Difference between revisions of "T-VEC Vector Generation System"

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(Recent Changes)
 
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*Test results analysis
 
*Test results analysis
 
*Project status and measurement
 
*Project status and measurement
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The T-VEC VGS has a number of advanced features and reports - see [[VGS Advanced Topics|VGS Advanced Topics]].
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==Recent Changes==
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<p>
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<b>The Test Vector Generator System (VGS) 3.6.0 is now generally available.</b>
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</p>
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<p>
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New and improved functionality includes:
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<ul>
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<li>New Project Explorer tab area - The Scenario View - This provides customer configuration of test vector generation on a DCP by DCP, or sets of DCPs, basis.</li>
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<li>Ability to specify ranges of DCP in Domain Convergence Paths options. ("DCP Numbers" and "Skip DCPs")</li>
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<li>Added the ability to set minimum domain boundaries for Float32 and Float64 variables</li>
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<li>Improved VGS to Simulink block navigation</li>
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<li>Improved VGS to TTM navigation</li>
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<li>1-Dimensional array support in test vector generator, in support of TTM</li>
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<li>Vector generation performance enhancements.</li>
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<li>Updated the Consult Subordinate Vectors vector generation heuristic to support TTM tables with structured outputs.</li>
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<li>Removed obsolete VGS menu items, renamed other menu items for additional clarity.</li>
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<li>Added new material to VGS Reference Guide in the section on VGS GUI.
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</li>
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</ul>
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Please see the [https://www.t-vec.com/support/secure/readme.php?ID=146 Release Notes] for more details on the changes in this release.
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</p>
  
 
==History==
 
==History==
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For tests derived from TTM models, these test might be executed in a variety of ways (see [[Examples|Examples]]). One handy mechanism is to use the VGS Toolbox to link to a mechanism for quickly performing the test execution.
 
For tests derived from TTM models, these test might be executed in a variety of ways (see [[Examples|Examples]]). One handy mechanism is to use the VGS Toolbox to link to a mechanism for quickly performing the test execution.
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==Code Coverage==
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T-VEC tools integrate with code coverage tools such as [http://www.ldra.com/tbrun_moreinfo.asp LDRA TBrun] to provide a means to assess [[Model_Coverage|test code coverage]] such as MC/DC test coverage. The T-VEC Testers for Simulink provides users selectable options to generate test drivers in the form of LDRA TBrun .tcf files. These input/output value sets are used by TBrun when it creates test driver wrappers for the code from the input and output values, and other configuration information, that make up the .tcf files. TBrun provide measurement and reports such as MC/DC test coverage achieved by the test vectors generated by T-VEC.
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Similar test driver configurations have been created for test drivers generated from TTM to leverage LRDA's TBrun test coverage information, and other code-based test coverage tools.
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See other [[T-VEC Tool Integrations]].
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See also [[VGS_Advanced_Topics#Extended MCDC Coverage|Extended MC/DC Coverage]].
  
 
==Reports, Status and Measures==
 
==Reports, Status and Measures==

Latest revision as of 08:43, 20 May 2009