The existing controllers were outdated, resulting in slow performance and frequent communication errors.
Communication errors led to tool unavailability, impacting production schedules and efficiency.
Critical FDC data was missing due to communication errors, posing a risk of yield deterioration for wafers.
We conducted a thorough assessment of the existing controllers and identified the limitations causing performance issues.
Based on the assessment, we identified the need for controller upgrades to address the communication errors and improve tool performance.
The upgrade process involved the installation of new controllers equipped with advanced features to eliminate communication errors and enhance tool performance.
Post-upgrade, rigorous testing and validation were conducted to ensure the new controllers functioned seamlessly and met the company's requirements.
Once validated, the upgraded controllers were deployed across various customer sites to improve tool uptime and data collection capabilities.
We conducted a thorough assessment of the existing controllers and identified the limitations causing performance issues.
Based on the assessment, we identified the need for controller upgrades to address the communication errors and improve tool performance.
The upgrade process involved the installation of new controllers equipped with advanced features to eliminate communication errors and enhance tool performance.
Post-upgrade, rigorous testing and validation were conducted to ensure the new controllers functioned seamlessly and met the company's requirements.
Once validated, the upgraded controllers were deployed across various customer sites to improve tool uptime and data collection capabilities.
The upgraded controllers resulted in notably faster response times, eliminating sluggishness and enhancing overall tool performance.
Additional FDC parameters could be collected from the tools without any data lag or loss, providing more comprehensive insights for process optimization.
The elimination of communication errors led to enhanced tool uptime, ensuring uninterrupted production schedules and improved efficiency.