Fact-checked by Grok 2 weeks ago

MathWorks

MathWorks, Inc. is an American privately held corporation founded in 1984 by Cleve Moler, Jack Little, and Steve Bangert to commercialize MATLAB, a high-level programming language and interactive environment for numerical computation, visualization, and programming.^[1]^[2] The company specializes in developing software tools that enable engineers, scientists, and economists to analyze data, develop algorithms, and create models and applications across diverse fields including engineering, science, finance, and education.^[3] Its flagship products, MATLAB and Simulink—a graphical programming environment for modeling, simulating, and analyzing multidomain dynamical systems—have become industry standards, supporting model-based design and deployment to embedded hardware.^[3]^[4] Headquartered in Natick, Massachusetts, MathWorks operates as an employee-owned company with over 6,500 employees across 34 global locations, serving more than 5 million users in 100,000 organizations worldwide.^[3] The firm's mission centers on accelerating the pace of discovery, innovation, development, and learning in engineering and science through accessible, productive computing environments.^[3] Key achievements include evolving MATLAB from a simple matrix calculator into a comprehensive platform with extensive toolboxes for specialized applications, fostering widespread adoption in academia and industry since its commercial release.^[2] While no major controversies have marked its history, MathWorks maintains a focus on integrity, continuous improvement, and contributions to STEM education and sustainability initiatives.^[3]

History

Founding and Origins

MathWorks originated from the development of MATLAB, an interactive numerical computing environment created by Cleve Moler in the late 1970s while he was a professor at the University of New Mexico.^[2] Moler designed MATLAB as a teaching tool to enable students to perform matrix computations without directly interfacing with Fortran subroutines from libraries such as LINPACK and EISPACK; the initial version, written in Fortran, consisted of about 71 functions with matrices as the sole data type and lacked features like graphics or toolboxes.^[2] It was distributed freely within academic circles, with no commercial distribution or support structure.^[2] In the early 1980s, Jack Little, a controls engineer with degrees from MIT and Stanford working at a Palo Alto consulting firm, encountered Moler's MATLAB and recognized its potential for broader engineering applications beyond academic use.^[5] Little, along with colleague Steve Bangert, rewrote the codebase in C to improve performance and portability across platforms like the IBM PC and Unix workstations.^[2] This effort culminated in the founding of MathWorks in 1984 by Moler, Little, and Bangert in California, initially operating from a rented A-frame cabin near Stanford; the company's formation aimed to commercialize and sustain MATLAB's development.^[1] The first commercial product, PC-MATLAB version 1.0, debuted in December 1984 at the IEEE Conference on Decision and Control in Las Vegas.^[2]

Early Development and Commercialization

Cleve Moler developed the initial version of MATLAB in the late 1970s at the University of New Mexico as a teaching tool for linear algebra courses. Seeking to enable students to perform matrix computations without directly interfacing with Fortran libraries like LINPACK and EISPACK, Moler extended his Janez program into an interactive matrix calculator that supported basic operations, eigenvalues, and singular value decompositions. This non-commercial prototype ran on mainframes such as the DEC VAX-11/780 and was distributed freely among academic peers, including at Stanford University where Moler consulted.^[6]^[2] In 1983, Jack Little, a Stanford electrical engineering graduate student working under Thomas Kailath, identified the potential for a commercial MATLAB adaptation tailored to the IBM PC, introduced just two years prior. Collaborating with Steve Bangert, a colleague experienced in signal processing software, Little rewrote Moler's Fortran code in C to enhance speed, portability, and graphical capabilities using libraries like BLAS. This redevelopment addressed limitations in the original, such as dependency on proprietary hardware, and incorporated early plotting functions via device drivers for printers and terminals. The trio—Moler, Little, and Bangert—founded MathWorks in 1984 to market the product, operating initially from a rented A-frame cabin in the Portola Valley hills above Stanford as their mailing address and development hub.^[2]^[7] Commercialization began with MATLAB's release as a standalone product for MS-DOS on the IBM PC, priced at approximately $500 for academic users and $4,000 for commercial licenses, emphasizing its utility for numerical analysis, data visualization, and algorithm prototyping in engineering fields. Early marketing targeted control systems engineers, with demonstrations at conferences highlighting matrix-oriented syntax that simplified tasks compared to languages like Fortran or C. Sales grew slowly from a handful of university adoptions, supported by direct customer support and iterative updates that added M-file scripting for user-defined functions; by 1985, the company had relocated operations to Massachusetts to access East Coast academic and industrial markets, marking the transition from academic tool to viable business.^[2]^[7]

Expansion and Key Milestones

MathWorks underwent substantial physical and operational expansion after its early years, relocating its headquarters to Natick, Massachusetts, in 1999 and subsequently enlarging its campus through acquisitions and new constructions in 2008, 2009, and 2013, including the purchase of the former Boston Scientific headquarters adjacent to its primary site.^[8] By 1992, the company had surpassed 100 employees and served over 100,000 users globally, reflecting early commercial traction.^[9] The firm's international footprint grew steadily, establishing offices in key markets across Europe, Asia, and elsewhere beginning in the late 1980s and 1990s. By 2017, MathWorks employed 3,500 people worldwide, with approximately one-third based outside the United States and operations spanning more than 180 countries. As of 2025, it maintains 34 offices globally and a workforce exceeding 6,500 employees, supporting over 5 million users in more than 100,000 organizations.^[10]^[11] A pivotal early milestone was the February 1985 sale of the first 10 MATLAB licenses to MIT for $500 each, initiating revenue generation and user adoption.^[12]

Products and Technologies

MATLAB Core Capabilities

MATLAB serves as a proprietary high-level programming language and interactive environment optimized for numerical computing, particularly emphasizing matrix and array mathematics. Developed by MathWorks, it enables users to express complex mathematical operations directly in code, supporting scripts, functions, and object-oriented classes for structured programming.^[13] This design facilitates rapid prototyping and iterative development, with built-in functions covering linear algebra, statistics, optimization, and differential equations, allowing computations on data ranging from small matrices to large-scale arrays.^[13] The interactive desktop environment supports exploratory analysis through features like the Live Editor, which combines executable code, formatted text, and output in notebook-style documents, and interactive apps for testing algorithms without full coding.^[13] Core numerical capabilities include efficient handling of multidimensional arrays, vectorized operations to avoid explicit loops for performance gains, and support for parallel execution on multicore processors, GPUs, or clusters with minimal code modifications.^[13] Data import/export integrates with formats such as CSV, HDF5, and databases, enabling preprocessing, exploration, and modeling of datasets from various sources.^[13] Visualization tools provide publication-quality 2D and 3D plots, including line graphs, surface plots, and specialized charts for signal or image data, with customization options for annotations and exports to formats like PNG or PDF.^[13] For algorithm development, MATLAB supports domains such as signal processing, control systems, and machine learning, where users can simulate behaviors, tune parameters, and generate deployable code in C/C++, HDL, or CUDA for embedded systems or hardware acceleration.^[13] Application deployment extends to standalone executables, web apps via MATLAB Web App Server, or integration with enterprise systems, enhancing scalability across clouds like AWS or Azure.^[13] Extensibility is achieved through add-on toolboxes for domain-specific extensions, though core functionality remains self-contained for general-purpose computing; integration with external languages like Python, Java, or C/C++ allows hybrid workflows, such as calling MATLAB engines from other applications or vice versa.^[13] This architecture prioritizes computational efficiency and user productivity, with optimizations for modern hardware ensuring that operations scale from desktops to distributed environments without requiring low-level programming.^[13]

