We present a methodology for the design and analysis of power grids in the PowerPC ™ microprocessors. The methodology covers the need for power grid analysis across all stages of the design process. A case study showing the application of this methodology to the PowerPC ™ 750 microprocessor is presented
(ABSTRACT) This work presents a software framework for power system analysis, PowerFrame. It is comp...
Current practices for the design of power processor systems separate the design for a set of static ...
This paper presents an efficient method for optimizing the design of power/ground (P/G) networks by ...
118 p.Thesis (Ph.D.)--University of Illinois at Urbana-Champaign, 2004.We propose a novel approach t...
The design of power distribution networks (PDNs) become increasingly complex and less margin, as the...
It is found that the efficiency of the generic random walk analyzer varies for power grids with diff...
Power has become an important design closure parameter in today’s ultra low submicron digital design...
Power grid design and analysis is a critical part of modern VLSI chip design and demands tools for a...
It is increasingly challenging to analyze present day large-scale power delivery networks (PDNs) due...
Abstract — Modern sub-micron VLSI designs include huge power grids that are required to distribute l...
One of the major challenges in the energy sector is to ensure secure and sustainable energy supply. ...
Designing a chip to obtain maximum performance and maintaining decent voltage levels with low power ...
The design and analysis of the power distribution and supply system on a chip is a complex issue. Th...
In this paper an algorithm is described for obtaining the response of Power Distribution Networks (P...
The connection of large numbers of micro-generators to low-voltage distribution networks may undermi...
(ABSTRACT) This work presents a software framework for power system analysis, PowerFrame. It is comp...
Current practices for the design of power processor systems separate the design for a set of static ...
This paper presents an efficient method for optimizing the design of power/ground (P/G) networks by ...
118 p.Thesis (Ph.D.)--University of Illinois at Urbana-Champaign, 2004.We propose a novel approach t...
The design of power distribution networks (PDNs) become increasingly complex and less margin, as the...
It is found that the efficiency of the generic random walk analyzer varies for power grids with diff...
Power has become an important design closure parameter in today’s ultra low submicron digital design...
Power grid design and analysis is a critical part of modern VLSI chip design and demands tools for a...
It is increasingly challenging to analyze present day large-scale power delivery networks (PDNs) due...
Abstract — Modern sub-micron VLSI designs include huge power grids that are required to distribute l...
One of the major challenges in the energy sector is to ensure secure and sustainable energy supply. ...
Designing a chip to obtain maximum performance and maintaining decent voltage levels with low power ...
The design and analysis of the power distribution and supply system on a chip is a complex issue. Th...
In this paper an algorithm is described for obtaining the response of Power Distribution Networks (P...
The connection of large numbers of micro-generators to low-voltage distribution networks may undermi...
(ABSTRACT) This work presents a software framework for power system analysis, PowerFrame. It is comp...
Current practices for the design of power processor systems separate the design for a set of static ...
This paper presents an efficient method for optimizing the design of power/ground (P/G) networks by ...