At Rambus, we create cutting-edge semiconductor and IP products, spanning memory and interfaces to security, smart sensors and lighting.
Bring-up and validation of the advanced SoCs is increasingly difficult in today’s fast-paced technology lifecycle. Developed with these challenges in mind, the LabStation platform includes software and hardware to provide a straightforward and accurate method for testing chips and systems.
Design complexity for advanced SoCs rises with each new process node, performance increase, and addition of new IP blocks. Designers are faced with increasing challenges to confidently verify and validate functionality of their chips.
The LabStation Validation platform is a comprehensive tool suite for the rapid bring-up, validation and characterization of complex low-power, high-performance memory and serial link IP. It is designed to be easy to use and improve productivity while providing improved accuracy of test results and confidence is system performance.
The platform features an enhanced user interface to improve the usability and control of IP including access to on-chip circuits, on-board devices, measurement equipment and 3rd party tools. This helps customers validate our R+ Memory and Serial Link PHYs to enhance the quality and reduce time-to-market of their chips and systems. The suite is proven in high-volume applications and offers an effective set of on-chip, automated test tools for validating the designs of advanced memory sub-systems and high-speed serial links for production.
Our LabStation platform provides a fully-automated characterization environment. This simplifies the characterization process and reduces time-to-market by quickly and accurately collecting very high-throughput data across a wide range of temperature and voltage conditions through automated test scripts.
Finally, the LabStation tool suite enables advanced test functionality for chips that utilize 2.5 and 3D packages where taking measurements with a hand probe is inaccurate and, in some instances, impossible to do.
FlexPhase per bit timing adjustment circuits deskew data and clock signals to improve signal integrity and simplify package and PCB system design.
ODT calibration enables higher data rates and superior DRAM device and module performance by establishing the optimal termination value to compensate for variations in process and operating conditions that degrade signal performance.