Thermo-mechanical reliability issues have been identified as major bottlenecks in the development of future microelectronic components. This is caused by the following technology and business trends: (1) increasing miniaturisation, (2) introduction of new materials, (3) shorter time-to-market, (4) increasing design complexity and decreasing design margins, (5) shortened development and qualification times, (5) gap between technology and fundamental knowledge development [22]: It is now well estaba lished that for future CMOS-teclmologies (CMOS065 and beyond), low-k dielectric materials will be integrated in the back-end structures [8]. However, bad mechanical integrity as well as weak interfacial adhesion result in major thermo-mechanical r...
[[abstract]]As the electronics industry continues its efforts in miniaturizing the integrated circui...
The significance of interfacial delamination as a crucial failure mechanism in electronic packaging ...
The thermo-mechanical reliability of integrated circuits (ICs) gains importance due to the reducing ...
Thermo-mechanical reliability issues have been identified as major bottlenecks in the development of...
For integrated circuit (IC) wafer back-end development, state-of-the-art CMOS-technologies have to b...
Thernno-mechanical reliability issues have been identi-fied as major bottlenecks in the development ...
For the development of state-of-the-art Cu/low-k CMOS technologies, the integration and introduction...
For the development of state-of-the-art Cu/low-k CMOS technologies, the integration and introduction...
Design for thermo-mechanical reliability of electronics components on the basis of parameterized Fin...
\u3cp\u3eIn the development of present and future CMOStechnologies (CMOS065 and beyond) for microele...
In the development of present and future CMOS technologies (CMOS065 and beyond) for microelectronicc...
Design studies of electronics components on the basis of parameterized Finite Element Models and DoE...
Today’s microelectronic packages are typically composed of various materials, like silicon, metals, ...
[[abstract]]As the electronics industry continues its efforts in miniaturizing the integrated circui...
The significance of interfacial delamination as a crucial failure mechanism in electronic packaging ...
The thermo-mechanical reliability of integrated circuits (ICs) gains importance due to the reducing ...
Thermo-mechanical reliability issues have been identified as major bottlenecks in the development of...
For integrated circuit (IC) wafer back-end development, state-of-the-art CMOS-technologies have to b...
Thernno-mechanical reliability issues have been identi-fied as major bottlenecks in the development ...
For the development of state-of-the-art Cu/low-k CMOS technologies, the integration and introduction...
For the development of state-of-the-art Cu/low-k CMOS technologies, the integration and introduction...
Design for thermo-mechanical reliability of electronics components on the basis of parameterized Fin...
\u3cp\u3eIn the development of present and future CMOStechnologies (CMOS065 and beyond) for microele...
In the development of present and future CMOS technologies (CMOS065 and beyond) for microelectronicc...
Design studies of electronics components on the basis of parameterized Finite Element Models and DoE...
Today’s microelectronic packages are typically composed of various materials, like silicon, metals, ...
[[abstract]]As the electronics industry continues its efforts in miniaturizing the integrated circui...
The significance of interfacial delamination as a crucial failure mechanism in electronic packaging ...
The thermo-mechanical reliability of integrated circuits (ICs) gains importance due to the reducing ...