Content type Case studyWebinarWhite paper Related products (field_related_products) MACH178 FoundationsRapiCouplingMACH178 BlueprintRVSRapiTestRapiCoverRapiTimeRapiTaskRapiCoverZeroRapiTimeZeroRapiTaskZeroRTBxMACH178RapiDaemonsRapiComplyMx-Suite Related services (field_related_services) Compiler verificationConsultancyMACH178 ServicesCustomizationEngineering ServicesEarly access programIntegrationMulticore Timing SolutionProof of conceptQualificationSoftware Verification ServicesSupportTraining White paper Efficient Verification Through the DO-178C Life Cycle This handbook delivered by Rapita Systems and ConsuNova Inc. presents useful information for DO-178C beginners and experts alike, including a description of DO-178C… Mitigation of interference in multicore processors for A(M)C 20-193 Learn how to identify and mitigate multicore inference to comply with A(M)C 20-193 objectives in this joint white paper by Rapita Systems and Wind River. Developing DO-178C and ED-12C-certifiable multicore software In this white paper, learn how PikeOS and MACH178 solution provide an effective and efficient route to A(M)C 20-193 compliance. Multicore Timing Analysis for DO-178C This white paper explores the challenges of performing multicore timing analysis in critical aerospace systems development and presents a practical solution that… Seven Roadblocks to 100% Structural Coverage (and how to avoid them) In this white paper, we review the causes of being unable to attain 100% code coverage during testing, and will identify four strategies for handling code that has… Eight top code coverage questions in embedded avionics systems In this white paper, learn the most common questions asked about code coverage in embedded avionics systems, and how RapiCover supports coverage analysis in DO-178B… Automating WCET Analysis for DO-178B & DO-178C This white paper describes what is required for worst-case execution time analysis in DO-178B and DO-178C projects, including industry best practices and how… 5 key factors to consider when selecting an embedded testing tool This paper outlines five key features to look for when choosing a tool for embedded software testing. Three steps to avoid software obsolescence in avionic systems In this white paper, learn how to avoid software obsolescence in avionics systems by measuring timing behavior, identifying optimizations and evaluating results. Compliance with the Future Airborne Capability Environment (FACE) standard Learn about the FACE architecture, focusing on the ecosystem for UoP's & the tools to test, integrate, & certify systems based on the FACE Standard. A Commercial Solution for Safety-Critical Multicore Timing Analysis The MASTECS project is developing a commercial timing analysis solution designed to enable the safe use of multicore processors in the automotive and avionics… CodeTEST™ Replacement with RVS In this white paper, learn how RVS provides a viable alternative to the use of the legacy CodeTEST tool for structural coverage and timing analysis. Webinar Deep Dive on Multicore Interference Webinar In this webinar, multicore experts from Rapita Systems discuss the concept of multicore… A(M)C 20-193 vs. CAST-32A: What the change means for your DO-178C Multicore project Find out what the new AMC 20-193 guidance for certification of multicore DO-178C/ED-12C projects… Mitigation of Interference in Multicore Processors Webinar In this webinar, Rapita Systems and Wind River discussed the multicore certification landscape, the… Unlocking DO-178C Compliance Webinar DO-178C objective 6.4.4.c includes a required activity to verify additional code introduced by the… A(M)C 20-193 vs AA-22-01 Webinar This webinar discusses how the USAF AA-22-01 guidance compares with A(M)C 20-193 guidance, the gold… Integrating & verifying time-critical applications on multicore platforms - Rapita & Asterios Technologies This webinar shows how addressing A(M)C 20-193 objectives can be simplified using the MACH178… Efficient DO-178C verification - Functional testing In the first of our series of three DO-178C webinars, we explore Requirements-based functional… Efficient DO-178C verification - Code coverage In the second in our series of three DO-178C webinars, we examine Code coverage analysis, which is… Efficient DO-178C verification - WCET analysis In the third and final installment of our DO-178C webinar series we will explore software Worst-… Verifying multicore hardware and software Learn how ecosystem collaborations enable certification of multicore software in this joint webinar… Verifying