-----------------------------
- Test with various burst size values (256, 128, 64, 32) using
- CONFIG_RTE_GRAPH_BURST_SIZE config option.
+ RTE_GRAPH_BURST_SIZE config option.
The testing shows, on x86 and arm64 servers, The sweet spot is 256 burst
size. While on arm64 embedded SoCs, it is either 64 or 128.
-- Disable node statistics (using ``CONFIG_RTE_LIBRTE_GRAPH_STATS`` config option)
+- Disable node statistics (using ``RTE_LIBRTE_GRAPH_STATS`` config option)
if not needed.
-- Use arm64 optimized memory copy for arm64 architecture by
- selecting ``CONFIG_RTE_ARCH_ARM64_MEMCPY``.
Programming model
-----------------
.. figure:: img/anatomy_of_a_node.*
-The :numref:`figure_anatomy_of_a_node` diagram depicts the anatomy of a node.
+ Anatomy of a node
The node is the basic building block of the graph framework.
.. figure:: img/link_the_nodes.*
-The :numref:`figure_link_the_nodes` diagram shows a graph topology after
-linking the N nodes.
+ Topology after linking the nodes
Once nodes are available to the program, Application or node public API
functions can links them together to create a complex packet processing graph.
.. figure:: img/graph_mem_layout.*
-The :numref:`figure_graph_mem_layout` diagram shows ``rte_graph`` object memory
-layout. Understanding the memory layout helps to debug the graph library and
+ Memory layout
+
+Understanding the memory layout helps to debug the graph library and
improve the performance if needed.
Graph object consists of a header, circular buffer to store the pending
~~~~
This node ignores the set of objects passed to it and reports that all are
processed.
-
git.droids-corp.org / dpdk.git / blobdiff