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youngmindssri · 1 year ago

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NO.1 VLSI System Design in India

Welcome to Youngminds Technology Solutions, a leading VLSI System Design Software Development Agency in India. Our focus is on the development of the latest solutions that promote innovation and efficiency in the area of VLSI system design. Come with us as we are building the future of technology together.

Our VLSI design team has deep expertise in realizing product and software development for a wide range of application areas on cutting-edge technologies. YMTS team have wide set of skills across electronic chip design flow from specification to GDSII on latest node technologies, with special focus on RTL/FPGA Design, design verification and FPGA emulation.

VLSI SYSTEM DESIGN ASIC / FPGA Design Development

Design is not just what it looks like and feels like. Design is how it works.” You can hire us to build your custom website that fulfils your unique requirements. Unlike using a pre-built template for your site, a customized website is specifically created for you.

VLSI Services our Engineering team expertise in various stages of the design flow, Such as:

Micro-Architecture development for given specifications

SoC Design / ARM-based SoC architecture designs

RTL Integration & IP subsystem development

Full-Chip / SoC Level Design with Verilog, VHDL, System Verilog

Migration from FPGA to ASIC

Lint, CDC Checks and writing waivers

Integration of digital and analogue blocks (Like SERDES PMA + PCS or DDR + Phy etc.,)

Synthesis, STA Constraints for both ASIC and FPGA

Logic equivalency and formality checks

Hands-on experience on Various Industrial EDA tools

Optimization of Power, Area and timing trade off

FPGA Prototyping on Xilinx / Altera FPGA Boards

Optimization & Maintenance

We are here to help you understand the importance of web application maintenance. We provide several services which will enable your web application run error-free and smooth.

Our knowledge-based AI platform driven by automation and innovation. It enables our clients’ businesses to continuously reinvent system landscapes and achieve IT goals that align with business needs. By aligning IT with business value, we help clients push the envelope beyond cost and quality.

Training

YMTS provides training programs that help students / Engineers and customers get to productivity faster. All our training programs have been developed keeping in mind what it takes to accelerate skill development of today's R&D engineers and have been proven in-house with our own new hires as well as multiple customers.

As a top VLSI System Design Software Development Services, we are proud of the excellent services we offer. Our knowledge and dedication assure the best solutions for your VLSI requirements. Select us for the best performance in the VLSI system design. Visit More Information: https://ymtsindia.com/vlsi-system-design Meta Tags: VLSI System Design, VLSI System Management, VLSI Design Services, VLSI System Design Agency

#VLSI System Design #VLSI System Management #VLSI Design Services

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himanshuthemediabuddy · 1 month ago

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B.Tech in Electronics Engineering: Courses, Careers & Future Scope Explained

In today’s hyper-connected world where technology evolves faster than we can keep up, one engineering discipline remains at the core of it all—Electronics Engineering. From smartphones and satellite systems to electric vehicles and smart cities, the fingerprints of electronics engineers are everywhere.

A B.Tech in Electronics Engineering is not just another undergraduate degree. It’s a gateway to a future shaped by innovation, automation, and global impact.

Whether you’re a student planning your engineering path, a parent looking for clarity, or a professional exploring career pivots, this comprehensive guide will walk you through the course structure, career scope, top recruiters, and global opportunities available with a B.Tech in Electronics Engineering.

What is B.Tech in Electronics Engineering?

B.Tech in Electronics Engineering is a four-year undergraduate program that focuses on the principles and applications of electronics, electromagnetism, circuit design, communication systems, embedded systems, and signal processing.

It merges theoretical knowledge with practical lab-based learning, preparing students for diverse industries such as telecommunications, defense, manufacturing, IT, healthcare, and research.

🎓 Explore more academic insights and counseling services at Edunet Educare

Why Choose Electronics Engineering?

Ubiquity of Electronics: Everything from your TV to Tesla runs on electronics.

Diverse Career Options: Graduates can work in design, development, production, testing, or even sales and consultancy.

R&D Opportunities: With AI, robotics, and IoT booming, R&D roles are plentiful.

Government & Public Sector Jobs: A wide range of jobs await in ISRO, DRDO, BEL, and more.

International Relevance: The skills learned are transferable globally.

In short, it's a future-proof degree in a digitally driven world.

Eligibility Criteria

To enroll in a B.Tech in Electronics Engineering program in India, aspirants typically need:

Completion of Class 12 with Physics, Chemistry, and Mathematics (PCM)

A qualifying score in entrance exams such as:

JEE Main / Advanced

State-level entrance tests (MHT CET, KCET, WBJEE, etc.)

Private university exams (VITEEE, SRMJEEE, etc.)

