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Simulink

Simulink

Overview

What is Simulink?

MathWorks offers the Simulink product family including the Simscape physical modeling suite, simulation, validation, and testing tool set, a 3D animation module, signal processing toolbox for wireless communication, control systems, and event-based monitoring, to aid in the design of complex…

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Recent Reviews

TrustRadius Insights

Simulink has proven to be a valuable tool for engineers, allowing them to simulate and model a wide range of systems and processes. …
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What is Simulink?

MathWorks offers the Simulink product family including the Simscape physical modeling suite, simulation, validation, and testing tool set, a 3D animation module, signal processing toolbox for wireless communication, control systems, and event-based monitoring, to aid in the design of complex…

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  • No setup fee

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  • Free/Freemium Version
  • Premium Consulting/Integration Services

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Product Details

What is Simulink?

Simulink Technical Details

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Mobile ApplicationNo
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Reviews and Ratings

(10)

Community Insights

TrustRadius Insights are summaries of user sentiment data from TrustRadius reviews and, when necessary, 3rd-party data sources. Have feedback on this content? Let us know!

Simulink has proven to be a valuable tool for engineers, allowing them to simulate and model a wide range of systems and processes. Engineers have found Simulink to be particularly useful in the aerospace industry, where it provides quick and reliable results for designing, analyzing, and testing algorithms and systems. Students studying nano-electronics have also utilized Simulink to design and simulate circuits for their coursework, finding it to be a helpful and effective tool.

In addition to aerospace and electronics applications, Simulink has been used in various other industries. It has been employed in drilling well planning applications, such as COMPASS and WELLPLAN, as well as in the design of temperature sensors for new AC products. Users have also utilized Simulink to optimize logistics supply and efficiency in production processes, reducing costs and improving time management. Simulink's versatility extends further to areas such as network interface card enhancements, studying the behavior of different applications and systems, and analyzing the performance of various components.

Overall, Simulink has been widely praised by users for its compatibility with different industries and its ability to provide accurate simulations and efficient modeling for a diverse range of applications.

Powerful and Reliable: Users have consistently praised Simulink for its powerful and reliable simulation capabilities. Many reviewers have stated that they rely on Simulink for their simulation needs, as it consistently delivers accurate results.

User-Friendly Interface: The user-friendly interface of Simulink has been highly appreciated by users. Numerous reviewers have mentioned that the software is easy to learn and navigate, making it simple to draw diagrams and simulate systems.

Integration with MATLAB: The seamless integration of Simulink with MATLAB has been a standout feature for many users. They appreciate the ability to visualize and analyze systems using MATLAB's capabilities while working within the Simulink environment.

Confusing and unintuitive user interface: Many users have expressed frustration with the confusing and unintuitive user interface of Simulink. They find it difficult to navigate and perform tasks, which can slow down their workflow.

High cost of licensing: The cost of licensing Simulink has been a major concern for many users, especially small companies or academic organizations with limited budgets. They feel that the price is too high, making it inaccessible for them.

Complexity and steep learning curve: Simulink is known for its complexity, and several users have mentioned the steep learning curve associated with it. They feel that it requires a guide or tutorial to understand certain tasks, which can be time-consuming.

Users recommend Simulink for simulations and analyses of multidomain systems. They suggest utilizing OnRamp and joining webinars and classes for further learning. Users acknowledge the need for strong hardware to run Simulink effectively and mention that there may be some initial difficulties in getting used to the interface. They also recommend getting formal lessons to fully understand the features of Simulink. Users suggest exploring the wide range of possibilities that Simulink offers.

Simulink is recommended for mathematical and physical modeling of systems. Users note that it is an easy-to-learn and powerful tool for modeling. They recommend Simulink for testing and simulating control loops, especially for its integration with MATLAB. However, users mention that Simulink is not very useful unless the user wants to analyze dynamic systems. They suggest evaluating the required modules carefully to avoid expensive surprises.

Users mention that Simulink has good documentation and training but note that it has a proprietary language and its semantic is not formally defined. They believe that Simulink is ideal for school projects before actual implementation and find the installation process easy. Users highly recommend Simulink for students as it can be open to many applications testing and can be cost-effective. Although they mention that the price of Simulink may be high, they still acknowledge it as a great software overall.

