Virtual Instrumentation: Revolutionizing Measurement and Automation

In today’s digital era, traditional measurement and control systems are being replaced by Virtual Instrumentation (VI), offering greater flexibility, accuracy, and efficiency in data acquisition, analysis, and automation. Virtual Instrumentation integrates hardware and software to create powerful, customizable measurement and testing solutions, making it a game-changer in engineering, research, healthcare, and industrial automation.

What is Virtual Instrumentation?

Virtual Instrumentation is a software-based approach to measurement and automation that replaces physical instruments with PC-based software and modular hardware components. Instead of using fixed-function devices, VI allows users to build customized measurement systems that meet their specific needs.

How Does Virtual Instrumentation Work?

A Virtual Instrumentation system consists of three main components:

Data Acquisition (DAQ) Hardware – Collects real-world signals from sensors and converts them into digital data.

Software (Graphical or Programming-Based Interface) – Processes and analyzes data using platforms like LabVIEW, MatDeck, or Python.

PC or Embedded System – Runs the software and provides visualization through dashboards and graphs.

Key Features of Virtual Instrumentation

✔ Customizable & Scalable – Users can design specific measurement and automation systems tailored to their needs. ✔ Multi-Sensor Integration – Connects multiple devices such as sensors, transducers, and controllers. ✔ Real-Time Data Processing – Provides instant signal analysis and control feedback. ✔ Graphical User Interface (GUI) – Interactive visual elements for monitoring and control. ✔ Cost-Effective – Eliminates the need for multiple physical instruments, reducing expenses.

Applications of Virtual Instrumentation

Virtual Instrumentation is widely used across multiple industries, including:

1. Engineering & Industrial Automation

Real-time monitoring of temperature, pressure, and vibration in manufacturing plants.

Automation of quality control and testing procedures in production lines.

Control of robotic and embedded systems in smart factories.

2. Scientific Research & Laboratories

Physics and chemistry experiments requiring precise measurements.

Environmental monitoring for air and water quality analysis.

Biomedical research involving signal processing for healthcare innovations.

3. Automotive & Aerospace Testing

Performance testing of engines, braking systems, and fuel efficiency.

Aircraft sensor calibration and diagnostics for safety compliance.

Simulation of space missions and satellite telemetry systems.

4. Healthcare & Medical Devices

Patient monitoring systems for tracking heart rate, blood pressure, and ECG.

Medical imaging and diagnostics using signal processing algorithms.

Automated lab equipment for drug testing and bioinformatics research.

Virtual Instrumentation with MatDeck

MatDeck provides an advanced virtual instrumentation environment, offering tools for:

✔ Data Acquisition & Signal Processing – Supports multiple DAQ hardware like Advantech, ICP DAS, and LabJack. ✔ SCADA & Remote Monitoring – Control industrial processes through real-time dashboards. ✔ No-Code Drag & Drop GUI Development – Create custom instrumentation panels with minimal programming. ✔ AI & Machine Learning Integration – Automate data analysis using artificial intelligence models.

Advantages of Virtual Instrumentation Over Traditional Instruments

FeatureVirtual InstrumentationTraditional InstrumentsCustomization✅ Highly flexible❌ Fixed functionalityScalability✅ Expandable & modular❌ Limited to specific tasksReal-Time Analysis✅ Instant data processing❌ Requires external analysisCost-Effectiveness✅ Lower cost, fewer physical devices❌ Expensive standalone instrumentsRemote Access✅ Accessible from any location❌ On-site only

Conclusion

Virtual Instrumentation is transforming the way we measure, analyze, and automate processes across industries. By integrating hardware, software, and real-time data processing, it enhances accuracy, efficiency, and cost-effectiveness in research, engineering, and automation.

With platforms like MatDeck, LabVIEW, and Python, businesses and researchers can develop customized, scalable, and intelligent instrumentation solutions, paving the way for a smarter and more connected world.

Exploring Electronics and Communication Engineering in Hyderabad: Education, Careers, and Opportunities

Electronics and Communication Engineering (ECE) has emerged as one of the most sought-after fields of study and employment in India, and Hyderabad stands out as a premier destination for aspiring engineers. Known for its thriving IT industry, top-notch educational institutions, and innovation-driven ecosystem, Hyderabad offers an ideal environment for ECE enthusiasts to grow and excel. To explore more about ECE programs, visit HITAM’s Electronics and Communication Engineering page.

Why Choose Hyderabad for Electronics and Communication Engineering?

Hyderabad, often referred to as India’s “Cyber City,” boasts a unique blend of traditional educational values and cutting-edge technology advancements. Here are a few reasons why it is a hub for ECE aspirants:

Top-Notch Educational Institutions: Hyderabad is home to prestigious engineering colleges such as the Indian Institute of Technology Hyderabad (IIT-H), Jawaharlal Nehru Technological University Hyderabad (JNTUH), and Osmania University. These institutions offer state-of-the-art infrastructure, experienced faculty, and industry-focused curricula that equip students with theoretical and practical knowledge. HITAM is another institution that provides excellent opportunities for ECE students.

Industry Ecosystem: The city houses numerous tech parks, multinational companies, and startups in electronics, telecommunications, and software industries. Companies like Qualcomm, Intel, and TCS have a significant presence here, providing ample internship and employment opportunities.

Emerging Startup Culture: Hyderabad’s startup culture is thriving, particularly in areas like IoT, robotics, and embedded systems. This opens doors for ECE graduates to work on innovative projects and develop entrepreneurial skills.

Affordable Living: Compared to other metro cities, Hyderabad offers a relatively low cost of living, making it an attractive destination for students and young professionals.

