Author's Latest Posts


Speeding Down Memory Lane With Custom HBM


With the goal of increasing system performance per watt, the semiconductor industry is always seeking innovative solutions that go beyond the usual approaches of increasing memory capacity and data rates. Over the last decade, the High Bandwidth Memory (HBM) protocol has proven to be a popular choice for data center and high-performance computing (HPC) applications. Even more benefit can be rea... » read more

Multi-Die Health And Reliability: UCIe Advances


Although multi-die designs — an increasingly popular approach for integrating heterogeneous and homogenous dies into a single package — help resolve problems related to chip manufacturing and yield, they introduce a host of complexities and variables that must be addressed. In particular, designers must work diligently to ensure the health and reliability of their multi-die chip throughout ... » read more

Ensuring Multi-Die Package Quality And Reliability


Multi-die designs are gaining broader adoption in a wide variety of end applications, including high-performance computing, artificial intelligence (AI), automotive, and mobile. Despite clear advantages, there are new challenges that need to be addressed for successful multi-die realization. This article gives a high-level overview of the multi-die test challenges that go beyond the design p... » read more

Are You Ready For HBM4? A Silicon Lifecycle Management (SLM) Perspective


Many factors are driving system-on-chip (SoC) developers to adopt multi-die technology, in which multiple dies are stacked in a three-dimensional (3D) configuration. Multi-die systems may make power and thermal issues more complex, and they have required major innovations in electronic design automation (EDA) implementation and test tools. These challenges are more than offset by the advantages... » read more