets the parameters of memcpy node node to the copy described by the provided parameters.

When the graph is launched, the node will copy count bytes from the memory area pointed to by offset bytes from the start of symbol symbol to the memory area pointed to by dst. The memory areas may not overlap. symbol is a variable that resides in global or constant memory space. kind can be either cudaMemcpyDeviceToHost, cudaMemcpyDeviceToDevice, or cudaMemcpyDefault. Passing cudaMemcpyDefault is recommended, in which case the type of transfer is inferred from the pointer values. However, cudaMemcpyDefault is only allowed on systems that support unified virtual addressing.

Note:

See also:

cudaMemcpyFromSymbol, cudaGraphMemcpyNodeSetParams, cudaGraphMemcpyNodeSetParamsToSymbol, cudaGraphAddMemcpyNode, cudaGraphMemcpyNodeGetParams

__host__cudaError_t cudaGraphMemcpyNodeSetParamsToSymbol ( cudaGraphNode_t node, const void* symbol, const void* src, size_t count, size_t offset, cudaMemcpyKind kind )
Sets a memcpy node's parameters to copy to a symbol on the device.
Parameters
node
- Node to set the parameters for
symbol
- Device symbol address
src
- Source memory address
count
- Size in bytes to copy
offset
- Offset from start of symbol in bytes
kind
- Type of transfer
Description

Sets the parameters of memcpy node node to the copy described by the provided parameters.

When the graph is launched, the node will copy count bytes from the memory area pointed to by src to the memory area pointed to by offset bytes from the start of symbol symbol. The memory areas may not overlap. symbol is a variable that resides in global or constant memory space. kind can be either cudaMemcpyHostToDevice, cudaMemcpyDeviceToDevice, or cudaMemcpyDefault. Passing cudaMemcpyDefault is recommended, in which case the type of transfer is inferred from the pointer values. However, cudaMemcpyDefault is only allowed on systems that support unified virtual addressing.

Note:

See also:

cudaMemcpyToSymbol, cudaGraphMemcpyNodeSetParams, cudaGraphMemcpyNodeSetParamsFromSymbol, cudaGraphAddMemcpyNode, cudaGraphMemcpyNodeGetParams

__host__cudaError_t cudaGraphMemsetNodeGetParams ( cudaGraphNode_t node, cudaMemsetParams* pNodeParams )
Returns a memset node's parameters.
Parameters
node
- Node to get the parameters for
pNodeParams
- Pointer to return the parameters
Description

Returns the parameters of memset node node in pNodeParams.

Note:

See also:

cudaMemset2D, cudaGraphAddMemsetNode, cudaGraphMemsetNodeSetParams

__host__cudaError_t cudaGraphMemsetNodeSetParams ( cudaGraphNode_t node, const cudaMemsetParams* pNodeParams )
Sets a memset node's parameters.
Parameters
node
- Node to set the parameters for
pNodeParams
- Parameters to copy
Description

Sets the parameters of memset node node to pNodeParams.

Note:

See also:

cudaGraphNodeSetParams, cudaMemset2D, cudaGraphAddMemsetNode, cudaGraphMemsetNodeGetParams

__host__cudaError_t cudaGraphNodeFindInClone ( cudaGraphNode_t* pNode, cudaGraphNode_t originalNode, cudaGraph_t clonedGraph )
Finds a cloned version of a node.
Parameters
pNode
- Returns handle to the cloned node
originalNode
- Handle to the original node
clonedGraph
- Cloned graph to query
Description

This function returns the node in clonedGraph corresponding to originalNode in the original graph.

clonedGraph must have been cloned from originalGraph via cudaGraphClone. originalNode must have been in originalGraph at the time of the call to cudaGraphClone, and the corresponding cloned node in clonedGraph must not have been removed. The cloned node is then returned via pClonedNode.

Note:

See also:

cudaGraphClone

__host__cudaError_t cudaGraphNodeGetDependencies ( cudaGraphNode_t node, cudaGraphNode_t* pDependencies, size_t* pNumDependencies )
Returns a node's dependencies.
Parameters
node
- Node to query
pDependencies
- Pointer to return the dependencies
pNumDependencies
- See description
Description

Returns a list of node's dependencies. pDependencies may be NULL, in which case this function will return the number of dependencies in pNumDependencies. Otherwise, pNumDependencies entries will be filled in. If pNumDependencies is higher than the actual number of dependencies, the remaining entries in pDependencies will be set to NULL, and the number of nodes actually obtained will be returned in pNumDependencies.