Simulink and Simulation Tools

Simulink is a graphical block diagram environment developed by MathWorks for modeling, simulating, and analyzing multidomain dynamic systems.^[4] It supports Model-Based Design, allowing engineers to define system architectures, capture requirements, and perform simulations iteratively throughout the development lifecycle.^[4] Core functionalities include a drag-and-drop interface for assembling models from libraries of predefined blocks representing mathematical functions, signal processing elements, and domain-specific components such as electrical circuits or mechanical systems.^[14] Simulation in Simulink involves compiling models into executable forms, followed by numerical integration using solvers that handle continuous-time, discrete-time, and hybrid dynamics.^[15] Solvers support variable-step and fixed-step algorithms, enabling accurate computation of system states and outputs over time, with options for event detection and discontinuity handling.^[15] Capabilities extend to large-scale parallel simulations on multicore processors, clusters, or cloud platforms, as well as real-time execution and hardware-in-the-loop testing for validating designs against physical prototypes.^[4] Integration with MATLAB facilitates post-simulation analysis, including data visualization, parameter optimization, and validation against empirical data.^[4] Associated simulation tools enhance Simulink's scope for specialized modeling. For instance, Stateflow enables hierarchical state machine modeling for event-driven systems, while SimEvents supports discrete-event simulation for queuing and stochastic processes.^[14] Simscape extends physical modeling across multidomains like electrical, hydraulic, and thermal systems using equation-based components that enforce conservation laws. These tools interoperate seamlessly within the Simulink environment, allowing hybrid models that combine continuous dynamics with discrete logic or physical effects. Code generation from these models produces deployable artifacts in languages such as C, C++, CUDA, Verilog, VHDL, and PLC dialects, bypassing manual coding for embedded and hardware applications.^[4] Applications of Simulink and its simulation tools are prevalent in control systems design, signal processing, automotive engineering, aerospace, and industrial automation, where they facilitate predictive maintenance, fault detection, and system-level trade studies.^[16] In these domains, simulations reduce development time by identifying issues early, with verifiable outcomes tied to solver accuracy and model fidelity rather than untested assumptions.^[15]

Toolboxes and Ecosystem Extensions

MathWorks provides over 100 specialized toolboxes that extend the core capabilities of MATLAB and Simulink by offering domain-specific functions, algorithms, apps, and graphical interfaces for tasks in engineering, science, and data analysis.^[17] These toolboxes are professionally developed, rigorously tested, and documented to ensure reliability and integration with base MATLAB functionality.^[13] They enable users to perform advanced computations without custom coding from scratch, such as solving optimization problems or processing signals, while maintaining compatibility across releases.^[18] Toolboxes are categorized by application areas, including mathematics and optimization (e.g., Optimization Toolbox for nonlinear programming, Global Optimization Toolbox for multi-objective methods, Symbolic Math Toolbox for algebraic manipulation), signal and image processing (e.g., Signal Processing Toolbox for filtering, Image Processing Toolbox for segmentation), control systems (e.g., Control System Toolbox for PID design), and machine learning (e.g., Statistics and Machine Learning Toolbox for regression, Deep Learning Toolbox for neural networks).^[17] Other categories encompass communications (Communications Toolbox), finance (Financial Toolbox), and biology (Bioinformatics Toolbox), each providing pre-built models, datasets, and visualization tools tailored to industry needs.^[19] For Simulink, blocksets serve as analogous extensions, adding domain-specific blocks for simulation; examples include Aerospace Blockset for flight dynamics, Automotive Blockset for vehicle modeling, and Powertrain Blockset for driveline analysis.^[20] Beyond official toolboxes, MathWorks supports ecosystem extensions through the Add-On Explorer, a built-in interface for discovering, installing, and managing add-ons that include optional apps, hardware support packages (e.g., for Arduino or Raspberry Pi), and deployment tools.^[21] These extensions facilitate interoperability with external systems, such as code generation for C/C++ via MATLAB Coder, cloud integrations for scalable computation, and Python interoperability for hybrid workflows.^[22] Community-driven content from MATLAB Central File Exchange further broadens the ecosystem, allowing users to share custom models, functions, and packages, though these require verification for compatibility and quality.^[23] This modular approach allows selective licensing and deployment, optimizing for specific workflows while leveraging MathWorks' core numerical computing engine.^[24]

Corporate Operations

Ownership and Leadership

MathWorks is a privately held corporation, with ownership retained by its founders since its establishment in 1984.^[25] The company was founded by Cleve Moler, Jack Little, and Steve Bangert, who developed early versions of MATLAB to address computational needs in engineering and science.^[26] Unlike many software firms that pursue public offerings or venture capital, MathWorks has maintained private status, enabling long-term strategic decisions without external shareholder pressures.^[27] Leadership at MathWorks centers on its cofounders, with John N. "Jack" Little serving as CEO and President since the company's inception. Little, an electrical engineer, coauthored initial MATLAB versions and has guided product architecture and business expansion.^[5] Cleve Moler, the original creator of MATLAB's numerical algorithms, holds roles as chief mathematician and chairman, contributing to technical direction from his background in academia at the University of New Mexico and Stanford.^[28] Key supporting executives include Jeanne O'Keefe as Chief Financial Officer, overseeing financial operations amid the company's growth to over $1.5 billion in annual revenue by 2024.^[29] This founder-led structure emphasizes continuity in innovation, with minimal turnover in top roles compared to publicly traded tech peers.^[30]

Financial Performance

MathWorks, a privately held company, has demonstrated sustained financial stability, reporting annual revenue of $1.5 billion as of 2025.^[10] The firm has achieved profitability in every year since its founding in 1984, attributing this to recurring revenue from software licenses, maintenance contracts, and toolboxes serving engineering and scientific sectors.^[10] ^[31] Revenue growth has been steady, increasing from $1 billion in 2019 to $1.25 billion in 2023.^[32] ^[31] Earlier milestones include approximately $50 million in revenue by 1997, amid expansion to around 380 employees.^[31] This trajectory reflects demand for MATLAB and Simulink in industries like automotive, aerospace, and academia, with installations exceeding 100,000 sites globally.^[10] Subsidiary performance underscores international contributions, as MathWorks India Private Limited reported revenue of INR 924 crore (approximately $110 million) for the fiscal year ending March 31, 2024, marking an 18% compound annual growth rate over the prior year.^[33] With over 6,500 employees across 34 offices, the company's revenue per employee aligns with high-margin software operations, estimated at around $200,000–$230,000 based on recent aggregates.^[31] ^[34] Lack of public debt disclosures or investment rounds supports its self-funded model, minimizing external financial pressures.^[10]

