Insights Sequential and Concurrent Statements - No More Confusion [Beginner’s Guide] - Part ii

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This is the Part ii of last Video "VHDL Basics : Insights Sequential and Concurrent Statements - No More Confusion [Beginner’s Guide]", for deeper understanding, and it is very important to have deeper insights on Sequential and Concurrent statement, if you are designing anything in VHDL or Verilog HDL. In this comprehensive tutorial, we will cover everything you need to know about VHDL sequential and concurrent statements. Sequential statements allow us to execute code in a step-by-step manner, while concurrent statements offer a more parallel execution approach. Welcome to this beginner's guide on VHDL basics, where we will dive into the concepts of sequential and concurrent statements in VHDL. If you've ever been confused about these fundamental aspects of VHDL programming, this video is perfect for you. We will start by explaining the differences between sequential and concurrent statements, providing clear examples and illustrations to eliminate any confusion. By the end of this video, you will have a solid understanding of how to effectively utilize sequential and concurrent statements in your VHDL designs. This guide is suitable for beginners who have some basic knowledge of VHDL. We will go step-by-step and explain each concept thoroughly, ensuring that you grasp the fundamentals before moving on to more advanced topics. Make sure to subscribe to our channel for more informative videos on VHDL programming and digital design. Don't forget to hit the notification bell to stay updated with our latest uploads. If you have any questions or suggestions, feel free to leave them in the comments section below.

Mastering VLSI: Why the Right Training Matters for a Thriving Tech Career

The Rising Demand for VLSI Experts The modern world is driven by electronics. From smartphones to smart cars, every innovation depends on microchips designed using VLSI (Very Large Scale Integration) technology. With the growing use of AI, IoT, and automation, the need for skilled VLSI professionals has increased rapidly. This makes VLSI an essential field for those looking to build a strong career in electronics and semiconductor industries. Choosing the right learning path is key to making the most of this opportunity.

Exploring the Benefits of VLSI Online Training Courses Many learners today seek flexible and effective ways to upskill. VLSI online training courses offer an excellent solution by combining convenience with quality education. These courses provide access to experienced instructors, practical assignments, and industry-based projects—all from the comfort of home. Learners can grasp digital design, physical design, verification, and ASIC/FPGA concepts without sacrificing their job or academic responsibilities. The online model also allows repeated learning and flexible scheduling, making it ideal for beginners as well as professionals wanting to upgrade their knowledge.

Choosing the Right Learning Mode While online learning provides flexibility, some individuals prefer classroom-based teaching for real-time interaction and immediate doubt clearing. The choice between online and offline modes largely depends on individual preferences, learning habits, and career goals. However, what truly matters is the quality of the training and the expertise of the instructors involved.

Key Skills Taught in VLSI Training A well-structured VLSI course should cover areas like CMOS technology, HDL languages such as Verilog and VHDL, physical design flow, and functional verification techniques. Practical exposure through lab sessions or simulation tools is crucial. Additionally, learners should be guided on real-time projects to apply their theoretical knowledge to industry problems.

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Conclusion VLSI technology plays a vital role in shaping the electronics and semiconductor industries. Whether through VLSI online training courses or classroom-based programs like VLSI coaching in Hyderabad, acquiring the right skills is essential for career growth. Institutions like Takshila Institute of VLSI Technologies provide training that matches industry standards, helping learners succeed in a competitive field. The choice of platform and location may differ, but the goal remains the same—building a strong foundation in VLSI for a successful future.

Internships in Hyderabad for B.Tech Students – Why LI-MAT Soft Solutions is the Best Platform to Launch Your Tech Career

What Are the Best Internships in Hyderabad for B.Tech Students?

The best internships are those that:

Offer real-time project experience

Help you develop domain-specific skills

Are recognized by industry recruiters

Provide certifications and resume value

At LI-MAT, students get access to all of this and more. They offer industry-curated internships that help B.Tech students gain:

Hands-on exposure

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Whether you’re from CSE, IT, ECE, or EEE, LI-MAT provides internships that are practical, structured, and designed to bridge the gap between college and industry.

