Abstract—Timing error tolerance turns to be an important design parameter in nanometer technology, high speed and high complexity integrated circuits. In this work, we present a low cost, multiple timing error detection and correction technique, which is based on a new Flip-Flop design. The proposed design approach provides timing error tolerance at the small penalty of one clock cycle delay in the circuit operation for each error correction. In addition, it is characterized by very low silicon area requirements compared to previous design schemes in the open literature. The proposed technique has been applied in a 90nm pipeline design of a digital FIR filter and the simulation results validated its efficiency
Abstract: This paper presents the first known timing-error detection (TED) microprocessor able to op...
As CMOS technology advances to the nanometer scale, semiconductor industry is enjoying the ever-incr...
This paper discusses a timing error masking-aware ARM Cortex M0 microcontroller system. Through in-p...
International audienceTiming failures in high complexity - high frequency ...
International audienceIn this work we caution that future nanometer circuits will contain undetected...
Near-threshold voltage (NTV) operation has the potential to improve the energy efficiency of digital...
Abstract—Timing failures of high complexity- high frequency circuit designs, which are mainly caused...
Excessive power dissipation causes overheating, which can lead multiple impacts like, packaging cost...
Timing error is now getting increased attention due to the high rate of error-occurrence on ...
We propose a new timing error correction scheme for area-efficient design of flip-flop based pipelin...
Abstract- As the feature size of chips shrinks with semiconductor technology advancing, the size of ...
IC technologies are approaching the ultimate limits of silicon in terms of channel width, power supp...
This paper presents a timing error masking-aware ARM Cortex M0 microcontroller system. Timing errors...
[[abstract]]©2008 IEEE-Delay variation can cause a design to fail its timing specification. Ernst in...
This paper presents the first known timing-error detection (TED) microprocessor able to operate in s...
Abstract: This paper presents the first known timing-error detection (TED) microprocessor able to op...
As CMOS technology advances to the nanometer scale, semiconductor industry is enjoying the ever-incr...
This paper discusses a timing error masking-aware ARM Cortex M0 microcontroller system. Through in-p...
International audienceTiming failures in high complexity - high frequency ...
International audienceIn this work we caution that future nanometer circuits will contain undetected...
Near-threshold voltage (NTV) operation has the potential to improve the energy efficiency of digital...
Abstract—Timing failures of high complexity- high frequency circuit designs, which are mainly caused...
Excessive power dissipation causes overheating, which can lead multiple impacts like, packaging cost...
Timing error is now getting increased attention due to the high rate of error-occurrence on ...
We propose a new timing error correction scheme for area-efficient design of flip-flop based pipelin...
Abstract- As the feature size of chips shrinks with semiconductor technology advancing, the size of ...
IC technologies are approaching the ultimate limits of silicon in terms of channel width, power supp...
This paper presents a timing error masking-aware ARM Cortex M0 microcontroller system. Timing errors...
[[abstract]]©2008 IEEE-Delay variation can cause a design to fail its timing specification. Ernst in...
This paper presents the first known timing-error detection (TED) microprocessor able to operate in s...
Abstract: This paper presents the first known timing-error detection (TED) microprocessor able to op...
As CMOS technology advances to the nanometer scale, semiconductor industry is enjoying the ever-incr...
This paper discusses a timing error masking-aware ARM Cortex M0 microcontroller system. Through in-p...