Reviews

(1-3 of 3)
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Ahmet AktaÅŸ | TrustRadius Reviewer
Score 9 out of 10
Vetted Review
Verified User
Incentivized
I use it in the field of power electronics at university. I have been actively using it for many years, both for educational purposes for students and in the design department of our projects.
  • When you design a circuit or system, time is cheating because it gives results that are very close to reality.
  • Time and financial gain by easily changing the design part.
  • Support and include renewable energy sources.
  • High RAM requirement during simulation run.
  • It should support various languages in file naming (for example, Turkish).
  • The program must ensure compatibility within its own versions.
Thanks to the Simulink program, an electrical and electronics engineer can easily design and have information about the system before applying it. After performing the calculations mathematically, it can be tested with this correct program. One of the biggest advantages of the simulation program is that it gives results close to real results. It is also possible to find many training videos.
  • Our students have a license agreement and can be accessed from anywhere.
  • All students can be educated in the laboratories by providing access.
  • It is frequently used for design purposes in our projects.
  • First of all, it saved time and money.
  • We were able to easily pre-test the tests of new research projects.
  • The program should support different versions of itself.
Control blocks and more detailed algorithms can be run in Matlab Simulink. Simulation and PCB drawing of electronic circuit boards are performed in Proteus.
Axel Martínez Buenrostro | TrustRadius Reviewer
Score 9 out of 10
Vetted Review
Verified User
Incentivized
I used Simulink to program mathematical data. Objectively referring to heuristical problems to optimize processes and routes. As well as physics data such as electromagnetism and thermodynamics.
  • Easy to program
  • Great graphical design
  • Great compatibility with other softwares
  • Very understandable use
  • Simpler codification data
  • Better layout of document usage
  • Option of codification manual
It is a very useful programming software. In my opinion, is the easiest to use and understand. Its tools apply to many kinds of projects and activity options, so it doesn’t take much time to create data visualization and analysis.
  • Graphical design
  • Label design
  • Multitask windows
  • Better data analysis
  • Excellent data visualization
  • Identification of areas of opportunity to attack
Simulink has a more efficient pack of features. Is a very simple software to use and understand, and it is a quick option to provide fast and simple solutions.
Juan Carlos Molina Castejón | TrustRadius Reviewer
Score 9 out of 10
Vetted Review
Verified User
Incentivized
Simulink is used by the entire faculty and students in engineering courses that require the development of electrical, mechanical, or chemical systems. It becomes particularly useful for the simulation of systems like industrial plant processes, control systems, hydraulic/pneumatic cylinders and actuators, integrated electronic systems and any other process that can be modeled using mathematical tools and physics laws.
  • Control system design for continuous and discrete systems. The control systems toolbox includes many pre-built blocks for common functions, signals and plant models that help you analyse input vs. output responses.
  • Greatly responsive and easy to use graphic based environment ideal for the easy representation of processes using signals that go from one block into another. Most engineering and scientific models including systems of equations can be translated to a Simulink model.
  • Many pre-built toolboxes allow you to save time and facilitate access to create models applicable to many areas of science/engineering like fluid mechanics, robotics, decision making and embedded or electrical systems.
  • Simulink comes bundled within the standard MATLAB package and most of its coding features/packages are compatible and can be used within the Simulink development environment.
  • Learning curve for designing accurate models and getting useful results can be pretty steep for most people that aren't used to graphical based design and representation of systems.
  • Simulink requires a lot of CPU power and computer resources to run smoothly without crashing. Together with the MATLAB environment, a standard installation consumes a lot of disk space and becomes greater when more toolboxes are included.
  • Community for Simulink support and documentation is inferior to that of MATLAB and it isn't used as a standard tool by most of academia. I believe other tools such as LabVIEW are far more common, making it easier to get help and find examples online.
Simulink is a great tool for designing systems in the very early stages of projects. This lets you understand concepts and have a working model much faster, saving you time and money by being able to find errors really quick.

On the other hand, when the projects reach a state of deployment you'll need to translate all the acquired knowledge and/or data from Simulink to the specific system you will be using. For example, you might design and validate a spacecraft propulsion system in Simulink, but when you build the real life model you will need to translate the designed algorithm/system to the actual code running aboard the spacecraft.
  • Reduced investment to achieve desired outcomes in research projects.
  • Opened the doors for our students to experiment with previously unknown engineering methods.
  • Fostered the adoption of model-based design by a great portion of our faculty, especially in more technical areas.
Simulink has the best User-Interface and works seamlessly with MATLAB's developing environment and tools. On the other hand, graphical based simulation and development software are standalone software that require some sort of additional integration if you require more advanced features from scripting languages like Python or C. Additionally, similar software includes features for one specific scientific/engineering area whereas Simulink has a more general approach and feel.
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