Core Subjects You’ll Study

Here’s a snapshot of some foundational and advanced subjects included in the Electronics Engineering curriculum:

📘 First Year:

Engineering Mathematics

Engineering Physics/Chemistry

Basics of Electrical & Electronics Engineering

Programming in C/C++

Engineering Graphics

⚙️ Second Year:

Analog & Digital Electronics

Network Theory

Signals and Systems

Data Structures

Electronic Devices and Circuits

📡 Third Year:

Microprocessors and Microcontrollers

Control Systems

Communication Engineering

Embedded Systems

VLSI Design

🔧 Final Year:

Industrial Training / Internship

Major Project

Electives (like Robotics, IoT, AI in Electronics)

Laboratory work, mini-projects, seminars, and workshops play a huge role in enhancing real-world skills.

Top Colleges Offering B.Tech in Electronics Engineering (India)

IITs (Delhi, Bombay, Kharagpur, etc.)

NITs (Trichy, Surathkal, Warangal, etc.)

BITS Pilani

Delhi Technological University (DTU)

VIT Vellore

SRM Institute of Science and Technology

Each institution has its own admission procedure, faculty expertise, placement track record, and industry tie-ups.

Career Opportunities After B.Tech in Electronics Engineering

The career landscape for electronics engineers is vast and continues to evolve with technological advancements. Some key career paths include:

🖥️ Design & Development Engineer

Work with product teams to design consumer electronics, industrial machines, or automotive components.

📶 Communication Engineer

Join telecom giants like Airtel, Jio, or Vodafone to develop and maintain communication networks.

⚙️ Embedded Systems Engineer

Program microcontrollers and design embedded solutions for appliances, vehicles, and robots.

🛰️ Satellite & Aerospace Engineer

Work in space research, satellite design, and mission planning at ISRO or private space tech firms.

💻 Software Developer (Electronics-based)

Many electronics engineers transition into software development, especially in hardware-software integrated projects.

🏢 PSU/Government Jobs

Crack GATE or other exams to work with DRDO, ISRO, BHEL, ECIL, or Indian Railways.

🌍 International Jobs

With relevant certifications and experience, engineers can work in the US, Germany, Japan, and other tech-heavy nations.

💼 Curious about career counseling or course selection? Visit Edunet Educare for personalized guidance.

Higher Studies & Certifications

Electronics Engineering opens doors to prestigious postgraduate paths:

M.Tech / MS in Electronics & Communication / VLSI / Embedded Systems

MBA in Technology Management or Operations

Certifications in:

Embedded Systems (ARM, STM32)

IoT and AI (Coursera, edX)

MATLAB & Simulink

PCB Design and Circuit Simulation

Top Recruiters in Electronics Engineering

India’s growing electronics and semiconductor ecosystem has led to booming demand. Here are some top recruiters:

Intel

Texas Instruments

Qualcomm

Samsung R&D

TCS

Wipro

Infosys

ISRO

DRDO

L&T

BEL

Reliance Jio

Nokia

CISCO

Job roles vary from VLSI designers to testing engineers, field application engineers, and hardware developers.

Skills That Set You Apart

To thrive in the electronics field, complement your academic degree with the following:

Proficiency in programming (C/C++, Python, Verilog)

Knowledge of PCB designing tools like Eagle or Altium

Understanding of communication protocols (UART, SPI, I2C)

Problem-solving and logical thinking

Ability to read datasheets and design technical documentation

Future Scope & Emerging Trends

The landscape of electronics engineering is transforming rapidly. New-age domains gaining traction include:

Internet of Things (IoT)

Artificial Intelligence & Machine Learning in Hardware

Smart Grids & Renewable Energy Systems

Electric Vehicle Design

VLSI & Semiconductor Manufacturing

Autonomous Systems & Robotics

With India investing heavily in indigenous chip-making and global tech giants expanding operations, electronics engineers are in higher demand than ever before.

Conclusion: A Degree That Powers Innovation

A B.Tech in Electronics Engineering isn’t just about learning circuits and codes. It’s about being at the frontline of technological revolution—designing solutions that improve lives, create smarter cities, and push boundaries in space, healthcare, and industry.

If you're passionate about electronics, love solving problems, and dream of a career that combines creativity with cutting-edge tech, this is your calling.

🌐 Ready to explore the world of electronics engineering? Get expert counseling and curated content at Edunet Educare

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viasiontechnology · 8 months ago

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Understand the key differences between embedded systems, VLSI, and PCB designing, focusing on their applications, processes, and unique design challenges.