Workforce and Global Presence

MathWorks employs over 6,500 people across its global operations, with the workforce supporting development, sales, and customer services for its software products.^[10] The company has grown its employee base steadily, reflecting demand for its engineering and scientific computing tools in industries such as automotive, aerospace, and finance.^[35] The headquarters is located in Natick, Massachusetts, USA, where a significant portion of research and development occurs on the Lakeside Campus.^[36] Additional U.S. offices include sites in Plano, Texas; Novi, Michigan; Carlsbad and Santa Clara, California; Torrance, California; and Chevy Chase, Maryland, facilitating proximity to key customer bases in technology and manufacturing sectors.^[36] Internationally, MathWorks operates in 34 offices spanning North America, Europe, Asia, and Australia, enabling localized support and adaptation to regional markets.^[10] Notable locations include Cambridge, United Kingdom; Torino, Italy; Tokyo, Nagoya, and Osaka, Japan; and Beijing and Shanghai, China, where teams handle sales, training, and technical assistance tailored to local engineering needs.^[35] This distributed presence supports over 5 million users worldwide by providing region-specific expertise and reducing latency in customer interactions.^[35]

Intellectual Property and Market Dynamics

Patent Holdings and Innovations

MathWorks maintains a substantial intellectual property portfolio centered on its core products, MATLAB and Simulink, with over 1,654 patents filed globally as of recent analyses, of which 1,255 have been granted and approximately 68% remain active.^[37] In the United States, the company lists 582 patents specifically protecting features in the MATLAB family (233 patents) and Simulink family (349 patents), alongside numerous international patents in jurisdictions including Canada, China, and Europe.^[38] These holdings underscore MathWorks' focus on defending advancements in computational software, with ongoing filings to cover evolving technologies in simulation and analysis.^[38] Key innovations protected by these patents revolve around model-based design paradigms, enabling engineers to develop, simulate, and deploy complex systems through graphical and algorithmic representations rather than traditional hand-coding.^[39] For instance, patents cover automated conversion of dynamic system models from floating-point to fixed-point representations for hardware implementation, facilitating efficient deployment in embedded systems.^[39] In Simulink, patented features include parameter promotion within block diagram environments, which dynamically adjusts model parameters for scalability and reuse across hierarchical designs.^[40] MATLAB-specific patents protect interpretive execution of array-based computations and high-level programming constructs that accelerate numerical analysis and data processing.^[38] Further innovations address simulation fidelity and verification, such as automatic translation of Simulink models into formal verification languages for proving system correctness before deployment.^[41] Control systems advancements include automated PID controller design tools that optimize tuning parameters based on model responses, reducing manual iteration in industrial applications.^[42] Graphical modeling enhancements, like variant configurations in block diagrams, allow conditional model behaviors for scenario testing without duplicating codebases.^[43] Collectively, these patents support MathWorks' emphasis on integrating simulation with code generation, enabling rapid prototyping and validation in domains from aerospace to automotive engineering.^[44]

Legal Engagements and Disputes

In 2002, the U.S. Department of Justice filed a civil antitrust lawsuit against MathWorks and Wind River Systems, alleging violations of Section 1 of the Sherman Act through customer allocation, exclusive dealing arrangements, and price-fixing related to their real-time workshop and targetbox software products for embedded systems development.^[45] The case stemmed from agreements that restricted sales channels and coordinated pricing, potentially harming competition in dynamic control system design tools.^[46] A final judgment was entered in March 2003, requiring the companies to cease such practices, terminate restrictive agreements, and implement compliance measures without admitting liability.^[47] In 2012, the European Commission opened an antitrust investigation into MathWorks' licensing practices for MATLAB and Simulink, prompted by complaints that the company refused to supply end-user licenses to a competitor, potentially abusing its dominant position in technical computing software.^[48] The probe examined whether these refusals violated EU competition rules by foreclosing market access for rivals developing compatible products.^[49] The investigation was closed in September 2014 without findings of infringement or fines, as regulators determined insufficient evidence of anticompetitive conduct.^[50] MathWorks has been involved in multiple intellectual property disputes, both as plaintiff and defendant. In 2009, a federal jury awarded MathWorks $7.5 million in a copyright infringement and breach-of-contract case against a former licensee for unauthorized use and distribution of its software.^[51] The company has also prevailed in other MATLAB-related copyright and patent suits, including against competitors copying core functionalities.^[52] Conversely, National Instruments secured jury verdicts against MathWorks in patent infringement actions over simulation and data acquisition technologies, with appeals upholding aspects of the judgments in the 2010s.^[53] Additional patent suits include Orbit Licensing LLC's 2021 claim in Delaware federal court and ZT IP LLC's 2022 action in Texas, alleging infringement of patents related to software verification and processing, though outcomes remain unresolved or settled privately.^[54]^[55] In May 2025, a class-action lawsuit was filed accusing MathWorks of surreptitiously monitoring and recording user chat conversations on its website without consent, potentially violating privacy laws such as the California Invasion of Privacy Act.^[56] Separately, a ransomware attack between April 17 and May 18, 2025, exposed personal data of approximately 10,476 individuals, prompting multiple class-action investigations into alleged failures in data security and notification compliance under FTC guidelines.^[57]^[58] These cases, including one by plaintiff Rebeka Rodriguez, remain ongoing as of late 2025, with claims centering on negligence in cybersecurity practices.^[59]

Competition and Strategic Positioning

MathWorks operates in a competitive landscape dominated by both proprietary and open-source solutions for numerical computing, modeling, and simulation, where it holds a leading position through its integrated MATLAB and Simulink platforms. Primary commercial rivals include Wolfram Mathematica, which emphasizes symbolic mathematics and visualization, and domain-specific tools like ANSYS for finite element analysis and COMSOL Multiphysics for multiphysics simulation.^[60]^[61] In the broader simulation software market, valued at USD 23.56 billion in 2024 and projected to reach USD 51.11 billion by 2030, MathWorks differentiates via model-based design workflows that enable automatic code generation and hardware-in-the-loop testing, particularly in aerospace, automotive, and control systems engineering.^[62] Open-source alternatives pose a persistent challenge, with GNU Octave providing near-compatible syntax for MATLAB scripts and Scilab offering Xcos as a Simulink analog for graphical modeling.^[63]^[64] The Python ecosystem, bolstered by libraries such as NumPy, SciPy, and SymPy, has gained traction for its flexibility and cost-free deployment, while Julia targets high-performance numerical tasks. Despite these, MathWorks sustains dominance in professional and academic settings through its ecosystem of over 300 specialized toolboxes, validated algorithms, and vendor support, which address reliability needs unmet by fragmented open-source options. Annual revenue reached $1.5 billion in 2024, reflecting sustained demand amid competition.^[10] Strategically, MathWorks counters open-source erosion by prioritizing proprietary innovation, such as AI-driven automation in Release 2024b and cloud integration, while aggressively defending intellectual property. A notable example is the 2020 jury verdict awarding MathWorks damages and an injunction against COMSOL for infringing MATLAB's code generation features, underscoring its commitment to protecting core technologies from imitation.^[65]^[66] This approach, coupled with enterprise-focused licensing and industry certifications, positions MathWorks for high-value applications where ecosystem cohesion and support justify premium pricing over commoditized alternatives.

