Global ETD Search

1	Defect-tolerant Field-Programmable Gate Arrays Howard, Neil John January 1994 (has links) No description available. 621.3192 Programmable logic
2	Cost modelling for VLSI circuit conversion to aid testability Miles, J. R. January 1988 (has links) No description available. 621.3192 Programmable logic arrays
3	A reconfigurable post-silicon debug infrastructure for systems-on-chip Quinton, Bradley 11 1900 (has links) As the level of integrated circuit (IC) complexity continues to increase, the post-silicon validation stage is becoming a large component of the overall development cost. To address this, we propose a reconfigurable post-silicon debug infrastructure that enhances the post-silicon validation process by enabling the observation and control of signals that are internal to the manufactured device. The infrastructure is composed of dedicated programmable logic and programmable access networks. Our reconfigurable infrastructure enables not only the diagnoses of bugs; it also allows the detection and potential correction of errors in normal operation. In this thesis we describe the architecture, implementation and operation of our new infrastructure. Furthermore, we identify and address three key challenges arising from the implementation of this infrastructure. Our results demonstrate that it is possible to implement an effective reconfigurable post-silicon infrastructure that is able to observe and control circuits operating at full speed, with an area overhead of between 5% and 10% for many of our target ICs. Debug Programmable logic
4	A reconfigurable post-silicon debug infrastructure for systems-on-chip Quinton, Bradley 11 1900 (has links) As the level of integrated circuit (IC) complexity continues to increase, the post-silicon validation stage is becoming a large component of the overall development cost. To address this, we propose a reconfigurable post-silicon debug infrastructure that enhances the post-silicon validation process by enabling the observation and control of signals that are internal to the manufactured device. The infrastructure is composed of dedicated programmable logic and programmable access networks. Our reconfigurable infrastructure enables not only the diagnoses of bugs; it also allows the detection and potential correction of errors in normal operation. In this thesis we describe the architecture, implementation and operation of our new infrastructure. Furthermore, we identify and address three key challenges arising from the implementation of this infrastructure. Our results demonstrate that it is possible to implement an effective reconfigurable post-silicon infrastructure that is able to observe and control circuits operating at full speed, with an area overhead of between 5% and 10% for many of our target ICs. Debug Programmable logic
5	A reconfigurable post-silicon debug infrastructure for systems-on-chip Quinton, Bradley 11 1900 (has links) As the level of integrated circuit (IC) complexity continues to increase, the post-silicon validation stage is becoming a large component of the overall development cost. To address this, we propose a reconfigurable post-silicon debug infrastructure that enhances the post-silicon validation process by enabling the observation and control of signals that are internal to the manufactured device. The infrastructure is composed of dedicated programmable logic and programmable access networks. Our reconfigurable infrastructure enables not only the diagnoses of bugs; it also allows the detection and potential correction of errors in normal operation. In this thesis we describe the architecture, implementation and operation of our new infrastructure. Furthermore, we identify and address three key challenges arising from the implementation of this infrastructure. Our results demonstrate that it is possible to implement an effective reconfigurable post-silicon infrastructure that is able to observe and control circuits operating at full speed, with an area overhead of between 5% and 10% for many of our target ICs. / Applied Science, Faculty of / Electrical and Computer Engineering, Department of / Graduate Debug Programmable logic
6	Reconfigurable logic for computation Shelley, A. J. January 1998 (has links) No description available. 005
7	Text Preprocessing in Programmable Logic Skiba, Michal 03 August 2010 (has links) There is a tremendous amount of information being generated and stored every year, and its growth rate is exponential. From 2008 to 2009, the growth rate was estimated to be 62%. In 2010, the amount of generated information is expected to grow by 50% to 1.2 Zettabytes, and by 2020 this rate is expected to grow to 35 Zettabytes. By preprocessing text in programmable logic, high data processing rates could be achieved with greater power efficiency than with an equivalent software solution, leading to a smaller carbon footprint. This thesis presents an overview of the fields of Information Retrieval and Natural Language Processing, and the design and implementation of four text preprocessing modules in programmable logic: UTF–8 decoding, stop–word filtering, and stemming with both Lovins’ and Porter’s techniques. These extensively pipelined circuits were implemented in a high performance FPGA and found to sustain maximum operational frequencies of 704 MHz, data throughputs in excess of 5 Gbps and efficiencies in the range of 4.332 – 6.765 mW/Gbps and 34.66 – 108.2 uW/MHz. These circuits can be incorporated into larger systems, such as document classifiers and information extraction engines. Programmable Logic Text Processing Electrical and Computer Engineering
8	Real-time reconfiguration of programmable logic controller communication paths Parrott, Curtis Alan, January 2009 (has links) (PDF) Thesis (M.S.)--Missouri University of Science and Technology, 2009. / Vita. The entire thesis text is included in file. Title from title screen of thesis/dissertation PDF file (viewed November 17, 2009) Includes bibliographical references (p. 53).
9	Text Preprocessing in Programmable Logic Skiba, Michal 03 August 2010 (has links) There is a tremendous amount of information being generated and stored every year, and its growth rate is exponential. From 2008 to 2009, the growth rate was estimated to be 62%. In 2010, the amount of generated information is expected to grow by 50% to 1.2 Zettabytes, and by 2020 this rate is expected to grow to 35 Zettabytes. By preprocessing text in programmable logic, high data processing rates could be achieved with greater power efficiency than with an equivalent software solution, leading to a smaller carbon footprint. This thesis presents an overview of the fields of Information Retrieval and Natural Language Processing, and the design and implementation of four text preprocessing modules in programmable logic: UTF–8 decoding, stop–word filtering, and stemming with both Lovins’ and Porter’s techniques. These extensively pipelined circuits were implemented in a high performance FPGA and found to sustain maximum operational frequencies of 704 MHz, data throughputs in excess of 5 Gbps and efficiencies in the range of 4.332 – 6.765 mW/Gbps and 34.66 – 108.2 uW/MHz. These circuits can be incorporated into larger systems, such as document classifiers and information extraction engines. Programmable Logic Text Processing Electrical and Computer Engineering
10	A novel approach to programmable imaging using MOEMS / Nasis, Vasileios T. Kurzweg, Timothy P. January 2008 (has links) Thesis (Ph.D.)--Drexel University, 2008. / Includes abstract and vita. Includes bibliographical references (leaves 129-135).

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