Analog and Digital Array Processor Realization of a 2D IIR Beam Filter for Wireless Applications

Joshi, Rimesh M.

01 February 2012

No description available.

Electrical Engineering

Array processors

bit error rate (BER)

digital phased array feed (PAF)

field-programmable gate array (FPGA)

multi-dimensional digital filters

spatial modulation

systolic

wavefront

wireless

Estimating the Dynamic Sensitive Cross Section of an FPGA Design through Fault injection

Johnson, Darrel E.

15 April 2005

A fault injection tool has been created to emulate single event upset (SEU) behavior within the configuration memory of an FPGA. This tool is able to rapidly and accurately determine the dynamic sensitive cross section of the configuration memory for a given FPGA design. This tool enables the reliability of FPGA designs and fault tolerance schemes to be quickly and accurately tested. The validity of testing performed with this fault injection tool has been confirmed through radiation testing. A radiation test was conducted at Crocker Nuclear Laboratory using a proton accelerator in order to determine the actual dynamic sensitive cross section for specific FPGA designs. The results of this radiation testing were then analyzed and compared with similar fault injection tests, with results suggesting that the fault injection tool behavior is indeed accurate and valid. The fault injection tool can be used to determine the sensitivity of an FPGA design to configuration memory upsets. Additionally, fault mitigation techniques designed to increase the reliability of an FPGA design in spite of upsets within the configuration memory, can be thoroughly tested through fault injection. Fault injection testing should help to increase the feasibility of reconfigurable computing in space. FPGAs are well suited to the computational demands of space based signal processing applications; however, without appropriate mitigation or redundancy techniques, FPGAs are unreliable in a radiation environment. Because the fault injection tool has been shown to reliably model the effects of single event upsets within the configuration memory, it can be used to accurately evaluate the effectiveness of fault tolerance techniques in FPGAs.

FPGA

reliability

fault injection

Field Programmable Gate Array

SEU

Single Event Upset

radiation

fault tolerance

dynamic sensitive cross section

sensitivity

fault modeling

Electrical and Computer Engineering

Accelerated Large-Scale Multiple Sequence Alignment with Reconfigurable Computing

Lloyd, G Scott

20 May 2011

Multiple Sequence Alignment (MSA) is a fundamental analysis method used in bioinformatics and many comparative genomic applications. The time to compute an optimal MSA grows exponentially with respect to the number of sequences. Consequently, producing timely results on large problems requires more efficient algorithms and the use of parallel computing resources. Reconfigurable computing hardware provides one approach to the acceleration of biological sequence alignment. Other acceleration methods typically encounter scaling problems that arise from the overhead of inter-process communication and from the lack of parallelism. Reconfigurable computing allows a greater scale of parallelism with many custom processing elements that have a low-overhead interconnect. The proposed parallel algorithms and architecture accelerate the most computationally demanding portions of MSA. An overall speedup of up to 150 has been demonstrated on a large data set when compared to a single processor. The reduced runtime for MSA allows researchers to solve the larger problems that confront biologists today.

communication network

communication protocol

computer architecture

interface

modules

dynamic programming

field-programmable gate array

FPGA

sequence alignment

reconfigurable hardware

traceback

Computer Sciences

Estimation of Wordlengths for Fixed-Point Implementations using Polynomial Chaos Expansions