Community and Educational Impact

Academic Licensing and Adoption

MathWorks offers specialized licensing options tailored for academic institutions, including the Campus-Wide License, which provides unlimited access to MATLAB, Simulink, and associated toolboxes for all faculty, staff, students, and researchers, regardless of location or device.^[67] This model supports both on-campus and remote use, facilitating integration into curricula across engineering, sciences, and related fields. Additional programs include Total Academic Headcount (TAH) licenses, which enable installations on personal computers for faculty, staff, and students, and Total Student Headcount (TSH) variants focused on student access.^[68] ^[69] These annual subscription-based licenses, often negotiated at discounted rates compared to commercial pricing, aim to lower barriers for educational adoption while maintaining proprietary controls on activation and usage.^[70] Individual student licenses are available for $49 annually, including core MATLAB functionality and select toolboxes, though many universities bundle full access via institutional agreements, such as free distribution through campus IT services.^[71] ^[72] Faculty can leverage Academic Teaching licenses for classroom and virtual environments, supporting flipped classrooms, online tutorials, and project-based learning.^[73] These options have evolved to include named-user licensing transitions, enhancing flexibility for shared and personal deployments as of 2024.^[74] Adoption of MATLAB in academia is extensive, with over 2,200 universities worldwide implementing Campus-Wide Licenses, serving more than 7.1 million users including students, educators, and researchers as of 2023; this includes many top-ranked institutions.^[75] Broader usage extends to over 5,000 colleges and universities globally for teaching and research in technical disciplines, driven by MATLAB's role in computational modeling, data analysis, and simulation across STEM programs.^[76] Institutional case studies highlight integration in areas like biomedical engineering, industrial IoT courses, and computational biology, where MATLAB supports everything from statistical analysis to deployment of models. ^[77] Such widespread use underscores MATLAB's position as a standard tool in higher education, though reliance on vendor-provided metrics limits independent verification of total active installations.

User Engagement and Support Initiatives

MathWorks maintains MATLAB Central as its primary online community platform, enabling users to share code via File Exchange, seek solutions through MATLAB Answers, and participate in Discussions and Blogs.^[78] Launched in 2001, the platform supports over 100,000 community members who contribute to peer-driven problem-solving and knowledge exchange for MATLAB and Simulink applications.^[79]^[80] Technical support is provided through a dedicated Help Center offering documentation, examples, videos, and access to phone support at 508-647-7000, available to customers with active Software Maintenance Service subscriptions.^[81]^[82]^[83] Enterprise users benefit from specialized Customer Success programs, where engagement specialists assist in onboarding, increasing tool adoption, and fostering long-term relationships to enhance satisfaction and business outcomes.^[84] Training initiatives include self-paced online courses such as MATLAB Onramp and Simulink Onramp, alongside instructor-led sessions covering basic to advanced workflows in MATLAB, Simulink, and related toolboxes.^[85]^[86] These resources accommodate diverse learning needs through interactive elements like quizzes and hands-on exercises, with virtual and in-person options available.^[87] MathWorks hosts events including webinars, workshops, and conferences focused on product updates, industry applications, and peer networking to promote user proficiency and innovation.^[88]^[89] These gatherings allow attendees to explore new features and collaborate on challenges in fields like engineering and data science.^[90]

Controversies and Criticisms

Licensing Costs and Accessibility Barriers

MathWorks' MATLAB licensing operates primarily through a combination of perpetual and annual subscription models, with costs varying by user type and scale. Individual perpetual licenses for MATLAB Home, intended for non-commercial personal use, are priced at approximately $149, granting indefinite access to a specific version but including only the first year of software maintenance service for updates and support; subsequent maintenance renewals cost around $79 annually to access new releases.^[19] Commercial individual perpetual licenses exceed $2,000, while annual subscriptions range from $800 to $1,000 or more, excluding additional toolboxes that can double or triple expenses.^[91] For organizations, pricing is customized and often opaque, requiring direct sales inquiries, with average annual costs per seat reported at about $5,691 based on enterprise procurement data.^[92] Academic institutions frequently negotiate campus-wide licenses providing free or low-cost access to students and faculty, but these do not extend to alumni or independent researchers without affiliation.^[93] The high licensing fees have drawn criticism for creating significant accessibility barriers, particularly for independent users, small businesses, and those in developing regions lacking institutional subsidies. Without employer or university sponsorship, the recurring subscription model—emphasized for ongoing maintenance and toolbox access—imposes escalating long-term costs, as perpetual licenses limit functionality without paid renewals, effectively pressuring users toward subscriptions.^[94] Detractors argue this structure favors large corporations with budgets for comprehensive deployments, while excluding hobbyists, startups, and cash-strapped academics; for instance, full toolbox suites essential for specialized engineering or data analysis can add thousands annually, rendering MATLAB impractical for budget-constrained projects.^[95] This pricing opacity and premium positioning contrast with open-source alternatives like GNU Octave or Python ecosystems (e.g., NumPy, SciPy), which offer comparable matrix operations and scripting at no cost, driving adoption among cost-sensitive users seeking reproducibility without vendor lock-in.^[63] Further barriers arise from license restrictions, such as node-locking to specific hardware or prohibiting commercial redistribution, which hinder collaborative or freelance work. Student versions, while free through many universities until June 2026 in some cases, expire post-graduation, forcing alumni to pay full rates without transitional pricing, exacerbating inequities in professional transitions.^[72] Critics, including those in scientific computing communities, contend that these economics stifle broader innovation by concentrating advanced prototyping tools among well-funded entities, potentially slowing field-wide progress compared to freely accessible platforms.^[96] MathWorks defends its model as sustaining proprietary innovations like specialized toolboxes and Simulink, but the resultant exclusivity has fueled migrations to free alternatives, with surveys indicating Python's rise in engineering curricula partly due to MATLAB's cost hurdles.^[97]

Technical and Usability Critiques

Critics have noted that MATLAB's interpreted execution model results in slower runtime performance compared to compiled languages such as C++ or Fortran, particularly for iterative computations or non-vectorized operations, where vectorization is required to achieve competitive speeds.^[98] This limitation stems from MATLAB's design prioritizing rapid prototyping over optimized production code, leading to execution times that can be orders of magnitude higher without careful optimization.^[99] For large-scale simulations, MATLAB's memory consumption is often high, with user reviews reporting significant resource demands that vary by hardware specifications and can degrade performance on standard workstations.^[100]^[101] Simulink, MathWorks' graphical modeling environment, faces technical constraints including restrictions on sample times for certain blocks, prohibitions on direct connections between physical signal and Simulink converters without intermediate elements, and challenges in resolving algebraic loops without additional solver configurations.^[102] These issues can necessitate workarounds, such as introducing artificial delays or using specialized solvers, potentially complicating model validation and increasing computational overhead.^[102] Additionally, Simulink models demand higher processing power and memory than equivalent MATLAB scripts, limiting scalability for complex, real-time embedded systems without hardware acceleration.^[103] On usability, MATLAB's editor and interface have been described as archaic by some users, with inconsistent handling of syntax elements like variable scoping and global variables promoting poor programming practices in larger codebases.^[104] The App Designer tool, intended for GUI development, suffers from restrictive component placement, inadequate resizing behavior upon window maximization, and limited feature sets that hinder intuitive app creation compared to dedicated IDEs.^[105]^[106] Debugging remains cumbersome due to opaque error messages and challenges in tracing issues across vectorized operations or toolbox integrations, exacerbating a steep learning curve for non-expert users.^[107] These factors contribute to MATLAB's reputation as better suited for domain-specific tasks like matrix algebra rather than general-purpose software engineering.^[99]