Scope of Electronics and Communication Engineering in Hyderabad

ECE encompasses a vast array of specializations, including telecommunications, embedded systems, VLSI design, signal processing, and networking. Here are some career pathways for ECE professionals in Hyderabad:

Telecommunications: With the growing demand for 5G technology, companies like Airtel and Reliance Jio frequently hire ECE professionals for roles in network design, testing, and optimization.

Embedded Systems: Hyderabad’s IT ecosystem supports embedded technology development, offering roles in hardware and firmware design.

Software Development: ECE graduates with programming skills can find opportunities in software development, especially in companies focusing on real-time applications.

Research and Development: Hyderabad’s research institutions and private labs frequently hire ECE graduates for cutting-edge research projects.

Tips for Aspiring ECE Students and Professionals

Focus on Practical Skills: Gain hands-on experience through internships, workshops, and project-based learning. Knowledge of tools like MATLAB, LabVIEW, and PCB design software can be a significant advantage.

Keep Updated with Trends: Stay informed about industry trends such as IoT, AI, and 5G to align your skills with market demands.

Build a Strong Network: Attend tech meetups, hackathons, and seminars in Hyderabad to connect with industry professionals and peers.

Leverage Online Resources: Platforms like Coursera, edX, and Udemy offer specialized courses that can enhance your expertise in niche ECE areas.

Conclusion

Electronics and Communication Engineering in Hyderabad offers a promising blend of quality education, robust industry exposure, and dynamic career opportunities. Whether you are an aspiring student or a professional looking to advance your career, Hyderabad provides the perfect ecosystem to thrive in the field of ECE. Start exploring your options today and become a part of this ever-evolving technological revolution. Learn more about ECE programs and opportunities at HITAM’s official page.

How to use BLIIoT ARM Embedded Computers ARMxy Series with LabVIEW to Easily Collect Modbus Data?

What is LabVIEW？

LabVIEW is a graphical programming software developed by National Instruments (NI). It provides an intuitive way to design measurement and control systems and is widely used in scientific research, engineering design, industrial automation and other fields. LabVIEW uses a graphical programming language G (Graphical Language), which allows users to quickly build applications by dragging icons and connecting lines, thereby simplifying the development process of complex systems.

What is Modbus?

Modbus is an open standard serial communication protocol, originally introduced by Modicon (now part of Schneider Electric) in 1979, for connecting industrial electronic equipment. It is widely used in industrial automation systems as a means of communication between master devices (such as PLCs) and slave devices (such as sensors and actuators). Modbus supports multiple physical layer protocols, including RS-232, RS-485, etc., and also supports TCP/IP networks.

The Modbus protocol defines a series of standard message structures that can be used to request or send data. The two most common data types are Coil Status and Holding Registers. Through these data types, Modbus can query the status of remote devices and control operations.

The biggest advantage of using LabVIEW to collect Modbus data is that its graphical programming environment greatly simplifies the development process. Built-in Modbus support and wide hardware compatibility make data acquisition more efficient and flexible. At the same time, powerful error handling capabilities and cross-platform compatibility ensure the stability and portability of the system.

How to collect Modbus data with LabVIEW?

Preparation

Install LabVIEW: ARM industrial computer has LabVIEW software installed.

Prepare Modbus device: Make sure the Modbus device is correctly configured and connected to the computer or network.

Programming

Select Modbus library: LabVIEW provides a built-in set of Modbus functions, which can be found in the function palette. In addition, you can also consider using third-party toolkits, such as MCC Modbus Toolkit.

Configure Modbus communication: Use the Modbus configuration function in LabVIEW to set communication parameters, including serial port, device address, baud rate, etc.

Read register data: Use the Modbus Read Holding Registers function to read register data on the Modbus device.

Write register data: If necessary, you can also use the Modbus Write Holding Register function to modify the register value on the device.

Testing and debugging

Simulation test: Before actual deployment, you can use simulation equipment for preliminary testing.

Field test: Connect the program to the actual Modbus device for testing to ensure that data collection is accurate.

Conclusion

In conclusion, using LabVIEW to collect Modbus data can not only improve development efficiency, but also ensure the accuracy and stability of data acquisition. LabVIEW is an indispensable tool in the field of industrial automation. By making full use of its advantages, a high-performance and reliable data acquisition system can be built.

More information about BLIIoT ARM Embedded Computer ARMxy series: https://www.bliiot.com/industrial-computer-p00462p1.html

'Design for Manufacturability’ (DFM) and ‘Design for Testability'

In the competitive landscape of electronics manufacturing, the ability to produce high-quality, reliable products efficiently is key to success. At inYantra, we understand that achieving this requires more than just state-of-the-art manufacturing processes—it begins with thoughtful, strategic design. That’s why we place a strong emphasis on two critical aspects of product development: Design for Manufacturability (DFM) and Design for Testability (DFT).

The Importance of DFM and DFT

DFM and DFT are crucial features of any new product. By integrating these principles early in the design process, inYantra ensures that products are not only easier to manufacture and test but also more cost-effective and reliable. This proactive approach provides our customers with a distinct advantage in the marketplace, enabling the creation of the highest quality products possible.

Design for Manufacturability (DFM)

DFM focuses on designing products that are easy and cost-effective to manufacture. It involves evaluating product designs to identify and eliminate potential manufacturing issues before they arise, thereby optimizing production time, resources, and costs.

At inYantra, DFM is not just a one-time activity—it’s a continuous process that follows your product from development through to production and even into redevelopment. This ensures that improvements can be made from one product generation to the next, consistently enhancing manufacturing productivity and product quality.

Design for Testability (DFT)

DFT, on the other hand, ensures that a product is designed in a way that makes it easy to test during manufacturing and in the field. Effective DFT allows for early detection of defects, which reduces the risk of costly post-production issues and simplifies maintenance and repair processes.

