Embedded SRAM bit count is constantly growing limiting yield in systems-on-chip (SoCs). As technology scales into deep sub-100-nm feature sizes, the increased defect density and process spreads make stability of embedded SRAMs a major concern. This paper introduces a digitally programmable detection technique, which enables detection of SRAM cells with compromised stability [with data retention faults (DRFs) being a subset]. The technique utilizes a set of cells to modify the bitline voltage, which is applied to a cell under test (CUT). The bitline voltage is digitally programmable and can be varied in wide range, modifying the pass/fail threshold of the technique. Programmability of the detection threshold allows tracking process variation...
International audienceIn today's electronic designs, more and more memories are embedded in a single...
Emerging technology trends are gravitating towards extremely high levels of integration at the packa...
In nano-meter scale SRAM arrays, systematic inter-die and random within-die variations in process pa...
Embedded SRAM bit count is constantly growing limiting yield in systems-on-chip (SoCs). As technolog...
Reliable cell stability test of modern embedded SRAMs calls for DFT techniques with a flexible detec...
SRAM cell stability has become an important design and test issue owing to significant process sprea...
SRAM cell stability has become an important design and test issue owing to significant process sprea...
Stability testing of SRAMs has been time consuming. This paper presents a new programmable DFT techn...
Abstract—Core-cell stability represents the ability of the core-cell to keep the stored data. With t...
Abstract—With increasing inter-die and intra-die parameter variations in sub-100-nm process technolo...
As CMOS technology continuously scales, the process variability becomes a major challenge in designi...
Includes bibliographical references (leaf 26)In a nanometer scale static-RAM (SRAM) cells the read a...
In this paper, we present a novel study on Data Retention Faults (DRFs) in SRAM memories. We analyze...
The shrinking of technology nodes has led to high density memories containing large amounts of trans...
Low power design by near-threshold voltage (NTV) operation is very attractive since it affords to co...
International audienceIn today's electronic designs, more and more memories are embedded in a single...
Emerging technology trends are gravitating towards extremely high levels of integration at the packa...
In nano-meter scale SRAM arrays, systematic inter-die and random within-die variations in process pa...
Embedded SRAM bit count is constantly growing limiting yield in systems-on-chip (SoCs). As technolog...
Reliable cell stability test of modern embedded SRAMs calls for DFT techniques with a flexible detec...
SRAM cell stability has become an important design and test issue owing to significant process sprea...
SRAM cell stability has become an important design and test issue owing to significant process sprea...
Stability testing of SRAMs has been time consuming. This paper presents a new programmable DFT techn...
Abstract—Core-cell stability represents the ability of the core-cell to keep the stored data. With t...
Abstract—With increasing inter-die and intra-die parameter variations in sub-100-nm process technolo...
As CMOS technology continuously scales, the process variability becomes a major challenge in designi...
Includes bibliographical references (leaf 26)In a nanometer scale static-RAM (SRAM) cells the read a...
In this paper, we present a novel study on Data Retention Faults (DRFs) in SRAM memories. We analyze...
The shrinking of technology nodes has led to high density memories containing large amounts of trans...
Low power design by near-threshold voltage (NTV) operation is very attractive since it affords to co...
International audienceIn today's electronic designs, more and more memories are embedded in a single...
Emerging technology trends are gravitating towards extremely high levels of integration at the packa...
In nano-meter scale SRAM arrays, systematic inter-die and random within-die variations in process pa...