ASIC Verification Trends

The industry uses majorly three kinds of verification technologies:

Dynamic Verification – Simulation based verification

Static Verification – Formal verification

Emulation & FPGA prototyping – Hardware based verification

Dynamic Verification: This simulation-based verification technology demands testbenches in HVL like SystemVerilog to verify the IP/Sub-System level RTL designs. Constrained-random, Assertions, Code and Functional Coverage are the most popular techniques/methodologies which are based on dynamic verification technology.

Static Verification: This static verification technology demands user defined/ automated formal properties [assertions] to verify the module/IP level RTL designs. Examples of automatic formal application tools include: SoC integration connectivity checking, deadlock detection, X semantic safety checks, coverage reachability analysis, and many other properties that can be automatically extracted and then formally proven.

Emulation and FPGA prototyping: This hardware-based verification technology demands the user to synthesize and map the design & TB components on the configurable chip [FPGAs]. Emulation and FPGA prototyping are primarily used to verify complex chips & SoCs, running simulation at higher speeds, 5-10X greater than simulation.

Simulation-based techniques are unable to keep up with today’s growing complexity of the Chips and SoCs. This is particularly true when simulating large SoCs that include both software and embedded processor core models.

The emulation and FPGA prototyping have become key platforms for SoC integration verification where both hardware and software are integrated into a system for the first time. In addition to SoC verification, emulation and FPGA prototyping are also used today as a platform for software development.

CREATE A WINNING LINKEDIN PROFILE THIS PANDEMIC

According to the report from LinkedIn Talent Solutions a hire is made every 10 seconds using LinkedIn. 

LinkedIn statistics on kinsta.com say that:

LinkedIn has over 20 million companies listed and over 14 million open jobs

90% of the recruiters use LinkedIn regularly.

122 million people have received an interview through LinkedIn

35.5 million have been hired by a person they connected on LinkedIn

But what’s the relevance of these facts until you have the right profile to match the recruiter expectation!

Here are key points to note for creating a winning LinkedIn profile

Add a good headshot. Simple with a subtle backdrop.

A cover photo in alignment with your profession or personality is eye-catching.

Your Full Name: Consider the sentence case

Headline: It’s like your billboard advertisement. Should talk about what you do in your specialty.

Summary: Summary or the about section is important! It is like a comprehensive version of your resume. Keep it interesting and craft it around your work and aspirations.

For freshers/students: It should talk about your skills and where do you want to land with those skills.

You can customize your profile URL to something where your name is followed by your profession.

Add all the necessary details to strengthen your profile. Adding about your location, industry, education, experience, projects, publications, certificates and interests would only help.

You should ask for recommendations from your superiors/mentors.

Don’t refrain from making relevant connections. Connect with people in your industry, people you know and influencers. Follow the right page/person which caters to your interests and professional needs.

Stay Active. Keep engaging with your posts, articles and by sharing all positive news/content.

You are the Boss of your account. You can completely control your account and it’s visibility for others by customizing your privacy settings. As a part of VLSI Training Course, the training we provide fosters you to make a strong impression everywhere starting from the social media profiles to the job interview and further the workplace. So, why wait? Come on in and get ready to allure the professional world.

VLSI Courses – Qualification and Expectation

VLSI stands for Very Large Scale Integrated circuits that consists of millions of transistors and its main purpose is to reduce the area, improve the speed of the chip, and reduce power losses. In each and every electronic device, Integrated Circuits are used. So, the demand for VLSI engineers is increasing day by day. The VLSI sector is a highly technical field that is completely based on electronics and electrical engineering. One needs to be strong enough in the engineering subjects like circuit analysis ,digital electronics,Verilog etc. Also one must be familiar with the EDA tools that are used in chip design. 

Desirable skills for the VLSI industry are:

❏      Programming: Good programming skills will help in the field of digital design and verification. Object oriented programming is mostly used these days.

❏      Problem-solving ability: Designing involves converting a specification to code. Debugging skills are handy to identify and fix coding errors.

❏      Think out of the box- This skill is useful in identifying the best way to design/verify such that time and effort are saved and we get a better design in terms of power and area.