By incorporating DFT into the design process, inYantra helps guarantee more efficient diagnosis and repair, providing more accurate diagnostics down to the part and pin level. This not only improves product reliability but also lowers both initial and life cycle costs.

inYantra’s Advanced Capabilities

Our commitment to DFM and DFT is backed by our advanced capabilities in test bench development, rapid prototyping, and document management. Here’s how we support your product’s success:

High-End Test Bench Development: We have the capability to develop sophisticated test benches using technologies like PLC, SCADA, and LABView. These advanced testing systems ensure that your products are thoroughly evaluated for performance and reliability.

Rapid Prototyping: Our rapid prototyping capabilities allow us to quickly develop and refine product designs, enabling faster iterations and more efficient product development.

Dedicated Document Management (DMS) and Change Management: We have separate verticals for document handling and change management, ensuring that all documentation is meticulously managed and any changes are carefully tracked and implemented.

Advanced System Integration in NPI: We integrate advanced methodologies such as APQP (Advanced Product Quality Planning), PFMEA (Process Failure Modes and Effects Analysis), and TGR/TGW (Things Gone Right/Things Gone Wrong) into our New Product Introduction (NPI) process. These tools help us identify and mitigate potential risks early in the development cycle, ensuring a smoother transition from design to production.

The Benefits of inYantra’s DFM & DFT Services

By partnering with inYantra for your DFM and DFT needs, you unlock a range of benefits that can significantly enhance your product’s success:

Enhanced Manufacturing Productivity: Our DFM and DFT processes streamline manufacturing, reducing production time and increasing output efficiency.

Improved Product Quality and Reliability: By designing with manufacturability and testability in mind, we help you deliver products that meet the highest standards of quality and reliability.

Reduced Maintenance and Cost-Effectiveness: DFM and DFT address cost and maintenance issues at the conceptual design stage, leading to lower manufacturing and lifecycle costs.

Decreased Time to Market: Faster, more efficient production and testing processes help you bring your products to market sooner, giving you a competitive edge.

Increased Customer Satisfaction: Reliable products with fewer defects and easier maintenance translate to higher customer satisfaction.

Conclusion

At inYantra, DFM and DFT are integral to our operational processes, providing our customers with the tools they need to succeed in a competitive market. By focusing on manufacturability and testability from the very beginning, we ensure that your products are not only of the highest quality but also cost-effective, reliable, and efficient to produce. Trust inYantra to help you design and manufacture products that exceed expectations, generation after generation.

Learn about how to use XControls in LabVIEW. This is a second part of the two part series of videos from first IndLUG or Indian LabVIEW Users Group Meeting on 18th of December, 2018. For CLD and CLA Preparation training: https://grafitects.com/ Facebook: https://goo.gl/RPFRWc Youtube: https://goo.gl/ygVMJ8 Twitter: https://goo.gl/VXj10d Tumblr: https://goo.gl/dyFckX Blog: https://goo.gl/DtG8sa Wordpress: https://goo.gl/Cf7xoN Pinterest: https://goo.gl/X0lFev Ram Gurung is a CLA and LabVIEW Training and Certification Expert. He has been training scientists, engineers, and students to develop robust and relatively future proof applications using LabVIEW and NI tools. He has trained and produced 70+ CLDs so far and more in the making. Gain the advantage on accelerating your LabVIEW Programming by subscribing and learning from his channel. Take advantage of Free LabVIEW Training Videos LabVIEW Training Videos Category: CLAD Disclaimer: NI and LabVIEW are the product and trademarks of National Instruments. This channel is independent of National Instruments. No copyright infringement is intended. The videos are made solely for informational and educational purposes. The ideas, concepts, and videos are of only of this channel. In some cases, materials from other sources has been used to analyze the problem to help the viewers. For e.g. Daily CLAD forum questions. All the materials that are third party depicted in this channel are properties of their respective owners. If you believe the copyright infringement has occurred. Please contact at [email protected] and we will remove from the video. Getting Started with NI LabVIEW Basic LabVIEW - Tutorials An Introduction to LabVIEW Searches related to labview tutorial labview 2010 tutorial labview tutorial pdf labview download labview tutorial video labview 2009 tutorial labview 8.5 tutorial labview training labview 2012 tutorial

How Laboratory Design Software Can Improve Your Working Conditions

Introduction

Laboratory design software is a powerful tool that can improve your working conditions. It allows you to easily create, preview, and tweak your experiments in a controlled environment. This saves you time and money, as you can avoid costly errors and unnecessary duplication of work. In this blog post, we’ll explore the benefits of using laboratory design software and how you can take advantage of its features to improve your working conditions.

What is Laboratory Design Software?

Laboratory design software is a valuable tool that can improve your working conditions. The software can help you create better designs, and it can also help you manage your workflows more efficiently.

How Laboratory Design Software Can Help

Design software can improve your working conditions by helping to organize and keep track of experiments, as well as keeping track of data and results. This software can also help you to create graphs and charts that can be used to analyze your data.

The software can help you better organize your data, improve your working conditions, and increase efficiency. By using the software, you can:

Better Organize Your Data: Laboratory design software can help you better organize your data by creating charts and graphs. This can make it easier for you to understand your results and find trends.

Improve Your Working Conditions: Laboratory design software can help you improve your working conditions by automating certain tasks. This can save you time and energy. Additionally, the software may be able to suggest improvements to your lab layout or equipment.

Increase Efficiency: Laboratory design software can help you increase efficiency by providing a centralized location for all of your lab data. Additionally, the software may provide recommendations on how to improve your workflow.

If you are looking for software that can help you to improve your laboratory design skills, then laboratory design software may be the perfect solution for you.

Types of Laboratory Design Software

The types of laboratory design software vary in their features and capabilities, but all have one common goal: to make the lab work more efficiently. Some popular software packages include LabVIEW, ChemDraw, and PTC Creo.

