In this paper we propose a new robust latch, referred to as HiPeR latch. It is insensitive to TFs affecting its internal and output nodes by design (independently of the size of its transistors), thus being scalable with technology node. It presents better or comparable robustness to TFs compared to the most recent latches in literature, while providing better characteristics in terms of performance at comparable area and power cost
The charge sharing effect is becoming increasingly severe due to the continuous reduction of semicon...
A low-power manufacturable multi-threshold voltage (multi-V<sub>th</sub>) brute force latch based on...
A high-performance and low power consumption triple-node upset self-recoverable latch (HTNURL) is pr...
In this paper we propose a new robust latch, referred to as HiPeR latch. It is insensitive to TFs af...
In this paper we propose a new robust latch, referred to as HiPeR latch. It is insensitive to TFs af...
none3First, a new high-performance robust latch (referred to as HiPeR latch) is presented that is in...
First, a new high-performance robust latch (referred to as HiPeR latch) is presented that is insensi...
First, a new high-performance robust latch (referred to as HiPeR latch) is presented that is insensi...
Due to semiconductor technology scaling, integrated circuits have become more sensitive to soft erro...
In this paper, we analyze the conditions making transient faults (TFs) affecting the nodes of conven...
In this paper, we analyze the conditions making transient faults (TFs) affecting the nodes of conven...
A GaAs latch design suitable for dynamic logic families is presented. This novel concept is compared...
This paper presents an IGZO-TFT latch circuit featuring high stability and simple structure with onl...
Various circuit topologies and FinFET technology options for implementing brute-force latches are ex...
This paper presents an IGZO-TFT latch circuit featuring high stability and simple structure with onl...
The charge sharing effect is becoming increasingly severe due to the continuous reduction of semicon...
A low-power manufacturable multi-threshold voltage (multi-V<sub>th</sub>) brute force latch based on...
A high-performance and low power consumption triple-node upset self-recoverable latch (HTNURL) is pr...
In this paper we propose a new robust latch, referred to as HiPeR latch. It is insensitive to TFs af...
In this paper we propose a new robust latch, referred to as HiPeR latch. It is insensitive to TFs af...
none3First, a new high-performance robust latch (referred to as HiPeR latch) is presented that is in...
First, a new high-performance robust latch (referred to as HiPeR latch) is presented that is insensi...
First, a new high-performance robust latch (referred to as HiPeR latch) is presented that is insensi...
Due to semiconductor technology scaling, integrated circuits have become more sensitive to soft erro...
In this paper, we analyze the conditions making transient faults (TFs) affecting the nodes of conven...
In this paper, we analyze the conditions making transient faults (TFs) affecting the nodes of conven...
A GaAs latch design suitable for dynamic logic families is presented. This novel concept is compared...
This paper presents an IGZO-TFT latch circuit featuring high stability and simple structure with onl...
Various circuit topologies and FinFET technology options for implementing brute-force latches are ex...
This paper presents an IGZO-TFT latch circuit featuring high stability and simple structure with onl...
The charge sharing effect is becoming increasingly severe due to the continuous reduction of semicon...
A low-power manufacturable multi-threshold voltage (multi-V<sub>th</sub>) brute force latch based on...
A high-performance and low power consumption triple-node upset self-recoverable latch (HTNURL) is pr...