The semiconductor industry is strategically focusing on automotive markets, and significant investment is targeted to addressing these markets. Runtime better-than-worst-case designs like Razor lead to massive timing errors upon breaching the critical operating point and have significant area overheads. As we scale to higher-reliability automotive and industrial markets we need alternative techniques that will allow full extraction of the power benefits without sacrificing reliability. The proposed method utilizes positive slack available in the pipeline stages and re-distributes it to the preceding critical logic stage using Slack Balancing Flip-Flops (SBFFs). We use opportunistic under designing to get rid of the area, power and error cor...
Resilient design techniques are used to (i) ensure correct operation under dynamic variations and to...
Resilient design techniques are used to (i) ensure correct operation under dynamic variations and to...
In this paper, we demonstrate that the sensitized path delays in various microprocessor pipe stages ...
The semiconductor industry is strategically focusing on automotive markets, and significant investme...
The semiconductor industry is strategically focusing on automotive markets and significant investmen...
There is much focus on timing error resilience for the speed critical paths of processors. In the co...
Energy efficient semiconductor chips are in high demand to cater the needs of today’s smart products...
Current processor designs have a critical operating point that sets a hard limit on voltage scaling....
Modern digital IC designs have a critical operating point, or ???wall of slack???, that limits volta...
Abstract—Modern digital IC designs have a critical operating point, or “wall of slack”, that limits ...
Aggressive reduction of timing margins, called timing speculation, is an effective way of reducing t...
Timing speculation has been proposed as a technique for maximizing energy efficiency of processors w...
One of the challenges faced today in the design of microprocessors is to obtain power, performance s...
Resilient design techniques are used to (i) ensure correct operation under dynamic variations; and (...
Rising PVT variations at advanced process nodes make it increasingly difficult to meet aggressive pe...
Resilient design techniques are used to (i) ensure correct operation under dynamic variations and to...
Resilient design techniques are used to (i) ensure correct operation under dynamic variations and to...
In this paper, we demonstrate that the sensitized path delays in various microprocessor pipe stages ...
The semiconductor industry is strategically focusing on automotive markets, and significant investme...
The semiconductor industry is strategically focusing on automotive markets and significant investmen...
There is much focus on timing error resilience for the speed critical paths of processors. In the co...
Energy efficient semiconductor chips are in high demand to cater the needs of today’s smart products...
Current processor designs have a critical operating point that sets a hard limit on voltage scaling....
Modern digital IC designs have a critical operating point, or ???wall of slack???, that limits volta...
Abstract—Modern digital IC designs have a critical operating point, or “wall of slack”, that limits ...
Aggressive reduction of timing margins, called timing speculation, is an effective way of reducing t...
Timing speculation has been proposed as a technique for maximizing energy efficiency of processors w...
One of the challenges faced today in the design of microprocessors is to obtain power, performance s...
Resilient design techniques are used to (i) ensure correct operation under dynamic variations; and (...
Rising PVT variations at advanced process nodes make it increasingly difficult to meet aggressive pe...
Resilient design techniques are used to (i) ensure correct operation under dynamic variations and to...
Resilient design techniques are used to (i) ensure correct operation under dynamic variations and to...
In this paper, we demonstrate that the sensitized path delays in various microprocessor pipe stages ...