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VLSI physical design automation for double patterning and emerging lithographyYuan, Kun, 1983- 07 February 2011 (has links)
Due to aggressive scaling in semiconductor industry, the traditional optical lithography system is facing great challenges printing 32nm and below circuit layouts. Various promising nanolithography techniques have been developed as alternative solutions for patterning sub-32nm feature size. This dissertation studies physical design related optimization problem for these
emerging methodologies, mainly focusing on double patterning and electronic beam lithography.
Double Patterning Lithography (DPL) decomposes a single layout into two masks, and patterns the chip in two exposure steps. As a benefit, the pitch size is doubled, which enhances the resolution. However, the decomposition process is not a trivial task. Conflict and stitch are its two main manufacturing
challenges.
First of all, a post-routing layout decomposer has been developed to perform simultaneous conflict and stitch minimization, making use of the integer linear programming and efficient graph reduction techniques. Compared to
the previous work which optimizes conflict and stitch separately, the proposed method produces significantly better result.
Redundant via insertion, another key yield improvement technique,
may increase the complexity in DPL-compliance. It could easily introduce unmanufacturable conflict, while not carefully planned and inserted. Two algo-
rithms have been developed to take care of this redundant via DPL-compliance problem in the design side.
While design itself is not DPL-friendly, post-routing decomposition may not achieve satisfactory solution quality. An efficient framework of WISDOM
has been further proposed to perform wire spreading for better conflict and stitch elimination. The solution quality has been improved in great extent,
with a little extra layout perturbations.
As another promising solution for sub-22nm, Electronic Beam Lithography (EBL) is a maskless technology which shoots desired patterns directly
into a silicon wafer, with charged particle beam. EBL overcomes the diffraction limit of light in current optical lithography system, however, the low
throughput becomes its key technical hurdle. The last work of my dissertation formulates and investigates a bin-packing problem for reducing the processing
time of EBL. / text
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Μέτρηση και μοντελοποίηση του ηλεκτρονικού θορύβου σε ημιαγωγικές διατάξεις τεχνολογίας CMOS και BiCMOSΤριάντης, Δημήτριος 18 November 2009 (has links)
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Exploração de paralelismo no roteamento global de circuitos VLSI / Parallel computing exploitation applied for VLSI global routingTumelero, Diego January 2015 (has links)
Com o crescente aumento das funcionalidades dos circuitos integrados, existe um aumento consequente da complexidade do projeto dos mesmos. O fluxo de projeto de circuitos integrados inclui em um de seus passos o roteamento, que consiste em criar fios que interconectam as células do circuito. Devido à complexidade, o roteamento é dividido em global e detalhado. O roteamento global de circuitos VLSI é uma das tarefas mais complexas do fluxo de síntese física, sendo classificado como um problema NP-completo. Neste trabalho, além de realizar um levantamento de trabalhos que utilizam as principais técnicas de paralelismo com o objetivo de acelerar o processamento do roteamento global, foram realizadas análises nos arquivos de benchmark do ISPD 2007/08. Com base nestas análises foi proposto um método que agrupa as redes para então verificar a existência de dependência de dados em cada grupo. Esta verificação de dependência de dados, que chamamos neste trabalho de colisor, tem por objetivo, criar fluxos de redes independentes umas das outras para o processamento em paralelo, ou seja, ajudar a implementação do roteamento independente de redes. Os resultados demonstram que esta separação em grupos, aliada com a comparação concorrente dos grupos, podem reduzir em 67x o tempo de execução do colisor de redes se comparada com a versão sequencial e sem a utilização de grupos. Também foi obtido um ganho de 10x ao comparar a versão com agrupamentos sequencial com a versão paralela. / With the increasing of the functionality of integrated circuits, there is a consequent increase in the complexity of the design. The IC design flow includes the routing in one of its steps, which is to create wires that interconnect the circuit cells. Because of the complexity, routing is divided into global and detailed. The global routing of VLSI circuits is one of the most complex tasks in the flow of physical synthesis and it's classified as an NP-complete problem. In this work, a parallel computing techniques survey was applied to the VLSI global routing in order to accelerate the global routing processing analyzes. This analyzes was performed on the ISPD 2007/08 benchmark files. We proposed a method that groups the networks and then check for data dependence in each group based on these analyzes. This data dependency checking, we call this checking of collider, aims to create flow nets independent of each other for processing in parallel, or help implement the independent routing networks. The results demonstrate that this separation into groups, together with the competitor comparison of groups, can reduce 67x in the collider networks runtime compared with the sequential release and without the use of groups. It was also obtained a gain of 10x when comparing the version with sequential clusters with the parallel version.
