David Sliwinski

Title: David Sliwinski: Innovator in Integrated Circuit Testing

Introduction

David Sliwinski is a notable inventor based in Vestal, NY (US). He has made significant contributions to the field of integrated circuit testing, holding a total of 3 patents. His work focuses on improving the methods and systems used for testing integrated circuits, which are crucial for ensuring the reliability and functionality of electronic devices.

Latest Patents

Sliwinski's latest patents include a "System to control insertion of care-bits in an IC test vector improved optical probing." This patent describes systems, methods, and computer-readable media that generate test vectors for exercising specific areas of interest in integrated circuits. The test vectors consist of a non-overlapping repeating and/or predictable sequence of care bits, which are essential for analyzing and debugging circuits. Another significant patent is the "Method and article of manufacture to generate IC test vector for synchronized physical probing." This invention also focuses on generating test vectors that facilitate the exercise of integrated circuit areas, allowing for effective analysis and debugging.

Career Highlights

David Sliwinski is currently employed at Cadence Design Systems, Inc., a leading company in electronic design automation. His role involves developing innovative solutions that enhance the testing processes for integrated circuits. His expertise in this area has positioned him as a valuable asset to his team and the industry.

Collaborations

Sliwinski has collaborated with notable colleagues, including Thomas Webster Bartenstein and Joseph Michael Swenton. These collaborations have contributed to the advancement of technologies in integrated circuit testing.

Conclusion

David Sliwinski's contributions to integrated circuit testing through his patents and work at Cadence Design Systems, Inc. highlight his importance in the field of electronics. His innovative approaches continue to influence the development of reliable electronic devices.