docs/whatisvpp/performance.rst - fdio/vpp - Gitiles

 .. _performance:

 Performance
 ===========

 One of the benefits of FD.io VPP is it's high performance on relatively low-power computing.
 Included are the following.

 * A high-performance user-space network stack designed for commodity hardware:

   - L2, L3 and L4 features and encapsulations.

 * Optimized packet interfaces supporting a multitude of use cases:

   - An integrated vhost-user backend for high speed VM-to-VM connectivity
   - An integrated memif container backend for high speed Container-to-Container connectivity
   - An integrated vhost based interface to punt packets to the Linux Kernel

 * The same optimized code-paths run execute on the host, and inside VMs and Linux containers
 * Leverages best-of-breed open source driver technology: `DPDK <https://www.dpdk.org/>`_
 * Tested at scale; linear core scaling, tested with millions of flows and mac addresses

 These features have been designed to take full advantage of common micro-processor optimization techniques, such as:

 * Reducing cache and TLS misses by processing packets in vectors
 * Realizing `IPC <https://en.wikipedia.org/wiki/Instructions_per_cycle>`_ gains with vector instructions such as: SSE, AVX and NEON
 * Eliminating mode switching, context switches and blocking, to always be doing useful work
 * Cache-lined aligned buffers for cache and memory efficiency


 Continuous System Integration and Testing (CSIT)
 ------------------------------------------------

 The Continuous System Integration and Testing (CSIT) project provides functional and performance
 testing for FD.io VPP. This testing is focused on functional and performance regresssions. The results
 are posted to `CSIT Test Report <https://docs.fd.io/csit/master/report/>`_.

 For more about CSIT checkout the following links:

 * `CSIT Code Documentation <https://docs.fd.io/csit/master/doc/overview.html>`_
 * `CSIT Test Overview <https://docs.fd.io/csit/master/report/introduction/overview.html>`_
 * `VPP Performance Dashboard <https://docs.fd.io/csit/master/trending/introduction/index.html>`_


 CSIT Packet Throughput examples
 ^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^

 Following are pointers to a few of the CSIT test reports. The test's titles read like this:

 <packet size>-<number of threads><number of cores>-<test>-<interface type>

 For example the test with the title 64b-2t1c-l2switching-base-i40e is the
 test that does l2 switching using 64 byte packets, 2 threads, 1 core using an i40e
 interface.

 Here are a few examples:

 * `L2 Ethernet switching <https://docs.fd.io/csit/master/report/vpp_performance_tests/packet_throughput_graphs/l2.html>`_
 * `IPv4 Routing <https://docs.fd.io/csit/master/report/vpp_performance_tests/packet_throughput_graphs/ip4.html>`_
 * `IPv6 Routing <https://docs.fd.io/csit/master/report/vpp_performance_tests/packet_throughput_graphs/ip6.html>`_


 Trending Throughput Graphs
 ^^^^^^^^^^^^^^^^^^^^^^^^^^

 These are some of the trending packet throughput graphs from the CSIT `trending dashboard <https://docs.fd.io/csit/master/trending/introduction/index.html>`_. **Please note that**, performance in the trending graphs will change on a nightly basis in line with the software development cycle:

 * `L2 Ethernet Switching Trending <https://docs.fd.io/csit/master/trending/trending/l2.html>`_
 * `IPv4 Routing Trending <https://docs.fd.io/csit/master/trending/trending/ip4.html>`_
 * `IPv6 Routing Trending <https://docs.fd.io/csit/master/trending/trending/ip6.html>`_
	.. _performance:

	Performance
	===========

	One of the benefits of FD.io VPP is it's high performance on relatively low-power computing.
	Included are the following.

	* A high-performance user-space network stack designed for commodity hardware:

	- L2, L3 and L4 features and encapsulations.

	* Optimized packet interfaces supporting a multitude of use cases:

	- An integrated vhost-user backend for high speed VM-to-VM connectivity
	- An integrated memif container backend for high speed Container-to-Container connectivity
	- An integrated vhost based interface to punt packets to the Linux Kernel

	* The same optimized code-paths run execute on the host, and inside VMs and Linux containers
	* Leverages best-of-breed open source driver technology: `DPDK <https://www.dpdk.org/>`_
	* Tested at scale; linear core scaling, tested with millions of flows and mac addresses

	These features have been designed to take full advantage of common micro-processor optimization techniques, such as:

	* Reducing cache and TLS misses by processing packets in vectors
	* Realizing `IPC <https://en.wikipedia.org/wiki/Instructions_per_cycle>`_ gains with vector instructions such as: SSE, AVX and NEON
	* Eliminating mode switching, context switches and blocking, to always be doing useful work
	* Cache-lined aligned buffers for cache and memory efficiency


	Continuous System Integration and Testing (CSIT)
	------------------------------------------------

	The Continuous System Integration and Testing (CSIT) project provides functional and performance
	testing for FD.io VPP. This testing is focused on functional and performance regresssions. The results
	are posted to `CSIT Test Report <https://docs.fd.io/csit/master/report/>`_.

	For more about CSIT checkout the following links:

	* `CSIT Code Documentation <https://docs.fd.io/csit/master/doc/overview.html>`_
	* `CSIT Test Overview <https://docs.fd.io/csit/master/report/introduction/overview.html>`_
	* `VPP Performance Dashboard <https://docs.fd.io/csit/master/trending/introduction/index.html>`_


	CSIT Packet Throughput examples
	^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^

	Following are pointers to a few of the CSIT test reports. The test's titles read like this:

	<packet size>-<number of threads><number of cores>-<test>-<interface type>

	For example the test with the title 64b-2t1c-l2switching-base-i40e is the
	test that does l2 switching using 64 byte packets, 2 threads, 1 core using an i40e
	interface.

	Here are a few examples:

	* `L2 Ethernet switching <https://docs.fd.io/csit/master/report/vpp_performance_tests/packet_throughput_graphs/l2.html>`_
	* `IPv4 Routing <https://docs.fd.io/csit/master/report/vpp_performance_tests/packet_throughput_graphs/ip4.html>`_
	* `IPv6 Routing <https://docs.fd.io/csit/master/report/vpp_performance_tests/packet_throughput_graphs/ip6.html>`_


	Trending Throughput Graphs
	^^^^^^^^^^^^^^^^^^^^^^^^^^

	These are some of the trending packet throughput graphs from the CSIT `trending dashboard <https://docs.fd.io/csit/master/trending/introduction/index.html>`_. Please note that, performance in the trending graphs will change on a nightly basis in line with the software development cycle:

	* `L2 Ethernet Switching Trending <https://docs.fd.io/csit/master/trending/trending/l2.html>`_
	* `IPv4 Routing Trending <https://docs.fd.io/csit/master/trending/trending/ip4.html>`_
	* `IPv6 Routing Trending <https://docs.fd.io/csit/master/trending/trending/ip6.html>`_