Last updated 11/2022
Created by Kumar Khandagle
MP4 | Video: h264, 1280×720 | Audio: AAC, 44.1 KHz, 2 Ch
Genre: eLearning | Language: English + srt | Duration: 180 Lectures ( 10h 51m ) | Size: 4.37 GB
Step by Step Guide for building Verification Environment from Scratch
What you’ll learn
Fundamentals of Universal Verification Methodology
Reporting Macros and associated actions
UVM Object and UVM Component
UVM Phases
TLM Communication
Sequences
UVM Debugging features
Building UVM Verification Environment from Scratch
Requirements
Fundamentals of SystemVerilog Testbench Environment
Description
Writing Verilog test benches is always fun after completing RTL Design. You can assure clients that the design will be bug-free in tested scenarios. As System complexity is growing day by day, System Verilog becomes a choice for verification due to its powerful capabilities and reusability helping verification engineers quickly locate hidden bugs. The System Verilog lags structured approach whereas UVM works very hard on forming a general skeleton. The addition of the configuration database Shifts the way we used to work with the Verification Language in the past. Within a few years, verification engineers recognize the capabilities of UVM and adopted UVM as a defacto standard for the RTL Design verification. The UVM will have a long run in the Verification domain hence learning of UVM will help VLSI aspirants to pursue a career in this domain.The course will discuss the fundamentals of the Universal Verification Methodology. This is a Lab-based course designed such that anyone without prior OOPS or system Verilog experience can immediately start writing UVM components such as Transaction, Generator, Sequencer, Driver, monitor, Scoreboard, Agent, Environment, Test. Numerous coding exercises, projects, and simple examples are used throughout the course to build strong foundations of the UVM.
Who this course is for
Anyone interested in Verification Engineer Role
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