Note:

See also:

cudaGraphNodeGetDependentNodes, cudaGraphGetNodes, cudaGraphGetRootNodes, cudaGraphGetEdges, cudaGraphAddDependencies, cudaGraphRemoveDependencies

__host__cudaError_t cudaGraphNodeGetDependencies_v2 ( cudaGraphNode_t node, cudaGraphNode_t* pDependencies, cudaGraphEdgeData* edgeData, size_t* pNumDependencies )
Returns a node's dependencies (12.3+).
Parameters
node
- Node to query
pDependencies
- Pointer to return the dependencies
edgeData
- Optional array to return edge data for each dependency
pNumDependencies
- See description
Description

Returns a list of node's dependencies. pDependencies may be NULL, in which case this function will return the number of dependencies in pNumDependencies. Otherwise, pNumDependencies entries will be filled in. If pNumDependencies is higher than the actual number of dependencies, the remaining entries in pDependencies will be set to NULL, and the number of nodes actually obtained will be returned in pNumDependencies.

Note that if an edge has non-zero (non-default) edge data and edgeData is NULL, this API will return cudaErrorLossyQuery. If edgeData is non-NULL, then pDependencies must be as well.

Note:

See also:

cudaGraphNodeGetDependentNodes, cudaGraphGetNodes, cudaGraphGetRootNodes, cudaGraphGetEdges, cudaGraphAddDependencies, cudaGraphRemoveDependencies

__host__cudaError_t cudaGraphNodeGetDependentNodes ( cudaGraphNode_t node, cudaGraphNode_t* pDependentNodes, size_t* pNumDependentNodes )
Returns a node's dependent nodes.
Parameters
node
- Node to query
pDependentNodes
- Pointer to return the dependent nodes
pNumDependentNodes
- See description
Description

Returns a list of node's dependent nodes. pDependentNodes may be NULL, in which case this function will return the number of dependent nodes in pNumDependentNodes. Otherwise, pNumDependentNodes entries will be filled in. If pNumDependentNodes is higher than the actual number of dependent nodes, the remaining entries in pDependentNodes will be set to NULL, and the number of nodes actually obtained will be returned in pNumDependentNodes.

Note:

See also:

cudaGraphNodeGetDependencies, cudaGraphGetNodes, cudaGraphGetRootNodes, cudaGraphGetEdges, cudaGraphAddDependencies, cudaGraphRemoveDependencies

__host__cudaError_t cudaGraphNodeGetDependentNodes_v2 ( cudaGraphNode_t node, cudaGraphNode_t* pDependentNodes, cudaGraphEdgeData* edgeData, size_t* pNumDependentNodes )
Returns a node's dependent nodes (12.3+).
Parameters
node
- Node to query
pDependentNodes
- Pointer to return the dependent nodes
edgeData
- Optional pointer to return edge data for dependent nodes
pNumDependentNodes
- See description
Description

Returns a list of node's dependent nodes. pDependentNodes may be NULL, in which case this function will return the number of dependent nodes in pNumDependentNodes. Otherwise, pNumDependentNodes entries will be filled in. If pNumDependentNodes is higher than the actual number of dependent nodes, the remaining entries in pDependentNodes will be set to NULL, and the number of nodes actually obtained will be returned in pNumDependentNodes.

Note that if an edge has non-zero (non-default) edge data and edgeData is NULL, this API will return cudaErrorLossyQuery. If edgeData is non-NULL, then pDependentNodes must be as well.

Note:

See also:

cudaGraphNodeGetDependencies, cudaGraphGetNodes, cudaGraphGetRootNodes, cudaGraphGetEdges, cudaGraphAddDependencies, cudaGraphRemoveDependencies

__host__cudaError_t cudaGraphNodeGetEnabled ( cudaGraphExec_t hGraphExec, cudaGraphNode_t hNode, unsigned int* isEnabled )
Query whether a node in the given graphExec is enabled.
Parameters
hGraphExec
- The executable graph in which to set the specified node
hNode
- Node from the graph from which graphExec was instantiated
isEnabled
- Location to return the enabled status of the node
Description

Sets isEnabled to 1 if hNode is enabled, or 0 if hNode is disabled.

The node is identified by the corresponding node hNode in the non-executable graph, from which the executable graph was instantiated.

hNode must not have been removed from the original graph.

Note:

Currently only kernel, memset and memcpy nodes are supported.

Note:

See also:

cudaGraphNodeSetEnabled, cudaGraphExecUpdate, cudaGraphInstantiatecudaGraphLaunch

__host__cudaError_t cudaGraphNodeGetType ( cudaGraphNode_t node, cudaGraphNodeType ** pType )
Returns a node's type.
Parameters
node
- Node to query
pType
- Pointer to return the node type
Description

Returns the node type of node in pType.

