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A Toolkit for Rapid FPGA System DeploymentParekh, Umang Kumar 17 November 2010 (has links)
FPGA implementation tools have not kept pace with growing FPGA density. It is common for non-trivial designs to take multiple hours to go through the entire FPGA toolflow (synthesis, mapping, placement, routing, bitstream generation). FPGA implementation tool runtime is a major hindrance to FPGA Productivity.
In modern FPGA designs, designers often change logic and/or connections in an already existing design. If small modifications are made to a particular module in a design, then almost the entire design will go through most of the FPGA toolflow again. This can be time consuming for complex designs and hinder productivity of FPGA designers. The main goal of this thesis is to improve FPGA productivity by reducing FPGA design implementation time for modifications made to an already existing design for rapid system deployment.
In this thesis, a toolkit is presented, which is capable of making design modifications at a lower level of abstraction for already existing designs on Xilinx FPGAs. The toolkit is a part of the open-source RapidSmith framework and includes the EDIF parser, mapper, placer, and router. It can be used to change logic and/or modify connections. Modules can be placed, unplaced, relocated, and/or duplicated with ease using this toolkit. Significant time-savings were seen by making use of the toolkit along-with the standard Xilinx FPGA toolflow, for making design modifications to already existing designs. / Master of Science
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Implementation of a Digital Radio Frequency Memory in a Xilinx Virtex-4 FPGAGustafsson, Kristian January 2005 (has links)
<p>Digital Radio Frequency Memory (DRFM) is a technique widely used by the defense industry in, for example, electronic countermeasure equipment for generating false radar targets. The purpose of the DRFM technique is to use high-speed sampling to digitally store and recreate radio frequency and microwave signals. At Saab Bofors Dynamics AB the technique is used, among others, in the Electronic Warfare Simulator (ELSI). The DRFM technique is implemented in a full-custom ASIC circuit that has been mounted on circuit boards in ELSI. Today, the progress in the programmable hardware field has made it possible to implement the DRFM design in a Field Programmable Gate Array (FPGA). The FPGA technology has many advantages over a full custom ASIC design.</p><p>Hence, the purpose of this master's thesis has been to develop a new DRFM design that can be implemented in an FPGA, using a hardware description language called VHDL. The method for this master's thesis has been to first establish a time plan and a requirement specification. After that, a design specification has been worked out based on the requirement specification. The two specifications have served as a basis for the development of the DRFM circuit. One of the requirements on the design was that the circuit should be able to communicate through an external Ethernet interface. A part of the work has, thus, been to review available external Ethernet modules on the market. The result is a DRFM design that has been tested through simulations. The tests shows that the design works as described in the design specification.</p>
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Adapting an FPGA-optimized microprocessor to the MIPS32 instruction set / Anpassning av en FPGA-optimerad processor till instruktionsuppsättningen MIPS32Andersson, Olof, Bengtsson, Karl January 2010 (has links)