Can ECE B.Tech Students Get Internships in Embedded Systems or VLSI in Hyderabad?

Absolutely! And LI-MAT makes it easy.

ECE students often struggle to find genuine core domain internships, but LI-MAT Soft Solutions offers specialized programs for:

Embedded Systems

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These internships include hardware-software integration, use of tools like Arduino, Raspberry Pi, and VHDL, and even PCB design modules. So yes, if you’re from ECE, LI-MAT is your one-stop platform for core domain internships in Hyderabad.

Are There Internships in Hyderabad for IT and Software Engineering Students?

Definitely. LI-MAT offers software-focused internships that are tailor-made for IT and software engineering students. These include:

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Python and Django

Cloud Computing with AWS & DevOps

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The internships are live, interactive, and project-driven, giving you the edge you need to stand out during placements and technical interviews.

What Domain-Specific Internships are Popular in Hyderabad for B.Tech Students?

B.Tech students in Hyderabad are increasingly looking for internships that align with industry trends. Some of the most in-demand domains include:

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VLSI & Electronics Design

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Courses Offered at LI-MAT Soft Solutions

Here’s a quick look at the most popular internship courses offered by LI-MAT for B.Tech students:

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Java (Core + Advanced)

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What makes LI-MAT stand out from other institutes is its focus on real outcomes:

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They aren’t just about teaching—they’re about transforming students into tech professionals.

Conclusion

If you're searching for internships in Hyderabad for B.Tech students, don’t settle for generic listings and unpaid gigs. Go with a trusted institute that offers real skills, real projects, and real value.

LI-MAT Soft Solutions is your gateway to quality internships in Hyderabad—whether you’re from CSE, IT, or ECE. With cutting-edge courses, project-driven learning, and expert guidance, it’s everything you need to kickstart your tech career the right way.

Sono preoccupato. Nella mia dashboard tumblr trovo:

80% di post con immagini borderline porno (per carità mi piace la patacca! non mi lamento a parte per quel 70% di legature stile soppressata appesa a stagionare, impronte di mani arrossate su chiappe trattate con ace gentile e principi di soffocamento -non soffoconi, proprio ragazze che evidentemente amano trombare nel vestibolo della rianimazione, de gustibus... -

15% di post del tipo “10 phyton projects for beginners”, ed io che sono maschio caucasico ed etero se devo programmare uso il C o se davvero mi fanno incazzare l’assembler, e la cosa più gender fluid che uso è il VHDL...

4% di pubblicità di kindle full (evidentemente tumblr si è accorto che senza lenti non vedo una cippa di minchia, tra qualche mese suggerirà il bastone bianco)

1% di post contenenti qualcosa di effettivamente piacevole, che sia un contenuto comunicativo-interlocutorio di qualche persona seguita oppure culturalmente assimilabile ad un pensiero semi-scolarizzato.

Quale è il meccanismo che cerca di infilarmi in questo rabbit hole, per me antitrombo, di tilegocosiripassoinodidamarinaio, nonrespirarechehaimangiatoaglio e usalemiechiappecomeunbongocositiimmaginonegrettosuperdotato??? Tumblr ha sbagliato persona e legge nel pensiero di qualche mio collega anzichè il mio?

Per voi che pensate in modo binario: no, non vi siete persi le parti da 1 al 4. Questa è una breve introduzione al dispositivo elettronico che preferisco: un array di porte programmabili sul campo (FPGA). Quando parlo degli FPGA, molti mi dicono: "Non so come funzionano", "Sono troppo complicati" o "Non posso programmarli in C". Poiché non mi piace vedere questi dispositivi così sorprendenti essere scherniti, cercherò di affrontare alcuni di questi problemi comuni di seguito e dissipare ogni dubbio.

Che cos'è un array di porte programmabili sul campo?

La risposta lunga: dal nome, si potrebbe dedurre che si tratta di una struttura programmabile di porte logiche. Più o meno, ma non del tutto, perché la matrice logica interna non è effettivamente implementata mediante porte. Definiamo invece i blocchi della matrice "elementi logici". Questi normalmente consistono di una tabella di ricerca (LUT) che implementa una funzione logica arbitraria e alcuni circuiti di supporto come multiplexer, sommatori e flip-flop. Spesso si parla di questa serie di elementi logici con il termine "il tessuto FPGA".

