#110896856531116742
ulations, and Post silicon bring-up.
Experience verifying digital logic at Register-Transfer Level (RTL) using SystemVerilog for Application-Specific Integrated Circuits (ASICs).
Familiarity with ASIC standard interfaces and memory system architecture.
About the job
As a ASIC Design Verification Engineer, you will be part of a team developing ASICs used to accelerate computation in data centers. You will have dynamic, multi-faceted responsibilities in areas such as project definition, design verification, and silicon bringup. You will participate in the architecture, documentation, and verification of the next generation of data center accelerators.
Behind everything our users see online is the architecture built by the Technical Infrastructure team to keep it running. From developing and maintaining our data centers to building the next generation of Google platforms, we make Google's product portfolio possible. We're proud to be our engineers' engineers and love voiding warranties by taking things apart so we can rebuild them. We keep our networks up and running, ensuring our users have the best and fastest experience possible.
The US base salary range for this full-time position is $127,000-$187,000 + bonus + equity + benefits. Our salary ranges are determined by role, level, and location. The range displayed on each job posting reflects the minimum and maximum target salaries for the position across all US locations. Within the range, individual pay is determined by work location and additional factors, including job-related skills, experience, and relevant education or training. Your recruiter can share more about the specific salary range for your preferred location during the hiring process.
Please note that the compensation details listed in US role postings reflect the base salary only, and do not include bonus, equity, or benefits. Learn more about benefits at Google .
Responsibilities
Plan the verification of complex digital design blocks, understand the design specification, and interact with design engineers to identify important verification scenarios.
Create a constrained-random verification environment using SystemVerilog and Universal Verification Methodology (UVM).
Identify and write all types of coverage measures for stimulus and corner-cases.
Debug tests with design engineers to deliver correct design blocks.
Close coverage measures to identify verification holesand to show progress towards tape-out.