Yevgeny PetrilinShay DanShadi Ibrahim

GUI: Graphical User Interface DAQ:Data Acquisition

Data Acquisition device a self-powered system that communicated with a computer through a standard or

proprietary interface

GPIB General Purpose Interface Bus.

Sweep A continuous change of a parameter in an electronic system. Most often it refers to

a frequency sweep or the sweep of a voltage.

Difference measurements

The main goal was to write a program that can performs Mega sweep using limited types of devices DAQ is the Main device and it is also able to read other devices

input It can generate voltage in a limited range Devices can be configured either manually or via measurement

tool Devices can be connected to each other in a single experiment.

The program should enable : Configuring each device output in the range of [-10:10][V] Controlling the devices while doing the experiment, hence

changing output values. Saving the experiment data into database in a convent format

Programming language: C. OOP principals (ADT). Device Array – pointers to functions. Read/Write settings. Synchronization.

Project RequirementsAnd results

The user should be able to set sweep details: source device, limits, rate (up/down), increment, number of sweeps, details of the participating devices, and units for viewing results.

The user should be able to store/load sweep configuration for anytime reuse.

The user should be able to change the manner of the data graphical presentation at sweep run time.

The user should be able to change sweep rate or direction at run time.

The user should be able to pause/ resume sweep.

The user should be able to stop and reset the sweep.

The application should be able to read input from the DAQ buffer.

The application should support any size of sweep.

The application should synchronize both reading and writing tasks in order to associate data accordingly.

The application can read up to 16 channel's input in regular mode and up to 8 channels in DIFF mode at the same time.

All the experiment’s data should be gathered without any lost, regardless of the size.

Data gathered from the DAQ buffer should be stored in a file using parallel thread.

The application should identify all the connected devices to the pc at run time.

The application should enable to choose the devices participating in the experiment and configure their values.

The application should be able to communicate with the devices listed below; the application should be able to forward write-tasks to these devices.

Application should be able to pause/resume/stop or change the devices state while doing the experiment.

Device Array

DAQ

Dev1

.

.

.

writereadclosepausegoto___________Read stateWrite state

writereadclosepausegoto___________Read stateWrite state

DeviceInterface

CreateDestroySet read stateSet write state

CreateDestroySet read stateSet write state

ADT Interface

Device specific Methods:•write•read•close

Device specific Methods:•write•read•close

Device Specific Interface

The process of adding a device

The Interface for developer usageThe Interface for developer usage

Device Array

DAQ

Dev1

.

.

.

writereadclosepausegoto___________Read stateWrite state

writereadclosepausegoto___________Read stateWrite state

DeviceInterface

Device specific Methods:•write•read•close

Device specific Methods:•write•read•close

Device 1 Specific Interface

Device specific Methods:•write•read•close

Device specific Methods:•write•read•close

Device 2 Specific Interface

DAQ as sweep Source device Source write function instructs main device to write an

array of sequential values in an appropriate range at a given rate

Asynchronous call Runs in main thread Calls a DONE interrupt when the device when DAQ finishes

given write task Done interrupt calls a method that waits until operation

of read and handling its results is done (Plot mainly) Sets the flags for the next iteration in sweep Sets the parameter for read/write in the next iteration Executes the next iteration/ ends sweep

Yokogawa as sweep Source device Source write function instructs main device to write an

array of sequential values in an appropriate range in a given time

Asynchronous call Runs in main thread DONE interrupt is implemented via thread which waits during

given execution time Done interrupt calls a method that waits until operation

of read and handling its results is done (Plot mainly) Sets the flags for the next iteration in sweep Sets the parameter for read/write in the next iteration Executes the next iteration/ ends sweep

• DAQ as sweep Source device Read function initiates DAQ with the

parameters pulled from GUIRead operation is triggered by DAQ write functionRead clock is synchronized with output clock It executes an interrupt function after every N

samples it read from input, each interrupt performs

Plotting results into GUI Calling a thread which writes results into a specified file

• READ IS ALWAYS CALLED BEFORE WRITE

• DAQ is Not the sweep Source device Read function initiates DAQ with the

parameters pulled from GUIRead operation is not triggered, it starts when it is

calledRead clock is synchronized with DAQ onboard clock It executes an interrupt function after every N

samples it read from input, each interrupt performs Plotting results into GUI Calling a thread which writes results into a specified file

• READ IS ALWAYS CALLED BEFORE WRITE

Main interfaceDAQ interface

Read)(

Write)(

Main Thread

Thread Pool

Thread Pool

DatabaseDatabase

Read Interru

pt

Read Interru

pt

Done Interru

pt

Done Interru

pt

Register Done

Worker

Thread

Worker

Thread

Every N samples

Plot graph/save results

Write next iter.

Write

Write is Done, Wait until read + plot is done

1

2

*

Yokogawa interface

Write)(

Write)(

Main interfaceDAQ interface

Read)(

Main Thread

Thread Pool

Thread Pool

DatabaseDatabase

Read Interru

pt

Read Interru

pt

Register EveryN

Worker

Thread

Worker

Thread

Every N samples

Plot graph/save results

Write next iter.

Write

Write is Done, Wait until read + plot is done

1

2

*

Worker

Thread

Sleep duration

Data structure Devices array Additional outputs array (subset of device array) Sweep configuration

• Values taken from GUI• Values set by device interface

• Runtime configuration In order to perform operations during a sweep,

participating devices data will be pulled from settings database

Runtime flags• Sweep direction• Display mode• …

Initiating measurement toolMain Physical Device*

Collect info

Identity info

Device

Create device[info]

Specific Device

Retrieve pointers

Running a sweep with DAQ as source

Main Device write

ok

Device DAQDAQ write

DAQ readDevice read

DAQ done write

Settings

Retrieve Next configurations

Retrieve Sweep configurations

DAQ Handling device as source Retrieving read results from channels

Yokogawa Device as main source Device as additional output

HP Agilent 363xx Device as additional output

Configuring the main sweep source.

Here we set the limitis, the rateand the number of iterations

Configuring the main sweep source.

Here we set the limitis, the rate and the number of iterations

Adding Additional output. Here we define the other devices

that participates the experiment. The devices are selected from

the GPIB device list.

Adding Additional output.Here we define the other devices that participates the experiment.

The devices are selected from the GPIB device list.

Setting the DAQ inputs. We need to Add the data manualy according to the

channels we connected .

Setting the DAQ inputs.We need to Add the data manualy according to the

channels we connected .

Load / save configurations.

Apply settings will send the configurations instructions to the

devices through the GPIB

Load / save configurations.

Apply settings will send the configurations instructions to the

devices through the GPIB

Sweep controls.Start/stop/pause/resume .

Enables changing the rate or theoutput value of the main device.

Sweep controls.Start/stop/pause/resume .

Enables changing the rate or the output value of the main device.

Examining sweep online results:1.Viewing results2.Manipulating graph

Examining sweep online results:1.Viewing results2.Manipulating graph

Physical devices Throughput (Device capabilities VS. PC) Output range (Yoko VS. DAQ)

Software related Programming language restrictions Synchronization overhead

Workspace related Various kinds of platforms : uniform

interface?