LabVIEW is a versatile visual programming language that can be used to create everything from simple experiments to complex 3D models. It integrates easily with other software programs, making it a powerful tool for data management and analysis.

ChemDraw is a user-friendly drawing program that allows chemists to create accurate diagrams and illustrations of chemical structures. Its intuitive interface makes it easy to understand and use, even for beginners.

PTC Creo is a powerful 2D and 3D CAD software package that allows chemists to design products from scratch or modify existing designs. It offers plenty of customization options, so you can get exactly the look and functionality you need for your lab.

Benefits of Using Laboratory Design Software

This software can save you time and energy, which can then be put into more productive pursuits.

Some of the benefits of using laboratory design software include:

Increased Accuracy: Automated tools help ensure that experiments are conducted accurately and consistently. This means that your data is reliable and accurate, which enhances your research output significantly.

Reduced Time spent on Tasks: Because automated tools take care of many of the tedious details involved in conducting an experiment, you can spend more time focusing on the more important aspects of your research. This reduces errors and allows you to produce better results faster.

Efficient Use of Resources: Automated lab design software helps conserve resources by automating common tasks. This frees up your time for more important initiatives, which leads to improved Laboratory productivity overall.

Improved Working Conditions: Laboratory design software can improve your working conditions by automating many of the tasks involved in conducting experiments. This reduces the amount of time you spend on these tasks, which frees up more time for more productive pursuits.

If you are looking for a tool that can help improve your Laboratory workflow, laboratory design software is an excellent option.

Features to Look for in a Laboratory Design Software

When it comes to lab design software, there are a few features that you should consider.

One of the most important features is the ability to import designs from other programs. This can speed up the process of creating new designs, as well as improve old designs. Other features to look for include:

An easy-to-use interface

The ability to customize designs

The ability to share designs with others

The ability to track data and results

The ability to create reports

Other factors you may want to consider when selecting a lab design software program include its price and how frequently updates are released.

Conclusion

Laboratory design software can help you to improve your working conditions and make your job easier. By using a tool like this, you can easily create 3D models of equipment and devices, as well as simulate their performance under various conditions. This will allow you to optimize designs for better performance and accuracy, which in turn will save you time and money.

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Using a queue does not relieve you of the treatment of data in some time, but it allows you to take greater advantage of the capabilities of LabVIEW parallel / multiprocessor. Note that a queue is up to be exhausted of your system's memory. The lower loop removed data out of your queue as fast it can run and perform your presentation FFT/AC. The top loop withdrew the UDP connection data without stopping to process or display data. The queue allows the decoupling of processing data acquisition. The lower loop could extract something (your cluster TC Stream) and perform the FFT and UI updates. The output data would be placed in the queue. In the upper loop of the example, you will place a UDP, or even reading your SUB_Collect_Data.vi. Paul has best suggestion at this point loops parallel, combined with queues to create an architecture of producer/consumer.

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UDP packets are sent by our material and the PC is connected directly via a crossover cable. Is there anyone with the same problems using winpcap? What am I, am I doing wrong to acquire say 800 packages at once without losing a single? The problem: I have also now lose packets! Not on every call to this function, but in a way regularly (in on every third call). I-  In the case of timeout right pointer to avoid skipping entries in the table Memcpy (LStrBuf(*TempString), data, header-> Caron) (or whatever it is we set the size max with our init call. Retval = pcap_next_ex ((pcap_t *) OCAP & header, &data) )Īvoid the expensive memory allocation. The allocation of memory in this way is done in LabVIEW.ĮXTERNC EXPORT int32 lvwpcap_read_n_packets (uInt32 pcap, The function below is called with a 1 d of pre-initalized channels table. Then, I moved the acquisition work in the wrapper DLL. I was happy to see that no packets were lost! But, after adding the VIs Sniffer to my request for loss of massive packets occurs. Now, I tried to use the Ethernet Packet Sniffer example ( ) and changed the Example.vi to verify our internal counter of packets in each package. Increasing or decreasing the buffer will lead to errors and one or several packages will be lost. To work with this data rate I put sockets UDP receive exactly the size of the packets multiplied with the payload buffer ( ). The framerate is 6720 packets per second. These data are sent over ethernet using UDP and has a payload of 1 332 bytes. Thus, WinPcap freeload can not block or control the generated traffic from the same system carried by other applications.I'm working on a LabVIEW application to view our telemetry data.

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Most users like this software because of its beneficial function. The goal of this software is for finding packet moves on the network. Some systems like Quality of Service Schedulers or traffic shapers are also different. Unlike AltStore for Windows, this program has diverse functions. Besides, the program can release the raw packet data to the desired network. They can gather the current traffic statistical data. The process implements the rules of user-defined.įurthermore, users can do other things too. Through the process, the system filters the packets. It is required to receive the raw packets from the available network adapters.Īside from that, it takes a program from the adapters of other computer exchanges. Users select this software because of the facilities contained in the program. It can support Free HTTP Sniffer, nTop, Nmap, Wireshark, and Snort. WinPcap is beneficial for certain programs and can function properly. Download WinPcap for windows XP and create packet filters for specified packet sets. Users can use the packets, whether to be saved or sent. Then, it finds the current packets in a Network Interface Card. This system is used to obtain the available network adapters.Īdditionally, it can receive detailed data from specific adapters.

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The driver is part of the Windows kernel network component, including DLLs.įrom here, users know that the system supports the programming interface. The system has a device driver with network analysis and packet for capture software. Additionally, traffic generators and network intrusion detection systems also involve this program. It includes programs, like network analyzers, network scanners, traffic generators, and protocol analyzers.

