A variety of thermal models has been proposed to predict the temperatures inside modern processors. In this paper, we describe and compare two such approaches, a detailed FEMbased simulation and a simpler architectural compact model. It is shown that both models provide comparable results when it comes to predicting the maximal temperature, however there are also non-negligible differences when estimating thermal gradients within a chip. Furthermore, transient simulation results show some differences in temperature profile during processor heating
In the paper the problem of modelling thermal properties of semiconductor devices with the use of co...
This paper presents a complete modeling approach to analyze the thermal behavior of microprocessor-b...
Power blurring has been developed to calculate temperature profiles in VLSI ICs, in both steady-stat...
This paper describes a thermal-modeling approach that is easy to use and computationally efficient f...
In the paper the problem of modelling thermal properties of semiconductor devices with the use of co...
Temperature has become an important design constraint for high-performance microprocessors. Research...
In this paper, we propose a new behavioral thermal modeling technique for high-performance microproc...
Temperature has become an important design constraint for high-performance microprocessors. Research...
Temperature aware chip designs have gained importance and popularity in recent years. In this disser...
This paper presents a new approach to create boundary condition independent thermal compact models b...
Heat is inevitably generated in the semiconductors during operation. Cooling in a computer, and in i...
The introduction of compact thermal models (CTM) into CFD codes has significantly reduced computatio...
International audienceThis paper presents a new methodology called Flex- CTM for Flexible Compact Th...
This paper describes the development and implementation of an analytical thermal model for fast and ...
This dissertation provides several techniques for solving a class of nonconvex optimization problems...
In the paper the problem of modelling thermal properties of semiconductor devices with the use of co...
This paper presents a complete modeling approach to analyze the thermal behavior of microprocessor-b...
Power blurring has been developed to calculate temperature profiles in VLSI ICs, in both steady-stat...
This paper describes a thermal-modeling approach that is easy to use and computationally efficient f...
In the paper the problem of modelling thermal properties of semiconductor devices with the use of co...
Temperature has become an important design constraint for high-performance microprocessors. Research...
In this paper, we propose a new behavioral thermal modeling technique for high-performance microproc...
Temperature has become an important design constraint for high-performance microprocessors. Research...
Temperature aware chip designs have gained importance and popularity in recent years. In this disser...
This paper presents a new approach to create boundary condition independent thermal compact models b...
Heat is inevitably generated in the semiconductors during operation. Cooling in a computer, and in i...
The introduction of compact thermal models (CTM) into CFD codes has significantly reduced computatio...
International audienceThis paper presents a new methodology called Flex- CTM for Flexible Compact Th...
This paper describes the development and implementation of an analytical thermal model for fast and ...
This dissertation provides several techniques for solving a class of nonconvex optimization problems...
In the paper the problem of modelling thermal properties of semiconductor devices with the use of co...
This paper presents a complete modeling approach to analyze the thermal behavior of microprocessor-b...
Power blurring has been developed to calculate temperature profiles in VLSI ICs, in both steady-stat...