Direct memory access interface of MC6800 with the TDC1010J LSI multiplier and the application as a digital filter

Hsueh, Hsiao-Chen

January 1983

No description available.

TDC1010J LSI Multiplier

Digital Filter

Memory Access Interface

An 8-bit inner product multiplier by parallel pipeline algorithm

Le, Chin Aik

January 1988

No description available.

8-bit Inner Product Multiplier

Parallel Pipeline Algorithm

Implementation of basic software tools to start a VLSI program at Ohio University with a high speed parallel multiplier as an example

Choudhury, Niren Ch.

January 1985

No description available.

VLSI

High Speed Parallel Multiplier

UNIX Operating System

Development of a Thick Gas Electron Multiplier Based Beta-ray Detector

Bernacci, Matthew

January 2018

A new beta-ray detector using the Thick Gas Electron Multiplier (THGEM) technology is presented. Traditional proportional counters have been considered the standard for many decades for radiation contamination monitoring. However, it has always been challenging to detect low energy beta-emitters such as 3H and 14C. In order to extend the low energy cut-off of these beta particles, it is important to keep the electron multiplication gain as high as possible. To accomplish this goal, we have developed a new gaseous beta-ray detector using THGEMs. Founded on previous THGEM avalanche simulations [1] and predecessor detectors, a novel prototype THGEM beta-ray detector was designed and fabricated. Its signal performance, effective gain and gain stability were comprehensively studied for single and double-THGEM configurations using an alpha source. The first time THGEM detector response to beta-rays was observed for various operating conditions and compared with Monte Carlo N-Particle Transport 6 (MCNP6) Monte Carlo simulations. / Thesis / Master of Science (MSc)

Gas Multiplication

Monte Carlo

Thick Gas Electron Multiplier

Beta-ray

Novel design of multiplier-less FFT processors

Shepherd, Simon J., Noras, James M., Zhou, Yuan

January 2007

No / This paper presents a novel and hardware-efficient architecture for power-of-two FFT processors. The proposed design is based on the phase-amplitude splitting technique which converts a DFT to cyclic convolutions and additions. The cyclic convolutions are implemented with a filter-like structure and the additions are computed with several stages of butterfly processing units. The proposed architecture requires no multiplier, and comparisons with other designs show it can save up to 39% total equivalent gates for an 8-bit 16-point FPGA-based FFT processor.

FFT

Systolic array

CSD

Phase-amplitude splitting

Multiplier-less architecture

Metoda pro evoluční návrh násobiček využívající development / Evolutionary Design Method of Multipliers Using Development

Kaplan, Tomáš

January 2010

This work is focused on the techniques for overcoming the problem of scale in the evolutionary design of the combinational multipliers. The approaches to the evolutionary design that work directly with the target solutions are not suitable for the design of the large-scale structures. An approach based on the biological principles of development has often been utilized as a non-trivial genotypephenotype mapping in the evolutionary algorithms that allows us to design scalable structures. The instruction-based developmental approach has been applied to the evolutionary design of generic circuit structures. In this work, three methods are presented for the construction of the combinational multipliers which use a ripple-carry adder for obtaining the final product.

Analysis of Booth’s Multiplier Algorithm vs Array Multiplier Algorithm and their FPGA Implementation

Gunturu, Anantha Sri Purnima

January 2019

No description available.

Electrical Engineering

Engineering

Booth Multiplier algorithm

32-bit input

Array Multiplier algorithm

DE10 Standard FPGA Implementation

VHDL

Development and Performance Study of Thick Gas Electron Multiplier (THGEM) Based Radiation Detector