#embedded systems #VLSI #PCB designing

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medicaleducationupdates · 10 months ago

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The M.Tech in VLSI Design and Embedded Systems offered by Apollo University equips students with advanced knowledge in large-scale integration (VLSI) and embedded systems. The program covers design methodologies, system architecture, and hands-on experience with industry-standard tools. Graduates are prepared for careers in the semiconductor industry, embedded systems design, and research and development. Visit the official website for more information.

#mtech vlsi design and embedded systems

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justinspoliticalcorner · 1 year ago

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Erin Reed at Erin In The Morning:

Yesterday, news broke that transgender woman and computer pioneer Lynn Conway passed away at the age of 86. Her story is nothing short of remarkable. Conway helped pioneer early supercomputers at IBM but was fired after she transitioned. She went “stealth” and had to rebuild her career from the ground up, starting as a contract programmer at Xerox with “no experience.” Then, she did it all over again, pioneering VLSI—a groundbreaking technology that allowed for microchips to be made small enough to fit in your pocket, paving the way for smartphones and personal computers. In 1999, she broke stealth, becoming an outspoken advocate for transgender people.

Conway first attempted to transition at MIT in 1957 at the age of 19 years old. At the time, the environment was not accepting enough for transgender people to do so. She would have faced enormous barriers to medical transition, as few doctors were knowledgeable enough to prescribe hormone therapy a the time. Like many transgender people seeing enormous barriers to care, she spent the following years closeted. Eventually, she was hired by IBM where she helped develop the world’s fastest supercomputer at the time on the Advanced Computing System (ACS) project. The computer would become the first to use a “superscalar” design, which made it capable of performing several tasks at once, dramatically improving its performance and making it much faster than previous computers. Despite her pivotal role in the project, she was fired when she informed her employer that she wanted to transition.

What she did next is nothing short of remarkable. Realizing that as an openly transgender woman in 1968, few companies would hire her, she went “stealth” and pretended she had no significant prior experience in computers. She quickly advanced through the ranks and was hired by Xerox, where she famously developed VLSI, or Very Large Scale Integration. This groundbreaking technology allowed for thousands of transistors to be packed onto a single chip, revolutionizing electronics by making cell phones and modern computers possible through miniaturization and increased processing power. Conway didn’t stop there. After gaining fame for her computer innovations, she came out in 1999 to advocate for transgender people. She was among the early critics of Dr. Kenneth Zucker, an anti-trans researcher still cited today by those working to ban gender-affirming care. Conway slammed Zucker for practicing “reparative therapy,” a euphemism for conversion therapy. Notably, Zucker’s research continues to make false claims that “80% of transgender kids desist from being trans,” numbers based on his clinic's practices, which closely mirrored gay conversion therapy. That clinic has since been shut down over those practices.

RIP to Lynn Conway. She was a tireless fighter for trans rights in a time that publicly supporting LGBTQ+ causes (let alone trans causes) wasn't popular, and that led to her firing from IBM in 1968.

Conway helped develop the supercomputer while at IBM, and later on at Xerox, helped developed microchip technology found in cell phones. 🏳️‍⚧️🏳️‍🌈

#Lynn Conway #Cellphones #Smartphones #LGBTQ+ History #Obituaries #Stealth #IBM #Xerox #Technology

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magnificent-mechanism99 · 2 months ago

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Why does digital elecronics is important for engineering?

Digital electronics is super important in engineering for a bunch of reasons—it's pretty much the backbone of modern technology. Digital electronics powers everything from smartphones and computers to cars and medical devices. Engineers across disciplines need to understand it to design, troubleshoot, or innovate with modern systems.

GET CIRCUIT DESIGNING VIDEO TUTORIAL 👈.

Digital tech allows for very large-scale integration (VLSI), meaning engineers can cram millions of logic gates into a single chip (like microprocessors or memory). It enables powerful, compact, and cost-effective designs.

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digitalgla · 8 months ago

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IEEE Project Center in Tirunelveli

AB Technologies: The Leading IEEE Project Center in Tirunelveli

Engineering students across Tamil Nadu often seek out the best resources for their final year projects, and AB Technologies has become the top choice for students in Tirunelveli. Known for its exceptional quality, innovation, and focus on practical learning, AB Technologies is recognized as the leading IEEE project center in Tirunelveli. Specializing in IEEE-certified projects, the center has carved a niche for itself by providing students with the tools, mentorship, and technical support they need to excel.

The Importance of IEEE Projects

IEEE (Institute of Electrical and Electronics Engineers) projects hold significant value for engineering students. These projects are based on international standards, representing the latest technological advancements and innovations across various fields of engineering. An IEEE-certified project not only strengthens a student’s academic performance but also boosts their resume, providing a strong competitive advantage in the job market. With industries increasingly focusing on cutting-edge technology and innovation, completing an IEEE-certified project from a reputable center like AB Technologies opens up greater career opportunities for students.

