Best Embedded Software Development Tools for LDRA Tool Suite
View:
Compare the Top Embedded Software Development Tools that integrate with LDRA Tool Suite as of August 2025
Sort By:
This a list of Embedded Software Development tools that integrate with LDRA Tool Suite. Use the filters on the left to add additional filters for products that have integrations with LDRA Tool Suite. View the products that work with LDRA Tool Suite in the table below.
What are Embedded Software Development Tools for LDRA Tool Suite?
Embedded software development tools are used to write, compile, debug and deploy applications for embedded systems. These tools consist of a range of editors, compilers, debuggers and programming languages specifically designed for embedded computing. Most development tools are provided by embedded system vendors or third-party providers. There is also a variety of open-source and free tools available from various online sources. Embedded software development tools are an essential part of the embedded design process and allow developers to create efficient and reliable software designs for their projects. Compare and read user reviews of the best Embedded Software Development tools for LDRA Tool Suite currently available using the table below. This list is updated regularly.
-
1
MATLAB
The MathWorks
MATLAB® combines a desktop environment tuned for iterative analysis and design processes with a programming language that expresses matrix and array mathematics directly. It includes the Live Editor for creating scripts that combine code, output, and formatted text in an executable notebook. MATLAB toolboxes are professionally developed, rigorously tested, and fully documented. MATLAB apps let you see how different algorithms work with your data. Iterate until you’ve got the results you want, then automatically generate a MATLAB program to reproduce or automate your work. Scale your analyses to run on clusters, GPUs, and clouds with only minor code changes. There’s no need to rewrite your code or learn big data programming and out-of-memory techniques. Automatically convert MATLAB algorithms to C/C++, HDL, and CUDA code to run on your embedded processor or FPGA/ASIC. MATLAB works with Simulink to support Model-Based Design. -
2
Simulink
MathWorks
Design and simulate your system in Simulink before moving to hardware. Explore and implement designs that you wouldn’t otherwise consider – without having to write C, C++, or HDL code. Explore a wide design space by modeling the system under test and the physical plant. Your entire team can use one multi-domain environment to simulate how all parts of the system behave. Package and share your simulations with collaborators, suppliers, and clients. Reduce expensive prototypes by testing your system under conditions that are otherwise too risky or time-consuming to consider. Validate your design with hardware-in-the-loop testing and rapid prototyping. Maintain traceability from requirements to design to code. Instead of writing thousands of lines of code by hand, automatically generate production-quality C and HDL code that behaves the same way as the model you created in Simulink. Then deploy it directly onto your embedded processor or FPGA/ASIC.Starting Price: $860 per year -
3
VxWorks
Wind River
The World’s Leading Real-Time Operating System for the Intelligent Edge For nearly 35 years, VxWorks has been used to ensure the security, safety, and reliability you need to design and build mission-critical embedded systems that simply must work. VxWorks® is the industry’s most trusted and widely deployed real-time operating system (RTOS) for mission-critical embedded systems that must be secure and safe. It delivers a proven, real-time, and deterministic runtime combined with a modern approach to development. Regardless of industry or device type, companies building intelligent edge systems rely on the VxWorks pedigree of security, safety, high performance, and reliability. VxWorks is a deterministic, priority-based preemptive RTOS with low latency and minimal jitter. It is built on an upgradable, future-proof architecture to help you rapidly respond to changing market requirements and technology advancements.Starting Price: $18,500 / seat -
4
TASKING
TASKING
The quality of your code is valued by its efficiency and ability to execute flawlessly. Is your current development environment providing you with the tools you need to create clean, efficient, and correct code? You’re responsible for developing solutions that impact human longevity and safety, and the last thing you can afford to compromise on is your integrated development environment. The TASKING Embedded Software Development solutions provide an industry-leading ecosystem for your entire software development process. Each TASKING compiler is developed for a specific architecture and meets the unique needs of your specialized industry requirements including automotive, industrial, telecom, and datacom. A complete integrated development environment allows you to create error-free and efficient code with compilers, debuggers, embedded internet, and RTOS support for industry-leading microprocessors and microcontrollers. -
5
MPLAB Connect Configurator
Microchip
MPLAB Connect Configurator (formerly ProTouch2) is a configuration and programming tool that makes it easy for you to configure and program our latest USB hubs, and Ethernet and PCIe® products. Offering an interactive Graphical User Interface (GUI), MPLAB Connect Configurator enables you to easily create configuration files in binary (.cfg and .bin) and JSON (.json) formats that contain the data to be programmed onto the target device. Grouped into three categories, basic features, advanced features and special features, these programming options enable you to manage a variety of features to customize your design. Configure upstream and downstream ports. Enable or disable battery charging. Enable USB control of I2C, SPI or digital I/O on your SmartHub™ IC or USB-to-Ethernet bridge. Specify the unique MAC address you will use for your USB-to-Ethernet bridge. Configure how much power your USB-to-Ethernet bridge will consume.
- Previous
- You're on page 1
- Next