❏      Quick-learning- WIth the rapid advancement of technology, one needs to get himself adapted with new technologies.

❏      One must have good knowledge of scripting languages such as Perl, Python, Shell etc.

❏      Apart from the above requisites, one must have strong communication skills.

The Training Institutes thereby play a crucial role in making the prospective candidates industry-ready by assisting them in :

●      Real-time projects -The real-time projects help students to understand the industry better as this would give them a good practical exposure.

●     Time-Management - This is very important as it would help the students to complete the assigned projects effectively on time.

●      Working in huge teams - While handling projects one might have to work in huge teams so one must be acquainted working in teams where good listening skills would be required.

●     Organizational skills - The one who possesses organizational skills works systematically and achieves desired results.

●     Soft-skills - Good communication skills help interacting with people thereby knowing customer needs and serve them better.

VLSI Technology: History, Usage and Design Process

VLSI Technology

Very large-scale integration is a process of embedding or integrating hundreds of thousands of transistors onto a singular silicon semiconductor microchip. VLSI technology's conception dates back to the late 1970s when advanced level processor (computer) microchips were also in their development stages. Two of the most common VLSI devices are the microprocessor and the microcontroller.

VLSI refers to an integrated circuit technology with numerous devices on a single chip. The remarkable growth of the electronics industry is primarily due to the advances in large-scale integration technologies. With the arrival of VLSI designs, the number of possibilities for ICs in control applications, telecommunications, high-performance computing, and consumer electronics as a whole continues to rise.

Presently, technologies like smartphones and cellular communications afford unprecedented portability, processing capabilities, and application access due to VLSI technology. The forecast for this trend indicates a rapid increase as demands continue to increase.

The Advantages of VLSI Technology

The following are the primary advantages of VLSI technology:

    Reduced size for circuits    

    Increased cost-effectiveness for devices    

    Improved performance in terms of the operating speed of circuits    

    Requires less power than discrete components    

    Higher device reliability    

    Requires less space and promotes miniaturization

The Design Process of a VLSI IC

Overall, VLSI IC design incorporates two primary stages or parts:

1.   Front-End Design: This includes digital design using a hardware description language, for example, Verilog, System Verilog, and VHDL. Furthermore, this stage encompasses design verification via simulation and other verification techniques. The entire process also incorporates designing, which starts with the gates and continues through to design for testability.

2.   Back-End Design: This consists of checking the manufacturability of the chip. It involves placement, routing, clock tree synthesis, timing closure, LVS/DRC checks and a mask creation that can be delivered to the fabrication unit for manufacturing.

3. Fabrication: This consists of the processes involved in manufacturing a chip out of a piece of silicon. 

The entire design process follows a step-by-step approach, and the following are the front-end design steps:

Problem Specification: This is a high-level interpretation of a system. We address the key parameters, such as design techniques, functionality, performance, fabrication technology, and physical dimensions. The final specifications include the power, functionality, speed, and size of the VLSI system.    

Architecture Definition: This includes fundamental specifications such as floating-point units and which system to use, such as RISC or CISC and ALU's cache size.    

Functional Design: This recognizes the vital functional units of a system and, thus, enables identification of each unit's physical and electrical specifications and interconnect requirements.    

Logic Design: This step involves control flow, Boolean expressions, word width, and register allocation.    

Circuit Design: This step performs the realization of the circuit in the form of a netlist. Since this is a software step, it utilizes simulation to check the outcome.

The following are the back-end design steps for hardware development:    

Physical Design: In this step, we create the layout by converting the netlist into a geometrical depiction. This step also follows some preconceived static rules, such as the lambda rules, which afford precise details of the ratio, spacing between components, and size.    

The following are the steps followed in a foundry for manufacturing a chip:

Wafer Processing: This step utilizes pure silicon melted in a pot at 1400º C. Then, a small seed comprising the required crystal orientation is injected into liquefied silicon and gradually pulled out, 1mm per minute. We manufacture the silicon crystal as a cylindrical ingot and cut it into discs or wafers before polishing and crystal orientation.    

