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========================================================================
UHD - Transport Application Notes
========================================================================
.. contents:: Table of Contents
The advanced user can pass optional parameters
into the underlying transport layer through the device address.
These optional parameters control how the transport object allocates memory,
resizes kernel buffers, spawns threads, etc.
When not spcified, the transport layer will use values for these parameters
that are known to perform well on a variety of systems.
The transport parameters are defined below for the various transports in the UHD:
------------------------------------------------------------------------
UDP transport (ASIO)
------------------------------------------------------------------------
The UDP transport is implemented with Boost's ASIO library.
ASIO provides an asynchronous API for user-space sockets.
The transport implementation allocates a number of buffers
and submits asynchronous requests for send and receive.
IO service threads run in the background to process these requests.
^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^
Transport parameters
^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^
The following parameters can be used to alter the transport's default behavior:
* **recv_frame_size:** The size of a single receive buffer in bytes
* **num_recv_frames:** The number of receive buffers to allocate
* **send_frame_size:** The size of a single send buffer in bytes
* **num_send_frames:** The number of send buffers to allocate
* **concurrency_hint:** The number of threads to run the IO service
^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^
Resize socket buffers
^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^
It may be useful increase the size of the socket buffers to
move the burden of buffering samples into the kernel, or to
buffer incoming samples faster than they can be processed.
However, if your application cannot process samples fast enough,
no amount of buffering can save you.
The following parameters can be used to alter socket's buffer sizes:
* **recv_buff_size:** The desired size of the receive buffer in bytes
* **send_buff_size:** The desired size of the send buffer in bytes
**Note:** Large send buffers tend to decrease transmit performance.
^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^
Linux specific notes
^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^
On linux, the maximum buffer sizes are capped by the sysctl values
**net.core.rmem_max** and **net.core.wmem_max**.
To change the maximum values, run the following commands:
::
sudo sysctl -w net.core.rmem_max=<new value>
sudo sysctl -w net.core.wmem_max=<new value>
Set the values permanently by editing */etc/sysctl.conf*
------------------------------------------------------------------------
USB transport (libusb)
------------------------------------------------------------------------
The USB transport is implemented with libusb.
Libusb provides an asynchronous API for USB bulk transfers.
The transport implementation allocates a number of buffers
and submits asynchronous requests through libusb.
A single thread runs in the background
and executes the libusb event handler to process these requests.
^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^
Transport parameters
^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^
The following parameters can be used to alter the transport's default behavior:
* **recv_frame_size:** The size of a single receive transfers in bytes
* **num_recv_frames:** The number of simultaneous receive transfers
* **send_frame_size:** The size of a single send transfers in bytes
* **num_send_frames:** The number of simultaneous send transfers
* **concurrency_hint:** The number of threads to run the event handler
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