Garai, Baishali

January 2013

Radiations can be classified as either ionizing or non-ionizing according to whether it ionizes or does not ionize the medium through which they propagate. X-rays photons and gamma rays are the typical examples of ionizing radiations whereas radiowave, heat or visible light are examples of non ionizing radiations. UV photons have some features of both ionizing and non-ionizing radiation. Both ionizing and non-ionizing radiation can be harmful to living organisms and to the natural environment. Hence the detection and measurement of radiation is very important for the well being of living organisms as well as the natural environment. Not only for safety reasons, have radiation detectors found their applications in various fields including medical physics, nuclear and particle physics, astronomy and homeland security. Industrial sectors that use radiation detection include medical imaging, security and baggage scanning, the nuclear power industry and defense. Gas electron multiplier (GEM) is one of the most successful representatives of gaseous detectors used for UV photon and X-ray photon detection. Recently there is a growing demand for large area photon detectors with sensitivity reaching to the level of single photon. They are used in spectroscopy and imaging in astronomy high energy physics experiments etc. Thick GEM (THGEM) is a mechanical expansion of standard GEM. It has all the necessary requirements needed for large area detector and offers a multiplication factor that permits efficient detection of light. Hence, the development and performance study of THGEM based radiation detector is chosen as the topic of study in the present thesis. The initial part of the thesis contains simulation studies carried out for the understanding the working of the detector and the effect of various design parameters of THGEM for the above said applications. Different steps for the fabrication of THGEM and the technical challenges faced during the process are discussed. In the view of application of the fabricated THGEM for UV photon detection, cesium iodide photocathode is prepared using thin film technology and characterized. The performance of the photocathode under various operating conditions is studied in terms of its photoemission property. The effect of vacuum treatment on the photoemission property of the photocathode exposed to moist air is studied in detail. A major portion of this thesis focuses on maximizing the detection efficiency of the UV photon detector realized using the fabricated THGEM coupled with the cesium iodide photocathode. Simulations are used at different stages to interpret the experimental observations. The electron spectrum obtained from the detector under study was analyzed. The dependence of secondary effect like photon feedback on the operating parameters is also discussed. The last portion of the thesis deals with the application of THGEM as an X-ray detector. The performance is evaluated in terms of the gain and energy resolution achieved. The thesis is organized as follows: Chapter 1 is divided into two sections. Section A gives a general introduction to different types of radiation detectors found in the present day and their working principles. This is followed by discussion about gas ionization based detector and its working principle in detail. A brief literature survey of the different types of micropattern gas detectors is also given in this section. In Section B of this chapter GEM and THGEM are introduced with discussion about their working principle and areas of application. Chapter 2 deals with the simulation study of THGEM undertaken to have a clear understanding of the detector’s working. Section A of this chapter gives an overview of the simulation tools used for the present thesis in particular ANSYS and GARFIELD. Section B presents the results of the simulation study highlighting the effects of different geometrical and operating parameters on the electric field distribution in and around the THGEM aperture. The relevance of the study to the detectors performance is discussed vividly for all the cases. In Chapter 3, the details of the different steps involved in THGEM fabrication are given. Design aspects involved, fabrication of the THGEM using standard PCB technology coupled with photolithography technique are discussed in this chapter. This is followed by an elaborate description of the test setup used for all the performance study. Preface In the view of application of THGEM as a UV photon detector, cesium iodide photocathode was prepared and characterized. Chapter 4 discusses about the CsI photocathode preparation and its characterization for the above said application. Photoemission property of the photocathode was analyzed under various operating parameters. The effect of vacuum treatment on the photocathode performance is a new aspect of this thesis. Its correlation with the microstructure of the film is reported for the first time. Chapter 5 deals with the application of THGEM as a UV photon detector. The study mainly focuses on the improvement of the detection efficiency of the detector. The effect of drift parameters on the electron transfer efficiency and hence on the detection efficiency of the detector is a major contribution of this thesis. There are no literature available which discusses this aspect of a UV photon detector. The experimental study has been supported with simulation results. In addition to the study on detection efficiency, electron spectrum has also been acquired from the UV photon detector. The spectrum has been analyzed under various operating conditions. Discussions about secondary effects like photon feedback prevailing in the detector output are also present in this chapter. Chapter 6 presents the results of THGEM as an X-ray detector. The performance of the detector has been evaluated in terms of the effective gain and energy resolution achieved under different operating conditions. The gain instability with time and its uniformity across the THGEM area are also studied. The effect of drift field on the energy resolution and its correlation with ETE is a new aspect of this work. Chapter 7 summarizes the salient features of the work presented in this thesis. Also the scope of future work based on this thesis is discussed at the end of the chapter.

Radiation Detectors

Ionizing Radiation Detectors

Gas Electron Multiplier (GEM)

UV Photon Detectors

X-Ray Detectors

Gas Ionization Detectors

UV Photocathode

Gaseous Photomultipliers

THICK GEMs

Instrumentation

Computational Aspects of Maass Waveforms

Strömberg, Fredrik

January 2005

<p>The topic of this thesis is computation of Mass waveforms, and we consider a number of different cases: Congruence subgroups of the modular group and Dirichlet characters (chapter 1); congruence subgroups and general multiplier systems and real weight (chapter 2); and noncongruence subgroups (chapter 3). In each case we first discuss the necessary theoretical background. We then outline the algorithm and display some of the results obtained by it.</p>

Mathematical analysis

Maass waveform

Congruence subgroup

Noncongruence subgroup

Multiplier system

Theta multiplier system

Eta multiplier system

real weight

Hecke operator

Involution

Dirichlet character

Spectral Theory

Computation

Matematisk analys

Mathematical analysis

Analys

Computational Aspects of Maass Waveforms

Strömberg, Fredrik

January 2005

The topic of this thesis is computation of Mass waveforms, and we consider a number of different cases: Congruence subgroups of the modular group and Dirichlet characters (chapter 1); congruence subgroups and general multiplier systems and real weight (chapter 2); and noncongruence subgroups (chapter 3). In each case we first discuss the necessary theoretical background. We then outline the algorithm and display some of the results obtained by it.

Mathematical analysis

Maass waveform

Congruence subgroup

Noncongruence subgroup

Multiplier system

Theta multiplier system

Eta multiplier system

real weight

Hecke operator

Involution

Dirichlet character

Spectral Theory

Computation

Matematisk analys

Mathematical analysis

Analys