your Multicore RTOS Learn how to optimize RTOS configuration to prevent multicore interference and verify the… Supplementing DO-178C activities for CAST-32A Multicore certification expert Dr. Christos Evripidou, outlines new certification activities and… Efficient testing with RVS and ANSYS® SCADE® Test™ Learn how Rapita helps you perform back-to-back testing of your SCADE models by integrating with… Incremental Assurance of Multicore Integrated Modular Avionics (IMA) In this webinar, you'll learn about Incremental Assurance of Multicore Integrated Modular Avionics. Certifying multicore systems for DO-178C (CAST-32A) projects In this webinar, you'll learn an approach to certifying multicore systems for DO-178C (CAST-32A)… Solving DAL-A Safety Certification Challenges for Military Avionics Systems This webcast featuring industry experts will cover various approaches and solutions for certifying… Airborne Safety with FACE™ in the Digital Battlespace Avionics experts discuss how FACE conformance can help ensure system safety during the digital… Out of the box Solution for Multicore Analysis - Rapita & DDC-I Learn how Rapita and DDC-I technologies can provide an end-to-end solution for addressing CAST-32A… Verifying Multicore RTOS Partitioning for DO-178C (CAST-32A) Projects Combining RTOS partitioning, intelligent system design and expert independent verification is the… Multicore Timing for DO-178 Projects Webinar World-leading experts on avionics certification from Rapita Systems and ConsuNova discuss multicore… Multicore for ISO 26262 - Demonstrating freedom from interference webinar In this webinar, you'll learn from world-leading experts on multicore timing analysis and… Case study GMV verify ISO26262 automotive software with RVS Rapita supported GMV engineers to implement a RapiCover integration to collect coverage results during testing Collins Aerospace: DO-178C code coverage analysis How our tools were used for DO-178C DAL A code coverage analysis for a complex flight control system. Alenia Aermacchi (Leonardo) M-346 Learn how RVS tools measured and improved the overall execution time of the flight control system on the M-346. DO-178B Level A Embraer FCS How our tools captured worst case timing and stack usage data for DO-178B Level A Embraer Flight Control Systems (FCS). Cobham Aerospace Connectivity: RapiCover continues to deliver on the most challenging targets How RapiCover efficiently produced coverage evidence for DO-178C certification of Cobham’s antenna control unit. BAE Systems Hawk Mission Computer Learn how RVS tools identified major worst-case execution time optimizations on the Hawk Trainer mission computer system. RapiCover’s advanced features accelerate the certification of military UAV Engine Control How RapiCover supported structural coverage analysis of MBE Systems' UAV Engine Control system. Triumph Integrated Systems: DO-178C Verification and Validation How Rapita’s V&V services produced evidence for DO-178C certification of Triumph’s actuation system software. Establishing WCET for the Airbus A330 Multi-Role Transport Tanker How RapiTime automated timing analysis and helped to identify timing hotspots in a military DO-178B project. Kappa: Verifying Airborne Video Systems for Air-to-Air Refueling using RVS How RVS tools helped Kappa to verify an airborne video system. Automating schedulability analysis of on-board software on the Solar Orbiter Learn how RVS tools created a measurement-based analysis of Solar Orbiter on-board software for schedulability. OHB Sweden: Efficient DO-178C code coverage analysis using RapiCover Learn how RapiCover increased the efficiency of code coverage analysis for OHB's DO-178C Attitude Orbital Control System. Wide Body Jet Flight Control System How our tools improved early detection and resolution of timing problems on a flight control system. Supporting ISO 26262 ASIL D software verification for EasyMile How RVS supported verification of EasyMile's ASIL D autonomous driving solutions. Supporting Collins Aerospace with DO-178C Enterprise Tool Qualification (RVS) How our Qualification Kits and Services are supporting Collins Aerospace's use of RVS in DO-178C projects. Validation of COTS Ada Compiler for Safety-Critical Applications How Rapita conducted a successful Ada compiler validation project. Delivering world-class tool support to Collins Aerospace How our Support Services are supporting Collins Aerospace's use of RVS in DO-178C projects. Infineon SafeTCore drivers Our tools helped to verify the timing correctness of Infineon’s SafeTCore Safety