A probabilistic method is presented to analyze the temperature and the maximum frequency for multicore processors based on consideration of workload variation, in this paper. Firstly, at the microarchitecture level, dynamic powers are modeled as the linear function of IPCs (instructions per cycle), and leakage powers are approximated as the linear function of temperature. Secondly, the microarchitecture-level hotspot temperatures of both active cores and inactive cores are derived as the linear functions of IPCs. The normal probabilistic distribution of hotspot temperatures is derived based on the assumption that IPCs of all cores follow the same normal distribution. Thirdly and lastly, the probabilistic distribution of the set of discrete ...
In this paper we propose an analytical technique for the steady-state dynamic temperature analysis (...
In the dark silicon era, a fundamental problem is given a real-time computation demand, how to deter...
As power dissipation and circuit temperature constrain their performance, modern processors feature ...
In modern CMOS integrated Systems-on-Chip global temperature variations arise as well as local fluct...
UnrestrictedWith the progress in today’s semiconductor technology, the chip density and operating fr...
It is well-known that spatial and temporal variations in power density within a processor core creat...
Modern multicore processors feature easily accessible temperature sensors that provide useful inform...
The paper presents important probabilistic elements that should be taken into consideration in the a...
Abstract—Electronic system design based on deterministic techniques for power-temperature analysis i...
The power consumption of a high-end microprocessor increases very rapidly. High power consumption wi...
One major problem for the designer of electronic systems is the presence of uncertainty, which is du...
Abstract — Clock frequency and transistor density increases have resulted in elevated chip temperatu...
Abstract. The paper presents important probabilistic elements that should be taken into consideratio...
Proc. IEEE Asia Pacific Conf. on Circuits and SystemsThe operating frequency and the number of cores...
The continued scaling of silicon fabrication technologies has enabled the integration of dozens of p...
In this paper we propose an analytical technique for the steady-state dynamic temperature analysis (...
In the dark silicon era, a fundamental problem is given a real-time computation demand, how to deter...
As power dissipation and circuit temperature constrain their performance, modern processors feature ...
In modern CMOS integrated Systems-on-Chip global temperature variations arise as well as local fluct...
UnrestrictedWith the progress in today’s semiconductor technology, the chip density and operating fr...
It is well-known that spatial and temporal variations in power density within a processor core creat...
Modern multicore processors feature easily accessible temperature sensors that provide useful inform...
The paper presents important probabilistic elements that should be taken into consideration in the a...
Abstract—Electronic system design based on deterministic techniques for power-temperature analysis i...
The power consumption of a high-end microprocessor increases very rapidly. High power consumption wi...
One major problem for the designer of electronic systems is the presence of uncertainty, which is du...
Abstract — Clock frequency and transistor density increases have resulted in elevated chip temperatu...
Abstract. The paper presents important probabilistic elements that should be taken into consideratio...
Proc. IEEE Asia Pacific Conf. on Circuits and SystemsThe operating frequency and the number of cores...
The continued scaling of silicon fabrication technologies has enabled the integration of dozens of p...
In this paper we propose an analytical technique for the steady-state dynamic temperature analysis (...
In the dark silicon era, a fundamental problem is given a real-time computation demand, how to deter...
As power dissipation and circuit temperature constrain their performance, modern processors feature ...