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HIL Read Other Buffer

Reads the number of samples from the other input channels of a hardware-in-the-loop card at the specified rate.

Library

QUARC Targets/Data Acquisition/Generic/Buffered I/O

Description

HIL Read Other Buffer

The HIL Read Other Buffer block reads the specified number of samples from the other input channels at the given sampling rate. The values read from these channels are output from the block after all the samples have been read. This block is more suited for data acquisition applications, rather than control, because it processes inputs in bulk rather than one sample at a time.

Input Ports

This block has no input ports.

Output Ports

The number of output ports depends on the Frame-based output parameter. If this option is checked then the output is a frame containing the other states read from the channels specified in the Channels parameter. Otherwise there is one output port for each channel and each port outputs the other states read from the corresponding channel. Refer to the documentation on the Frame-based output parameter below for more details. Note that a license for the Signal Processing Blockset from The MathWorks is required in order to use frame-based outputs.

Data Type Support

The HIL Read Other Buffer block outputs real signals of type double.

Parameters and Dialog Box

HIL Read Other Buffer

Board Name

The name of the board whose other channels will be read. Boards are configured using the HIL Initialize block. Place an HIL Initialize block in your diagram to add a board name to the list.

Clock

The clock to use as a basis for sampling the specified channels. In general, both system clocks and hardware clocks specific to the board are supported. This parameter must be a scalar. A positive value indicates a hardware clock. For example, enter 0 for HARDWARE_CLOCK_0, 1 for HARDWARE_CLOCK_1, etc. The number of hardware clocks available depends on the board selected. A negative value indicates a system clock. For example, enter -1 for SYSTEM_CLOCK_1, -2 for SYSTEM_CLOCK_2, etc. The sampling rate for the buffered operation is determined by the Frequency parameter. Refer to Clocks for more information.

Select a board type from the list for board-specific details:

Frequency

The frequency at which to sample the specified channels, in Hertz. Sampling of the channels is done by the driver for the board itself, not by the diagram. As the driver typically executes in kernel mode, this approach minimizes jitter in the samples.

Number of samples

The number of samples to read. One "sample" consists of all of the input channels. Hence, if there are three input channels and five samples requested, then fifteen measurements will be made, with three measurements made each of the five sampling instants.

Channels

The other channels to read. The number of other channels available depends on the board selected. Refer to Other Channels for more information about other channels in QUARC.

Most boards do not support other channels. Select a board type from the list for board-specific details:

Sample time

The sample time of the block. A sample time of 0 indicates that the block will be treated as a continuous time block. A positive sample time indicates that the block is a discrete time block with the given sample time.

A sample time of -1 indicates that the block inherits its sample time. Since this is a source block, only inherent the sample time when it is placed in a conditionally executed subsystem, like a Triggered or Enabled Subsystem, or in a referenced model.

The default sample time is set to qc_get_step_size, which is a QUARC function that returns the fundamental sampling time of the model. Hence, the default sample time is a discrete sample time with the same sampling time as the fixed step size of the model.

Frame-based output

If this option is checked then the block will have a single frame output with one row in the frame for each sample, and one column for each channel. The states read from each channel will appear in the frame in the same order as the channels in the Channels parameter. Note that a license for the Signal Processing Blockset from The MathWorks is required in order to use frame-based outputs.

If this option is not checked then the block will have one output for each channel. Each output will be a vector containing the measurements for that channel at each sampling instant. The output ports will appear in the same order as the channels in the Channels parameter. Each port will be labeled with the corresponding channel number.

Targets

Target Name

Compatible*

Model Referencing

Comments

QUARC Win32 Target

Yes

Yes

QUARC Win64 Target

Yes

Yes

QUARC Linux Nvidia Target

Yes

Yes

QUARC Linux QBot Platform Target

Yes

Yes

QUARC Linux QCar 2 Target

Yes

Yes

QUARC Linux QDrone 2 Target

Yes

Yes

QUARC Linux Raspberry Pi 3 Target

Yes

Yes

QUARC Linux Raspberry Pi 4 Target

Yes

Yes

QUARC Linux RT ARMv7 Target

Yes

Yes

QUARC Linux x64 Target

Yes

Yes

QUARC Linux DuoVero Target

Yes

Yes

QUARC Linux DuoVero 2016 Target

Yes

Yes

QUARC Linux Verdex Target

No

No

Not supported.

QUARC QNX x86 Target

Yes

Yes

Last fully supported in QUARC 2018.

Rapid Simulation (RSIM) Target

Yes

Yes

S-Function Target

No

N/A

Old technology. Use model referencing instead.

Normal simulation

Yes

Yes

Due to safety and liability concerns, the hardware may not be accessed during normal simulation.

* Compatible means that the block can be compiled for the target.

See Also

 

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