Lithography: This process (photolithography) includes masking with photo etching and a photographic mask. Next, we apply a photoresist film on the wafer. A photo aligner then aligns the wafer to a mask. Finally, we expose the wafer to ultraviolet light, thus highlighting the tracks through the mask.    

Etching: Here, we selectively remove material from the surface of the wafer to produce patterns. With an etching mask to protect the essential parts of the material, we use additional plasma or chemicals to remove the remaining photoresist.    

Ion Implantation: Here, we utilize a method to achieve a desired electrical characteristic in the semiconductor, i.e., a process of adding dopants. The process uses a beam of high-energy dopant ions to target precise areas of the wafer. The beam's energy level determines the depth of wafer penetration.    

Metallization: In this step, we apply a thin layer of aluminum over the entire wafer.    

Assembly and Packaging: Every one of the wafers contains hundreds of chips. Therefore, we use a diamond saw to cut the wafers into single chips. Afterward, they receive electrical testing, and we discard the failures. In contrast, those that pass receive a thorough visual inspection utilizing a microscope. Finally, we package the chips that pass the visual inspection as well as recheck them.    

VLSI technology is ideally suited to the demands of today's electronic devices and systems. With the ever-increasing demand for miniaturization, portability, performance, reliability, and functionality, VLSI technology will continue to drive electronics advancement.

Verification vs Validation in VLSI

Verification vs Validation in VLSI

The terms Verification and Validation refer to the testing of the design at different stages of the ASIC flow.

ASIC/SoC Verification-

It is the stage in the Chip Development Life Cycle where the design is checked (or verified) for the intended design specifications. It is initiated from the time the design architecture/micro architecture is defined. The objective of verification is to ensure that the functionalities of the design are correct before fabrication of the chip. Simulations are done with RTL and netlists to ensure functionality. Debugging is easy and bugs found at this stage are fixed in the RTL. As once the chip is taped out, any functionality errors would be fatal and cost the worst. The Verification step is considered as very crucial part of design life cycle as any critical bugs in the design not discovered before fabrication would lead to the need of newer processing and hence, increasing the overall cost of design process.

ASIC/SoC Validation-

Validation is the process of testing a manufactured/fabricated chip for its functional and electrical correctness in a characterisation or test and measurements (T&M) laboratory. This is achieved using the silicon chip assembled on the characterisation board, testing board or an evaluation/reference board accompanied with other related component parts of the system design. It is done at the system level. The aim is to validate all parameters of the chip defined by the specification. To qualify the design parameters and modelled parameters, validation of the chip is carried out. It can vary from single feature/interface of the chip to overall features of the design. The testing is carried out involving the software/firmware. The validation team doesn’t only involve software engineers but also require highly experienced professional hardware engineers too. The entire process involves validating the chip in a system level environment with actual firmware running the test instructions on the hardware. Debugging is difficult and bugs found at this level can be fixed only by software workarounds.

The confusion between verification and validation has always prevailed as some companies use the term Validation in a wider perspective and classify the processes before and after Silicon availability (fabrication). Verification is also referred to as Pre-Silicon Validation (signifying the testing activities done before the silicon chip is available) and Validation is known as Post-Silicon Validation.

Verification term is usually used for front-end design perspective i.e., the actual verification of the RTL (register transfer logic), which is widely done using System Verilog/Verilog HDLs and using OVM, UVM methodology. The point is to understand that in Verification process, the input to the verification engineer is Specification Sheet and the work is to check if the RTL designer has programmed/designed the given spec appropriately.

Validation term is used only after the silicon is back from fabrication and the team intends to check if the silicon chip is fabricated well and whether the functionalities are operating as it was supposed to be which was specified before it went for fabrication with all debugging and verification done.

VLSI MARKET IN INDIA

We are living in an era where we are always surrounded by electronic gadgets. Be it mobile phones, cameras, laptops or medical devices, everything has a electronic-chip inside it. The process of manufacturing these chips is called Very Large Scale Integration (VLSI). The electronic chip design market is directly affected by the increase or decrease in the demand for electronic devices.

