Masae Sasakawa

Title: Masae Sasakawa: Innovator in Semiconductor Data Processing

Introduction

Masae Sasakawa is a prominent inventor based in Kodaira, Japan. She has made significant contributions to the field of semiconductor technology, particularly in data processing devices. With a total of two patents to her name, her work focuses on enhancing efficiency and reducing power consumption in electronic systems.

Latest Patents

Masae Sasakawa's latest patents include a semiconductor data processing device and a data processing system. These innovations aim to achieve low power consumption during both standby and operational states while accelerating interfacing operations. The semiconductor data processing device is designed to connect a non-volatile storage device to a general-purpose bus of a host system. It intelligently transitions between active and standby states based on the general-purpose bus's status. In standby mode, the device halts the internal clock signal and applies a substrate bias voltage to minimize potential sub-threshold leak currents. This bias voltage is also directed to the central processing unit and the rewritable non-volatile memory, which stores the control program executed by the CPU. The central processing unit processes data in units of n bits or less, while the interface controller and data transfer controller handle parallel data in units of 2n bits.

Career Highlights

Masae has worked with notable companies in the semiconductor industry, including Renesas Technology Corporation and Renesas Northern Japan Semiconductor, Inc. Her experience in these organizations has contributed to her expertise in semiconductor data processing technologies.

Collaborations

Masae has collaborated with esteemed colleagues such as Toru Ichien and Wataru Yamaguchi. Their joint efforts have further advanced the field of semiconductor technology.

Conclusion

Masae Sasakawa's innovative work in semiconductor data processing devices showcases her commitment to improving technology efficiency and performance. Her contributions are significant in the ongoing evolution of electronic systems.