Drivers running on Infineon’s TriCore family. CDS gets WCET support for their next-generation custom processor How Rapita Systems worked with CDS to develop, implement and validate a WCET process that works with their development approach. Supporting DanLaw with unit testing and code coverage analysis for automotive software How RVS tools helped Danlaw pass their customer’s Software Risk Assessment Download Type (field_download_type) Research projectTechnical noteBrochureFAQOrder Information sheetProduct briefProduct preview Related products (field_related_products) MACH178 FoundationsRapiCouplingMACH178 BlueprintRVSRapiTestRapiCoverRapiTimeRapiTaskRapiCoverZeroRapiTimeZeroRapiTaskZeroRTBxMACH178RapiDaemonsRapiComplyMx-Suite Related services (field_related_services) Compiler verificationConsultancyMACH178 ServicesCustomizationEngineering ServicesEarly access programIntegrationMulticore Timing SolutionProof of conceptQualificationSoftware Verification ServicesSupportTraining Order Information sheet MACH178 Foundations Order Information MACH178 Foundations: Product description, licensing and purchasing options MACH178 Blueprint Order Information MACH178 Foundations: Product description, licensing and purchasing options RVS Aero Order Information RVS Aero: Product description, licensing and purchasing options RVS Auto Order Information RVS Auto: Product description, licensing and purchasing options RVS Space Order Information RVS Space: Product description, licensing and purchasing options RVS Acad Order Information RVS Acad: Product description, licensing and purchasing options Platform Support Packages Order information Platform Support Packages (for zero-footprint RVS tools): Order information. RapiDaemon DO-178C Tool Qualification Order Information RapiDaemons DO-178C (DO-330) Tool Qualification: Order information. RVS Tool Qualification for DO-178C Order Information RVS DO-178C (DO-330) Tool Qualification: Order information. RTBx Order Information RTBx data logger: product description, purchasing options and warranty Engineering Services Order Information Engineering services Order Information Sheet Brochure Rapita Systems Brochure Find out more about Rapita Systems' solutions, which meet the needs of software verification for critical embedded… MACH178 Learn how MACH178 can help you produce DO-178C, AC 20-193 and AMC 20-193 evidence for multicore… Software verification services for aerospace Learn how our Software Verification Services can help you reduce the cost of designing and implementing testing… Multicore timing analysis solution for automotive Learn how we identify and quantify interference channels in multicore hardware and help produce evidence that… Rapita Verification Suite (RVS) Training Brochure Learn how our training courses support efficient verification using RVS. Product brief Lay the groundwork for A(M)C 20-193 compliance with MACH178 Foundations Learn how MACH178 Foundations can lay the… Supporting your A(M)C 20-193 compliance with MACH178 Services Learn how MACH178 Services can support you on your multicore DO-178C (A(M)C 20-193) certification… Derisk your multicore certification approach with the MACH178 Blueprint Learn how the MACH178 Blueprint can help you understand what is required for multicore certification… Functional testing for critical software with RapiTest Learn how RapiTest integrates into development environments to perform unit, integration and system… On-target structural code coverage analysis with RapiCover Learn how RapiCover can help to reduce testing effort when conducting code coverage analysis. Measurement-based timing and WCET analysis with RapiTime Learn how RapiTime performs detailed timing and worst-case execution time analysis with minimal… Visualising RTOS Scheduling and Event Tracing with RapiTask Find out how RapiTask can help you to understand software scheduling behavior and diagnose scheduling… Interference channel analysis support for multicore airworthiness certification with RapiDaemons Learn how RapiDaemons create interference on shared resources in multicore systems, supporting… RapiDaemon Tool Qualification for DO-178C Learn how we provide tool qualification support for using RapiDaemons in projects requiring DO-… Zero-footprint coverage analysis with RapiCover Zero Learn how RapiCoverZero collects structural coverage metrics from software execution without… Zero-footprint execution time analysis with RapiTime Zero Learn how RapiTimeZero calculates the execution time of software without needing source code or… Zero-footprint RTOS event