The number of electronic devices are increasing manifold by the day. With increase in population, everyone wants these devices which leads to increase in their production and ultimately VLSI chips. Also, the needs of different individuals are different. Someone may want a low end phone with a good battery life while someone else might want one with a good camera and high processor speed. This leads to an increase in the number of devices being manufactured. 

Technology is fact changing. With higher speeds of processors and lower power consumption, newer devices are always needed to replace old ones. Newer technologies like artificial intelligence and machine learning require newer and faster hardware to function well. WIth automation (IoT) and precision being the need of the hour, more sophisticated and application-specific chips need to be designed and manufactured. All these factors ensure that the design and production of VLSI chips is not going to get obsolete; it's only going to grow leaps and bounds.

VLSI industry growth in our country is booming due to  new Government policies to boost the electronic industries and to promote domestic manufacturing under the ‘MAKE IN INDIA’ project. Moreover, the Ministry of Skill Development and Entrepreneurship (MSDE) is promoting the VLSI domain greatly too. 

The IMF projected a sharp contraction of 4.5% for the Indian economy but even after such predictions, why so many companies are investing in India?  

The China Factor : Due to Covid-19, a cold war has started between the USA and China due to which many electronic companies are relocating their facilities out of China. For eg- A major manufacturer of Apple is shifting 6 production lines from China to India with a target to export around $5 billion worth of iPhones. Similarly, Wistron, Pegatron, Foxconn and Samsung are also thinking of expanding their manufacturing facilities in India.

Future for Electronics Manufacturing in India : India is already the 2nd largest mobile phone manufacturer in the world. To attract more electronic manufacturing companies and to create an ecosystem, the Indian Government has recently announced a production linked incentive scheme. With such financial assistance, companies will produce mobile phones and components worth $153 billion during this five year period and 60% of these products will be exported to other countries. Also, companies have agreed to offer direct and indirect employment to 1.2 million Indians.

These reasons show a clear picture of India being poised to become an Electronics Manufacturing hub which again paves the way for a huge VLSI market in India across the globe. With many aids and assistance given by the Indian Government such as Atma Nirbhar Bharat (Self-reliant India) and many other schemes to promote the manufacturing units, India’s electronics exports may rise up to $180 billion by 2025.

Upgrade Your Resume with VLSI VERIFICATION Courses

If you want something you never had then you must be willing to do something you have never done before. You have to go an extra mile to achieve and you will never be crowded in that place. If you are relying just on your educational degree, then finding a job will always be competitive. But an additional course or skill can help you go the extra mile heading towards your dream job. But before going for a course or some skill enhancements, you must ask yourself these three questions:

What are my interests?

Is the course content good?

Will this course help me get placed in the industry?

Limiting the discussion to electrical and electronics engineering, VLSI and embedded systems are the options one has if they want to go for a skill development course. VLSI is one of the fields which is in demand today. It has a lucrative pay scale with challenging jobs & a stable future. The verification domain in VLSI has ample opportunities for engineering graduates. Getting into this field requires basic knowledge of digital design and coding.

A VLSI Verification course comprises all the critical elements that are required to understand the VLSI Industry, from the basics of Digital Electronics to understanding and verifying design

units using HDLs and HVLs. Basically there are four segments of ASIC Verification:Logic Design

Verilog Verification

System Verilog Verification

UVM

Before going for a VLSI course,all you need to ask yourself is:

Are you in love with Digital and analog circuits?

Are you interested in coding?

Are you prepared to put in that extra effort?