Diverse Project Offerings

AB Technologies offers a comprehensive range of project options across several branches of engineering, ensuring that every student can find a project that aligns with their interests and academic requirements. Some of the most popular project domains offered include:

Electronics and Communication Engineering (ECE): AB Technologies provides a variety of IEEE-certified projects in areas like embedded systems, digital communication, IoT (Internet of Things), and VLSI design. Students have the opportunity to work with advanced technologies and tools, preparing them for real-world challenges.

Electrical and Electronics Engineering (EEE): From power systems and electrical machines to renewable energy solutions, AB Technologies offers projects that focus on sustainable and emerging technologies. These projects help students gain a deeper understanding of modern power systems and electrical circuits.

Computer Science and Information Technology: In a field where technological advancements are rapid, AB Technologies offers projects in trending areas like artificial intelligence (AI), machine learning, cybersecurity, web development, and data science. These projects are designed to provide students with hands-on experience in the technologies shaping the future of the industry.

Mechanical Engineering: Mechanical engineering students can explore projects involving robotics, automation, CAD/CAM, and industrial design, gaining practical exposure to cutting-edge mechanical systems and technologies.

Expert Guidance and Mentorship

What sets AB Technologies apart from other project centers is its dedication to providing personalized mentorship. Each student receives one-on-one guidance from experienced professionals and academic experts who ensure that the project is not only completed successfully but also understood in-depth by the student. This mentorship covers every phase of the project, from initial concept and design to development, testing, and final presentation.

Focus on Hands-On Learning

At AB Technologies, students aren’t just completing projects for the sake of academic requirements; they’re getting hands-on, practical experience. The center is equipped with state-of-the-art tools, software, and hardware, allowing students to work on real-world applications of their projects. This practical exposure is invaluable in helping students understand the complexities of modern engineering solutions and preparing them for the challenges they will face in their professional careers.

Building a Reputation of Trust and Excellence

Over the years, AB Technologies has earned a strong reputation for its quality and commitment to excellence. The center has become a trusted partner for engineering students and educational institutions in Tirunelveli, thanks to its consistent track record of delivering successful IEEE projects. Many students have benefited from the expert guidance and innovative project solutions provided by AB Technologies, allowing them to stand out in their academic and professional journeys.

Conclusion

For engineering students in Tirunelveli looking to undertake IEEE-certified projects, AB Technologies is the clear choice. With its wide range of project offerings, expert mentorship, and hands-on learning opportunities, the center ensures that students not only meet their academic goals but also acquire valuable skills that will set them apart in the job market. As the leading IEEE project center in Tirunelveli, AB Technologies continues to empower students to succeed in their engineering careers.

Best IEEE expert engineering project center, Nagercoil | Tirunelveli | Chennai (abtechnologies.in)

#IEEE Project Center in Tirunelveli

#IEEE#Project#Center#in#Tirunelveli

##IEEEProjectCenterinTirunelveli

#IEEE Project Center in Tirunelveli

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solamalaiengineeringcollegeblogs · 1 year ago

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Electrical and Electronics Engineering (EEE) Degree at Solamalai College of Engineering, Top Madurai Engineering College

Technology plays a important role in today's world for shaping our lives, Electrical and Electronics Engineering (EEE) has emerged as one of the most popular fields. Solamalai College of Engineering, one of the best Madurai Engineering College offers a comprehensive EEE degree program that prepares students for a dynamic and fulfilling career in this ever-evolving field. This blog delves into the various aspects of the EEE program at Solamalai College of Engineering, highlighting its curriculum, faculty, facilities, career prospects, and why it stands out among other programs.

EEE Degree Overview

The EEE program is structured to cover fundamental and advanced topics in electrical and electronics engineering. Here's a glimpse of the curriculum:

Core Subjects

Circuit Theory: Understanding the principles of electrical circuits, network theorems, and AC/DC analysis.

Electromagnetic Fields: Studying electromagnetic theory, wave propagation, and antenna principles.

Power Systems: Learning about generation, transmission, and distribution of electrical power, and smart grid technologies.

Control Systems: Exploring feedback systems, stability analysis, and control strategies for various engineering applications.

Analog and Digital Electronics: Gaining insights into semiconductor devices, integrated circuits, microprocessors, and digital logic design.

Communication Systems: Understanding the fundamentals of analog and digital communication, modulation techniques, and signal processing.

Electives

Students can choose from a range of electives to specialize in areas such as renewable energy, robotics, VLSI design, embedded systems, and more. These electives allow students to tailor their education to their interests and career goals.