Writing ssh shell from labview on compactrio

WRITING SSH SHELL FROM LABVIEW ON COMPACTRIO HOW TO

WRITING SSH SHELL FROM LABVIEW ON COMPACTRIO FULL

WRITING SSH SHELL FROM LABVIEW ON COMPACTRIO SOFTWARE

Step 1: Enabling Secure Shell Server (sshd) If using the myRIO, the easiest way to do this is to configure the Wi-Fi interface to that it connects to your internet hotspot and acquires address, dns, gateway via dhcp. Without internet access, this will not work. NOTE: All steps assume the cRIO has internet access. This tutorial will guide you through the process. This may sound hard, but it really isn't. This includes setting up the build environment on the cRIO, cloning the git repository for the rtl-sdr library, and finally compiling the code. This tutorial therefore focuses on this portion:īefore beginning with actual Labview programming, we need to prepare the cRIO. The next tutorial will implement and FPGA FFT to accelerate things, and in chapter 4 we will put this whole thing together into a coherent, expandable system. In this tutorial, we will be focusing on getting the rtl-sdr library working on in the cRIO.

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This leads the reader chapter by chapter to a full solution, and hopefully makes things more understandable. In order to keep the reader interested and to keep the chapters short and manageable, I have decided to split things up a bit. Simply put, we want to turn the myRIO into an SDR-instrument that we can send commands to and have it return processed data to the host. However, it also makes things more complicated because a command framework is required from the Host PC to the cRIO RT target. This has the advantage of getting rid of the latency of the USB LAN connection during acquisition. In order to shorten this path it is possible to perform the acquisition directly on the cRio RT target. The FFT and other DSP is done in the FPGA and the resulting information flows back up to the PC. The information flows from the RTL-SDR to the Host PC via USB, then to the RT system via USB LAN (in the myRIO case), then to the cRio FPGA via a DMA FIFO. If the host is used for acquisition, the information flow is pictured above. If we want to use the cRIO (especially the FPGA) to accelerate digital signal processing, it is necessary to stream the information to the RT system, and then to the FPGA. The myRIO used here has the following parameters: NOTE: All development was done using Labview 2016, 32-bit. Unfortunately, there is probably no reasonable way to compile this library on VxWorks, much less Pharlap, so users of older CompactRIO devices are on their own. I used a myRio to do this project, but it should be possible to use this information on any linux-based cRio.

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In this post I will go a step further and show the reader how to compile the rtlsdr library directly on an RTLinux cRIO. Additionally, because the library is open source, header files and with that the library’s entry points are available to us in a usable and documented format. The implementation process was very straightforward because the library was already compiled and available in binary form.

WRITING SSH SHELL FROM LABVIEW ON COMPACTRIO SOFTWARE

In my previous post ( ), I released a library which allows a Labview user on Windows to directly use RTL-based software defined radios.

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If an existing instance is running, the existing instance opens the VIs passed in the command line, and the new instance of LabVIEW quits silently. If you would like further information, need help or assistance please contact us we have many years of experience and have expert knowledge and expertise to assist you with your project. quoteHelp for the -launch command-line argument on UNIX/Linux plaformsLabVIEW launches and checks for an existing instance of LabVIEW already running on the same display. This is of even greater relative importance when you take into account the client running a Linux environment is likely a high level academic center, a military-grade national security client, or some other similar immensely complicated data center. Imagine the time savings when your programming and engineering teams will be able to collaborate together in real time, without language barriers, due to the virtues of graphical programming. Use the built in sensor VIs to start get.

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You will find that your memory and processing requirements will go way down when you have a proper programming environment in place, and that the benefit of having everything standardized is of immense value to large organizations. LINX provides easy to use VIs for interacting with common embedded platforms like Arduino, chipKIT, Teensy and more. Installing LabVIEW in Linux Mint 20.3 Trying to install this piece of proprietary software because my school wants me to is quite painful, but here is what I did Published, 614 words, 2 min. So take a look at LabVIEW and begin imagining how you can take advantage of the programming power of graphical execution to improve your own data systems. Install LabVIEW Modules and Toolkits NI-VISA Available through the LabVIEW INSTALL script NI-DAQmx /info. Ultimately, anything that you can build on any singular version of any OS should be able to be compiled and run on your Linux system with the same functionality. If you use LabVIEW and have development applications you built using the Windows environment, you are even able to get run-time support directly from NI. Upon software installation, all of the API Vis are directly loaded documentation is fully available.

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Other Important FactorsĪnother important function is the fact that it comes with full API support for each driver. You will also be able to run fully functional LabVIEW Graphical User Interfaces (GUIs) off of the Raspberry Pi. The downloaded code will execute embedded and standalone on the Raspberry Pi.

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Multiple operating systems as long as they are able to support all of The LabVIEW for Raspberry Pi is a compiler that takes a LabVIEW program, compile and download it to Raspberry Pi single board computers. In this video I cover how to install Linux-TKG, a custom Linux kernel designed for gaming on Ubuntu, Fedora and OpenSUSE based distributions. These tools will allow users to develop executables that will runĭirectly from LabVIEW to Linux applications, which are portable to Control, Design, and Simulation Modules for Linux Environments.The Application Builder Environment for Linux Development.

Pico Technology Introduces USB Controlled Agile Frequency Synthesizer from 300 kHz to 8 GHz

Pico Technology Introduces USB Controlled Agile Frequency Synthesizer from 300 kHz to 8 GHz Pico Technology, a leader in the field of PC Oscilloscopes and data loggers has introduced the PicoSource AS108 Agile Synthesizer that generates signals to meet the needs of both benchtop and integrated module applications. The AS108 is a full-function USB-controlled vector (IQ) modulating signal synthesizer. It operates from  300 kHz to 8 GHz and is supplied with a clean, easy, and efficient user interface for controlling its amplitude, frequency, and phase agility; including modulations, sweeps, hopping and list modes from Microsoft Windows. Its broad frequency range, fast settling, and programmable phase, frequency, and amplitude make it ideal for a wide range of applications, with the added advantages of low cost, and small footprint. Multiple synthesizers can be controlled from multiple instances of the software running on a single controlling PC or device. It can be also controlled remotely using an API interface.