<p>Nowadays, FPGAs are large enough to host entire system-on-chip designs, wherein a soft core processor is often an integral part. High performance of the processor is always desirable, so there is an interest in finding faster solutions.This report aims to describe the work and results performed by Karl Bengtson and Olof Andersson at ISY. The task was to continue the development of a soft core microprocessor, originally created by Andreas Ehliar. The first step was to decide a more widely adopted instruction set for the processor. The choice fell upon the MIPS32 instruction set. The main work of the project has been focused on implementing support for MIPS32, allowing the processor to execute MIPS assembly language programs. The development has been done with speed optimization in mind. For every new function, the effects on the maximum frequency has been considered, and solutions not satisfying the speed requirements has been abandoned or revised.The performance has been measured by running a benchmark program—Coremark. Comparison has also been made to the main competitors among soft core processors. The results were positive, and reported a higher Coremark score than the other processors inthe study. The processor described herein still lacks many essential features. Nevertheless, the conclusion is that it may be possible to create a competitive alternative to established soft processors.</p> / <p>FPGAer används idag ofta för stora inbyggda system, i vilka en mjuk processor ofta spelar en viktig roll. Hög prestanda hos processorn är alltid önskvärt, så det finns ett intresse i att hitta snabbare lösningar. Denna rapport skall beskriva det arbete och de resultat som uppnåtts av Karl Bengtson och Olof Andersson på ISY. Uppgiften var att fortsätta utvecklandet av en mjuk processor, som ursprungligen skapats av Andreas Ehliar. Första steget var att välja ut en mer allmänt använd instruktionsuppsättning för processorn. Valet föll på instruktionsuppsättningsarkitekturen MIPS32. Projektets huvutarbete har varit fokuserat på att implementera stöd för MIPS32, vilket ger processorn möjlighet att köra assemblerprogram för MIPS.Utvecklingen har gjorts med hastighetsoptimering i beaktning. För varje ny funktion har dess effekter på maxfrekvensen undersökts,och lösningar som inte uppfyllt hastighetskraven har förkastats eller reviderats. Prestandan har mätts med programmet Coremark. Det har också gjorts jämförelser med huvudkonkurrenterna bland mjuka processorer. Resultaten var positiva, och rapporterade ett högre Coremarkpoäng än de andra processorerna i studien. Slutsatsen är att det ärmöjligt att skapa ett alternativ till de etablerade mjuka processorerna, men att denna processor fortfarande saknar väsentliga funktioner som behövs för att utgöra en mogen produkt.</p>
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Implementation of a Digital Radio Frequency Memory in a Xilinx Virtex-4 FPGAGustafsson, Kristian January 2005 (has links)
Digital Radio Frequency Memory (DRFM) is a technique widely used by the defense industry in, for example, electronic countermeasure equipment for generating false radar targets. The purpose of the DRFM technique is to use high-speed sampling to digitally store and recreate radio frequency and microwave signals. At Saab Bofors Dynamics AB the technique is used, among others, in the Electronic Warfare Simulator (ELSI). The DRFM technique is implemented in a full-custom ASIC circuit that has been mounted on circuit boards in ELSI. Today, the progress in the programmable hardware field has made it possible to implement the DRFM design in a Field Programmable Gate Array (FPGA). The FPGA technology has many advantages over a full custom ASIC design. Hence, the purpose of this master's thesis has been to develop a new DRFM design that can be implemented in an FPGA, using a hardware description language called VHDL. The method for this master's thesis has been to first establish a time plan and a requirement specification. After that, a design specification has been worked out based on the requirement specification. The two specifications have served as a basis for the development of the DRFM circuit. One of the requirements on the design was that the circuit should be able to communicate through an external Ethernet interface. A part of the work has, thus, been to review available external Ethernet modules on the market. The result is a DRFM design that has been tested through simulations. The tests shows that the design works as described in the design specification.