Career Prospects

A degree in Electrical and Electronics Engineering from Solamalai College of Engineering opens up numerous career opportunities across various industries. Here are some potential career paths:

1. Power and Energy Sector

Graduates can work in power generation, transmission, and distribution companies. They can also contribute to the development of renewable energy solutions, smart grids, and energy management systems.

2. Electronics and Semiconductor Industry

The electronics industry offers roles in design, development, and testing of electronic devices and systems. Graduates can work in companies specializing in consumer electronics, automotive electronics, and semiconductor manufacturing.

3. Telecommunications

Telecommunications companies seek EEE graduates for roles in network planning, communication system design, and signal processing. The growing demand for 5G technology and IoT further expands career opportunities in this field.

4. Research and Development

Graduates with a passion for innovation can pursue careers in research and development. They can work in research institutions, government agencies, or private companies developing new technologies and solutions.

5. Higher Education and Academia

Those inclined towards teaching and research can pursue higher education and academic positions. They can contribute to the academic community by conducting research and mentoring the next generation of engineers.

Why Solamalai College of Engineering Stands Out

1. Holistic Development

At Solamalai College of Engineering, we believe in the holistic development of our students. The EEE program is designed to nurture not only technical skills but also soft skills such as communication, teamwork, and leadership. Students are encouraged to participate in extracurricular activities, clubs, and community service.

2. Industry Connections

We maintain strong connections with various industries, providing students with opportunities for internships, workshops, and industry visits. These experiences give students practical insights and enhance their employability.

3. Focus on Innovation

Innovation is at the core of our educational philosophy. We encourage students to think creatively and develop innovative solutions to real-world problems. Our research initiatives and collaboration with industry partners foster a culture of innovation and entrepreneurship.

4. Global Perspective

Our EEE program incorporates a global perspective, preparing students to thrive in an interconnected world. Courses on global issues, international exchange programs, and collaborations with foreign universities broaden students' horizons.

Conclusion

The Electrical and Electronics Engineering degree at Solamalai College of Engineering offers a unique and enriching educational experience. With its cutting-edge curriculum, experienced faculty, state-of-the-art facilities, and strong industry connections, the program prepares students for a wide range of career paths. Whether you aspire to work in the power sector, electronics industry, telecommunications, research, or academia, this degree equips you with the knowledge and skills to succeed. Join us at Solamalai College of Engineering and embark on a journey of intellectual and personal growth that will shape your future.

#engineering college #engineering college in madurai #college #education #college life #teacher #high school #lesson plan #madurai engineering college #student life

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learnandgrowcommunity · 2 years ago

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Virtualization in BIOS : Enabled or Disabled? How to Check in Windows 10 / Windows 11

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Virtualization is a technology that allows a computer to run multiple operating systems at the same time. This is done by creating virtual machines, which are software emulations of physical computers. Virtualization is enabled in the BIOS, which is the basic input/output system.

To check if virtualization is enabled in Windows 10 or Windows 11, you can follow these steps:

Open Command Prompt.

type systeminfo and hit enter.

scroll to the last at Hyper-V requirements :

and check virtualization enabled in firmware : Yes or No.

Another way is -

Open Task Manager.

Click on the "Performance" tab.

Under "CPU," look for the "Virtualization" section.

If the virtualization section says "Enabled,"

If virtualization is not enabled in your BIOS, you may not be able to run certain applications or games. You can enable virtualization in BIOS by following the instructions in your computer's manual. I hope this helps! Thanks for watching! If you found this video helpful, please consider subscribing to @Learnandgrowcomunity for more EdTech tips and tricks.

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#VHDL #VHDLDesign #BeginnersGuide #DigitalCircuitDesign #LearnVHDL #VHDLTutorial #VHDLBasics #hardwaredesign #FPGA #Verilog HDL #FPGAtools #DesignFlow #XilinxVivado #AlteraQuartusPrime #GHDL #Verilog #DigitalDesign #FPGAoptimization #TimingAnalysis #PhysicalImplementation #FPGAdevelopment #LearnFPGA #VHDLtutorial #FPGAdesignskills #FPGAbeginners #LearnVHDL #Career #Grow #LearnAndGrowCommunity #VHDL #DigitalDesign #HDL #HardwareDescription #LearnVHDL #DigitalCircuits #FSM #Verilog #DesignVerification #VHDL #HardwareDesign #DigitalElectronics #VHDLLanguage #LearnVHDL #VHDLBasics #DigitalDesign #HardwareSimulation #Tips #Tipsandtricks #tricks #Simulation #Synthesis #Xilinx #XilinxVivado #Altera #Quartus #ActiveHDL #ASIC #PlaceandRoute #Tutorial #Learn #Career #SkillUp #HDLDesignLab #DigitalSystemLab #Engineering #TestBench #chip #VLSI #Designing #Programming #Technology #ProgrammingLanguage #EmbeddedSystem #Circuitdesign #VirtualizationInBIOS #EnabledOrDisabled #Windows10 #Windows11 #BIOSConfiguration #VirtualMachines #SoftwareApplications #techtutorials