tracing with RapiTask Zero Learn how RapiTaskZero helps engineers understand the task-level scheduling behavior of their… RVS Tool Qualification for DO-178C Learn how we provide tool qualification support for using RVS in projects requiring DO-178B/C… RVS Tool Qualification for DO-278A Learn how we provide tool qualification support for using RVS in projects requiring DO-278A… Continuous tracing with the RTBx data logger Learn how the RTBx data logger provides a cost-effective and easy-to-use approach to collecting timing… Target Integration Service Learn how our Target Integration Service creates a robust integration of RVS tools into your… Data coupling and control coupling solutions for DO-178C Learn how our data coupling and control coupling solutions for DO-178C can help you implement an efficient approach to… Software support and maintenance Learn how we support RVS users through our Software support and maintenance service. Multicore DO-178C Training Learn how our multicore DO-178C training course helps you understand evidence of multicore verification for A(M)C 20-… Frozen Version Support Learn about the Rapita Systems software product life cycle and how we support projects with long lifetimes with our… RVS Proof of Concept study Learn how our RVS Proof of Concept studies help you identify the benefits of using RVS… Automotive Software Verification Services Learn how our Software Verification Services can help you reduce the cost of designing and implementing… FAQ Software licensing FAQ Answer your questions about our software licensing models and methods. Technical note Connecting the RTBx to Embedded Targets Learn how to connect the RTBx to embedded targets in order to collect verification data. Requirements for zero-footprint RVS analysis Learn the requirements for software analysis by zero-footprint RVS tools, and how to assess… Integrated Test Automation and Coverage for ISO 26262 using Mx-Suite with RapiCover Learn how integration between RapiCover and Mx-Suite allows coverage to be collected automatically… Using RapiTime with VxWorks to verify real-time performance Learn how RapiTime can be used with VxWorks to ensure that applications meet their timing requirements. Using RVS with iSYSTEM trace-enabled debuggers Learn how integrating RapiTime with iSYSTEM trace-enabled debuggers provides an effective way of… Using RapiTime and RapiTask with RTEMS® to verify real-time performance in a multicore environment Learn how RapiTime and RapiTask can be used with RTEMS to ensure that multicore… RVS trace capture using Lauterbach TRACE-32 PowerTrace Learn how Lauterbach PowerTrace can be used to collect traces for RapiTime analysis. Research project PROARTIS Learn about the PROARTIS project, which aimed to develop new tools, hardware and software architectures to allow… parMERASA Learn more about the parMERASA project, which aimed to demonstrate the use of multicore processors in real-time… PRESTO Find out more about the PRESTO project, which aimed to improve test-based embedded systems development and… VeTeSS Learn about the pan-European VeTeSS (Verification and Testing to Support Functional Safety Standards) project, which… PROXIMA Learn about the pan-European PROXIMA (Probabilistic real-time control of mixed-criticality multicore and manycore… MERASA Learn about what the MERASA project, which developed multicore processors for hard real-time embedded systems and… Product preview DCCC Analysis with RapiCoupling (Preview) Learn how the upcoming RapiCoupling tool will support Data Coupling and Control Coupling Analysis for… RapiTest Tool Qualification: ISO 26262 Learn how we provide tool qualification support for using RapiTest in projects requiring ISO… RapiCover Tool Qualification: ISO 26262 Learn how we provide tool qualification support for using RapiCover in projects requiring ISO… Videos Related product (field_video_related_product) MACH178 FoundationsRapiCouplingMACH178 BlueprintRVSRapiTestRapiCoverRapiTimeRapiTaskRapiCoverZeroRapiTimeZeroRapiTaskZeroRTBxMACH178RapiDaemonsRapiComplyMx-Suite Related services (field_video_related_services) Compiler verificationConsultancyMACH178 ServicesCustomizationEngineering ServicesEarly access programIntegrationMulticore Timing SolutionProof of conceptQualificationSoftware Verification ServicesSupportTraining Multicore Avionics Certification for High-integrity DO-178C projects MACH178 provides an end-to-end solution for providing certification evidence to satisfy multicore DO-178C airworthiness objectives, including AC 20-193, AMC 20-193 and C Streamlined