Innovative Career Paths in Analog Electronics: ASIC Engineer's Journey
Europe, Wednesday, 28 May 2025.
Suchismita Bose, an ASIC engineer at NVIDIA, elaborates on her unique path to analog electronics, driven by interests in autonomous vehicles, surgical robotics, and AI hardware.
Pioneering New Frontiers in Technology
Suchismita Bose, working at the forefront of technology as an ASIC engineer at NVIDIA, describes her diverse journey through analog electronics with applications in autonomous vehicles, surgical robotics, and AI hardware. Her foundation in Very Large-Scale Integration (VLSI), obtained during her studies at IIT Kanpur, laid the groundwork for a keen interest in these emerging technologies [1]. Bose emphasizes that understanding the intricacies of hardware technologies is pivotal for progress in these fields, as it enables innovations that propel developments across various industries [1].
Analog Electronics: Connecting the Dots
Analog electronics serves as the bridge between our physical world and digital technology. At its core, analog design involves converting real-world signals, like sound and light, into electronic data that can be processed by digital systems [3]. This process is integral to numerous applications, including consumer electronics and automotive systems, where precision in design is crucial to functional performance [3]. For instance, creating a Linear Dropout Regulator (LDO) requires precise input parameters such as maximum output current load and circuit type [3].
Design Considerations in Analog Circuitry
The design cycle of analog circuits includes critical stages such as system-level specifications, architectural design, and detailed simulations. Each phase addresses essential considerations like power consumption, performance, and the physical area of chip components, ensuring the circuit meets its intended function [3]. These aspects are particularly vital in custom chip development for specific applications, where the accuracy of simulation and design entry determines the success of the project [3].
Impact of Analog Technologies on Future Innovations
The future of analog circuit design is promising, with abundant opportunities to explore smaller process nodes that offer high performance at lower power consumption levels. As these technologies advance, they are expected to play a crucial role in developing next-generation solutions for both industrial and consumer markets [3]. The continuous evolution of analog design methodologies, alongside advancements in related fields such as RF IC design, ensures a dynamic landscape for engineers like Bose, who are committed to pushing the boundaries of what’s possible in electronics [3].