+.. SPDX-License-Identifier: BSD-3-Clause
+ Copyright(c) 2020 Intel Corporation.
+
+Pipeline Application
+====================
+
+Application overview
+--------------------
+
+This application showcases the features of the Software Switch (SWX) pipeline that is aligned with the P4 language.
+
+Each pipeline is created using a specification file that can either be manually developed or generated using a P4 compiler.
+
+Each pipeline is built through the CLI, either by invoking commands one by one, or through a CLI script.
+The CLI can also be used to update the pipeline tables or poll the pipeline statistics.
+
+Each pipeline is mapped to a specific application thread. Multiple pipelines can be mapped to the same thread.
+
+Running the application
+-----------------------
+
+The application startup command line is::
+
+ dpdk-pipeline [EAL_ARGS] -- [-s SCRIPT_FILE] [-h HOST] [-p PORT]
+
+The application startup arguments are:
+
+``-s SCRIPT_FILE``
+
+ * Optional: Yes
+
+ * Default: Not present
+
+ * Argument: Path to the CLI script file to be run at application startup.
+ No CLI script file will run at startup if this argument is not present.
+
+``-h HOST``
+
+ * Optional: Yes
+
+ * Default: ``0.0.0.0``
+
+ * Argument: IP Address of the host running the application to be used by
+ remote TCP based client (telnet, netcat, etc.) for connection.
+
+``-p PORT``
+
+ * Optional: Yes
+
+ * Default: ``8086``
+
+ * Argument: TCP port number at which the application is running.
+ This port number should be used by remote TCP client (such as telnet, netcat, etc.) to connect to host application.
+
+Refer to *DPDK Getting Started Guide* for general information on running applications and the Environment Abstraction Layer (EAL) options.
+
+The following is an example command to run the application configured for the VXLAN encapsulation example:
+
+.. code-block:: console
+
+ $ ./<build_dir>/examples/dpdk-pipeline -c 0x3 -- -s examples/vxlan.cli
+
+The application should start successfully and display as follows:
+
+.. code-block:: console
+
+ EAL: Detected 40 lcore(s)
+ EAL: Detected 2 NUMA nodes
+ EAL: Multi-process socket /var/run/.rte_unix
+ EAL: Probing VFIO support...
+ EAL: PCI device 0000:02:00.0 on NUMA socket 0
+ EAL: probe driver: 8086:10fb net_ixgbe
+ ...
+
+To run remote client (e.g. telnet) to communicate with the application:
+
+.. code-block:: console
+
+ $ telnet 0.0.0.0 8086
+
+When running a telnet client as above, command prompt is displayed:
+
+.. code-block:: console
+
+ Trying 0.0.0.0...
+ Connected to 0.0.0.0.
+ Escape character is '^]'.
+
+ Welcome!
+
+ pipeline>
+
+Once application and telnet client start running, messages can be sent from client to application.
+
+
+Application stages
+------------------
+
+Initialization
+~~~~~~~~~~~~~~
+
+During this stage, EAL layer is initialised and application specific arguments are parsed. Furthermore, the data structures
+for application objects are initialized. In case of any initialization error, an error message is displayed and the application
+is terminated.
+
+Run-time
+~~~~~~~~
+
+The main thread is creating and managing all the application objects based on CLI input.
+
+Each data plane thread runs one or several pipelines previously assigned to it in round-robin order. Each data plane thread
+executes two tasks in time-sharing mode:
+
+1. *Packet processing task*: Process bursts of input packets read from the pipeline input ports.
+
+2. *Message handling task*: Periodically, the data plane thread pauses the packet processing task and polls for request
+ messages send by the main thread. Examples: add/remove pipeline to/from current data plane thread, add/delete rules
+ to/from given table of a specific pipeline owned by the current data plane thread, read statistics, etc.