Security and Operational Incidents

In May 2025, MathWorks suffered a ransomware attack that disrupted its IT infrastructure, beginning on May 18 and affecting multiple customer-facing applications, including access to MATLAB and Simulink services.^[108]^[109] The incident led to widespread outages lasting over a week, impacting internal operations and external user access for millions of MATLAB users worldwide.^[110]^[111] MathWorks promptly notified the FBI and federal law enforcement, confirming the attack's scope without paying the ransom, and worked to restore systems progressively.^[108]^[112] Subsequent investigations revealed that the attackers exfiltrated personal data from approximately 10,476 individuals, including full names, Social Security numbers, addresses, and other sensitive information potentially linked to employees or customers.^[113]^[114] MathWorks issued data breach notifications in August 2025, offering affected parties identity protection services and credit monitoring as remedial measures.^[115] No evidence emerged of the stolen data being publicly leaked or sold on dark web forums at the time of disclosure, though the company acknowledged ongoing risks of identity theft or phishing exploitation.^[116] Beyond the ransomware event, MathWorks has documented vulnerabilities in MATLAB-related components, such as a Visual Studio Code extension enabling arbitrary code execution and Jenkins plugins susceptible to XML external entity (XXE) attacks and cross-site request forgery (CSRF).^[117] These issues, tracked via CVE entries, primarily affect third-party integrations rather than core MATLAB runtime, with MathWorks maintaining a vulnerability disclosure policy encouraging ethical reporting and coordinated patching.^[118] No large-scale exploits of these flaws have been reported as operational incidents directly attributable to MathWorks' infrastructure failures.^[119] The company operates a status page for monitoring service incidents, which has logged maintenance-related disruptions but no other major operational failures comparable to the 2025 ransomware outage.^[120]

