Global ETD Search

41	Feasibility study: Implementation of a gigabit Ethernet controller using an FPGA Fält, Richard January 2003 (has links) <p>Background: Many systems that Enea Epact AB develops for theirs customers communicates with computers. In order to meet the customers demands on cost effective solutions, Enea Epact wants to know if it is possible to implement a gigabit Ethernet controller in an FPGA. The controller shall be designed with the intent to meet the requirements of IEEE 802.3. </p><p>Aim: Find out if it is feasible to implement a gigabit Ethernet controller using an FPGA. In the meaning of feasible, certain constraints for size, speed and device must be met. </p><p>Method: Get an insight of the standard IEEE 802.3 and make a rough design of a gigabit Ethernet controller in order to identify parts in the standard that might cause problem when implemented in an FPGA. Implement the selected parts and evaluate the results. </p><p>Conclusion: It is possible to implement a gigabit Ethernet controller using an FPGA and the FPGA does not have to be a state-of-the-art device.</p> Datorteknik CRC Data Link Layer Ethernet FPGA gigabit GMII MAC MDI MII OSI/BR model RS PHY Physical Layer Datorteknik Computer engineering Datorteknik
42	Multi-gigabit CMOS analog-to-digital converter and mixed-signal demodulator for low-power millimeter-wave communication systems Chuang, Kevin 05 1900 (has links) The objective of the research is to develop high-speed ADCs and mixed-signal demodulator for multi-gigabit communication systems using millimeter-wave frequency bands in standard CMOS technology. With rapid advancements in semiconductor technologies, mobile communication devices have become more versatile, portable, and inexpensive over the last few decades. However, plagued by the short lifetime of batteries, low power consumption has become an extremely important specification in developing mobile communication devices. The ever-expanding demand of consumers to access and share information ubiquitously at faster speeds requires higher throughputs, increased signal-processing functionalities at lower power and lower costs. In today’s technology, high-speed signal processing and data converters are incorporated in almost all modern multi-gigabit communication systems. They are key enabling technologies for scalable digital design and implementation of baseband signal processors. Ultimately, the merits of a high performance mixed-signal receiver, such as data rate, sensitivity, signal dynamic range, bit-error rate, and power consumption, are directly related to the quality of the embedded ADCs. Therefore, this dissertation focuses on the analysis and design of high-speed ADCs and a novel broadband mixed-signal demodulator with a fully-integrated DSP composed of low-cost CMOS circuitry. The proposed system features a novel dual-mode solution to demodulate multi-gigabit BPSK and ASK signals. This approach reduces the resolution requirement of high-speed ADCs, while dramatically reducing its power consumption for multi-gigabit wireless communication systems. Analog-to-digital converter Mixed-signal Demodulator Multi-gigabit CMOS Analog-to-digital converters Radio detectors Millimeter wave communication systems
43	Optimizing Point-to-Point Ethernet Cluster Communication Reinhardt, Mirko 01 March 2006 (has links) (PDF) This work covers the implementation of a raw Ethernet communication module for the Open MPI message passing library. Thereby it focuses on both the reduction of the communication latency for small messages and maximum possible compatibility. Especially the need for particular network devices, adapted network device drivers or kernel patches is avoided. The work is divided into three major parts: First, the networking subsystem of the version 2.6 Linux kernel is analyzed. Second, an Ethernet protocol family is implemented as a loadable kernel module, consisting of a basic datagram protocol (EDP), providing connection-less and unreliable datagram transport, and a streaming protocol (ESP), providing connection-oriented, sequenced and reliable byte streams. The protocols use the standard device driver interface of the Linux kernel for data transmission and reception. Their services are made available to user-space applications through the standard socket interface. Last, the existing Open MPI TCP communication module is ported atop the ESP. With bare EDP/ESP sockets a message latency of about 30 us could be achieved for small messages, which compared to the TCP latency of about 40 us is a reduction of 25 %. Datagram Protocol IEEE 802.3 Linux Network Subsystem Open MPI Stream Protocol ddc:004 Cluster <Rechnernetz> Ethernet Fast Ethernet Gigabit Ethernet MPI <Schnittstelle> Netzwerk
