The biggest benefit is ultimately to help to reduce design load. This slide outlines the process flow when designing a new board in applications. Looking at the top figure that shows the process flow with a conventional OpAmp. Generally in any given set design, noise countermeasures are implemented after functional design is completed. However, this additional noise design step is normally difficult, inaccurate, and time consuming. Next step is fabrication followed by functional and noise evaluation. If noise evaluation fails, designers often need to re-start the process to accommodate noise design and then complete the entire process over again. On the other hand, ROHM’s product allows the design period to be significantly reduced by eliminating the need to implement noise countermeasures after function design. Once it passes evaluation the design cycle can be reduced by half compared with conventional OpAmps. So as a result, ROHM’s noise-tolerant design reduces design load and costs while enabling quicker development time to meet short delivery demands.