Note:

See also:

cudaGraphGetNodes, cudaGraphGetRootNodes, cudaGraphChildGraphNodeGetGraph, cudaGraphKernelNodeGetParams, cudaGraphKernelNodeSetParams, cudaGraphHostNodeGetParams, cudaGraphHostNodeSetParams, cudaGraphMemcpyNodeGetParams, cudaGraphMemcpyNodeSetParams, cudaGraphMemsetNodeGetParams, cudaGraphMemsetNodeSetParams

__host__cudaError_t cudaGraphNodeSetEnabled ( cudaGraphExec_t hGraphExec, cudaGraphNode_t hNode, unsigned int  isEnabled )
Enables or disables the specified node in the given graphExec.
Parameters
hGraphExec
- The executable graph in which to set the specified node
hNode
- Node from the graph from which graphExec was instantiated
isEnabled
- Node is enabled if != 0, otherwise the node is disabled
Description

Sets hNode to be either enabled or disabled. Disabled nodes are functionally equivalent to empty nodes until they are reenabled. Existing node parameters are not affected by disabling/enabling the node.

The node is identified by the corresponding node hNode in the non-executable graph, from which the executable graph was instantiated.

hNode must not have been removed from the original graph.

The modifications only affect future launches of hGraphExec. Already enqueued or running launches of hGraphExec are not affected by this call. hNode is also not modified by this call.

Note:

Currently only kernel, memset and memcpy nodes are supported.

Note:

See also:

cudaGraphNodeGetEnabled, cudaGraphExecUpdate, cudaGraphInstantiatecudaGraphLaunch

__host__cudaError_t cudaGraphNodeSetParams ( cudaGraphNode_t node, cudaGraphNodeParams* nodeParams )
Update's a graph node's parameters.
Parameters
node
- Node to set the parameters for
nodeParams
- Parameters to copy
Description

Sets the parameters of graph node node to nodeParams. The node type specified by nodeParams->type must match the type of node. nodeParams must be fully initialized and all unused bytes (reserved, padding) zeroed.

Modifying parameters is not supported for node types cudaGraphNodeTypeMemAlloc and cudaGraphNodeTypeMemFree.

Note:

See also:

cudaGraphAddNode, cudaGraphExecNodeSetParams

__host__cudaError_t cudaGraphReleaseUserObject ( cudaGraph_t graph, cudaUserObject_t object, unsigned int  count = 1 )
Release a user object reference from a graph.
Parameters
graph
- The graph that will release the reference
object
- The user object to release a reference for
count
- The number of references to release, typically 1. Must be nonzero and not larger than INT_MAX.
Description

Releases user object references owned by a graph.

See CUDA User Objects in the CUDA C++ Programming Guide for more information on user objects.

See also:

cudaUserObjectCreatecudaUserObjectRetain, cudaUserObjectRelease, cudaGraphRetainUserObject, cudaGraphCreate

__host__cudaError_t cudaGraphRemoveDependencies ( cudaGraph_t graph, const cudaGraphNode_t* from, const cudaGraphNode_t* to, size_t numDependencies )
Removes dependency edges from a graph.
Parameters
graph
- Graph from which to remove dependencies
from
- Array of nodes that provide the dependencies
to
- Array of dependent nodes
numDependencies
- Number of dependencies to be removed
Description

The number of pDependencies to be removed is defined by numDependencies. Elements in pFrom and pTo at corresponding indices define a dependency. Each node in pFrom and pTo must belong to graph.

If numDependencies is 0, elements in pFrom and pTo will be ignored. Specifying a non-existing dependency will return an error.

Note:

See also:

cudaGraphAddDependencies, cudaGraphGetEdges, cudaGraphNodeGetDependencies, cudaGraphNodeGetDependentNodes

__host__cudaError_t cudaGraphRemoveDependencies_v2 ( cudaGraph_t graph, const cudaGraphNode_t* from, const cudaGraphNode_t* to, const cudaGraphEdgeData* edgeData, size_t numDependencies )
Removes dependency edges from a graph. (12.3+).
Parameters
graph
- Graph from which to remove dependencies
from
- Array of nodes that provide the dependencies
to
- Array of dependent nodes
edgeData
- Optional array of edge data. If NULL, edge data is assumed to be default (zeroed).
numDependencies
- Number of dependencies to be removed
Description

The number of pDependencies to be removed is defined by numDependencies. Elements in pFrom and pTo at corresponding indices define a dependency. Each node in pFrom and pTo must belong to graph.