The AS108 has professional-grade performance that is effective in both static and parameter-agile applications, making it a bench or field instrument for developers, scientists, educators, students, and service and installation technicians. Its speed, external clock referencing, trigger capabilities, and user-programmable power-up mode all suit it to system integrations such as automated tests, unmanned installations, and multi-signal stimuli.

Key features of AS108 Agile Synthesizer:

300 kHz to 8 GHz operation. –15 dBm to +15 dBm dynamic range. Fast 55 μs frequency settling time to 10 ppm. Fast amplitude settling: < 25 μs to 1 dB and < 200 μs to 0.1 dB. Sweep, hop, and list of frequency and level or list phase and level. −100 dBc/Hz phase noise typical at 1 GHz and 10 kHz offset. FM, ØM, and AM modulation, internal sine or external input. External reference clock I/O and trigger I/O. Use sweep lists to emulate schemes such as QPSK, QAM, ASK, FSK. Adjustable dwell and trigger sweep or trigger next point modes. Work in and convert units of measure to suit the application. Programming examples for LabVIEW, C, C#, Python, MATLAB. Suited to bench, field, and system integration applications. USB-controlled from Windows PC and display or tablet. Touch, mouse, keyboard, or remote interface software (API included). Multi-unit operation with synchronized modulation, sweeps, hops, and lists. Configurable stand-alone operation mode.

Maximizing NI-Based Test & Measurement Solutions for Unparalleled Precision 

In today's dynamic technological landscape, where innovation is the driving force behind progress, NI-based test & measurement solutions stand out as indispensable tools for ensuring precision, reliability, and efficiency in various industries. As businesses strive to maintain a competitive edge and meet evolving market demands, leveraging advanced NI-based platforms becomes imperative for achieving unparalleled accuracy and performance in testing and measurement processes. 

Understanding the Essence of NI-Based Test & Measurement 

At the core of NI-based test & measurement lies National Instruments (NI), a renowned leader in providing cutting-edge hardware and software solutions tailored for engineering applications. With a legacy of excellence spanning decades, NI has revolutionized the field of instrumentation by offering versatile platforms that empower engineers and researchers to tackle complex challenges with ease. 

The Versatility of NI Hardware and Software 

One of the key strengths of NI-based test & measurement solutions lies in their unparalleled versatility. NI's extensive range of hardware, including data acquisition systems, modular instruments, and real-time controllers, caters to diverse testing requirements across industries such as automotive, aerospace, telecommunications, and beyond. Coupled with advanced software tools like LabVIEW, TestStand, and SystemLink, these platforms provide a comprehensive ecosystem for designing, deploying, and managing test systems with utmost efficiency. 

Harnessing the Power of Modular Instrumentation 

Modularity lies at the heart of NI-based test & measurement solutions, offering unparalleled flexibility and scalability to adapt to evolving project needs. With modular instruments, engineers can easily configure custom test setups by combining interchangeable modules tailored to specific measurement tasks. This modular approach not only streamlines development and deployment processes but also future-proofs test systems, allowing for seamless upgrades and expansions as project requirements evolve over time. 

Advantages of NI-Based Test & Measurement Solutions 

When it comes to NI-based test & measurement, the advantages are manifold, encompassing superior performance, reliability, and cost-effectiveness. Let's delve deeper into some of the key benefits that set these solutions apart: 

Precision and Accuracy 

At the forefront of NI-based test & measurement solutions is their ability to deliver unparalleled precision and accuracy in data acquisition and analysis. Whether it's capturing signals with high resolution, performing complex measurements with utmost fidelity, or achieving tight synchronization across multiple channels, NI's hardware and software platforms excel in ensuring reliable results that meet the most stringent standards. 

Time-to-Market Efficiency 

In today's fast-paced business environment, speed is of the essence, and NI-based test & measurement solutions offer a significant advantage in reducing time-to-market for new products and innovations. By leveraging modular instrumentation and intuitive software development environments, engineers can accelerate the prototyping, validation, and deployment phases of their projects, enabling quicker iterations and faster delivery of high-quality solutions to market. 

Scalability and Flexibility 

Another key advantage of NI-based test & measurement solutions is their inherent scalability and flexibility, allowing organizations to adapt to changing requirements and scale their test systems as needed. Whether it's adding new measurement channels, integrating additional sensors or interfaces, or expanding testing capabilities to cover a broader range of parameters, NI's modular platforms empower engineers to tailor solutions that grow in tandem with their business needs. 

Total Cost of Ownership (TCO) 

In addition to performance benefits, NI-based test & measurement solutions offer significant advantages in terms of total cost of ownership (TCO). By providing integrated hardware and software ecosystems, NI simplifies procurement, deployment, and maintenance processes, thereby reducing upfront costs and minimizing long-term operational expenses associated with managing disparate test systems from multiple vendors. 

Applications Across Industries 

The versatility and reliability of NI-based test & measurement solutions make them indispensable across a wide spectrum of industries, where precision and efficiency are paramount. From automotive manufacturing and aerospace engineering to telecommunications and renewable energy, these solutions find applications in diverse domains, enabling organizations to optimize performance, enhance quality, and drive innovation. 

Automotive Industry 

In the automotive sector, NI-based test & measurement solutions play a crucial role in ensuring the safety, reliability, and efficiency of vehicle components and systems. From testing electronic control units (ECUs) and powertrain components to validating advanced driver-assistance systems (ADAS) and autonomous vehicle technologies, NI's platforms enable automotive manufacturers to meet stringent quality standards and regulatory requirements while accelerating time-to-market for next-generation vehicles. 