References

[1]
[PDF] History of MATLAB and the Company MathWorks
MATLAB was first developed in Fortran by Cleve Moler. MathWorks was founded in 1984 by Moler, Little, and Bangert, and released MATLAB 1.0. The company has ...
[2]
A Brief History of MATLAB - MathWorks
MATLAB began as a simple matrix calculator, then became a commercial product with toolboxes and graphics, and evolved to support all aspects of technical ...Commercial Matlab · Data Types · Making Matlab More...
[3]
MathWorks – About Us
### Key Facts About MathWorks
[4]
Simulink - Simulation and Model-Based Design - MATLAB
Simulink is a block diagram environment used to design systems with multidomain models, simulate before moving to hardware, and deploy without writing code.For Students · Simulink Online · Getting Started · Model-Based Design
[5]
Founders - Jack Little - MATLAB & Simulink - MathWorks
Jack Little and Cleve Moler, cofounders of MathWorks, recognized the need among engineers and scientists for more powerful and productive computation ...
[6]
The Origins of MATLAB - MathWorks
Cleve Moler describes his inspiration for authoring MATLAB (Video also available).
[7]
[PDF] The Growth of MATLAB and The MathWorks over Two Decades
Jack Little (now CEO of The MathWorks) was a young MIT and Stanford-educated controls engineer working for a consulting company in Palo Alto, California. One ...
[8]
The Growth of MATLAB and The MathWorks over Two Decades
In this article, Cleve Moler recounts the founding of MathWorks and key milestones in its first 22 years. Using an illustrated timeline, Cleve chronicles ...Missing: expansion history
[9]
The MathWorks, Inc. | Encyclopedia.com
The company is owned by CEO John N. (Jack) Little, chairman and chief scientist Cleve Moler, and Steve Bangert, who together launched the company in 1984 and ...Missing: founder | Show results with:founder
[10]
[PDF] Company Overview - MathWorks
MathWorks employs over 6,500 people in 34 offices around the world. Our purpose is to change the world by accelerating the pace of discovery, innovation, ...
[11]
MathWorks now in more than 180 countries
May 29, 2017 · It now has 3,500 workers across the world, with 1,000 added in Massachusetts in the last three years alone. Nearly one-third are outside the ...<|separator|>
[12]
A History of MATLAB (HOPL IV - Papers) - PLDI 2021
The first MATLAB (short for Matrix Laboratory) was not a programming language. Written in FORTRAN in the late 1970s, it was a simple interactive matrix ...
[13]
MATLAB
### Summary of MATLAB Core Capabilities
[14]
Simulink Documentation - MathWorks
Simulink provides a graphical editor, customizable block libraries, and solvers for modeling and simulating dynamic systems. It is integrated with MATLAB®, ...Applications · Get Started · Simulation · Simulink Environment...
[15]
Simulink Simulation - MATLAB & Simulink - MathWorks
Simulink simulation involves model compilation, then computing block outputs and states at successive time steps using a numerical solver.Compilation · Block Methods · Model Method · Callback
[16]
Applications - MATLAB & Simulink - MathWorks
MATLAB & Simulink are used for automotive, aerospace, industrial automation, signal processing, control design, physical modeling, and discrete-event ...
[17]
Products and Services - MATLAB & Simulink - MathWorks
Product Family · Optimization Toolbox · Global Optimization Toolbox · Symbolic Math Toolbox · Mapping Toolbox · Partial Differential Equation Toolbox.Alphabetical · MATLAB Copilot · MATLAB Coder · MATLAB Compiler
[18]
Create and Share Toolboxes - MATLAB & Simulink - MathWorks
You can package MATLAB files to create a toolbox to share with others. These files can include MATLAB code, data, apps, examples, and documentation.
[19]
Pricing and Licensing - MATLAB & Simulink - MathWorks
5G Toolbox; AUTOSAR Blockset; Aerospace Blockset; Aerospace Toolbox; Antenna Toolbox; Audio Toolbox; Automated Driving Toolbox; Bioinformatics Toolbox ...
[20]
Toolboxes Supported by Simulink Compiler - MathWorks
Toolboxes Supported by Simulink Compiler · Aerospace Blockset™. · Audio Toolbox™. · Automated Driving Toolbox™. · AUTOSAR Blockset. · Communications Toolbox™.
[21]
Add-On Explorer - MATLAB & Simulink - MathWorks
The Add-On Explorer lets you download, install, and use add-ons within MATLAB, extending its capabilities. Access it via the Home tab, and browse or search for ...Missing: ecosystem | Show results with:ecosystem
[22]
Get and Manage Add-Ons - MATLAB & Simulink - MathWorks
Get and Manage Add-Ons. Add-ons encompass a wide variety of resources, including products, apps, support packages, and toolboxes.Missing: ecosystem | Show results with:ecosystem
[23]
File Exchange - MATLAB Central - MathWorks
Download and share free MATLAB code, including functions, models, apps, support packages and toolboxes.
[24]
Add-Ons - MATLAB & Simulink - MathWorks
Find, run, and install add-ons, including optional features, apps, toolboxes, and support packages. Add-ons extend the capabilities of MATLAB.Missing: ecosystem | Show results with:ecosystem
[25]
MathWorks - Crunchbase Company Profile & Funding
The company was founded in 1984 and is headquartered in Natick, Massachusetts with additional offices in Australia, China, France, Germany, Italy, Korea, the ...
[26]
Founders - MATLAB & Simulink - MathWorks
Jack Little and Cleve Moler are the cofounders of MathWorks. They developed MATLAB to address the need for more powerful computation environments.Missing: history | Show results with:history
[27]
Is MathWorks a public company? How? - Quora
May 29, 2014 · No, MathWorks is a privately owned company. It is owned by the three original founders, Jack Little (CEO), Jean - I'm afraid I can't recall the ...Why hasn't MathWorks gone public yet?What is a rough valuation of the company MathWorks?More results from www.quora.com
[28]
Founders - Cleve Moler - MATLAB & Simulink - MathWorks
Cleve Moler is chief mathematician, chairman, and cofounder of MathWorks. Moler was a professor of math and computer science for almost 20 years.
[29]
MathWorks CEO and Key Executive Team - Craft.co
MathWorks's Founder, CEO is Jack Little. Other executives include Cleve Moler, Founder, Chief Mathematician; Jeanne O'Keefe, Chief Financial Officer and ...
[30]
The MathWorks Executive Team | Comparably
Rating 4.5 (1,864) Jack Little serves as the CEO / President of The MathWorks. ... Jeanne OKeefe serves as the Chief Financial Officer and Senior Vice President of The MathWorks.
[31]
[PDF] Profitable every year since its founding • $1.25 billion in revenu
Founded in 1984, privately held, profitable every year, with $1.25 billion revenue in 2023, over 6500 people in 34 offices.
[32]
[PDF] Profitable every year since its founding • $1 billion in revenue
• $1 billion in revenue in 2019. • Over 5000 people in 33 offices around the world. Corporate Name. The MathWorks, Inc. "MathWorks" is one word, with a "M" and ...
[33]
Mathworks India Private Limited - 2025 Company Profile & Financials
Mathworks India Private Limited generated a revenue of INR 924Cr for the financial year ending on Mar 31, 2024, reflecting a 1-year revenue CAGR of 18% and an ...
[34]
MathWorks: Revenue, Competitors, Alternatives - Growjo
MathWorks's estimated annual revenue is currently $1.3B per year.(i) · MathWorks's estimated revenue per employee is $203,000 ...
[35]
Explore MathWorks Offices Around the World - MATLAB & Simulink
With over 5 million users of MATLAB and Simulink worldwide, we employ over 6,500 people in locations throughout North America, Europe, Asia, and Australia.Natick, Massachusetts, USA · Plano, Texas, USA · Novi, Michigan, USA · Torino, Italy
[36]
MathWorks - Contact Us - Worldwide Offices and Representatives ...
Worldwide Offices and Representatives · Natick, Lakeside Campus · Carlsbad · Chevy Chase · Novi · Plano · Santa Clara · Torrance · Ascendas Systems Co., Ltd.
[37]
Mathworks Patents – Insights & Stats
Mathworks has a total of 1654 patents globally, out of which 1255 have been granted. Of these 1654 patents, more than 68% patents are active.
[38]
Patents - MATLAB & Simulink - MathWorks
U.S. Patents: ... International Patents: Austria 3410322; Canada 2,854,828; China ZL200580007811.3; China ZL201080035134.7; China ZL201180056419.3; China ...
[39]
Patents Assigned to MATHWORKS, INC. - Justia
Assignee: THE MATHWORKS, INC. Inventor: Agnivesh Tomar. Automatic comparison and performance analysis between different implementations. Patent number: 9292631.Missing: portfolio | Show results with:portfolio
[40]
Parameter promotion in a block diagram modeling environment
Simulink™ permits the user to specify 'subsystems', composite blocks whose definition consists of interconnected sets of predefined blocks, user-written S- ...
[41]
Automatic translation of simulink models into the input language of a ...
A translator converts an input model, such as resulting from a simulation of a design to be verified, into an output model suitable for verification by a ...
[42]