44	Silicon-based millimeter-wave front-end development for multi-gigabit wireless applications Sarkar, Saikat 02 November 2007 (has links) With rapid advances in semiconductor technologies and packaging schemes, wireless products have become more versatile, portable, inexpensive, and user friendly over last few decades. However, the ever-growing demand of consumers to share information efficiently at higher speeds requires higher data rates, increased functionality, lower cost, and more reliability. The 60-GHz-frequency band, with 7 GHz license-free bandwidth addresses, such demands, and promises a low-cost multi-Gbps wireless transmission with a power budget in the order of 100 mW. This dissertation presents the systematic development of key building blocks and integrated 60-GHz-receiver solutions. Two different approaches are investigated and implemented in this dissertation: (1) low-cost SiGe-based direct-conversion low-power receiver front-end utilizing gain-boosting techniques in the front-end low-noise amplifier, and (2) CMOS-based heterodyne receiver front-end suitable for high-performance single-chip 60 GHz transceiver solution. The ASK receiver chip, implemented using 0.18 ?m SiGe, presents a complete antenna-to-baseband multi-gigabit 60 GHz solution with the lowest reported power budget (25 pJ/bit) to date. The subharmonic direct conversion front-end, implemented using 0.18 ?m SiGe, presents excellent conversion properties with a 4 GHz DSB RF bandwidth. On the other hand, the CMOS heterodyne implementation of the 60 GHz front-end receiver, targeted towards a robust, single-chip, high-performance, low-power, and integrated 60 GHz transceiver solution, presents the most wideband receiver front-end reported to date. Finally, different multi-band and tunable millimeter-wave circuits are presented towards the future implementation of cognitive and multi-band millimeter-wave radio. Gain-boosting of cascode amplifiers CMOS SiGe Millimeter-wave 60 GHz Multi-gigabit WPAN Millimeter waves Telecommunication systems Millimeter wave communication systems Wireless communication systems
45	Feasibility study: Implementation of a gigabit Ethernet controller using an FPGA Fält, Richard January 2003 (has links) Background: Many systems that Enea Epact AB develops for theirs customers communicates with computers. In order to meet the customers demands on cost effective solutions, Enea Epact wants to know if it is possible to implement a gigabit Ethernet controller in an FPGA. The controller shall be designed with the intent to meet the requirements of IEEE 802.3. Aim: Find out if it is feasible to implement a gigabit Ethernet controller using an FPGA. In the meaning of feasible, certain constraints for size, speed and device must be met. Method: Get an insight of the standard IEEE 802.3 and make a rough design of a gigabit Ethernet controller in order to identify parts in the standard that might cause problem when implemented in an FPGA. Implement the selected parts and evaluate the results. Conclusion: It is possible to implement a gigabit Ethernet controller using an FPGA and the FPGA does not have to be a state-of-the-art device. Datorteknik CRC Data Link Layer Ethernet FPGA gigabit GMII MAC MDI MII OSI/BR model RS PHY Physical Layer Datorteknik Computer Engineering Datorteknik
46	Network Traffic Simulation and Generation / Network Traffic Simulation and Generation Matoušek, Jiří January 2011 (has links) Development of computer networks able to operate at the speed of 10 Gb/s imposes new requirements on newly developed network devices and also on a process of their testing. Such devices are tested by replaying synthetic or previously captured network traffic on an input link of the tested device. We must be able to perform both tasks also at full wire speed. Current testing devices are either not able to operate at the speed of 10 Gb/s or they are too expensive. Therefore, the aim of this thesis is to design and implement a hardware accelerated application able to generate and replay network traffic at the speed of 10 Gb/s. The application is accelerated in the FPGA of the COMBOv2 card and it also utilizes the NetCOPE platform. Architecture of the application is modular, which allows easy implementation of different modes of operation. The application implements both capturing and replaying network traffic at full wire speed, but traffic can be limited to a specified value of bitrate at the output. The thesis is concluded by a comparison of the implemented application and the packet generator implemented on the NetFPGA platform. According to this comparison, the implemented application is better than the NetFPGA packet generator.
47	Zefektivnění analýzy počítačové sítě 10Gbit/s / Perfecting the analysis of 10Gbit/s computer network Ťápal, Tomáš January 2013 (has links) The master’s thesis consists of several parts. Describes the technology 10 Gbps Ethernet. Analyzer Ixia and Endace presents, especially their use for traffic analysis and stress testing the network devices. It deals with documents RFC concerning the routers and switch testing. Thesis includes the reports of tests switches and router performed by RFC 2544 and RFC 2889 documents. Part of the thesis is dedicated to COMBO FPGA cards. Documentations to the analyzers is created in this thesis and macro is on the CD for presentation of measurement results.
