Kshitiz Krishna

Title: Kshitiz Krishna: Innovator in System-on-Chip Design

Introduction

Kshitiz Krishna is a prominent inventor based in Noida, India. He has made significant contributions to the field of System-on-Chip (SoC) design, holding 2 patents that address critical challenges in the industry. His work focuses on enhancing design closure processes and analyzing physical implementation issues in integrated circuit designs.

Latest Patents

Kshitiz Krishna's latest patents include a method for achieving global design closure at the top level and an efficient method to analyze RTL structures that cause physical implementation issues. The first patent discloses a method that allows designers to achieve global design closure and physical topology constraints early in the design cycle. This method converts the logic hierarchy of the design into a physical hierarchy of functional-related clusters, enabling designers to generate a top-level floor plan that guides downstream tools for predictable design implementation. The second patent provides a method for detecting physical implementation hot-spots in pre-placement integrated circuit designs. It identifies physical issues at an object level, including timing, routing congestion, and thermal concerns, and analyzes these issues to determine the severity of physical implementation hot-spots.

Career Highlights

Kshitiz Krishna is currently employed at Atrenta, Inc., where he continues to innovate in the field of SoC design. His expertise in design closure and physical implementation has made him a valuable asset to his team and the industry as a whole.

Collaborations

Kshitiz collaborates with talented professionals such as Ravi Varadarajan and Jitendra Kumar Gupta, contributing to a dynamic work environment that fosters innovation and creativity.

Conclusion

Kshitiz Krishna's contributions to the field of System-on-Chip design through his patents and collaborative efforts highlight his role as a leading inventor in the industry. His work not only addresses current challenges but also paves the way for future advancements in integrated circuit design.