АRE  УОU  WELL-EQUIPPED  FОR  УОUR  FIRST  JОB

The  current  wоrking  landscape  is  different  frоm  a decade аgо.  It  hаs  сhаnged,  and  will  continue  tо  dо  sо. Employers out  there  dо  nоt  lооk  оut  solely  for  academic qualification  but teсhniсаl  аnd  sоft  skills  аs  well. Аlmоst  everyоne  in  the  соmрetitiоn  leаrns  the  sаme  things.  If  yоu  аrе  fresh  оut  оf  college  аnd  wish  tо  jоin  the  соrроrаte  wоrld,  there  is  so much  more  that  you  need  араrt  from  асаdemiсs  tо  nаil  the  interview  аnd  stand  оut.  By  upscaling  yоur  skills,  yоu  саn  be  rеаdy  fоr  whаtеvеr an  interviewer  is  likely  to throw at  yоu. If  yоu  dоn't  wаnt  tо  be  left  behind  in  the  rаt  rасe,  then  yоu  will  need  tо  invest  in  yоurself. This  mеаns  thаt  yоu  will  have  to continuously  роlish  the  skill  set  thаt  yоu  сurrently  have. There  аre  certain  things  yоu  need  tо  keeр  in  mind  befоre  steррing  tоwаrds  yоur  first  jоb.

You  should  also  be  open to  even  going  bасk  tо  the  сlаssrооm  fоr  further  studies  or learn a  new  course  аltоgether.  In  order  tо  stаy  relevаnt  tо  the  changing  times,  yоu  will  need  tо  аdарt  by  аrming  yоurself  with  аррrорriаte  knоwledge  аnd  skills  thаt  will  equiр  yоu  tо  survive  аnd  thrive. Arming  yourself  with  the  mоst  uр-tо-dаte  infоrmаtiоn  аnd  trends  in  leаdershiр  аnd  management  styles  In  this  fаst-расed,  highly  соnneсted  wоrld,  yоu  need  tо  be  аrmed  with  knоwledge  оf  infоrmаtiоn  teсhnоlоgy  аnd  sосiаl  mediа  whiсh  will  helр  yоu  stаy  соnneсted  with  the  оnes  yоu  need professionally.. Enhancing public  speaking  and   рresentаtiоn  skills  саn  аid  in  shаring  visiоn,  influencing   workmates  аnd  gаining  suрроrt  fоr  ideаs. 

Some of  the  sоft  skills  that  you  need  tо  be  well  equiррed  with  аre  соmmuniсаtiоn  and  organizational  skills, аssertiveness  аnd  emоtiоnаl  intelligenсe  саn  imрасt  yоur  рerfоrmаnсe  greаtly  in  the  wоrkрlасe.

To win  in  the  ever-evolving  employment  рlаygrоund,  yоu  need  tо  invest  in  yоurself  by  upskilling,  reskilling,  оr  соmрletely  learning a  new  game.

How similar is an ASIC verification job compared to a Software job

An ASIC Verification or SOC Verification job is same and different than a Software job profile in the same breath. In Software jobs, coding and debugging is one of the important aspects. However, both are becoming very much alike in today’s technological era. The difference can be in perspective of thought process i.e., for an AIC verification engineering profile, one needs to think very much like a hardware engineer but at the same time add a tint of software practices (programming and debugging) into action.

Almost the entire building block of Verification – writing test benches, generation of stimulus, building models, regression files, etc. requires the coding skills which is a software skill.

In the semiconductor industry, the majority of the technical nodes consists of various complicated design structures and such designs are coded using Hardware Description Language (a programming language to define hardware models). These designs are developed to be produced and made ready for the consumer market but before this stage such designs are essentially needed to get verified following a chain of processes. The development cycle in the semiconductor industry is the same as in the software industry – ideation, planning, design development, verification, production, market.

ASIC Verification job includes the job of testing or verification. The design models are exposed to the flow of functional verification or formal verification where each block is verified for its functionality as per the design specification or datasheet using simulation and the test bench architecture. Verification architectures are coded using object-oriented programming concept-based System Verilog language and the UVM and methodology.

Most semiconductor companies have the criteria of coding skills as an eligibility parameter in the job descriptions. This can be considered as another similarity to software job profiles.

Majority of the design and the verification architectures are developed by a vast team and includes the continuous integration for developing and releasing of the IPs are acquired by the Verification engineers same as the Software Testing engineers.

There is a lot of scope in verification engineering profiles for software engineers too as automation of the implementation routines are scripted using languages like Python/Perl.