AMC 20-193 compliance with MACH178 Foundations MACH178 Foundations includes an off-the-shelf set of template plans, procedures and checklists to help DO-178C software developers meet multicore airworthiness objective On-target software verification with RVS Discover how to run requirement based tests, produce coverage evidence and perform timing analysis for your applications on-target. Functional testing with RapiTest RapiTest – Functional testing for critical software. Structural coverage analysis with RapiCover RapiCover – Low-overhead coverage analysis for critical software. Execution time analysis with RapiTime RapiTime – In-depth execution time analysis for critical software. System event tracing with RapiTask RapiTask – RTOS scheduling visualization for critical software. Zero footprint coverage analysis with RapiCover Zero RapiCoverZero – Zero-footprint structural coverage analysis for critical software. Zero footprint timing analysis with RapiTime Zero RapiTimeZero – Zero-footprint in-depth execution time analysis for critical software. Zero-footprint system event tracing with RapiTask Zero RapiTaskZero – Zero-footprint RTOS scheduling visualization for critical software. Software verification of the Solar Orbiter's EPD The University of Alcala, who led the development of the EPD system, have used the Rapita Verification Suite to power their coverage and timing analysis testing. Tool automation in multicore timing analysis Tool automation supports the MACH178 solution, reducing the effort needed to run, collect results from and analyze tests of multicore timing behavior, and produce eviden Analyzing results from multicore timing analysis Learn how RapiTime supports the analysis of results from multicore timing analysis through a range of charts and visualization tools. Custom multicore exports with RVS RVS lets you generate custom exports for multicore timing analysis projects. Continuous verification with RVS and Bamboo Learn how RVS helps you track the progress of your software verification through continuous builds with Bamboo. Continuous verification with RVS and Jenkins Learn how RVS helps you track the progress of your software verification through continuous builds with Jenkins. Viewing software behavior at a glance with RVS treemaps Learn how RVS treemaps help you get an overview of verification progress and other metrics across your code base and help you easily understand your code hierarchy and structure at a glance. Analyze code complexity with RVS RVS collects and displays complexity metrics for analyzed code, allowing you to identify overly complex code for refactoring. Visualize call dependencies with RVS RVS lets you view and explore call dependencies in your code, making it easier to understand and verify it. Sequence analysis with RapiTime RapiTime lets you collect timing measurements between any points in your code, allowing you to calculate metrics such as response times, separation and periodicity. Optimizing tests to run after code changes with RVS Learn how RVS reduces the effort needed to rerun tests after code changes by identifying the optimal set of tests to rerun to assess the impact of the change. Easily configurable analysis with RVS Learn how RVS makes it easy to configure your analysis and instrumentation settings. Out-of-the-box software verification with Deos® and RVS Learn how easy it is to verify projects running on the Deos operating system with RVS due to an out-of-the-box integration. Complementary DO-178C verification with Ansys(R) SCADE Test(TM) and RVS Learn how RVS can complement the verification activities supported by ANSYS® SCADE® Test™, enabling on-target testing of model code Requirements traceability with RapiTest Learn how RapiTest helps you trace between your requirements-based tests and the requirements from which they were developed and track your requirements coverage. Easily manage test runs with RapiTest Learn how RapiTest makes it easy to select the tests you want to run with quick selection and filtering options. Generating test templates with RapiTest Learn how RapiTest's template generator helps you to generate test templates quickly. Testing using the RapiTest Editor Learn how the RapiTest Editor makes it easy to write RapiTest tests by providing an intuitive test authoring interface with context-sensitive assista Using support functions with RapiTest Learn how RapiTest support functions can help you increase testing efficiency by reusing test logic across multiple tests. Testing using spreadsheets in RapiTest Learn how the RapiTest