Aerospace and Defense 

In the aerospace and defense sector, where reliability and precision are paramount, NI-based test & measurement solutions provide critical support for the development, testing, and maintenance of aircraft, spacecraft, and defense systems. From avionics testing and structural health monitoring to radar signal analysis and electronic warfare simulation, NI's platforms offer the performance and flexibility needed to address the complex challenges of modern aerospace and defense applications. 

Telecommunications 

In the telecommunications industry, where rapid advancements in wireless technologies drive connectivity and innovation, NI-based test & measurement solutions enable network operators, equipment manufacturers, and service providers to ensure the performance, reliability, and interoperability of communication systems. Whether it's testing 5G infrastructure, optimizing RF spectrum utilization, or verifying compliance with industry standards, NI's platforms empower stakeholders to deliver seamless connectivity experiences to consumers and businesses alike. 

Renewable Energy 

In the renewable energy sector, where sustainability and efficiency are driving forces behind the transition to clean energy sources, NI-based test & measurement solutions play a pivotal role in optimizing the performance and reliability of solar, wind, and energy storage systems. From monitoring photovoltaic (PV) array performance and grid integration to testing battery storage technologies and power electronics, NI's platforms enable renewable energy developers and operators to maximize energy production, minimize downtime, and ensure long-term viability of green energy infrastructure. 

Conclusion 

In conclusion, NI-based test & measurement solutions stand as indispensable assets for organizations seeking to achieve unparalleled precision, reliability, and efficiency in their testing and measurement processes. With a legacy of innovation and a commitment to excellence, National Instruments continues to empower engineers, researchers, and businesses across industries to overcome challenges, drive innovation, and shape the future of technology. 

Using LabVIEW for Motor and Motion Control

https://koliasa.com/using-labview-for-motor-and-motion-control/ Using LabVIEW for Motor and Motion Control - https://koliasa.com/using-labview-for-motor-and-motion-control/ One of the main advantages of the LabVIEW software platform is the availability of ...

In this video, We explore about the IEEE 2018 Top Programming languages ranking. And we will see where it sits. IEEE Interactive ranking: https://ift.tt/2OwBLbd IEEE Top programming languages methods: https://ift.tt/2KdFvuN Facebook: https://goo.gl/RPFRWc Youtube: https://goo.gl/ygVMJ8 Twitter: https://goo.gl/VXj10d Tumblr: https://goo.gl/dyFckX Blog: https://goo.gl/DtG8sa Wordpress: https://goo.gl/Cf7xoN Pinterest: https://goo.gl/X0lFev Ram Gurung is a CLA and LabVIEW Training and Certification Expert. He has been training scientists, engineers, and students to develop robust and relatively future proof applications using LabVIEW and NI tools. He has trained and produced 100+ CLDs so far and more in the making. Gain the advantage on accelerating your LabVIEW Programming by subscribing and learning from his channel. Take advantage of Free LabVIEW Training Videos LabVIEW Training Videos Category: CLAD Disclaimer: NI and LabVIEW are the product and trademarks of National Instruments. This channel is independent of National Instruments. No copyright infringement is intended. The videos are made solely for informational and educational purposes. The ideas, concepts, and videos are of only of this channel. In some cases, materials from other sources has been used to analyze the problem to help the viewers. For e.g. Daily CLAD forum questions. All the materials that are third party depicted in this channel are properties of their respective owners. If you believe the copyright infringement has occurred. Please contact at [email protected] and we will remove from the video. Getting Started with NI LabVIEW Basic LabVIEW - Tutorials An Introduction to LabVIEW Searches related to labview tutorial labview 2010 tutorial labview tutorial pdf labview download labview tutorial video labview 2009 tutorial labview 8.5 tutorial labview training labview 2012 tutorial

More photos from my favourite balcony :3

I took the first photo through a fly-screen :) I used my 85mm f1.4 Zeiss lens which allows for a very shallow depth of field and combined with the flatscreen you can take photos that look like really rough pixelated photos :) Got inspired to try this by the checkered shorts of my friend :D

Seeing the temple from the balcony was great :) The seemingly random arrangement (they were probably carefully laid out by craftsmen :) makes for an interesting vista from every angle you can possibly look at it :) It is very enjoyable to have a sight like this to look at each day :) I was also impressed with the tenderness and care my friends tended to the plants on their balcony :)

I think this is one of those properties that I feel is very Japanese, being gentle :) They are very likely to sacrifice something for you and risk being very busy because of it just to make sure you have a pleasant memories of the time you spent with them :,) This is why I despise some people I met in Japan who openly talked about taking advantage of it (they all had a common background so I can’t help but feel a certain disdain for these people (>_<;) I’m very fond of my friends :)

we had a great breakfast looking over the skyline of Nagoya and enjoyed a small tea ceremony in the flat :)

I’m writing this while waiting for the aspirin to kick in as I’m not feeling too well (^-^;) I’m really enjoying the EPLAN P8 class I’m taking now but my classmates are very heat sensitive and I’m the exact opposite (I love Japanese summers <3 (๑´•.̫ • `๑) so I’m freezing a lot and i’m think I might have caught a cold due to the windows being open throughout most of the day (;_;) I’m very happy with the knowledge and skill I can take with me from this course :3 I feel like it adds a lot of practical value to my engineering skills (^-^) Now I can use PTC Creo/ProEngineer, EPLAN P8, EAGLE and AutoCAD for different purposes :) I’m also fairly skilled at using Microsoft Visio and the office suite in general :) I also have basic LabView skills :)

I wish everyone a great time with sweet dreams and the feeling of getting better at something (^-^)/

Oh and health, being healthy is very nice (^-^;)

3d Cad Software For Mac Engineering

In fact, FreeCAD is a versatile enough 3D modeling software that can be used by professionals in many different fields such as architecture, construction, engineering, and industrial design. Its operating system is intuitive enough as well for students, hobbyists, and CAD novices, so you don’t have to worry too much about the learning curve. Accessible, flexible & integrated. Getting xbox app on mac. FreeCAD is a multiplatfom (Windows, Mac and Linux), highly customizable and extensible software. It reads and writes to many open file formats such as STEP, IGES, STL, SVG, DXF, OBJ, IFC, DAE and many others, making it.

