: The web interface now includes a filter to view findings from a baseline run that have been fixed in the current run, providing clear evidence of progress during remediation.
: With R2021a, users can analyze code generated in earlier releases of Simulink® (R2020b or later) using the new pslinkrunCrossRelease function, allowing teams to upgrade their analysis tools without needing to migrate their entire model-based design environment immediately. Collaborative Analysis with Polyspace Access
: Developers can now run a single Polyspace Code Prover analysis on projects containing a mix of C and C++ source files, simplifying the verification of modern multi-language codebases. polyspace r2021a
: Users can define and share custom filter groups, allowing organizations to focus on the specific findings most relevant to their internal safety or security standards.
: Polyspace Code Prover™ now runs faster and provides more precise results for code using the AUTOSAR RTE API . A new -library option allows for "smart stubs" that target AUTOSAR-specific checks without the overhead of checking the entire library implementation. : The web interface now includes a filter
The R2021a update delivers refinements across the entire Polyspace product line, from local IDE plugins to centralized web-based reporting.
: A new category of customizable checkers in Polyspace Bug Finder™ helps teams monitor software complexity. These checkers track metrics like cyclomatic complexity and the number of paths to identify "heavy" modules that require refactoring before they become maintenance burdens. : Users can define and share custom filter
: A new default Code Review layout prioritizes the source code view, making it easier for developers to investigate the root cause of issues directly in the browser. Expanded Language and Compiler Support
To support modern development environments, R2021a expands its compatibility with industry tools:
is a major update to the MathWorks static code analysis suite, designed to help developers prove the absence of critical run-time errors and uncover defects early in C and C++ projects. This release focuses on performance optimizations for large-scale embedded systems, particularly those using the AUTOSAR standard, and introduces new tools to manage code complexity. Key Advancements in Polyspace R2021a