Spreadsheet Format makes it easy to write tests, allowing testers to focus on testing not coding. Justifying untestable code with RapiCover Learn how RapiCover and RapiCoverZero justifications let you mark untestable code as covered by analysis. Merging coverage from multiple tests with RapiCover Learn how RapiCover helps you automatically merge coverage from multiple tests. Merging coverage from different builds with RapiCover Learn how RapiCover helps you automatically merge coverage from different builds. Using time bands to apply instrumentation with RapiTime Learn how RapiTime's Time Bands feature helps you automatically apply timing instrumentation based on the expected call frequencies of your code. Merging timing results with RapiTime RapiTime lets you merge timing results from multiple test runs, allowing you to collect data in parallel from multiple platforms or at different time points and collate your result Tool qualification with RVS Learn how RVS tool qualification solutions make it easy to qualify the use of RVS in DO-178C and ISO 26262 projects. Clear qualification guidance with RVS qualification kits Learn how RVS qualification kits help make the tool qualification process efficient by answering many of the questions commonly asked throughout it. Kickstart your verification with RVS tutorials Learn how RVS tutorials can help you kickstart your verification projects and learn how to use RVS efficiently. Multicore Timing Analysis Demo Darknet YOLOv3 Object Detection Enabling cost-effective modular avionics with FACE Major defense suppliers like Bell have embraced the Modular Open System Approach to enable quick, cost-effective new technology integration. Ask the expert: Multicore safety Lynx Software Technologies discusses the state of multicore safety with Rapita experts. Challenges of certifying multicore avionics in line with A(M)C 20-193 objectives - ATW Europe 2023 Multicore systems are being used more in critical avionics systems due to their improved SWaP characteristics, increasing need for performance, and decreasing availability of single core processors Timing Analysis for Critical Aerospace Embedded Software - ATW Global 2021 With the increasing use of multicore processors in the critical embedded aerospace industry, understanding how to perform timing analysis of these systems in line with AC 20-193, AMC 20-193 and CAS Verifying Multicore Systems supporting the FACE standard - ATW Global 2021 The Future Airborne Capability Environment (FACE™) consortium have developed an open architecture technical standard as well as business models for implementing FACE standards. MASTECS Project The MASTECS project aims to innovate and commercialize exploitable technology for multicore timing analysis. Streamlined software verification with RVS 3.21 RVS 3.21 streamlines software verification for safety-critical software. Launching critical software to success with RVS 3.20 RVS 3.20 streamlines software verification for mission and safety-critical software, and introduces a new, optimized approach for verification of space software. Streamlined software verification with RVS 3.19 Learn how RVS 3.19 streamlines software verification, making it more efficient than ever to create functional tests with test logic reusable across tests, bringing improved support Streamlined software verification with RVS 3.18 Learn how RVS 3.18 streamlines software verification, making it easier than ever to understand your project's structure, collect detailed timing measurements during test execu Accelerated verification with RVS 3.17 Learn how RVS 3.17 accelerates software verification, making it faster than ever to run verification projects through improved test authoring, easier merging of Revolutionized testing with RVS 3.16 Learn how RVS 3.16 revolutionizes software testing, bringing an all new intuitive GUI-based test editor for RapiTest, improved visualiza Multicore timing analysis support with RVS 3.15 Learn how RVS 3.15 makes software verification more efficient, bringing new features to support multicore timing analysis and a preview version of a new way to write tests for Rapi Streamlined software verification with RVS 3.14 Learn how RVS 3.14 makes software verification more efficient, including new features and enhancements for RapiTest, the ability to collect and analyze multicore p Using support functions with RapiTest Learn how RapiTest support functions can help you increase testing efficiency by reusing test logic across multiple tests. 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