Figura 1: Esempio di un elemento logico FPGA. (Immagine per gentile concessione di Wikimedia Commons)

Per semplificare, mi piace pensare un FPGA come una scatola di elementi costitutivi colorati senza marchio per la creazione di circuiti digitali. Posso collegare i blocchi tra loro come mi pare per adattarli alla mia applicazione. Se sapete descrivere come si comporta un circuito digitale, potete crearlo all'interno di un FPGA con un numero di elementi logici sufficiente. Servono 25 uscite PWM? Nessun problema. Serve un protocollo di comunicazione speciale? Programma il codice hardware per gestirlo.

Perché dovrei avere bisogno di un FPGA?

Un FPGA viene utilizzato per implementare un sistema digitale, ma anche un semplice microcontroller può spesso date lo stesso risultato. I microcontroller sono economici e facili da inserire su una PCB. Gli FPGA sono strumenti potenti, ma potrebbero non essere adatti a tutti i casi. Hanno più requisiti di potenza, layout e di circuiti esterni e per questo possono essere proibitivi. L'uso di un FPGA sensibilmente più costoso e con molti requisiti speciali potrebbe sembrare ridicolo.

Ma potreste aver già indovinato il primo motivo per cui un FPGA è molto utile: la sua flessibilità. Avere blocchi logici configurabili significa non aver le mani legate in fatto di hardware. Non si esauriscono mai i timer o gli UART fintantoché vi sono elementi logici disponibili per crearne altri. Essere in grado di riconfigurare il progetto più avanti può anche estendere il ciclo di vita di un prodotto man mano la tecnologia e i requisiti che cambiano.

Il secondo motivo è la velocità. Un microcontroller esegue le istruzioni una alla volta, in modo sequenziale. Una struttura FPGA è intrinsecamente parallela a causa della sua natura hardware. Ciò consente che si verifichino varie cose simultaneamente, il che è utile per operazioni come FFT o l'elaborazione grafica che può essere costosa su un processore sequenziale. Gli FPGA hanno anche più opzioni I/O ad alta velocità rispetto a un tipico microcontroller come LVDS e transceiver con capacità di oltre 10 Gbps per protocolli come HDMI.

Come si programma un FPGA?

Gli FPGA usano un tipo speciale di linguaggio chiamato HDL o Hardware Description Language. È disponibile principalmente in due versioni: Verilog e VHDL. Quasi tutte le suite di sviluppo come Quartus o Vivado supporteranno entrambe per lasciarvi scegliere quella che preferite. Questi linguaggi sono quindi "sintetizzati", una procedura analoga alla compilazione per i microcontroller. Lo strumento di sintesi istruisce l'FPGA su come collegare i suoi elementi logici per creare l'effetto descritto dal codice programmato. Ricordare che il codice viene tradotto nell'hardware e non le istruzioni della CPU è molto importante all'inizio del lavoro.

Per semplificare lo sviluppo, i fornitori di FPGA offrono un catalogo di blocchi di codice di uso comune che possono essere facilmente inseriti in un progetto. Questi includono moltiplicatori, RAM, blocchi di comunicazione e molto altro che possono essere configurati e aggiunti a un progetto senza dover mai guardare il codice HDL in questione, accelerando i tempi di sviluppo.

Figura 2: Diagramma a blocchi parziale che mostra i blocchi IP dal catalogo Xilinx e HLS. (Immagine per gentile concessione di eewiki.net)

Alcuni produttori offrono anche di strumenti di High Level Synthesis (HLS) in grado di tradurre una funzione scritta in C o C++ in un blocco di codice HDL. L'utilizzo di questi strumenti riduce notevolmente la barriera all'ingresso per gli sviluppatori con competenze software, poiché isolano da alcuni dettagli di basso livello.

