Ultra-short TAT

Ultra-short TAT design

We can feed back the trial results in an appropriate form on our proprietary design automation platform. By doing so, we can realize the final layout of ultra-large chip with ultra-short TAT by proposing improvement of customer’s design and facilitating timing convergence by original clock architecture.

We also have close partnerships with each EDA vendor to incorporate the capabilities of the most advanced EDA tools into the design methodology. We flexibly propose an optimal design flow that supports multiple EDA vendor tools for process node and application requirements.

To solve the problem of inter-block timing, which causes the design to be reworked on a large-scale chip, we have implemented an advanced solution that incorporates the Cadence Design Systems Innovus function.

In addition, for the final timing convergence work that requires iteration, we have quickly introduced a flow using Synopsys’ HyperScale model to achieve a short TAT.

Ultra-short TAT design

We can feed back the trial results in an appropriate form on our proprietary design automation platform. By doing so, we can realize the final layout of ultra-large chip with ultra-short TAT by proposing improvement of customer’s design and facilitating timing convergence by original clock architecture.

We also have close partnerships with each EDA vendor to incorporate the capabilities of the most advanced EDA tools into the design methodology. We flexibly propose an optimal design flow that supports multiple EDA vendor tools for process node and application requirements.

To solve the problem of inter-block timing, which causes the design to be reworked on a large-scale chip, we have implemented an advanced solution that incorporates the Cadence Design Systems Innovus function.

In addition, for the final timing convergence work that requires iteration, we have quickly introduced a flow using Synopsys’ HyperScale model to achieve a short TAT.