US8467888B2 - Automated PID controller design - Google Patents
Current Assignee (The listed assignees may be inaccurate. Google has not performed a legal analysis and makes no representation or warranty as to the accuracy ...
[43]
Patents Assigned to The MathWorks, Inc.
Assignee: The MathWorks, Inc. Inventors: Christian A. Portal, David T. Leffingwell. Variants in graphical modeling environments. Patent number: 7742903.
[44]
[PDF] Why Adopt Model-Based Design White Paper - MathWorks
Like Agile, Model-. Based Design enables developers to discover defects and design problems in the early stages of a proj- ect, accommodate changes in ...
[45]
U.S. v. The MathWorks, Inc. and Wind River Systems
Jun 21, 2002 · The case is a civil non-merger for violating Section 1 of the Sherman Act, including customer allocation, exclusive dealings, and price fixing.Missing: issues | Show results with:issues
[46]
United States v. The Mathworks, Inc. and Wind River Systems, Inc.
Oct 21, 2002 · The proposed final Judgments represent a full settlement of this matter, as they resolve all issues between the United States and each Defendant.
[47]
[PDF] Final Judgment : U.S. v. The Mathworks, Inc. and Wind River ...
Mar 17, 2003 · MathWorks in the February 16, 2001, Patent Assignment between ISI and The MathWorks). (C) "The MathWorks" means The MathWorks, Inc., a Delaware ...
[48]
MathWorks Software Licenses Probed by EU Antitrust Regulators
Mar 1, 2012 · The European Commission said it will check whether closely held MathWorks rejected a competitor's request for end-user licenses and ...Missing: issues | Show results with:issues
[49]
AT.39840 - The MathWorks - Competition case search
Searches for published decisions can be carried out under policy area, case number, title and date.Missing: issues | Show results with:issues
[50]
EU regulators scrap antitrust case against MathWorks - Reuters
Sep 2, 2014 · European Union antitrust regulators scrapped on Tuesday an investigation into MathWorks sparked by a complaint the U.S. software firm had ...Missing: issues | Show results with:issues
[51]
MathWorks wins $7.5 million jury verdict in software copyright ...
The Jones Day obtained a $7.5 million jury verdict on behalf of The Mathworks, Inc. in a software copyright infringement and breach of contract case.
[52]
MathWorks wins copyright and patent infringement cases - Jones Day
Jones Day prevailed in two separate patent and copyright infringement actions involving MathWorks' MATLAB software.
[53]
Jury finds in favor of National Instruments in patent-infringement ...
This suit alleges infringement by The MathWorks of six additional patents held by National Instruments.
[54]
1:21-cv-01089 - Orbit Licensing LLC v. The MathWorks Inc
Case docket and documents for 1:21-cv-01089 - Orbit Licensing LLC v. The MathWorks Inc, Delaware District Court, filed at 2021-07-28.
[55]
ZT IP, LLC v. The MathWorks, Inc. 6:2022cv00438 - Justia Dockets
Apr 29, 2022 · Defendant: The MathWorks, Inc. Case Number: 6:2022cv00438. Filed: April 29, 2022. Court: U.S. District Court for the Western District of Texas.
[56]
MathWorks class action alleges company secretly monitors website ...
May 22, 2025 · A new class action lawsuit accuses MathWorks, a mathematical computing software company, of monitoring and recording chat conversations on its website
[57]
The MathWorks, Inc. Data Breach Class Action Investigation
Aug 25, 2025 · Between April 17 and May 18, 2025, an unauthorized party accessed and copied data from The MathWorks, Inc., compromising 10,476 victims' data ...
[58]
Mathematical software maker faces lawsuit after ransomware attack
Jun 16, 2025 · Arutyunyan's complaint alleges that MathWorks' failure to follow Federal Trade Commission guidelines and industry standards for data protection ...
[59]
Rodriguez v. The Mathworks, Inc. 3:2025cv00564 - Justia Dockets
Mar 10, 2025 · Plaintiff: Rebeka Rodriguez. Defendant: The Mathworks, Inc. a Delaware corporation doing business as Mathworks.com.
[60]
Top MATLAB Competitors & Alternatives 2025 | Gartner Peer Insights
Check out real reviews verified by Gartner to see how MATLAB compares to its competitors and find the best software or service for your organization.<|separator|>
[61]
Matlab versus simulation products such as ANSYS and COMSOL
Sep 5, 2012 · I haven't used Ansys, but Ansys is often compared with Comsol, and I've used Comsol and Matlab for years. Matlab:.
[62]
Simulation Software Market Size | Industry Report, 2030
The global simulation software market was USD 23.56 billion in 2024 and is projected to reach USD 51.11 billion by 2030, growing at a CAGR of 14.0% from 2025 ...Missing: numerical | Show results with:numerical
[63]
5 open source alternatives to MATLAB | Opensource.com
GNU Octave may be the best-known alternative to MATLAB. In active development for almost three decades, Octave runs on Linux, Windows, and Mac.
[64]
What are some alternatives to Matlab and Simulink for teaching ...
Apr 6, 2025 · Scilab is free and has a visual-programming interface called Xcos, like Simulink. The syntax of Scilab is quite approximate to Matlab syntax.
[65]
[PDF] MathWorks, Inc - Supreme Court of the United States
Feb 19, 2020 · MathWorks, Inc. supports Oracle as amicus curiae, arguing that declaring code merits copyright protection and that Google's copying of Java ...
[66]
MathWorks Release 2024b of MATLAB and Simulink
Sep 18, 2024 · In recent years, according to CIM data, it has had a market share of around 13-14 percent with annual revenues in the region of $1.3 billion.
[67]
MATLAB Licensing for Campus-Wide Use - MathWorks
A Campus-Wide License provides unlimited use of MATLAB and Simulink products to all faculty, staff, students, and researchers, on and off campus, on any device.Missing: details | Show results with:details
[68]
[PDF] Quick Start Total Student Headcount (TSH) License - MathWorks
This guide describes how to install and activate a Total Student Headcount (TSH) license at your university. The TSH license allows students to install ...
[69]
MathWorks - Office of Software Licensing - The University of Utah
Oct 2, 2024 · The university has five concurrent-use license options: MATLAB TAH Academic Annual License. MATLAB TAH Classroom Annual License.
[70]
MathWorks Total Academic Headcount (TAH) License
The TAH license allows faculty, staff, and students to install MATLAB software on their personally-owned computers and laptops.
[71]
MATLAB Pricing 2025 - TrustRadius
Rating 8.6/10 (228) · US$49.00 to US$2,150.00 · Business/ProductivityPricing Overview for MATLAB ; Student. per student license. $49 ; Home. perpetual license. $149 ; Education. per year. $250 ; Education. perpetual license. $500.
[72]
MathWorks Software – MATLAB for Students | University of Toronto ...
Product Information · License Period: July 1, 2025 - June 30, 2026. · Cost: Free · Additional Toolboxes: All MATLAB toolboxes are included. · Restrictions: This ...
[73]
Academic Teaching - MATLAB & Simulink - MathWorks
These licenses provide faculty, and their students access to MATLAB and Simulink products in any learning environment, including in-classroom, virtual, and ...Missing: details | Show results with:details
[74]
Transitioning to named user licensing on the Campus-Wide License
Apr 30, 2024 · For shared computers with MATLAB (Individual) installed by the university, we understand that not all users will have a MathWorks Account or ...<|separator|>
[75]
[PDF] 2023 NA Campus Wide License Fact Sheet - MathWorks
Through a Campus-Wide License more than 7.1 million students, educators, and researchers at over 2,200 universities worldwide, including the Top 30 ranked ...
[76]
Current number of matlab users worldwide - MathWorks
May 30, 2013 · More than 5000 colleges and universities around the world use MATLAB and Simulink for teaching and research in a broad range of technical disciplines.
[77]
The Slovak University of Technology Fosters Project-Based ...
Dec 13, 2022 · The Slovak University of Technology acquired a Campus-Wide License for MATLAB, Simulink, and related products a few years before the pandemic.
[78]
MATLAB Central - MathWorks
Be Part of MATLAB Central. Join the Community. Introduction to Community. Community Video. Explore Community Areas. answers. MATLAB Answers. Ask & Answer ...MATLAB Communities · File Exchange · Discussions · MATLAB Answers
[79]
MATLAB Answers - MATLAB Central - MathWorks
Ask and find the best answers about MATLAB and Simulink. MATLAB Central gives you support and solutions from over 100000 community members and MathWorks ...
[80]
MATLAB Central - MathWorks
... community to learn the more particularly the Matlab/Simulink Welcome @Timothy! The MATLAB Central Community has been around for quite some time, since 2001.
[81]
Contact Support - MATLAB & Simulink - MathWorks
Customer Support: 508-647-7000. Technical Support: 508-647-7000. Office ... Application Status · Contact Us; Your Privacy Choices. © 1994-2025 The MathWorks ...
[82]
Contact Technical Support - MATLAB & Simulink - MathWorks
