Add to ORKGAbstract—Dynamic voltage scaling (DVS) has been widely adopted in multicore SoCs for reducing dynamic power con-sumption. Despite its benefits, the use of DVS increases test time because high product quality can only be ensured by testing every core at multiple supported voltage settings; hence the repetitive application of the same or different tests at multiple voltage settings becomes necessary. In addition, testing at lower supply voltage settings increases considerably the length of each test because lower scan frequencies must be used for shifting test data using scan chains. Standard scheduling techniques fail to reduce the test time for DVS-based SoCs since they do not model testing at multiple voltage settings. In addition, they do...
In this brief, we propose a novel real-time loop-scheduling technique to minimize energy consumption...
As the number of frequency domains aggressively grows in today’s systems-on-chip (SoCs), the deliver...
With power-related concerns becoming dominant aspects of hardware and software design, significant r...
This paper presents a wrapper and test access mechanism design for multi-clock domain SoCs that cons...
High temperature gradients in System on Chip (SoC) lowered the performances, reliability and leakage...
The application of Dynamic Voltage Scaling (DVS) to reduce energy consumption may have a detrimental...
Abstract — Determination of maximum operating frequencies (Fmax) during manufacturing test at differ...
Aggressive technology scaling triggers novel challenges to the design of multi-/many-core systems, s...
Dynamic voltage scaling (DVS) is a technique used in modern microprocessors operated by battery to s...
Power consumption has become a major concern, both for processor design with high clock rates and em...
Dynamic voltage and frequency scaling (DVFS) mechanisms have been developed for years to decrease th...
Dynamic voltage scaling (DVS) is a technique used in modern microprocessors operated by battery to s...
With the development of VLSI technologies, especially with the coming of deep sub-micron semiconduct...
Abstract Dynamic Voltage Scaling (DVS) is an effective technique for reducing energy consumption in...
Applying classical dynamic voltage scaling (DVS) techniques to real-time systems running on processo...
In this brief, we propose a novel real-time loop-scheduling technique to minimize energy consumption...
As the number of frequency domains aggressively grows in today’s systems-on-chip (SoCs), the deliver...
With power-related concerns becoming dominant aspects of hardware and software design, significant r...
This paper presents a wrapper and test access mechanism design for multi-clock domain SoCs that cons...
High temperature gradients in System on Chip (SoC) lowered the performances, reliability and leakage...
The application of Dynamic Voltage Scaling (DVS) to reduce energy consumption may have a detrimental...
Abstract — Determination of maximum operating frequencies (Fmax) during manufacturing test at differ...
Aggressive technology scaling triggers novel challenges to the design of multi-/many-core systems, s...
Dynamic voltage scaling (DVS) is a technique used in modern microprocessors operated by battery to s...
Power consumption has become a major concern, both for processor design with high clock rates and em...
Dynamic voltage and frequency scaling (DVFS) mechanisms have been developed for years to decrease th...
Dynamic voltage scaling (DVS) is a technique used in modern microprocessors operated by battery to s...
With the development of VLSI technologies, especially with the coming of deep sub-micron semiconduct...
Abstract Dynamic Voltage Scaling (DVS) is an effective technique for reducing energy consumption in...
Applying classical dynamic voltage scaling (DVS) techniques to real-time systems running on processo...
In this brief, we propose a novel real-time loop-scheduling technique to minimize energy consumption...
As the number of frequency domains aggressively grows in today’s systems-on-chip (SoCs), the deliver...
With power-related concerns becoming dominant aspects of hardware and software design, significant r...