Rahman, Mushfiqur

January 2023

Due to advances in digital computing much of the baseband signal processing of a communication system has moved into the digital domain from the analog domain. Within the domain of digital communication systems, Software Defined Radios (SDRs) allow for majority of the signal processing tasks to be implemented in reconfigurable digital hardware. However this comes at a cost of higher power and resource requirements. Therefore, highly efficient custom hardware implementations for SDRs are needed to make SDRs feasible for practical use. Efficient custom hardware motivates the use of fixed point arithmetic in the implementation of Digital Signal Processing (DSP) algorithms. This conversion to finite precision arithmetic introduces quantization noise in the system, which significantly affects the performance metrics of the system. As a result, characterizing quantization noise and its effects within a DSP system is an important challenge that needs to be addressed. Current models to do so significantly over-estimate the quantization effects, resulting in an over-allocation of hardware resources to implement a system. Polynomial Chaos Expansion (PCE) is a method that is currently gaining attention in modelling uncertainty in engineering systems. Although it has been used to analyze quantization effects in DSP systems, previous investigations have been limited to simple examples. The purpose of this thesis is to therefore introduce new techniques that allow the application of PCE to be scaled up to larger DSP blocks with many noise sources. Additionally, the thesis introduces design space exploration algorithms that leverage the accuracy of PCE simulations to estimate bitwidths for fixed point implementations of DSP systems. The advantages of using PCE over current modelling techniques will be presented though its application to case studies relevant to practice. These case studies include Sine Generators, Infinite Impulse Response (IIR) filters, Finite Impulse Response (FIR) filters, FM demodulators and Phase Locked Loops (PLLs). / Thesis / Master of Applied Science (MASc)

polynomial chaos expansions

wordlength optimization

affine arithmetic

interval arithmetic

signal processing

digital communication systems

software defined radio

field programmable gate array

fpga

numerical precision

Development of Parallel Architectures for Radar/Video Signal Processing Applications

Jarrah, Amin

January 2014

No description available.

Computer Engineering

Electrical Engineering

Algorithm Implementation

Auto-generation

Field-Programmable Gate Array

Graphic Processing Unit

High Level Synthesis Tools

Parallel Architecture

Software Tool

A Bidirectional Neural Interface Microsystem with Spike Recording, Microstimulation, and Real-Time Stimulus Artifact Rejection Capability

Limnuson, Kanokwan

03 June 2015

No description available.

Electrical Engineering

Closed-loop neuroprostheses

neural recording

neural signal processing

neurostimulation

stimulus artifact rejection

field-programmable gate array

system-on-chip

template subtraction

Next Generation Design of a Frequency Data Recorder Using Field Programmable Gate Arrays

Billian, Bruce

25 September 2006

The Frequency Disturbance Recorder (FDR) is a specialized data acquisition device designed to monitor fluctuations in the overall power system. The device is designed such that it can be attached by way of a standard wall power outlet to the power system. These devices then transmit their calculated frequency data through the public internet to a centralized data management and storage server. By distributing a number of these identical systems throughout the three major North American power systems, Virginia Tech has created a Frequency Monitoring Network (FNET). The FNET is composed of these distributed FDRs as well as an Information Management Server (IMS). Since frequency information can be used in many areas of power system analysis, operation and control, there are a great number of end uses for the information provided by the FNET system. The data provides researchers and other users with the information to make frequency analyses and comparisons for the overall power system. Prior to the end of 2004, the FNET system was made a reality, and a number of FDRs were placed strategically throughout the United States. The purpose of this thesis is to present the elements of a new generation of FDR hardware design. These elements will enable the design to be more flexible and to lower reliance on some vendor specific components. Additionally, these enhancements will offload most of the computational processing required of the system to a commodity PC rather than an embedded system solution that is costly in both development time and financial cost. These goals will be accomplished by using a Field Programmable Gate Array (FPGA), a commodity off-the-shelf personal computer, and a new overall system design. / Master of Science

Frequency Disturbance Recorder

FDR

FNET

Field Programmable Gate Array

Field programmable gate arrays

Frequency Monitoring Network

Time Synchronization

Power System Monitoring

An advanced neuromorphic accelerator on FPGA for next-G spectrum sensing

Azmine, Muhammad Farhan

10 April 2024

In modern communication systems, it’s important to detect and use available radio frequencies effectively. However, current methods face challenges with complexity and noise interference. We’ve developed a new approach using advanced artificial intelligence (AI) based computing techniques to improve efficiency and accuracy in this process. Our method shows promising results, requiring only minimal additional resources in exchange of improved performance compared to older techniques. / Master of Science / In modern communication systems, it’s important to detect and use available radio frequencies effectively. However, current methods face challenges with complexity and noise interference. We’ve developed a new approach using advanced artificial intelligence (AI) based computing techniques to improve efficiency and accuracy in this process. Our method shows promising results, requiring only minimal additional resources in exchange of improved performance compared to older techniques.