How do our Streamlined VLSI Programs lead to success

In the race of bagging a job, students run around and often knock on the doors of various training centres promising them to provide a definite step of placement offers. In the field of Semiconductor/VLSI Industry, it becomes more important to not only get trained with various courses but also to have an industry standard work experience. To gain such an experience, students need to work under professionals and learn various project strategies and face real-time problem-solving techniques.

Asiczen Technologies Pvt Ltd is offering Industry standard high tech VLSI Courses specifically required for Design & Verification job requirements through various programmes via Learnyzen. These courses are specially curated by leaders and Senior Verification Engineers with detailed subject information and in addition includes a touch of their own experiences.

Our VLSI Programs ensure that you learn at the utmost comfort and safety of your house during these pandemic times. These courses are specially designed for the final year or graduate engineers to gain job-oriented skills. This course offers training on Digital Design, Verilog, System Verilog, Universal Verification Methodology along with labs, and industry-standard projects. Technical Forums and placement assistance are also provided until the candidate earns an offer letter.

How does our VLSI Courses Benefit you?

An instructor-led online training model with an added advantage of hands-on experience can make use in applying all the theoretical concepts with the present-day ongoing project experience in various companies. It is a straight target to market plan which aims to gain enough knowledge and experience to enable them to easily crack interviews or to blend in the company’s work environment from day one itself.

Get trained at Learnyzen with our VLSI Programs, which focus on doing Industry-Standard projects by following good design practices & principles, while learning & applying theoretical concepts and transforming you as a Hands-on VLSI Engineer.

WHAT IS VLSI ?VLSI is the process of designing and manufacturing electronic chips with a very large number (in millions) of logic gates and flip-flops on a single chip. It is about making a microcircuit by combining many MOS Transistors onto one chip. VLSI as a field of work can be broadly classified into two domains : fron-end and back-end. The Front-end domain includes logic design, Verification, FPGA and DFT. Back-end involves synthesis, timing closure, place-and-route, LVS, DRC, etc. Today VLSI devices are seen everywhere around us. Advanced VLSI chips are often found in our cell phones, cars, household appliances, medical devices, cameras and lots of other electronic articles.SCOPE OF VLSI- FUTURE PROSPECTSSemiconductor Industry is growing fast in India thanks to the Technological Advancement. VLSI has captured the market not only in India but also across the world , thereby increasing the career opportunities within the field manifold. Engineering students, especially those with an Electronics background, rather than choosing the standard Software job can choose careers in VLSI Design, which isn't only creative and challenging but also high in demand lately. VLSI Industry is one of the the highest paying industry today. It is in demand and it is not going to get saturated within the next 20 years. VLSI Design has good scope in future. From a job-perspective, VLSI is one of the best future-proof career for Electronics engineers. There are numerous VLSI Institutes in India and all of them assure you to provide the best. It is therefore essential to ask certain important questions before settling for an institute.They are :What     Is the cost of registration with the Institute? This is one among the foremost factors which will determine your choice. Higher education is extremely costly nowadays. Enquire with other institutes to get a transparent picture of the course structure. Avoid falling for those which demand a really low fee because certification from such institutes could be of no value.Who     Are the Trainers?At this crucial stage, a student needs proper direction and a motivating mentor. Faculty members with core industry experience are always preferable.The Experts not only impart their knowledge but also provide hands-on training to enrich the learning with their own professional experiences. Do make a point to interact with the faculty to get to know them better as your career guide.How good is the course content?The Institute you select should have well-structured courses and effective training methodology. The curriculum must cover different spectrums of the industry and supply the scholars with in-depth knowledge. The course-materials that are provided should act as an honest technical reference.Do they offer a placement opportunity?As soon as the course is completed, placement of students must be of priority. Placement support includes soft skills training, refresher courses, mock interviews and such other grooming sessions to make the candidates industry-ready in all aspects.How     flexible are their programs?The ideal Institution should offer you the opportunity to adjust when necessary. The Institute not only must cope up with the fresher but also with theThis is a vital question crossing the mind of every aspirant.  working professionals. The programs are designed for all the categories of aspirant such as the students, the job seeker and the working professionals. It provides flexible time to take the course for all of our candidates.Do they provide Doubt Sessions?Doubts sessions are an integral part of training programs nowadays. If you are among those who feel hesitate in asking about the query in front of the whole class or you have some extra doubts, then you can be a part of the same. The Institute provides online and offline both doubt clearing sessions. You can simple visit the institute offline to clear your doubts or else you can just have a online session with the experts for clearing your doubts.Interaction with the AlumniConnect with the Alumni and get information about the Institute. They will give you a better understanding of the Institute and its courses.Choosing the right institute is an important task as it affects your career and determines your future.Thus, make sure the Institute you choose provides all facilities to help in that direction. SELECTING THE BEST VLSI INSTITUTE