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pack-yr-romantic-mind · 4 months ago

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This was posted February of this year, but Conway passed in June of 2024 at the age of 86. I don't really like it because it compresses her remarkable life and career into a tiny, kind of misleading paragraph. It doesn't mention her innovative work pre-transition at IBM, where she worked on the Advanced Computing Systems project and had a hand in the invention of out-of-order scheduling that every modern processor design uses. After her transition, firing, divorce, and the court order preventing her from seeing her children, and abandoned by her friends, Conway had to essentially start a whole new life. For decades she was stealth, until coming out to a computing historian in 1998 and posting her story online on her website. During that time, she didn't just design a chip; working at the revolutionary Xerox PARC research lab she developed new techniques for designing and prototyping VLSI integrated circuits, and literally wrote the book on circuit design that taught a generation of engineers. By the 90s she was an associate dean at the University of Michigan. After coming out to the world in 2000, she married her boyfriend of 15 years and would be an activist for trans rights and acceptance for the rest of her life.

IDK, there are a lot of people who have a "first" in the history of computing technology, but I think only a handful who had this much of an impact.

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takshilaaa · 1 day ago

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Boost Your VLSI Career with the Best Training Institutes in Bangalore

The Rising Demand for VLSI Professionals With the exponential growth of the semiconductor industry, VLSI (Very Large Scale Integration) design has emerged as one of the most in-demand fields in electronics and embedded systems. From smartphones and computers to self-driving cars and smart appliances, VLSI technology plays a crucial role in enabling intelligent digital systems. Due to the increasing dependency on integrated circuits in almost every electronic device, there is a rising need for skilled VLSI professionals. This demand has led many aspiring engineers to seek quality training from reputed institutes in Bangalore, India’s hub for technology and innovation.

Why Bangalore is the Preferred Destination for VLSI Training Bangalore, often called the Silicon Valley of India, is home to numerous semiconductor companies, design houses, and electronics manufacturing firms. This environment creates ample opportunities for practical exposure and industry collaboration. Among the top vlsi institutes in bangalore, candidates can find a range of training programs that combine theoretical knowledge with hands-on lab experience. These institutes offer specialized courses in areas like digital design, physical design, ASIC verification, and FPGA implementation, catering to the evolving needs of the industry. Choosing the right institute in Bangalore gives learners a valuable edge in both knowledge and employment prospects.

Features of an Effective VLSI Training Program An ideal VLSI training program is structured to provide not only strong foundational concepts but also practical exposure using real-time tools and industry-standard software. Courses designed in alignment with current job roles help learners understand design flows, verification methodologies, and layout processes. Instructors with industry experience and the availability of live projects further enhance the learning experience. Institutes that offer placement support, interview preparation, and resume guidance are often preferred by candidates aiming for a stable career in VLSI.

The Role of VLSI Training in Career Advancement Fresh graduates and working professionals who wish to enter the semiconductor domain can significantly benefit from VLSI training. These programs are crafted to develop technical proficiency and make learners job-ready. Bangalore provides a dynamic setting where individuals can access the latest tools, interact with domain experts, and build a professional network. A focused VLSI training program in this city can open the door to numerous job opportunities in top semiconductor firms.

Choosing a Job-Oriented VLSI Institute Enrolling in a job oriented vlsi training institute in bangalore can be a game-changer for anyone aiming to enter the core electronics field. Such institutes focus on equipping students with industry-relevant skills and practical expertise, thus improving their employability. These job-oriented programs emphasize real-world applications, timely projects, and guidance that align with current hiring trends in the VLSI sector.

Conclusion VLSI is a promising field with ever-expanding opportunities. For aspiring engineers looking to start or grow their careers in this domain, choosing the right training institute is critical. Bangalore stands out as a prime destination due to its strong industry presence and top-quality education providers. One of the most trusted names in this space is Takshila Institute of VLSI Technologies, known for offering robust, industry-aligned training. From comprehensive curriculum to placement support, the right institute can significantly impact an individual's career path. In conclusion, selecting the best institute from the top vlsi institutes in bangalore or opting for a job oriented vlsi training institute in bangalore can be the key step toward a successful future in the semiconductor industry.