Non siete ancora convinti? Una delle caratteristiche che preferisco di un FPGA è la possibilità di utilizzare un processore soft. Questo è un processore completo costruito con elementi logici dell'FPGA. Con questo, è possibile creare hardware di supporto personalizzato per il processore e scrivere la propria applicazione in C. Un semplice sistema con processore soft può essere impostato e programmato in pochi minuti. Se comunque serve un processore tradizionale, date un'occhiata ai SoC che integrano un processore FPGA e un processore ARM hard in un unico pacchetto.

Riassumendo, gli FPGA sono più costosi e più difficili da gestire rispetto a un tipico microcontroller, ma possono offrire molta più potenza e flessibilità nel caso serva. Man mano che la tecnologia migliora e gli FPGA diventano meno costosi con livelli di integrazione più elevati, potrebbero addirittura sostituire i microcontroller tradizionali. Quindi, se quanto ho detto vi alletta, iniziate a usare gli FPGA oggi stesso, per essere sempre al passo con i tempi. Se cercate una scheda di sviluppo a basso costo per iniziare, provate queste di vari nostri fornitori di FPGA: DE10-Lite di Terasic, Arty di Digilent, Mobile Dev Board di Lattice o Maker Kit di Microsemi.

Classes this semester

Functional programming [Scala]

Computer architecture 1 [vhdl, assembly]

Computer networks

Algorithms

Analysis 3

Electromagnetism

Cooperation & development

Introduction to ML [python]

Numerical methods for visual computing and ML [python]

+ language classes: beginner German and Italian a2->b1

It’s pretty packed but I’m getting the hang of it 👍

Xilinx ise 14.7 windows 10 pn.exe error

It strongly supports code reusability and code sharing.Ī list of disadvantages of VHDL is given below:.

It provides tight coupling to lower levels of design.

It provides a flexible design language.

It supports various design methodologies like Top-down approach and Bottom-up approach.

For early performance estimation of system architectureĪ list of advantages of VHDL is given below:.

2008: IEEE Standard 1076-2008 (New features) was released.

1999: Analog Mixed Signal extension (VHDL-AMS).

1996: A VHDL package used with synthesis tools and became a part of the IEEE 1076 standard.

1993: VHDL was re-standardized to enhance the language.

1987: DOD permitted for commercial purpose, and VHDL became IEEE Standard 1076-1987.

1985 (VHDL Version 7.2): The final version of the language under the government contract was released.

1983: The development of VHDL began with a joint effort by IBM, Inter-metrics, and Texas Instruments.

1980: The Department of Defence wanted to make circuit design self-documenting.

VHDL was developed by the Department of Defence (DOD) in 1980. It does not support the Multi-Dimensional array. It does not allow the user to define data types. The most popular examples of Verilog are network switch, a microprocessor, a memory, a simple flip-flop, etc. It is used in both hardware simulation and synthesis. Verilog is also a HDL (Hardware Description Languages) for describing electronic circuits and systems.

Design methodologies and their features.

The most popular examples of VHDL are Odd Parity Generator, Pulse Generator, Priority Encoder, Behavioral Model for 16 words, 8bit RAM, etc. It is an IEEE (Institute of Electrical and Electronics Engineers) standard hardware description language that is used to describe and simulate the behavior of complex digital circuits.

VHDL stands for Very High-Speed Integration Circuit HDL (Hardware Description Language). Today, there are many HDLs available in the market, but VHDL and Verilog are the most popular HDLs.

The main advantage of HDLs is that it provides flexible modeling capabilities and can express the large complex designs (>10 7 gates). HDL is mainly used to discover the faults in the design before implementing it in the hardware. It is a programming language that is used to describe, simulate, and create hardware like digital circuits (ICS). HDL stands for Hardware Description Language.

Creating a Project in VHDL using the Xilinx IDE tool.

Our VHDL tutorial is designed for beginners and professionals. VHDL tutorial provides basic and advanced concepts of VHDL.