Access to technical support requires a valid license number and a Software Maintenance Service subscription.
[83]
Help Center - MathWorks
Documentation, examples, videos, and other support resources for MathWorks products including MATLAB and Simulink.
[84]
https://www.mathworks.com/company/jobs/opportunities/36196-enterprise-user-engagement-customer-success-specialist
[85]
Training – Courses in MATLAB, Simulink, and Stateflow - MATLAB ...
Our training covers the basics of working with MATLAB and Simulink as well as intermediate and advanced techniques that address complex workflows and niche ...Browse Courses · Contact Training · Simulink Fundamentals · Learn more
[86]
Self-Paced Online Courses - MATLAB & Simulink
Learn MATLAB for free with MATLAB Onramp and access interactive self-paced online courses and tutorials on Deep Learning, Machine Learning and more.Online Training Suite · MATLAB Onramp · Simulink Onramp · Core MATLAB Skills
[87]
MATLAB and Simulink Online Training Courses - MathWorks
Mar 4, 2024 · MathWorks Online Training Courses offer a highly interactive learning environment featuring demonstrations, quizzes, and hands-on MATLAB and ...
[88]
MATLAB and Simulink Events - MATLAB & Simulink
Attend MathWorks events to learn about new products and features, hear about applications using MATLAB and Simulink from industry colleagues.
[89]
Search Upcoming MATLAB and Simulink Events - MathWorks
Search Upcoming MATLAB and Simulink Events. Find an event to learn about new products and features, hear about applications from industry colleagues, ...
[90]
Top Ways to Get Help - MATLAB - MathWorks
Mar 12, 2014 · Find online support to help solve your toughest problems while using MATLAB and Simulink products.
[91]
Comparing and Contrasting MATLAB vs. Python - Jousef Murad
Overall, the software costs 2150 € for perpetual and 860 € for annual licenses of MATLAB concerning individual users.Missing: criticisms | Show results with:criticisms
[92]
MathWorks Software Pricing 2025 - Get the Lowest Price & Never ...
Our data reveals that the average cost for MathWorks software is about $5,691 annually. MathWorks Product Descriptions. MATLAB. MATLAB is a high-level ...
[93]
MathWorks - Office of Software Licensing - The University of Utah
Jul 10, 2025 · Students, Staff, and Faculty will have access to the MathWorks products at $0.00 cost effective October 01, 2020. 82% of Fortune 500 Companies ...
[94]
What is the differences between Annual and Perpetual licenses
Aug 11, 2022 · Perpetual licenses provide the right to use the software indefinitely, and the first year of MathWorks Software Maintenance Service is included ...Home License Limitations and Service Maintenance renewal costIs Home version an annual-basis or one-time purchase?More results from www.mathworks.com
[95]
Advantages and Disadvantages of MATLAB - Pickl.AI
Nov 14, 2024 · The high price of the software can be a barrier for students and small organisations. MATLAB's intuitive GUI simplifies workflows but has a ...
[96]
MATLAB vs. R: What's the Difference? - Coursera
May 12, 2025 · Some of the disadvantages of MATLAB include: MATLAB's high license cost is a barrier to entry for those who do not have institutional access.Missing: criticisms | Show results with:criticisms
[97]
Is MATLAB a barrier to scientific advancement? - ResearchGate
Aug 12, 2013 · I think there are two major drawbacks of MATLAB: First, it is very possible that your Code won't work for someone else if it's using some functions of a ...Missing: criticisms | Show results with:criticisms
[98]
Performance Tradeoff - When is MATLAB better/slower than C/C++
Dec 11, 2013 · Question for Mathworks engineers: When Matlab code is fully vectorized, one of the performance limiting factor is the matrix indexing operation.Missing: critiques | Show results with:critiques
[99]
What are some reasons you hate MATLAB? - Quora
Apr 22, 2017 · MATLAB is great for prototyping and investigating data, but it is just an awful language for building a complete application or any significant ...
[100]
MATLAB Reviews 2025: Details, Pricing, & Features - G2
MATLAB is a heavy application and its performance varies heavily based on the specs of the computer it is running on, specifically while running simulations ...Missing: critiques | Show results with:critiques
[101]
MATLAB Reviews & Ratings 2025 - TrustRadius
Rating 8.6/10 (228) · $49.00 to $250.00 · Business/ProductivityMATLAB uses a lot of computer memory for running heavy simulations. Its performance could certainly be optimized. Apart from this, I think MATLAB is a very ...Missing: critiques | Show results with:critiques
[102]
Limitations - MATLAB & Simulink - MathWorks
Limitations include sample time restrictions, no direct connection between PS-Simulink converters, some Simulink tools not working, and restrictions on code ...Sample Time and Solver... · Algebraic Loops · Restricted Simulink Tools
[103]
Comparing MATLAB Scripting vs. Simulink: When to Use What?
Mar 12, 2025 · Disadvantages of Simulink: · Higher computational resource usage: Running Simulink models requires more memory and processing power compared to ...
[104]
Won't be teaching Matlab! - Physics of Risk
Feb 7, 2023 · Why I don't like Matlab? In short, it feels archaic (I have learned programming using Turbo Pascal, and Matlab feels a lot like it), it ...
[105]
App Designer Issues and Suggestions - MATLAB Answers
May 25, 2020 · After having used App Designer for several hundred hours (in R2019a), there are a number of issues that I think should be highlighted for future improvement.
[106]
Why is App Designer so restrictive/bad? : r/matlab - Reddit
Aug 3, 2021 · After using App designer for less than 30 minutes, I have to say its usability is beyond terrible. It obviously lacks a lot of features.
[107]
Page 29 | MATLAB Reviews 2025. Verified Reviews, Pros & Cons
Rating 4.6 (2,088) The interface of matlab is not that much user friendly and also debugging errors is quite difficult. The processing duration gets a bit longer for complex fluid ...
[108]
May 2025 Ransomware Incident - MATLAB & Simulink - MathWorks
May 18, 2025 · On May 18, 2025, MathWorks experienced a ransomware attack that resulted in a disruption to some of our systems. We notified the FBI of this incident.
[109]
MATLAB Maker MathWorks Recovering From Ransomware Attack
May 28, 2025 · Software maker MathWorks this week confirmed that a widespread outage that has impacted its applications since May 18 was the result of a ransomware attack.
[110]
MATLAB Hit by Ransomware Attack Impacting Over 5 Million Users
May 28, 2025 · MathWorks, the developer of the widely used MATLAB computational platform, disclosed a ransomware attack that disrupted its IT infrastructure.
[111]
Ransomware Hits MathWorks: Week-Long Outage Disrupts Millions
The attack, which began on May 18, 2025, and was officially confirmed on May 26, crippled a wide range of customer-facing and internal systems, from MATLAB ...
[112]
MATLAB dev confirms ransomware attack behind service outage
May 27, 2025 · "MathWorks experienced a ransomware attack. We have notified federal law enforcement of this matter. The attack affected our IT systems," the ...
[113]
MATLAB dev says ransomware gang stole data of 10,000 people
Aug 28, 2025 · According to the same filing, the attackers stole the data of 10,476 individuals. MathWorks also revealed in data breach notification letters ...
[114]
Fallout from MATLAB maker data breach: 10K+ users exposed
Aug 26, 2025 · MathWorks, maker of MATLAB software, suffered a ransomware attack exposing personal data of 10000+ users including SSNs and addresses.
[115]
MathWorks, Inc. Data Breach Investigation
Aug 22, 2025 · We are investigating a breach of customer data impacting MathWorks, Inc. Barnow and Associates, P.C., a leading data breach litigation law firm ...
[116]
MathWorks Data Breach Exposes 10,000 Users in a Ransomware ...
MathWorks disclosed a ransomware breach affecting 10000+ users, exposing personal data and disrupting MATLAB services. Identity protection offered.<|separator|>
[117]
Search - CVE: Common Vulnerabilities and Exposures
CVEs for Matlab include issues with Jenkins plugin (XXE, CSRF, missing checks), Visual Studio Code extension (arbitrary code), and ImageMagick/GraphicsMagick ( ...Missing: issues | Show results with:issues
[118]
Vulnerability Disclosure Policy for Security Researchers - MathWorks
MathWorks takes security seriously. Find information on the steps to take if you discover a security vulnerability in any of our products or services.
[119]
Potential Risks - MATLAB & Simulink - MathWorks
Risks include HTTP capture, lack of authentication, potential for data access by any user, data/code injection, and the possibility of other users accessing ...
[120]
Incident History - MathWorks Status
This page displays real-time status and planned maintenance updates for MathWorks applications. If you are experiencing an outage that is not listed, please ...