If numDependencies is 0, elements in pFrom and pTo will be ignored. Specifying an edge that does not exist in the graph, with data matching edgeData, results in an error. edgeData is nullable, which is equivalent to passing default (zeroed) data for each edge.

Note:

See also:

cudaGraphAddDependencies, cudaGraphGetEdges, cudaGraphNodeGetDependencies, cudaGraphNodeGetDependentNodes

__host__cudaError_t cudaGraphRetainUserObject ( cudaGraph_t graph, cudaUserObject_t object, unsigned int  count = 1, unsigned int  flags = 0 )
Retain a reference to a user object from a graph.
Parameters
graph
- The graph to associate the reference with
object
- The user object to retain a reference for
count
- The number of references to add to the graph, typically 1. Must be nonzero and not larger than INT_MAX.
flags
- The optional flag cudaGraphUserObjectMove transfers references from the calling thread, rather than create new references. Pass 0 to create new references.
Description

Creates or moves user object references that will be owned by a CUDA graph.

See CUDA User Objects in the CUDA C++ Programming Guide for more information on user objects.

See also:

cudaUserObjectCreatecudaUserObjectRetain, cudaUserObjectRelease, cudaGraphReleaseUserObject, cudaGraphCreate

__device__ ​ void cudaGraphSetConditional ( cudaGraphConditionalHandle handle, unsigned int  value )
Sets the condition value associated with a conditional node.
Description

Sets the condition value associated with a conditional node.

See also:

cudaGraphConditionalHandleCreate

__host__cudaError_t cudaGraphUpload ( cudaGraphExec_t graphExec, cudaStream_t stream )
Uploads an executable graph in a stream.
Description

Uploads hGraphExec to the device in hStream without executing it. Uploads of the same hGraphExec will be serialized. Each upload is ordered behind both any previous work in hStream and any previous launches of hGraphExec. Uses memory cached by stream to back the allocations owned by graphExec.

Note:

See also:

cudaGraphInstantiate, cudaGraphLaunch, cudaGraphExecDestroy

__host__cudaError_t cudaUserObjectCreate ( cudaUserObject_t* object_out, void* ptr, cudaHostFn_t destroy, unsigned int  initialRefcount, unsigned int  flags )
Create a user object.
Parameters
object_out
- Location to return the user object handle
ptr
- The pointer to pass to the destroy function
destroy
- Callback to free the user object when it is no longer in use
initialRefcount
- The initial refcount to create the object with, typically 1. The initial references are owned by the calling thread.
flags
- Currently it is required to pass cudaUserObjectNoDestructorSync, which is the only defined flag. This indicates that the destroy callback cannot be waited on by any CUDA API. Users requiring synchronization of the callback should signal its completion manually.
Description

Create a user object with the specified destructor callback and initial reference count. The initial references are owned by the caller.

Destructor callbacks cannot make CUDA API calls and should avoid blocking behavior, as they are executed by a shared internal thread. Another thread may be signaled to perform such actions, if it does not block forward progress of tasks scheduled through CUDA.

See CUDA User Objects in the CUDA C++ Programming Guide for more information on user objects.

See also:

cudaUserObjectRetain, cudaUserObjectRelease, cudaGraphRetainUserObject, cudaGraphReleaseUserObject, cudaGraphCreate

__host__cudaError_t cudaUserObjectRelease ( cudaUserObject_t object, unsigned int  count = 1 )
Release a reference to a user object.
Parameters
object
- The object to release
count
- The number of references to release, typically 1. Must be nonzero and not larger than INT_MAX.
Description

Releases user object references owned by the caller. The object's destructor is invoked if the reference count reaches zero.

It is undefined behavior to release references not owned by the caller, or to use a user object handle after all references are released.

See CUDA User Objects in the CUDA C++ Programming Guide for more information on user objects.

See also:

cudaUserObjectCreate, cudaUserObjectRetain, cudaGraphRetainUserObject, cudaGraphReleaseUserObject, cudaGraphCreate

__host__cudaError_t cudaUserObjectRetain ( cudaUserObject_t object, unsigned int  count = 1 )
Retain a reference to a user object.
Parameters
object
- The object to retain
count
- The number of references to retain, typically 1. Must be nonzero and not larger than INT_MAX.
Description

Retains new references to a user object. The new references are owned by the caller.

See CUDA User Objects in the CUDA C++ Programming Guide for more information on user objects.

See also:

cudaUserObjectCreate, cudaUserObjectRelease, cudaGraphRetainUserObject, cudaGraphReleaseUserObject, cudaGraphCreate