Where are we heading in the Semiconductor business

THE FUTURE OF SEMICONDUCTOR INDUSTRY

Without semiconductors, the planet would be a really different place; we might not have any electronic calculators, microwave ovens, digital alarm clocks, cellphones, personal computers, electronically controlled transmissions, or washing machines.

The Semiconductor Industry is poised for strong growth with developments in AI piling on demand for next generation silicon and technological innovation. Sales are expected to continue growing and reach $572 billion by 2022.

The introduction of 5G and related technologies also are getting to drive the utilization of more powerful semiconductor chips across the communications market. At an equivalent time, new televisions, handheld devices, gaming consoles, and digital set-top boxes will furtherl drive demand for more powerful semiconductors for consumer electronics.

According to research, the Indian Semiconductor market's worth is forecast at USD 32.35 Bn by 2025 -- growing at a CAGR of 10.1 percent between 2018 and 2025. India is currently developing an Electronics System Design Manufacturing (ESDM) eco-system, with a base of about 120 units. About 2,000 chips are designed per annum in India, per the Department of Electronics and Knowledge Technology, with around 20,000 engineers working on different aspects of chip design and verification.

The semiconductor consumption in India was about $21 billion in 2019, growing at a speed of 15.1 per cent, consistent with the IESA ESDM Market Report 2020. The general consumption of Electronics components is $31 billion dollars, of which about ⅔ is semiconductors.

Very soon, any electronic chip coming out of the fab will have some contribution from Indian semiconductor ecosystem. About 90 percent of semiconductor companies have their R&D Centres in India where cutting-edge chip development work takes place. Semiconductor R&D alone produces almost $2.5 billion in revenue and $20 billion including the Electronics Products and Embedded System.The total employment generated is approximately 6 lakhs in India.

Recently, IESA conducted its Vision Summit 2020 event to drive initiatives and policies for the Intelligent Electronics & Semiconductor products and solutions which will propel the government’s vision of self-reliant India or an #AtmaNirbharBharat. The event focussed on “Make India an Electronics Product Nation” supported by “National Electronics Mission” - a body almost like ISRO to spearhead all the Semiconductor related activities in India. The thought behind the formation of such a body is that it should directly report to PMO and be driven by professional management with Industry experience. The Summit also highlighted the thought of focussing on Electronics Systems within the area of Agriculture, Education, Medical, Automotive and strategic Security all supported by Telecom Networking Infrastructure built with Indigenous products.

Semiconductor Industry today must be more agile than ever to stay competitive. The Commercialization of latest technologies like AI and BigData is promoting the digital transformation of enterprises and therefore the realization of intelligent production, intelligent management and intelligent sales. The main aim is to continuously improve efficiency and effectively attract consumers. Many semiconductor companies are already utilizing digital tools to realize competitive advantage throughout the merchandise life cycle; for instance , the application  of AI and analytical tools. 

IMPORTANCE OF INTERNSHIP FOR ENGINEERING STUDENTS

What is an Internship?

An Internship is a period of work experience offered by an employer to offer students and graduates exposure to the working environment. Internships are educational and career development opportunities, providing practical experience in a field or discipline. They are structured, short-term, supervised placements often focussed around particular tasks or projects with defined timelines.

Why is it important?