Field Programmable Gate Array

Hardware accelerator

On-Chip learning

Artificial intelligence

Recurrent Neural Network

Spike-Time-Dependent-Plasticity

Cognitive-Radio-Network

Spectrum Sensing

Transporte TDM em redes GPON / TDM transport in GPON networks

Guimarães, Marcelo Alves

17 February 2011

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

Migration von Relaisschaltungen der Eisenbahnsicherungstechnik auf Programmierbare Schaltkreise

Wülfrath, Stefan

12 November 2013

In der vorliegenden Arbeit werden eine sichere FPGA-Stellwerksplattform und ein Transformationsverfahren entwickelt, mit dem die Schaltungen bestehender Relaisstellwerke in eine FPGA-Logik überführt werden können. Die FPGA-Stellwerksplattform ersetzt die Innenanlage eines Relaisstellwerks. Ihre Schnittstellen entsprechen den bisherigen Schnittstellen am Kabelabschlussgestell und zur Bedien- und Meldeeinrichtung. Damit ist eine einfache Migration bestehender Stellwerke möglich. Das Sicherheitskonzept basiert auf einer zweikanaligen Struktur mit sicherem Vergleicher und zusätzlichen Selbsttests zur schnellen, datenflussunabhängigen Ausfalloffenbarung. Die erreichbare Gefährdungsrate liegt im Bereich von SIL 4 und entspricht damit dem Sicherheitsziel für Stellwerke der Deutschen Bahn. Die Transformation sieht eine Trennung der Stellwerkslogik in Logik- und Leistungsteil vor. Der Logikteil wird auf dem FPGA realisiert. Die im Leistungsteil verbliebenen Kontakte und Überwacherrelais werden durch sichere Stellteile ersetzt. Die logischen Ansteuerbedingungen der Relais werden in Schaltnetze überführt. Die gesteuerten Relais werden durch Instanzen generischer Zustandsmodelle ersetzt. Für jeden verwendeten Relaistyp wurde ein entsprechendes Modell entwickelt, das bei der Transformation als Baustein eingesetzt werden kann. Die generischen Zustandsmodelle berücksichtigen auch die sicherheitsrelevanten konstruktiven Eigenschaften der Relais. So wird bei der Auftrennung einer Schaltung in Logik- und Leistungsteil sichergestellt, dass die in getrennte Schaltungsteile überführten Öffner und Schließer eines Relais nie gleichzeitig geschlossen sein können (Zwangsführung der Kontakte). Dies ist eine Voraussetzung für die Beibehaltung der sicherheitsrelevanten Funktionsbedingungen der Originalschaltung. Das Transformationsverfahren und die implementierten Mechanismen zur Ausfalloffenbarung sind unabhängig von der Anwenderlogik und vom gewählten Schaltkreistyp. Damit kann der generierte VHDL-Code bei Obsoleszenz eines Schaltkreises auch auf andere FPGA-Typen portiert werden. In einer Ressourcenabschätzung wird gezeigt, dass der gewählte Lösungsansatz geeignet ist, die Schaltungen kleinerer Relaisstellwerke vollständig auf einem FPGA zu realisieren. Die Anwendung des vorgestellten Verfahrens wird am Beispiel der Weichengruppe des Stellwerkstyps GS II DR demonstriert. Das Transformationsverfahren ist aber auch für andere Stellwerksbauformen geeignet. Dabei ist es unerheblich, ob diese nach dem tabellarischen Verschlussplanprinzip oder dem Spurplanprinzip arbeiten.

Relaisstellwerk

Signalrelais

Field programmable gate array

VHDL

self test

built-in self test

safety

safety-critical system

fail-safe system

interlocking system

signalling technique

ddc:380

ddc:621.3

ddc:620

rvk:ZO 5130

rvk:ZN 4904

Field programmable gate array

VHDL

Selbsttest

Built-in self test

Technische Sicherheit

Sicherheitskritisches System

Ausfallsicheres System

Stellwerk

Elektronisches Stellwerk

Eisenbahnsignalanlage

Signaltechnik