Performance optimization in three-dimensional programmable logic arrays (PLAs) [electronic resource] / Sunki, Supriya. [Tampa, Fla.] : University of South Florida, 2005. eng ABSTRACT: Increased chip size and reduced feature size has helped following Moores law for long decades. This has an impact on interconnect length, which is resulting in chip performance degradation. Despite the introduction of new materials with Low-K dielectrics for interconnects, their delay is expected to substantially limit the chip performance. To overcome this problem the need for new technology has arrived. One such promising technology is the three-dimensional Integrated chips (3D ICs) with multiple silicon layers. In this thesis, three dimensional integrated chip (3D IC) technology has been implemented on programmable logic arrays (PLAs). The two-dimensional PLAs are converted to three-dimensional PLAs to realize the advantages of the third dimension. Two novel approaches for partitioning of PLAs are introduced for topological optimization. Thesis (M.S.C.P.)--University of South Florida, 2005. Includes bibliographical references. Text (Electronic thesis) in PDF format. System requirements: World Wide Web browser and PDF reader. Mode of access: World Wide Web. ABSTRACT: Increased chip size and reduced feature size has helped following Moores law for long decades. This has an impact on interconnect length, which is resulting in chip performance degradation. Despite the introduction of new materials with Low-K dielectrics for interconnects, their delay is expected to substantially limit the chip performance. To overcome this problem the need for new technology has arrived. One such promising technology is the three-dimensional Integrated chips (3D ICs) with multiple silicon layers. In this thesis, three dimensional integrated chip (3D IC) technology has been implemented on programmable logic arrays (PLAs). The two-dimensional PLAs are converted to three-dimensional PLAs to realize the advantages of the third dimension. Two novel approaches for partitioning of PLAs are introduced for topological optimization. Adviser: Srinivas Katkoori. 3D integrated chips. 3d via. PLA. Inter-wafer via. MAGIC layout system. VILIC. MPLA.
Performance optimization in three-dimensional programmable logic arrays (PLAs) [electronic resource] /
Sunki, Supriya.
[Tampa, Fla.] : University of South Florida,
2005.
eng
ABSTRACT: Increased chip size and reduced feature size has helped following Moores law for long decades. This has an impact on interconnect length, which is resulting in chip performance degradation. Despite the introduction of new materials with Low-K dielectrics for interconnects, their delay is expected to substantially limit the chip performance. To overcome this problem the need for new technology has arrived. One such promising technology is the three-dimensional Integrated chips (3D ICs) with multiple silicon layers. In this thesis, three dimensional integrated chip (3D IC) technology has been implemented on programmable logic arrays (PLAs). The two-dimensional PLAs are converted to three-dimensional PLAs to realize the advantages of the third dimension. Two novel approaches for partitioning of PLAs are introduced for topological optimization.
Thesis (M.S.C.P.)--University of South Florida, 2005.
Includes bibliographical references.
Text (Electronic thesis) in PDF format.
System requirements: World Wide Web browser and PDF reader.
Mode of access: World Wide Web.
ABSTRACT: Increased chip size and reduced feature size has helped following Moores law for long decades. This has an impact on interconnect length, which is resulting in chip performance degradation. Despite the introduction of new materials with Low-K dielectrics for interconnects, their delay is expected to substantially limit the chip performance. To overcome this problem the need for new technology has arrived. One such promising technology is the three-dimensional Integrated chips (3D ICs) with multiple silicon layers. In this thesis, three dimensional integrated chip (3D IC) technology has been implemented on programmable logic arrays (PLAs). The two-dimensional PLAs are converted to three-dimensional PLAs to realize the advantages of the third dimension. Two novel approaches for partitioning of PLAs are introduced for topological optimization.
Adviser: Srinivas Katkoori.
3D integrated chips.
3d via.
PLA.
Inter-wafer via.
MAGIC layout system.
VILIC.
MPLA.