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takshila21 · 1 day ago

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Mastering VLSI from Home: The Rise of ASIC and Verification Training Online

The Growing Importance of VLSI Training in the Digital Era In today’s rapidly evolving electronics industry, the demand for specialized VLSI professionals is at an all-time high. With industries embracing automation, AI, and IoT technologies, the need for advanced chip design and verification has grown significantly. VLSI (Very-Large-Scale Integration) engineers play a critical role in designing complex integrated circuits that power everyday devices—from smartphones to high-end servers. However, acquiring the right skills to meet industry standards can be a challenge without proper training. Fortunately, online learning has become a reliable gateway to meet this demand through structured, accessible, and high-quality programs.

Learning ASIC Design Through Trusted Online Platforms ASIC (Application-Specific Integrated Circuit) design is a core part of modern chip engineering. It involves creating custom circuits tailored for specific functions, making it an essential skill for any VLSI engineer. As industries continue to prioritize efficiency and cost-effectiveness, ASIC-based systems are becoming increasingly popular. Hyderabad has emerged as a strong hub for VLSI education, and learners now have the convenience of accessing online asic design training institutes in hyderabad These institutes offer interactive sessions, real-time project work, and guidance from industry experts, all from the comfort of home. The right training can open doors to highly lucrative careers in semiconductor design and embedded systems.

Why Online VLSI Education is Gaining Momentum Online VLSI education offers several advantages. Learners can pursue training alongside existing commitments, access recorded sessions for revision, and interact with mentors virtually. Additionally, online platforms often provide up-to-date curriculum designed in collaboration with industry experts. This format suits working professionals, graduates, and students aiming to gain relevant skills without the need to relocate or pause their careers. It also enables access to a wider pool of expertise and networking opportunities, which are essential in a competitive field like VLSI.

Design Verification: The Backbone of Reliable Chip Functionality While designing a chip is important, ensuring its functionality and performance through thorough verification is equally critical. Design verification checks whether the design meets the intended specifications and behaves as expected in real-world applications. As chip complexity increases, verification becomes more challenging and crucial. To meet this demand, several institutes now offer online design verification training programs. These programs teach advanced techniques in simulation, formal verification, and coverage analysis using industry-standard tools. They are specifically structured to prepare learners for job roles such as Verification Engineer and Functional Analyst.

Conclusion: Choosing the Right Path in VLSI Education Pursuing specialized skills in VLSI through online learning is no longer just an alternative—it’s a strategic advantage. With high demand in sectors like consumer electronics, automotive, and telecommunications, training in ASIC design and verification is a smart investment. The presence of reputed platforms like Takshila Institute of VLSI Technologies has made it easier for learners to access quality education remotely. Whether exploring online asic design training institutes in hyderabad or opting for online design verification training, the right course can pave the way for a rewarding career in the semiconductor industry.

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takshila9 · 1 day ago

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Master the Future of Chip Design with Expert Physical Design Courses in Hyderabad

The Booming Demand for Physical Design in VLSI

The digital revolution has transformed how the world functions, and behind every electronic device lies a complex microchip designed through a meticulous process. One of the most critical stages in chip creation is physical design, which directly impacts a chip's speed, power, and area. As technology nodes shrink and semiconductor complexity rises, skilled professionals in this domain are in high demand. Hyderabad, a major hub for the semiconductor industry, is now emerging as a preferred location for learning VLSI physical design, offering specialized and flexible training programs.

Online Learning Options for Busy Learners

In today’s fast-paced world, not everyone can attend full-time classroom training. Recognizing this, many reputed institutions now offer flexible and interactive learning formats. The online physical design course in hyderabad is becoming a popular choice among both fresh graduates and working professionals. These courses provide access to expert trainers, industry-standard tools, and real-time project exposure, all from the comfort of home. Online platforms also make it easier for learners to balance their job, education, and personal commitments, making high-quality education more accessible.

Significance of Physical Design in VLSI

Physical design is a vital step in the VLSI design flow where the logical design is translated into a physical layout. It involves floorplanning, placement, clock tree synthesis, routing, and design rule checks. Every step must meet performance requirements while ensuring minimal power consumption and area usage. Mastery in this area opens up career opportunities in companies that design chips for smartphones, computers, networking systems, and more. Understanding physical design is not just beneficial; it is essential for anyone aiming to build a future in VLSI.

Choosing the Right Training Path

The selection of a training program plays a major role in shaping a learner’s career in VLSI. Ideal training institutes not only provide theoretical knowledge but also offer real-world application through lab sessions and live projects. Course content must align with the latest industrial practices to ensure that learners gain up-to-date and job-relevant skills. Mentorship and placement support further enhance the effectiveness of the training.

Why Hyderabad Stands Out for VLSI Physical Design Training

Hyderabad has emerged as a prominent center for semiconductor companies, making it an ideal location for training and employment in the VLSI sector. Numerous vlsi physical design training institutes in hyderabad have gained recognition for their structured curriculum and experienced faculty. These institutes provide an excellent learning ecosystem backed by strong industry connections. Completing a physical design course in this city increases the chances of securing placement in well-known chip design companies.

