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  • About
  • The Global ETD Search service is a free service for researchers to find electronic theses and dissertations. This service is provided by the Networked Digital Library of Theses and Dissertations.
    Our metadata is collected from universities around the world. If you manage a university/consortium/country archive and want to be added, details can be found on the NDLTD website.
1

Implementation of a Gigabit IP router on an FPGA platform

Borslehag, Tobias January 2005 (has links)
<p>The computer engineering group at Linköping University has parts of their research dedicated to networks-on-chip and components used in network components and terminals. This research has among others resulted in the SoCBUS NOC and a flow based network protocol processor. The main objective of this project was to integrate these components into an IP router with two or more Gigabit Ethernet interfaces.</p><p>A working system has been designed and found working. It consists of three main components, the input module, the output module and a packet buffer. Due to the time constraint and the size of the project the packet buffer could not be designed to be as efficient as possible, thus reducing the overall performance. The SoCBUS also has negative impact on performance, although this could probably be reduced with a revised system design. If such a project is carried out it could use the input and output modules from this project, which connect to SoCBUS and can easily be integrated with other packet buffers and system designs.</p>
2

Design of a Gigabit Router Packet Buffer using DDR SDRAM Memory / Design av en Packetbuffer för en Gigabit Router användandes DDR Minne

Ferm, Daniel January 2006 (has links)
<p>The computer engineering department at Linköping University has a research project which investigates the use of an on-chip network in a router. There has been an implementation of it in a FPGA and for this router there is a need for buffer memory. This thesis extends the router design with a DDR memory controller which uses the features provided by the Virtex-II FPGA family.</p><p>The thesis shows that by carefully scheduling the DDR SDRAM memory high volume transfers are possible and the memory can be used quite effciently despite its rather complex interface.</p><p>The DDR memory controller developed is part of a packet buffer module which is integrated and tested with a previous, slightly modifed, FPGA based router design. The performance of this router is investigated using real network interfaces and due to the poor network performance of desktop computers special hardware is developed for this purpose.</p>
3

Implementation of a Gigabit IP router on an FPGA platform

Borslehag, Tobias January 2005 (has links)
The computer engineering group at Linköping University has parts of their research dedicated to networks-on-chip and components used in network components and terminals. This research has among others resulted in the SoCBUS NOC and a flow based network protocol processor. The main objective of this project was to integrate these components into an IP router with two or more Gigabit Ethernet interfaces. A working system has been designed and found working. It consists of three main components, the input module, the output module and a packet buffer. Due to the time constraint and the size of the project the packet buffer could not be designed to be as efficient as possible, thus reducing the overall performance. The SoCBUS also has negative impact on performance, although this could probably be reduced with a revised system design. If such a project is carried out it could use the input and output modules from this project, which connect to SoCBUS and can easily be integrated with other packet buffers and system designs.
4

Design of a Gigabit Router Packet Buffer using DDR SDRAM Memory / Design av en Packetbuffer för en Gigabit Router användandes DDR Minne

Ferm, Daniel January 2006 (has links)
The computer engineering department at Linköping University has a research project which investigates the use of an on-chip network in a router. There has been an implementation of it in a FPGA and for this router there is a need for buffer memory. This thesis extends the router design with a DDR memory controller which uses the features provided by the Virtex-II FPGA family. The thesis shows that by carefully scheduling the DDR SDRAM memory high volume transfers are possible and the memory can be used quite effciently despite its rather complex interface. The DDR memory controller developed is part of a packet buffer module which is integrated and tested with a previous, slightly modifed, FPGA based router design. The performance of this router is investigated using real network interfaces and due to the poor network performance of desktop computers special hardware is developed for this purpose.
5

Design of a core router using the SoCBUS on-chip network

Svensson, Jimmy January 2004 (has links)
<p>The evolving technology has over the past decade contributed to a bandwidth explosion on the Internet. This makes it interesting to look at the development of the workhorses of the Internet, the core routers. The main objective of this project is to develop a 16 port gigabit core router architecture using intellectual property (IP) blocks and a SoCBUS on-chip interconnection network. </p><p>The router architecture will be evaluated by making simulations using the SoCBUS simulation environment. Some changes will be made to the current simulator to make the simulations of the core router more realistic. By studying the SoCBUS network load the bottlenecks of the architecture can be found. Changes to the router design and SoCBUS architecture will be made in order to boost the performance of the router. </p><p>The router developed in this project can under normal traffic conditions handle a throughput of 16x10Gbit/s without dropping packets. This core router is good enough to compete with the top of the line single-chip core routers on the market today. The advantage of this architecture compared to others is that it is very flexible when it comes too adding new functionality. The general on-chip network also reduces the design time of this system.</p>
6

Design of a core router using the SoCBUS on-chip network

Svensson, Jimmy January 2004 (has links)
The evolving technology has over the past decade contributed to a bandwidth explosion on the Internet. This makes it interesting to look at the development of the workhorses of the Internet, the core routers. The main objective of this project is to develop a 16 port gigabit core router architecture using intellectual property (IP) blocks and a SoCBUS on-chip interconnection network. The router architecture will be evaluated by making simulations using the SoCBUS simulation environment. Some changes will be made to the current simulator to make the simulations of the core router more realistic. By studying the SoCBUS network load the bottlenecks of the architecture can be found. Changes to the router design and SoCBUS architecture will be made in order to boost the performance of the router. The router developed in this project can under normal traffic conditions handle a throughput of 16x10Gbit/s without dropping packets. This core router is good enough to compete with the top of the line single-chip core routers on the market today. The advantage of this architecture compared to others is that it is very flexible when it comes too adding new functionality. The general on-chip network also reduces the design time of this system.

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