VHDL Basics : Insights Sequential and Concurrent Statements - No More Confusion [Beginner’s Guide]

In this comprehensive tutorial, we will cover everything you need to know about VHDL sequential and concurrent statements. Sequential statements allow us to execute code in a step-by-step manner, while concurrent statements offer a more parallel execution approach. Welcome to this beginner's guide on VHDL basics, where we will dive into the concepts of sequential and concurrent statements in VHDL. If you've ever been confused about these fundamental aspects of VHDL programming, this video is perfect for you. We will start by explaining the differences between sequential and concurrent statements, providing clear examples and illustrations to eliminate any confusion. By the end of this video, you will have a solid understanding of how to effectively utilize sequential and concurrent statements in your VHDL designs. This guide is suitable for beginners who have some basic knowledge of VHDL. We will go step-by-step and explain each concept thoroughly, ensuring that you grasp the fundamentals before moving on to more advanced topics. Make sure to subscribe to our channel for more informative videos on VHDL programming and digital design. Don't forget to hit the notification bell to stay updated with our latest uploads. If you have any questions or suggestions, feel free to leave them in the comments section below.

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VHDL VS VERILOG

The comments all include links to other websites or publications. Let me first create the answer story. After reading this response, one should clearly understand Verilog HDL and where they stand in the learning process.

Verilog is not a programming language. It isn't used in any platform for development reasons, and it doesn't make programming easier (relating to scripting). It does not create an environment or user interface that is interesting.

Verilog coding builds a digital circuit for a behavioural purpose while simultaneously modelling it, resulting in digital circuits. Before moving on to Verilog, make sure the digital circuit is in your blood and not in your heart. It breaks and also fails!

How should you proceed with digital circuits? Start learning about the following topics: gates, flip-flops, shift registers, counters, adders, subtractors, multiplexers, demultiplexers, priority encoders, encoders, decoders, K-maps, boolean algebra, and De-law. Morgan's Is that all? Nope. state machines as well They form the nucleus of the design cycle.

Best references Digital Circuit :

Morris, M. digital design by Mano. You will find clear foundation in this text. You won't struggle to understand it here.

Digital Design Team at Wakerly (Pearson publication). You can acquire sophisticated digital design methods from this book.

CMOS VLSI Design by Neil Weste and David Harris Without missing a word, give the third chapter your undivided attention. maximise the depth of your comprehension. at the very least, the construction of hardware gates and flops.

Now that you've developed a digital circuit in your brain. You understand how nanoscale technology functions and how electrical impulses go from one spot to another in a finite amount of time (3rd reference in the digital circuit). Let's go on to a thorough examination of Verilog.

Best References Verilog HDL :

Verilog by Samir Palnitkar. Beginners can easily understand this text. You don't dream about actual use. It can be used to create the necessary codes for logic circuits (synthesize-able). citations for digital design Examine it to see what you are able to write.

Award-Winning Verilog & System by Cliff Cummings Papers on Verilog is a source that is cited. Consider the following quotation to be holy Verilog. Read Verilog's documentation slowly. It's gratuitous. Use this reference if you are familiar with the words timing, power, and optimization in digital circuits.

Not all codes will result in digital circuits that can be used practically. You must be familiar with each keyword's usage. In Verilog, some keywords are created solely for simulation purposes; they don't produce any logic circuits.

Never, ever attempt Discover something new on Asicworld.com. Use it only for syntax.

Never, ever, ever believe any code you find online. It's terrible. You'll understand it afterwards. It prevents anyone from growing as a result.

Having trouble learning some subjects? Try to use prominent university names in the search field. comparable to "Stanford studies digital design." Materials are created by researchers and clever people worldwide. It will enchant you.

Try to familiarise yourself with tools like ModelSim, Xilinx Vivado, and Microsemi Libero. Everyone has been set free. I wholeheartedly support Vivado.

Some suggestions suggest reading up on static timing analysis, critical pathways, and data paths. That, however, is not a part of Verilog HDL. They are all engaged in the creation of semiconductors, which uses analysis tools.

robust typing is a VHDL term. Beginners will find it more challenging to make mistakes because the compiler will stop you from creating bad code. In Verilog, weak typing is employed. You can write shorter, but inaccurate, code thanks to it.

Verilog is more like a programming language than C. Because of this, someone who is knowledgeable in C will have an easier time reading and understanding Verilog's operations.

Using VHDL involves a lot of typing. For the same task, Verilog often utilises less code.

