We propose a new timing error correction scheme for area-efficient design of flip-flop based pipeline. Key features in the proposed scheme are 1) one-cycle error correction using a new local stalling scheme and 2) selective replacement of the error detection and correction flip-flops in critical paths only. A 32-bit MIPS testchip in a 65 nm CMOS technology has been implemented as a testbed. By employing the proposed scheme in the flop-flop based pipeline, the area overhead due to the retiming process (~21%) in the previous two-phase transparent latch based scheme can be eliminated. In addition, substantial area saving (16%) can be achieved compared to the state-of-the-art flip-flop based scheme thanks to the selective replacement of the err...
This paper discusses a timing error masking-aware ARM Cortex M0 microcontroller system. Through in-p...
The semiconductor industry is strategically focusing on automotive markets, and significant investme...
Flip-flops and latches are two options to construct pipelines in digital integrated circuits (ICs). ...
Aggressive reduction of timing margins, called timing speculation, is an effective way of reducing t...
Abstract—Timing error tolerance turns to be an important design parameter in nanometer technology, h...
Near-threshold voltage (NTV) operation has the potential to improve the energy efficiency of digital...
There is much focus on timing error resilience for the speed critical paths of processors. In the co...
becoming a major concern in circuit design. This paper presents a class of low-overhead flip-flops s...
Abstract- Pulse-triggered flip-flops are mainly used to improve speed of operation (pipeline speed),...
In Each and every electronic component, the Flip flop is the one of the major component in VLSI Low ...
This paper presents a timing error masking-aware ARM Cortex M0 microcontroller system. Timing errors...
Energy efficient semiconductor chips are in high demand to cater the needs of today’s smart products...
In this Part II of the paper, a comparison of the most representative flip-flop (FF) classes and top...
Soft errors that affect flip-flops are a major issue in advanced electronic circuits. As technology...
This paper discusses a timing error masking-aware ARM Cortex M0 microcontroller system. Through in-p...
The semiconductor industry is strategically focusing on automotive markets, and significant investme...
Flip-flops and latches are two options to construct pipelines in digital integrated circuits (ICs). ...
Aggressive reduction of timing margins, called timing speculation, is an effective way of reducing t...
Abstract—Timing error tolerance turns to be an important design parameter in nanometer technology, h...
Near-threshold voltage (NTV) operation has the potential to improve the energy efficiency of digital...
There is much focus on timing error resilience for the speed critical paths of processors. In the co...
becoming a major concern in circuit design. This paper presents a class of low-overhead flip-flops s...
Abstract- Pulse-triggered flip-flops are mainly used to improve speed of operation (pipeline speed),...
In Each and every electronic component, the Flip flop is the one of the major component in VLSI Low ...
This paper presents a timing error masking-aware ARM Cortex M0 microcontroller system. Timing errors...
Energy efficient semiconductor chips are in high demand to cater the needs of today’s smart products...
In this Part II of the paper, a comparison of the most representative flip-flop (FF) classes and top...
Soft errors that affect flip-flops are a major issue in advanced electronic circuits. As technology...
This paper discusses a timing error masking-aware ARM Cortex M0 microcontroller system. Through in-p...
The semiconductor industry is strategically focusing on automotive markets, and significant investme...
Flip-flops and latches are two options to construct pipelines in digital integrated circuits (ICs). ...