3d Cad Software For Mac Engineering Jobs

What is PowerMill Software used For – CAD / CAM Engineering. PowerMILL is a 3D CAM (Computer-aided manufacturing) solution that runs on Microsoft Windows for the programming of tool paths for 2 to 5 axis CNC(Computer Numerical Control) Milling machines developed by DELCAM Plc.The software is used in a range of different engineering industries to determine optimal tool paths to reduce time. TurboCAD® Mac Deluxe 2D/3D is the complete precision design solution making it easy to design anything. Through a simple interface, use the design wizard to quickly layout floor plans, diagrams, and illustrations. Choose advanced architectural tools for 2D/3D home design or 3D surface and ACIS® solid modelling tools for engineering designs. The PARTcommunity 3D CAD models app is a download service for 3D CAD data by CADENAS. This app provides engineers and purchasers in the mechanical engineering, automotive and building industry direct access to thousands of parts from more than 400. This computer-aided design software is perfect for any professional, from engineers to architects. It is allowing to make drafts, edit 2D projects and 3D models for 3D printing. AutoCAD is a perfect program to create realistic 3D models, using solid, surface and mesh modeling tools!

First, I’ll admit Mac users have engineering software such as Matlab, Labview and AutoCAD. Spotiy app mac now playing. For 3D design and analysis in OSX there are few software platforms that are considered powerful CAD programs. Available CAD platforms are Sketchup, Maya, TinkerCAD but why not Solidworks, Autodesk Inventor, Parametric Creo, NX, ANSYS or even NASTRAN?

Apple BootCamp provides Windows capabilities

Since 2006, Mac users have been able to install Windows to a second partition or hard drive. The only prerequisite is installing BootCamp and having an Intel processor. This development has had both positive and negative effects on engineering software becoming native to the Mac platform. It has enabled anyone with Apple hardware to install CAD software for design and analysis. This in turn has provided software companies with a financial incentive to develop high-end programs for the Apple platform.

Delivering on CAD promises

In 2010, Solidworks CEO Jeff Ray told the world Mac users would be getting Solidworks. It’s been 6 years Jeff, where is it? To answer this question, a reason could be that former executives raised enough capital to develop OnShape. A cloud computing CAD platform that runs natively on any Mac. One advantage of OnShape is that it allows both PC and Mac users to design and analyse cooperatively in real time. While this is advantageous to corporations and educational environments, cloud platforms are a drawback to users who prefer standalone installations.

A second argument he presented was, “…we have to be every bit as committed to that platform as we have been to Windows. Given the hundreds of developers we have working on Windows we can’t just go to them and say, ‘Starting tomorrow, you’ll start working on Mac.’”. He is correct in the sense that Solidworks would have to be every bit as committed but suggesting he would use the same developers for both Windows and Mac is completely inaccurate and unrealistic. Statements like this suggest there may be other reasons behind what is to all intents and purposes a commercial decision.

Turn your videos into movie magic. With iMovie for iOS and macOS, you can enjoy your videos like never before. It’s easy to browse your clips and create Hollywood-style trailers and stunning 4K-resolution movies. You can even start editing on iPhone or iPad, then finish on your Mac. Video creation apps for mac pro. HyperEngine-AV is a free video editing software for Mac used to capture, edit, organize the process, and export video, audio, and text to create DVD quality movies and slide shows. It comes with twelve studio-quality effects from Arboretum's Hyperprism suite of audio processors. Jun 28, 2020  If you really just want to get started editing videos on your Mac, or even on your iPhone or iPad, then the easiest way is to get Apple iMovie. This is Apple’s free video editing software, and it runs on both Mac OS and iOS platforms, so you can do you video editing just about wherever you go.

Is it all about the money?

Jeff Ray’s statements could be interpreted as a financial decision. We all appreciate that an immense amount of resources would be needed to develop engineering software for a new platform. Dedicating the required assets may not create the desired returns demanded by shareholders and boards of directors of today. However, if companies are unwilling to take a chance on new and potentially lucrative markets, where will tomorrow’s growth come from? What happened to innovation, companies willing to take a risk to stand out from the rest?

Macos bitcoin miner in mrt.app. (71).

Future Engineering Software

The future of CAD design for most companies appears to be moving towards the cloud. Dassault Systèmes and Autodesk have already implemented versions of Solidworks and Inventor for cloud CAD development. A key advantage is both PC and Mac designers using the same CAD software, regardless of platform, which would simplify installation to licensing maintenance. OnShape recently conducted a study asking professional CAD designers what their biggest complaints were when working on large products. The top complaints were using different versions of software, licensing fees and loss of data. It’s beginning to make sense why so many companies are pushing the cloud platform.

Mac software for the near future

Mac users would be ecstatic if given the option to install standalone software packages such as SolidWorks and Autodesk Inventor. Unfortunately at the moment it appears more beneficial for companies to move towards cloud CAD platforms to control costs and maximise exposure. Cloud platforms will make it easier for companies to produce and maintain high quality software. This would also make it more financially feasible to release regular updates in the future.

3d Cad Software For Mac Engineering Jobs

As of 2016, users willing to convert to cloud computing will have their desires met. However, Mac users who are waiting for companies to develop natively for Apple platforms could be waiting for some time with no guarantee of change in the foreseeable future. Is there a potentially enormous market awaiting any company willing to take a chance on fulfilling this appetite on Apple platforms? Are there any companies out there who are brave enough to take a short-term hit for potentially huge long-term income streams?