© 2015 AIP Publishing LLC. Driven by the need to reduce the power consumption of mobile devices, and servers/data centers, and yet continue to deliver improved performance and experience by the end consumer of digital data, the semiconductor industry is looking for new technologies for manufacturing integrated circuits (ICs). In this quest, power consumed in transferring data over copper interconnects is a sizeable portion that needs to be addressed now and continuing over the next few decades. 2.5D Through-Si-Interposer (TSI) is a strong candidate to deliver improved performance while consuming lower power than in previous generations of servers/data centers and mobile devices. These low-power/high-performance advantages are realized throu...
Silicon interposers enable the heterogeneous integration of high performance systems. This paper foc...
The consistent cadence of Moore's Law has long driven improvement in compute performance by deliveri...
The most significant challenge for continued integration of complex systems is energy efficiency. 3D...
© 2015 AIP Publishing LLC. Driven by the need to reduce the power consumption of mobile devices, and...
Continuous trend over the previous decades towards faster smaller systems was mainly driven by Moore...
The objective of the proposed research is to design and demonstrate advanced interconnection and the...
Signal integrity and thermal management are the two major challenges in heterogeneous integration te...
PhD ThesisThe aggressive scaling of CMOS process technology has been driving the rapid growth of th...
Two dimensional (2D) integration has been the traditional approach for IC integration. Due to increa...
First of all, I must admit that I don't like the naming "2.5D" for interposer technology; for a phys...
At UCLA Center for Heterogeneous Integration and Performance Scaling (CHIPS), we have been developin...
3D integration is a key solution to the predicted performance increase of future electronic systems....
Abstract: We present results of the development of high-density 3-D interconnect technology that is ...
Heterogeneous integration is one of the key topics for future system integration to address today's ...
Abstract-3D integration is a fast growing field that encompasses different types of technologies. Th...
Silicon interposers enable the heterogeneous integration of high performance systems. This paper foc...
The consistent cadence of Moore's Law has long driven improvement in compute performance by deliveri...
The most significant challenge for continued integration of complex systems is energy efficiency. 3D...
© 2015 AIP Publishing LLC. Driven by the need to reduce the power consumption of mobile devices, and...
Continuous trend over the previous decades towards faster smaller systems was mainly driven by Moore...
The objective of the proposed research is to design and demonstrate advanced interconnection and the...
Signal integrity and thermal management are the two major challenges in heterogeneous integration te...
PhD ThesisThe aggressive scaling of CMOS process technology has been driving the rapid growth of th...
Two dimensional (2D) integration has been the traditional approach for IC integration. Due to increa...
First of all, I must admit that I don't like the naming "2.5D" for interposer technology; for a phys...
At UCLA Center for Heterogeneous Integration and Performance Scaling (CHIPS), we have been developin...
3D integration is a key solution to the predicted performance increase of future electronic systems....
Abstract: We present results of the development of high-density 3-D interconnect technology that is ...
Heterogeneous integration is one of the key topics for future system integration to address today's ...
Abstract-3D integration is a fast growing field that encompasses different types of technologies. Th...
Silicon interposers enable the heterogeneous integration of high performance systems. This paper foc...
The consistent cadence of Moore's Law has long driven improvement in compute performance by deliveri...
The most significant challenge for continued integration of complex systems is energy efficiency. 3D...