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Exploração de paralelismo no roteamento global de circuitos VLSI / Parallel computing exploitation applied for VLSI global routingTumelero, Diego January 2015 (has links)
Com o crescente aumento das funcionalidades dos circuitos integrados, existe um aumento consequente da complexidade do projeto dos mesmos. O fluxo de projeto de circuitos integrados inclui em um de seus passos o roteamento, que consiste em criar fios que interconectam as células do circuito. Devido à complexidade, o roteamento é dividido em global e detalhado. O roteamento global de circuitos VLSI é uma das tarefas mais complexas do fluxo de síntese física, sendo classificado como um problema NP-completo. Neste trabalho, além de realizar um levantamento de trabalhos que utilizam as principais técnicas de paralelismo com o objetivo de acelerar o processamento do roteamento global, foram realizadas análises nos arquivos de benchmark do ISPD 2007/08. Com base nestas análises foi proposto um método que agrupa as redes para então verificar a existência de dependência de dados em cada grupo. Esta verificação de dependência de dados, que chamamos neste trabalho de colisor, tem por objetivo, criar fluxos de redes independentes umas das outras para o processamento em paralelo, ou seja, ajudar a implementação do roteamento independente de redes. Os resultados demonstram que esta separação em grupos, aliada com a comparação concorrente dos grupos, podem reduzir em 67x o tempo de execução do colisor de redes se comparada com a versão sequencial e sem a utilização de grupos. Também foi obtido um ganho de 10x ao comparar a versão com agrupamentos sequencial com a versão paralela. / With the increasing of the functionality of integrated circuits, there is a consequent increase in the complexity of the design. The IC design flow includes the routing in one of its steps, which is to create wires that interconnect the circuit cells. Because of the complexity, routing is divided into global and detailed. The global routing of VLSI circuits is one of the most complex tasks in the flow of physical synthesis and it's classified as an NP-complete problem. In this work, a parallel computing techniques survey was applied to the VLSI global routing in order to accelerate the global routing processing analyzes. This analyzes was performed on the ISPD 2007/08 benchmark files. We proposed a method that groups the networks and then check for data dependence in each group based on these analyzes. This data dependency checking, we call this checking of collider, aims to create flow nets independent of each other for processing in parallel, or help implement the independent routing networks. The results demonstrate that this separation into groups, together with the competitor comparison of groups, can reduce 67x in the collider networks runtime compared with the sequential release and without the use of groups. It was also obtained a gain of 10x when comparing the version with sequential clusters with the parallel version.