One of the most common and biggest issues freshers have to deal with is work experience. In today’s competitive world every employer is looking for the best candidate with work experience. The degree is not good enough for a student to secure a good job. They need industrial experience where internship plays a crucial role. An Internship  gives them an opportunity to use their knowledge practically in industries. AICTE has also made 3 internships compulsory for engineering students.

Benefits of Internships:

Makes you Industry-ready - During an internship. you're employed on real projects , get familiar with the present market trends, sharpen your technical skills , and learn in-demand technical skills. Apart from this, an internship introduces you to the corporate world, teaches you professional ethics and polishes your soft skills like communication and interpersonal skills. With an internship, you'll become a professional way before your graduation which could be helpful for an easy adaptation to the work environment once you join a full-time job.

Helps you land a job - An internship experience validates your skill-set and thus , catalyses your hiring process and improves your chances of getting a placement. Also a substantial number of internships accompany a pre-placement offer (PPO) which provides you a chance to prove your abilities and convert your internship into a full-time job. Besides this, internships allow you to make your professional network.

Explore your options - Each branch of engineering may be a vast realm of subjects. However, once you are on the job, you're required to figure in specific areas only. For example , if you're a computer engineer , you'll specialize in web development, data analysis, software development or software testing. Internships provide you with the chance to explore different aspects of your branch and assist you choose the best suited field to pursue employment or education in.

Better resume - An internship project can always add extra value to your resume. While hiring a fresher from the campus, students with internships will always get a far better score. This may show how sincere you're towards your chosen subject.

Desired Placement - With the proper internship, you'll not be dependent upon campus placements for landing a job. you can  start applying to the corporate where you would like to work. Some known firms are most preferred by most of the scholars but only a few end up there. You never know internships might be one among the deciding factors .

Hands on Experience & Pragmatic Approach - Internships provide a platform to implement practically the concepts studied in textbooks. Practical knowledge is anyday preferable over theoritical knowledge.

Enhance your confidence - You may be ready to understand many concepts thoroughly with the assistance of your internship only. the sensible exposure you get in an internship is good enough to spice up your confidence. As a result , you would possibly be ready to face any interview panel with ease.

LEARYZEN

YOUR PASSPORT TO SEMICONDUCTOR INDUSTRY

Learnyzen is the knowledge wing of Asiczen Technologies conceptualized to build a resource pool of proficient VLSI Professionals in the frontend area. Several programs starting from workshops to internships have been conceived to cater to requirements of different individuals and institutions.

Our vision is to deliver talented VLSI specialists and help the semiconductor business worldwide to satisfy the developing need for chip development specialists. Yet, the semiconductor business is experiencing an immense change that would empower us to make new and all the more remarkable chips to help the advancing innovations like IoT, AI, Cloud, 5G. The processor is one of the fundamental segments of the chip for the equivalent. We need all the more remarkable, altered, improved processors of various types like installed processors, microcontrollers, chip, and multi-center processors. In this way, we have to prepare the cutting edge chip developers and engage them to enhance and make new and a wide range of processors. This is the manner by which we can disturb the semiconductor business.

Qualifications needed to be successful To achieve success as an electronics engineer, one must have a good knowledge of the core subject. You can go on to become an expert, but you must keep brushing up the basics of circuits, electronic components, electromechanical machine design, signal systems, and semiconductors. Also, one will have the power to use theoretical knowledge to real-life applications within the sort of projects and applications that one has designed. Companies will check the prospective candidates for problem-solving and analytical skills. This will include evaluating and reasoning, along with decision making. The ability to interrupt down a drag into smaller components is important to doing analysis. A strong grasp of problem-solving techniques helps to establish the connection between the different components of the problem.

A wide range of Course Choices

Learnyzen provides the best VLSI training in Bhubaneswar. 

Check the programs that are offered at Learnyzen that allow you to further your career instantly and join up with one that interests you.

DEFINITE (6-MONTHS)

CRUX (3-MONTHS)

ASCENT (2/3/4-DAYS)

WHIZ (4-MONTHS)

There are multiple other courses like Verification using SystemVerilog, Scripting and Verification using UVM that are provided from time to time. Come to our website and find out more about it.