Abstract—With increasing inter-die and intra-die parameter variations in sub-100-nm process technologies, new failure mech-anisms are emerging in CMOS circuits. These failures lead to reduction in reliability of circuits, especially the area-constrained SRAM cells. In this paper, we have analyzed the emerging failure mechanisms in SRAM caches due to transistor variations, which results from process variations. Also we have proposed solutions to detect those failures efficiently. In particular, in this work, SRAM failure mechanisms under transistor variations are mapped to logic fault models. March test sequences have been optimized to address the emerging failure mechanisms with minimal overhead on test time. Moreover, we have proposed a de...
Process parameter variations are expected to be significantly high in a sub-50-nm technology regime,...
SRAM cell stability has become an important design and test issue owing to significant process sprea...
In this thesis, we study the problem of faults in modern semiconductor memory structures and their t...
Abstract—Process variations are growing with technology scaling towards nano-scale. This brings new ...
Abstract—Core-cell stability represents the ability of the core-cell to keep the stored data. With t...
In this thesis the importance of DFTs in the detection of DRFs in embedded SRAMs have been presented...
Resistive random access memory (RRAM) is vying to be one of the main universal memories for computin...
Embedded SRAM bit count is constantly growing limiting yield in systems-on-chip (SoCs). As technolog...
Testing and diagnosis techniques play a key role in the advance of semiconductor memory technology. ...
Stability testing of SRAMs has been time consuming. This paper presents a new programmable DFT techn...
This paper presents an applying of march test algorithms to diagnose coupling faults (CFs) of SRAMs ...
Testing and diagnosis techniques play a key role in the advance of semiconductor memory technologies...
Emerging technology trends are gravitating towards extremely high levels of integration at the packa...
New memory technologies and processes introduce new defects that cause previously unknown faults. Dy...
The fast growing of technologies has enabled the Static Random Access Memories (SRAMs) to contain hi...
Process parameter variations are expected to be significantly high in a sub-50-nm technology regime,...
SRAM cell stability has become an important design and test issue owing to significant process sprea...
In this thesis, we study the problem of faults in modern semiconductor memory structures and their t...
Abstract—Process variations are growing with technology scaling towards nano-scale. This brings new ...
Abstract—Core-cell stability represents the ability of the core-cell to keep the stored data. With t...
In this thesis the importance of DFTs in the detection of DRFs in embedded SRAMs have been presented...
Resistive random access memory (RRAM) is vying to be one of the main universal memories for computin...
Embedded SRAM bit count is constantly growing limiting yield in systems-on-chip (SoCs). As technolog...
Testing and diagnosis techniques play a key role in the advance of semiconductor memory technology. ...
Stability testing of SRAMs has been time consuming. This paper presents a new programmable DFT techn...
This paper presents an applying of march test algorithms to diagnose coupling faults (CFs) of SRAMs ...
Testing and diagnosis techniques play a key role in the advance of semiconductor memory technologies...
Emerging technology trends are gravitating towards extremely high levels of integration at the packa...
New memory technologies and processes introduce new defects that cause previously unknown faults. Dy...
The fast growing of technologies has enabled the Static Random Access Memories (SRAMs) to contain hi...
Process parameter variations are expected to be significantly high in a sub-50-nm technology regime,...
SRAM cell stability has become an important design and test issue owing to significant process sprea...
In this thesis, we study the problem of faults in modern semiconductor memory structures and their t...