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Exploração de paralelismo no roteamento global de circuitos VLSI / Parallel computing exploitation applied for VLSI global routingTumelero, Diego January 2015 (has links)
Com o crescente aumento das funcionalidades dos circuitos integrados, existe um aumento consequente da complexidade do projeto dos mesmos. O fluxo de projeto de circuitos integrados inclui em um de seus passos o roteamento, que consiste em criar fios que interconectam as células do circuito. Devido à complexidade, o roteamento é dividido em global e detalhado. O roteamento global de circuitos VLSI é uma das tarefas mais complexas do fluxo de síntese física, sendo classificado como um problema NP-completo. Neste trabalho, além de realizar um levantamento de trabalhos que utilizam as principais técnicas de paralelismo com o objetivo de acelerar o processamento do roteamento global, foram realizadas análises nos arquivos de benchmark do ISPD 2007/08. Com base nestas análises foi proposto um método que agrupa as redes para então verificar a existência de dependência de dados em cada grupo. Esta verificação de dependência de dados, que chamamos neste trabalho de colisor, tem por objetivo, criar fluxos de redes independentes umas das outras para o processamento em paralelo, ou seja, ajudar a implementação do roteamento independente de redes. Os resultados demonstram que esta separação em grupos, aliada com a comparação concorrente dos grupos, podem reduzir em 67x o tempo de execução do colisor de redes se comparada com a versão sequencial e sem a utilização de grupos. Também foi obtido um ganho de 10x ao comparar a versão com agrupamentos sequencial com a versão paralela. / With the increasing of the functionality of integrated circuits, there is a consequent increase in the complexity of the design. The IC design flow includes the routing in one of its steps, which is to create wires that interconnect the circuit cells. Because of the complexity, routing is divided into global and detailed. The global routing of VLSI circuits is one of the most complex tasks in the flow of physical synthesis and it's classified as an NP-complete problem. In this work, a parallel computing techniques survey was applied to the VLSI global routing in order to accelerate the global routing processing analyzes. This analyzes was performed on the ISPD 2007/08 benchmark files. We proposed a method that groups the networks and then check for data dependence in each group based on these analyzes. This data dependency checking, we call this checking of collider, aims to create flow nets independent of each other for processing in parallel, or help implement the independent routing networks. The results demonstrate that this separation into groups, together with the competitor comparison of groups, can reduce 67x in the collider networks runtime compared with the sequential release and without the use of groups. It was also obtained a gain of 10x when comparing the version with sequential clusters with the parallel version.
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APPROACHES FOR PARASITIC-INCLUSIVE SYMBOLIC CIRCUIT REPRESENTATION AND EXTRACTION FOR SYNTHESISBADAOUI, RAOUL January 2005 (has links)
No description available.
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Design methodology for low power 3D-integrated image sensing system for network based applicationsLie, Denny 27 May 2016 (has links)
This dissertation investigates a methodology that can be used to design and optimize an energy efficient 3D-integrated image sensing and compression system for network based applications. A system level model that evaluates the effect of design choices and external environmental factors to the power/performance of the system is presented. Three design principles are considered in formulating the system model. First, a multi-segment/multi-core image compression approach is presented as a combined solution with 3D-stacking to reduce the workload of the compression module, effectively increasing power efficiency of the system. Second, vertical stacking reduces the rate of heat removal from the compression module and ADC resulting in higher temperature and noise in the photodiode tier. Therefore, due to the die-to-die thermal coupling, image quality is strongly influenced by image throughput, architectural, and external environment factors. Third, heterogeneous integration of the photosensor module and compression engine is presented as a method to increase power efficiency of the system. Scaling the compression engine to deep sub-micron technology provides substantial power and chip area benefits, while CMOS image sensor retains reliability with less advanced 180nm process. The dissertation concludes that 3D heterogeneous integration can increase power/performance efficiency of an image sensor system, but die-to-die thermal coupling may provide challenges in managing the quality of the compressed images.
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VLSI High Speed Packet ProcessorGrebowsky, Gerald J., Dominy, Carol T. 10 1900 (has links)
International Telemetering Conference Proceedings / October 17-20, 1988 / Riviera Hotel, Las Vegas, Nevada / The Goddard Space Flight Center Mission Operations and Data Systems Directorate has developed a Packet Processor card utilizing semi-custom very large scale integration (VLSI) devices, microprocessors, and programmable gate arrays to support the implementation of multi-channel telemetry data capture systems. This card will receive synchronized error corrected telemetry transfer frames and output annotated application packets derived from this data. An adaptable format capability is provided by the programmability of three microprocessors while the throughput capability of the Packet Processor is achieved by a data pipeline consisting of two separate RAM systems controlled by specially designed semi-custom VLSI logic.
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Employing Petri nets in digital design : an area and power minimization perspectiveWrzyszcz, Artur January 1998 (has links)
No description available.
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Distributed demand-driven logic simulationNwana, Gerald Feh January 1995 (has links)
No description available.
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