48	Vícekanálový převodník digitálního videosignálu HD-SDI / Multichannel HD-SDI digital video signal converter Kučera, Stanislav January 2014 (has links) This master’s thesis deals with the design of six channel SD, HD and 3G HD-SDI digital video signal converter to 10-Gigabit Ethernet. In the introductory part, the conception of designed device is formulated. The theoretical background is provided in four chapters, where main standards and design rules related to digital electronics’ design are analyzed. The emphasis is placed on signal integrity at high-speed interconnects. There mostly practical examples, calculations and simulations are utilized. The design part contains thorough description of main subsystems’ design, implementation of FPGA, SDI input channels and 10-Gigabit Ethernet PHY. In the final part, the first tests and measurements of the build prototype are summarized. As an example, the comparison of signal integrity simulation to measurement is provided.
49	A Meta Analysis of Gigabit Ethernet over Copper Solutions for Cluster-Networking Hoefler, Torsten, Rehm, Wolfgang 28 June 2005 (has links) The IEEE Standard for Gigabit Networking was accepted in June 1998 and ratified as IEEE 802.3z. This standard uses considers an optical cable for signal transmission. One year later a new standard for Gigabit Ethernet over unshielded twisted pair of the 5th category was certified under the name 802.3ab. Nowadays, there are a couple of younger and older studies about Gigabit Ethernet technology and performance. This Meta Analysis is intended to put the main results altogether into one document suitable for a proper choice of gigabit networking equipment for cluster computers. info:eu-repo/classification/ddc/004 ddc:004 Cluster Cluster <Rechnernetz> Copper Ethernet Gigabit Ethernet ieee 802.3 ieee 802.3ab switches
50	Transporte TDM em redes GPON / TDM transport in GPON networks Guimarães, Marcelo Alves 17 February 2011 (has links) Neste trabalho analisamos e propomos a utilização de TDM (Time Division Multiplexing) nativo canalizado/estruturado em redes PON (Passive Optical Network) com padrão GPON (Gigabit Passive Optical Network), com ênfase na estrutura de transmissão do legado das redes de telefonia. O objetivo principal é obter um aumento na eficiência de banda transmitida através da fragmentação de sinais E1 sem que seja necessário o uso de técnicas de emulação de circuito (que reduzem a eficiência de banda devido à adição de cabeçalhos). Inicialmente, é descrito o transporte TDM em redes GPON, como efetuado pelos equipamentos comerciais atuais através de duas técnicas: CES - Circuit Emulation Service e TDM nativo não estruturado. Em seguida, é introduzido o conceito de comutação digital visando sua aplicação no transporte TDM nativo estruturado em redes GPON. Nesta etapa, é proposta uma solução para este transporte, é descrito o protocolo utilizado bem como seu funcionamento. Por fim, como prova de conceito, é apresentada uma implementação em HDL (Hardware Description Language) para FPGA (Field Programmable Gate Array). / In this work we analyze and propose the use of native channeled /structured TDM (Time Division Multiplexing) in GPON (Gigabit Passive Optical Network), with emphasis on the structure for transmission of the telephone network legacy. The main target is to achieve an increase in transmitted bandwidth efficiency by fragmenting E1 signals, thus avoiding the use of circuit emulation techniques (which reduce the bandwidth efficiency due to overhead addition). Initially, it is described in TDM transport in GPON networks, as it is performed in present commercial equipment by two techniques: CES - Circuit Emulation Service and Native TDM - unstructured. Next, we introduce the concepts of digital switching aiming its application on the transport of native and structured TDM in GPON. At this stage, we propose a transport solution, describe its protocol and functionalities. Finally, for concept proof, we present an implementation in HDL (Hardware Description Language) meant to FPGA (Field Programmable Gate Array) application. Circuit Emulation Service (CES) Circuit Emulation Service (CES) Comunicação óptica Comutação digital Digital Switching E1 fragmentation Field-Programmable Gate Array (FPGA) Field-Programmable Gate Array (FPGA) Fragmentação de E1 Gigabit PON (GPON) Gigabit PON (GPON) Hardware Description Language (HDL) Hardware Description Language (HDL) Native TDM Optical Communication Passive Optical Networks (PON) Passive Optical Networks (PON) TDM nativo TDM Transport Transporte TDM

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