Daniel Payne
Moderator
The folks at Aldec conduct webinars throughout the year on functional verification, and here are the top webinars for 2012 so far:
SystemVerilog: Who? What? When? Where?
Some groups treat SystemVerilog with reserve, partially justified by the wide scope of the language. This presentation explains which areas of SystemVerilog should be implemented by hardware designers. Main topics include Design Subset, Assertions, Verification Subset, Verification Methodologies (OVM/UVM). View Webinar
OVM and UVM - Building a SystemVerilog Testbench
This webinar introduces basic OVM concepts and shows how users with different levels of experience can rely on OVM to quickly build up a layered, coverage driven, transaction-level verification environment which can be reused across different designs. These concepts apply equally well to UVM. Aldec provides a precompiled OVM library and a SystemVerilog compatible simulator to help customers take advantage of this latest design verification technology to meet the challenge of verifying today’s complex designs. View Webinar
Fast Track to Active-HDL - Part 2
Learn about simulation settings and waveform viewer. This webinar training session covers various simulation settings to optimize the performance as well as how to use accelerated waveform viewer efficiently. View Webinar
OS-VVM: High-Level VHDL Verification
When facing the challenging task of implementing Constrained Random Stimulus or Functional Coverage in their testbench, VHDL designers used to make difficult choice between "reinventing the wheel" (writing appropriate code from scratch) and "using a square wheel" (using SystemVerilog for verification). Fortunately, there is a third option: Open Source VHDL Verification Methodology. View Webinar
DO-254 FPGA Level In-Target Testing
Functional verification of digital designs in real hardware has been a serious undertaking when developing under DO-254 standard. Section 6.2 Verification Process of RTCA/DO-254 specifies that requirements must be preserved and verified from RTL simulation stage to hardware verification stage. Learn about common challenges that are usually encountered during hardware verification, and more importantly, the solution to overcome these challenges. View Webinar
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SystemVerilog: Who? What? When? Where?
Some groups treat SystemVerilog with reserve, partially justified by the wide scope of the language. This presentation explains which areas of SystemVerilog should be implemented by hardware designers. Main topics include Design Subset, Assertions, Verification Subset, Verification Methodologies (OVM/UVM). View Webinar
OVM and UVM - Building a SystemVerilog Testbench
This webinar introduces basic OVM concepts and shows how users with different levels of experience can rely on OVM to quickly build up a layered, coverage driven, transaction-level verification environment which can be reused across different designs. These concepts apply equally well to UVM. Aldec provides a precompiled OVM library and a SystemVerilog compatible simulator to help customers take advantage of this latest design verification technology to meet the challenge of verifying today’s complex designs. View Webinar
Fast Track to Active-HDL - Part 2
Learn about simulation settings and waveform viewer. This webinar training session covers various simulation settings to optimize the performance as well as how to use accelerated waveform viewer efficiently. View Webinar
OS-VVM: High-Level VHDL Verification
When facing the challenging task of implementing Constrained Random Stimulus or Functional Coverage in their testbench, VHDL designers used to make difficult choice between "reinventing the wheel" (writing appropriate code from scratch) and "using a square wheel" (using SystemVerilog for verification). Fortunately, there is a third option: Open Source VHDL Verification Methodology. View Webinar
DO-254 FPGA Level In-Target Testing
Functional verification of digital designs in real hardware has been a serious undertaking when developing under DO-254 standard. Section 6.2 Verification Process of RTCA/DO-254 specifies that requirements must be preserved and verified from RTL simulation stage to hardware verification stage. Learn about common challenges that are usually encountered during hardware verification, and more importantly, the solution to overcome these challenges. View Webinar
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