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Adapting an FPGA-optimized microprocessor to the MIPS32 instruction set / Anpassning av en FPGA-optimerad processor till instruktionsuppsättningen MIPS32Andersson, Olof, Bengtsson, Karl January 2010 (has links)
Nowadays, FPGAs are large enough to host entire system-on-chip designs, wherein a soft core processor is often an integral part. High performance of the processor is always desirable, so there is an interest in finding faster solutions.This report aims to describe the work and results performed by Karl Bengtson and Olof Andersson at ISY. The task was to continue the development of a soft core microprocessor, originally created by Andreas Ehliar. The first step was to decide a more widely adopted instruction set for the processor. The choice fell upon the MIPS32 instruction set. The main work of the project has been focused on implementing support for MIPS32, allowing the processor to execute MIPS assembly language programs. The development has been done with speed optimization in mind. For every new function, the effects on the maximum frequency has been considered, and solutions not satisfying the speed requirements has been abandoned or revised.The performance has been measured by running a benchmark program—Coremark. Comparison has also been made to the main competitors among soft core processors. The results were positive, and reported a higher Coremark score than the other processors inthe study. The processor described herein still lacks many essential features. Nevertheless, the conclusion is that it may be possible to create a competitive alternative to established soft processors. / FPGAer används idag ofta för stora inbyggda system, i vilka en mjuk processor ofta spelar en viktig roll. Hög prestanda hos processorn är alltid önskvärt, så det finns ett intresse i att hitta snabbare lösningar. Denna rapport skall beskriva det arbete och de resultat som uppnåtts av Karl Bengtson och Olof Andersson på ISY. Uppgiften var att fortsätta utvecklandet av en mjuk processor, som ursprungligen skapats av Andreas Ehliar. Första steget var att välja ut en mer allmänt använd instruktionsuppsättning för processorn. Valet föll på instruktionsuppsättningsarkitekturen MIPS32. Projektets huvutarbete har varit fokuserat på att implementera stöd för MIPS32, vilket ger processorn möjlighet att köra assemblerprogram för MIPS.Utvecklingen har gjorts med hastighetsoptimering i beaktning. För varje ny funktion har dess effekter på maxfrekvensen undersökts,och lösningar som inte uppfyllt hastighetskraven har förkastats eller reviderats. Prestandan har mätts med programmet Coremark. Det har också gjorts jämförelser med huvudkonkurrenterna bland mjuka processorer. Resultaten var positiva, och rapporterade ett högre Coremarkpoäng än de andra processorerna i studien. Slutsatsen är att det ärmöjligt att skapa ett alternativ till de etablerade mjuka processorerna, men att denna processor fortfarande saknar väsentliga funktioner som behövs för att utgöra en mogen produkt.
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A BIST Architecture for Testing LUTs in a Virtex-4 FPGAGadde, Priyanka January 2013 (has links)
No description available.
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Built-In self-test of global routing resources in Virtex-4 FPGAsYao, Jia, Stroud, Charles E. January 2009 (has links)
Thesis--Auburn University, 2009. / Abstract. Vita. Includes bibliographic resources (p.88-89).
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Design of an Open-Source Sata Core for Virtex-4 FPGAsGorman, Cory 01 January 2013 (has links) (PDF)
Many hard drives manufactured today use the Serial ATA (SATA) protocol to communicate with the host machine, typically a PC. SATA is a much faster and much more robust protocol than its predecessor, ATA (also referred to as Parallel ATA or IDE). Many hardware designs, including those using Field-Programmable Gate Arrays (FPGAs), have a need for a long-term storage solution, and a hard drive would be ideal. One such design is the high-speed Data Acquisition System (DAS) created for the NASA Surface Water and Ocean Topography mission. This system utilizes a Xilinx Virtex-4 FPGA. Although the DAS includes a SATA connector for interfacing with a disk, a SATA core is needed to implement the protocol for disk operations.
In this work, an open-source SATA core for Virtex-4 FPGAs has been created. SATA cores for Virtex-5 and Virtex-6 devices were already available, but they are not compatible with the different serial transceivers in the Virtex-4. The core can interface with disks at SATA I or SATA II speeds, and has been shown working at rates up to 180MB/s. It has been successfully integrated into the hardware design of the DAS board so that radar samples can be stored on the disk.
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Metody částečné rekonfigurace programovatelných struktur / Partial reconfiguration methods based on programmable structuresKolář, Jan January 2009 (has links)
This master's thesis dissertates of partial reconfiguration methods based on programmable structures. In theoretical part it deals with difference and modular-based method of Xilinx's FPGAs Partial reconfiguration. Options of both reconfiguration techniques were written for Spartan 3, Virtex II, Virtex 4 and Virtex 5 processors. Diference-based method was in practical part tested on Spartan 3E Starter Kit and modular-based on ML501 board. All configuration bitstreams are included on CD. Xilinx Inc. provided all needed software tools such as ISE9.2i and PlanAHEAD.
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