VHDL is very deterministic, in contrast to Verilog, which can occasionally be non-deterministic.

None of these, however, are more significant than the others. You should learn Verilog or VHDL depending on which one you are more likely to use at business or in education. 

If your university uses Verilog, great! If nearby companies that you might wish to work for use VHDL, learn it! The people who use VHDL and Verilog depend greatly on where in the world you are. By entering VHDL vs. Verilog into Google Trends, you may start to receive a pretty clear indicator of which language you should be learning first.

The picture up above contains a lot of intriguing elements. The first is that VHDL and Verilog have both received about the same amount of queries on Google over the past year. This suggests that individuals who are interested in learning more about them find the two to be almost equally popular. I also saw a substantial reduction soon before Christmas, which is worthy of noting.and the New Year. I can only assume that people aren't searching for their HDL problems on Google during this time because they aren't at work or school.

In India and the US, where VHDL and Verilog appear to be almost equally popular, Google searches are most common. Verilog is slightly more popular than VHDL in the US. I am aware from personal experience that the US business sector favours Verilog whereas the defence sector typically favours VHDL. You'll observe that in Germany and France, VHDL is much more widely used than Verilog. If you are from either of these two countries, I would strongly recommend learning VHDL first! Establish your priorities because Verilog is unquestionably more popular than VHDL in China and South Korea.

Conclusion:

Verilog is an HDL used to model electronic systems, whereas VHDL is an HDL used in electronic design automation to specify digital and mixed-signal systems such as field programmable gate arrays and integrated circuits.

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Xilinx VIVADO Beginner Course for FPGA Development in VHDL

h264, yuv420p, 1280x720|ENGLISH, aac, 48000 Hz, 2 channels | 5h 03 mn | 329.23 MB Created by: Digitronix Nepal Learn how to Create VHDL Design,Simulation Testbench & Implementation with Xilinx VIVADO & FPGA: from Basic to Advanced. source https://www.adaz3d.com/tutorial/other/7738-xilinx-vivado-beginner-course-for-fpga-development-in-vhdl.html

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Best Verilog VHDL Training In Delhi

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RTL Coding and FPGA Design course has been designed to help to the beginners in the area of RTL coding and FPGA design. The course gives you the foundation for FPGA design in Embedded Systems along with practical design skills. By end of the course you will learn what FPGA, how to select the best FPGA architecture for a given application, solve critical digital design problems using FPGAs. As a part of the course, you will also learn to use FPGA development tools to complete several example designs, including a custom processor.

If you are thinking of a career in Electronics Design or as an engineer looking at a career change, this is a great course to enhance your career opportunities.

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·         B.E/B.Tech in ECE/EEE.

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·         In depth knowledge of Verilog HDL – RTL coding & synthesis

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FPGA Based Digital Logic Circuits Operation for Beginners

by San San Naing | Ni Ni San Hlaing | Cho Thet Nwe ""FPGA Based Digital Logic Circuits Operation for Beginners""

Published in International Journal of Trend in Scientific Research and Development (ijtsrd), ISSN: 2456-6470, Volume-3 | Issue-5 , August 2019,

URL: https://www.ijtsrd.com/papers/ijtsrd26372.pdf  

Paper URL: https://www.ijtsrd.com/engineering/electronics-and-communication-engineering/26372/fpga-based-digital-logic-circuits-operation-for-beginners/san-san-naing

peer reviewed international journal, call for paper economics, ugc approved journals for chemistry

This paper presents the operations of digital circuits based on FPGA. The long term of FPGA is field programmable gate array. FPGA is an integrated circuit designed to be configured by a customer or a designer after manufacturing  hence field programmable . The operations of logic circuits such as logic gates, flip flop and 7 segment are tested using quartus II software and DE2 115 and DE1 FPGA development kits in this paper. Particularly, there are three main portions such as implementation of schematic diagram, designing of the vhdl program, the connection of the control panel and displaying the result of logic circuits on FPGA kit. The operations of combinational circuits are tested by designing the VHDL programs. And then the operations of sequential circuits are observed and displayed the results of them by illustrating the schematic diagrams. 

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