Hardware description languages have been used for a long time and the primary hardware description languages in use are Verilog and VHDL. VHDL is a VHSIC Hardware Description Language and VHSIC is a very high speed integrated circuit gate level through system design and verification. Verilog is primarily targeted for design of application specific integrated circuits. Hardware description languages are used for hardware systems because of their parallelism. This parallelism results in increased speed
Introduction In the digital programmable world, FPGA and ASIC play a vital role for complex designs implementation. In today’s world most of the applications uses FPGA to process the data in the real time and prototyping. The demand for FPGA is increasing because of its performance and reprogramability. The basic building block of FPGA is Logic Block(Configuration Logic Block or Versatile). Many applications, vendors claims the utilization of FPGA or FPGA density in terms of gate counts. Generated
be the solution as it provides high configurability and performance. For rapid prototyping, the MATLAB Simulink offers a link with the FPGA which is an HDL Coder that capable to convert the MATLAB Simulink blocks into Very High Description Language (VHDL) and through an FPGA-in-the-loop, simulation for FPGA implementation can be done. Here, MATLAB Simulink successfully simulates the LR-I of excitation model for software simulations. Towards real-time simulation, the HDL Coder function will be used
1. Computer- A collection of electro-magnetic devices that work together in order to accomplish a certain task through given instructions. It can be used for both productivity and entertainment purposes. 2. Hardware- Electronic devices that make up the physical aspects of computer. Each component specialize in doing certain actions, yet needs the other devices in order to work properly. Ex. Graphic cards process graphics but needs the
CHAPTER 3 INTRODUCTION OF DWT 3.1 3-D DWT Architecture The 3-D DWT can be considered as a combination of three one dimensional DWT in the x, y and z directions, as shown in Fig. 3.1. The preliminary work in the DWT processor design is to build 1-D DWT modules, which are composed of high-pass and low-pass filters that perform a convolution of filter coefficients and input pixels. After a one-level of - discrete wavelet transform, the volume of image is decomposed into HHH, HHL, HLH, HLL, LHH, LHL
STATEMENT OF PURPOSE Qualification: B-Tech (Electronics and Communication Engineering) I always believed in the fact that we never finish with education as long as we breathe, or to put it in tangible terms, life is one endless school session, a continuous process. I opine that education and training are not only in the long term interest of oneself, but also the overall development of the society. Thus, the dictum of expanding ones know – how through continuous learning and discovery has always
automatic testing, digital integrated circuit testing, logic testing. I. INTRODUCTION TO HARDWARE TESTING T here is tremendous advancement in design and implementing hardware systems. A complex and very powerful system can be built using tools such as VHDL. Consequently there will be flaws in the system which could be incorrect requirement collection, design fault or critical hardware components under tested resulting in poor hardware system. Typical hardware faults are stuck-at fault, transition
For the past few decades man is advancing into the unknown realms of technology and science. This advancement is to make life easy and to increase human comfort at home and at work. I would like to be an integral part of crew that drives the world to such betterment. For this, research would be of prime importance with hands on experience in real time applications accompanied by in-depth knowledge of the subject. Since a good research career can only be built on the firm foundation of good education
Having a firm resolve and the will to succeed, it is to this maxim that I attribute all my achievements to. I strongly feel that it is only with a sense of conviction and passion towards the endeavor can one attain success and it is this fascination for the field of Electronics and communication Engineering that makes me pursue my Masters Degree. The very notion of a telephonic conversation spanning across vast distances, breaking all the physical barriers always intrigued me. Over the years the
“Dream, Dream and Dream. Dream transforms into thoughts. Thoughts results into action.” This famous quote by Dr. APJ Abdul Kalam is an inspiration for my life. After graduating my engineering from Visvesvaraya Technological University with flying colors, my next obvious dream was to pursue masters in my favorite subject VLSI. But I was of the opinion that I should gain some practical exposure by working in a research oriented organization to bridge the gap between theoretical knowledge and corporate
"Hold fast to your dreams for if dreams die, life is a broken-winged bird that cannot fly." - Langston Hughes I would like to introduce myself as Rob Geis. Since my childhood I’ve been inclined to having a practical approach to everything in life and have been greatly supported and encouraged by my parents throughout. Having a house nearer to an airport and watching the planes take-off and land daily from the terrace was the first seed sowed in my heart that made me take up engineering so that
1) Describe how your past education, professional and other experiences have prepared you to be successful in this graduate program. During his 16-year journey from school to Undergrad, a student is in the process of finding what he loves doing; his passion. By the time he is done with his Bachelors, with enough maturity and experience, he is clear with what he is good at. At this point, I consider graduation as a defining chapter in the student’s journey where he gets to polish his passion and skill
Abstract- In this paper the method face Recognition is using to access Automated teller machines (ATMs). ATMs are used to do banking function like checking balance withdraw money, changing pin numbers etc. The ATM cards and pin numbers are used for security purpose. But this system is using SIM card in place of ATM cards. In order to improve security the system first authenticate the person if he/she is recognized then it will ask the password of the account. This system used Spartan 3 FPGA board
2.1 LITERATURE REVIEW ON MULTIPLIERS Multiplier is key fundamental component for many high performance systems such as FIR-filters, microprocessors, digital processors, multimedia applications etc. Multiplier plays main role in system performance [3] [4] [5] because multiplier is generally the slowest element in the system. Furthermore, it occupied a large silicon area. Hence, optimizing speed and area are major design issues however area and speed both are conflicting performance constraints’. There
Ada The Ada language is the result of the most extensive and most expensive language design effort ever undertaken. The United States Department of Defense (DoD) was concerned in the 1970¡¦s by the number of different programming languages being used for its projects, some of which were proprietary and/or obsolete. Up until 1974, half of the applications at the DoD were embedded systems. An embedded system is one where the computer hardware is embedded in the device it controls. More than
1.Introduction Multipliers plays the major role in today’s digital processing technology and various other applications. With advances in technology, many researches have tried and are trying to design multipliers which offers the following design targets such as- speed, power consumptions, regularity of layout and hence less area or even combination of them in one multiplier and making them suitable for high speed, low power, and compact VLSI design. Vedic Mathematics is used to reduce the delay