Conclusion

With the rising importance of physical design in modern chip development, gaining expertise in this field can significantly enhance career prospects. Flexible options like the online physical design course in hyderabad are helping learners stay ahead of the curve. In particular, Takshila Institute of VLSI Technologies offers industry-relevant training programs designed to equip individuals with practical knowledge and professional skills. For those looking to make a mark in the semiconductor industry, vlsi physical design training institutes in hyderabad offer the perfect platform to begin a rewarding journey in chip design.

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thothxv · 1 year ago

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I kind of want to go off a bit about Lynn Conway's technical contributions, because somehow, "your smartphone would not exist without her work" is actually underselling it. And I thought I appreciated Conway's work, but when I went digging I found some things I'd never even heard about.

First of all, before any of the work she's most famous for, before IBM fired her for being trans, she worked on IBM's Advanced Computer Systems project, the team tasked with trying to beat Seymour Cray and his team at CDC in their continuing quest to build the fastest computers in the world. As part of the project, she invented dynamic instruction scheduling, which is crucial to every modern high-performance CPU. The project might have actually succeeded in beating CDC if it hadn't been killed, but that's another story.

And because one crucial innovation that defines modern microprocessor design apparently wasn't enough, she then worked on VLSI. The techniques she helped to pioneer in chip design don't just power your phone: Her work underpins almost every modern microchip. CPUs, GPUs, ASICs, everything. It was a revolution. That's not just my opinion, the wikipedia page literally has "revolution" in the title.

I also want to be very clear why I mean by "helped to pioneer", because a lot of subsequent accounts have diminished Conway's role in her own research: the VLSI work was a collaboration between Xerox PARC and Caltech, with Lynn Conway being the lead on the PARC side and Carver Mead being the lead on the Caltech side, with Mead being the physics expert and Conway being the computer architecture expert (which is an appropriate role for the inventor of dynamic instruction scheduling). While Mead had already been doing work on VLSI, Conway was not an assistant or subordinate: she was the co-lead, and a lot of VLSI innovations came directly from her, with scalable design rules being one her more frequently cited contributes (I'm a little bit out of my depth on the specifics of VLSI, being a programmer and all, so I'm not digging too deep here).

But of equal importance to her work on developing VLSI techniques was her work on teaching them. Developing a textbook on VLSI was her idea, and the result was Introduction to VLSI Systems. As part of the development process, she taught a course at MIT based on a draft of the book. That book and her course soon formed the basis for VLSI courses around the country. And because that apparently wasn't enough, as a part of that MIT course she also created MPC79, the first multi-project chip service (multi-project chip services combine a bunch of different microchip designs together into one large chip design before sending it out to a fab to be manufactured), making it economical for students' chip designs to be fabricated and shipped back to them. MPC79 was the direct inspiration for the DARPA-funded MOSIS, which provided access to chip fabrication to students and researchers across the country.

The VLSI tools and techniques made chip design a lot easier and much more accessible. Combined with MPC79/MOSIS granting broader access to chip manufacturing, there was a flood of students and researchers doing pioneering hardware design work. Sun's workstations, SGI's 3D graphics hardware, the SPARC and MIPS CPUs, all of these began life as VLSI projects at universities that were prototyped with MCP services. And while those are big, high-profile examples of early projects enabled by Conway's work, There are many, many more, far too many to count, and that number only gets bigger as you move forward through the years, until it encompasses almost everything the semiconductor industry creates.

And that's just her technical work. Her trans activism work in the 2000s was incredibly significant, and her website is frankly amazing. Her efforts to get other female and minority STEM pioneers the recognitions they rightly deserve are also worth remembering.

Goodbye, Lynn. Thank you for your constant support and encouragement since the day I started these comics. It has meant the world to me, and I wish I could have told you. We will remember you forever.

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medicaleducationupdates · 1 year ago

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The M.Tech VLSI Design and Embedded Systems program offered by Apollo University delves into advanced integrated circuit design and embedded system technologies, preparing students for careers in the ever-evolving field of electronics and semiconductor industry. Students gain comprehensive knowledge and practical skills for designing cutting-edge VLSI circuits and embedded systems.

#mtech vlsi design and embedded systems

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dekhocampus11 · 1 day ago

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National Institute of Technology—[NIT], Imphal

The National Institute of Technology, Imphal (NIT Imphal), is one of the 31 prestigious NITs in India, established to offer quality education and promote excellence in scientific and technical learning. It was established in 2010 as a part of the Indian government’s initiative to expand access to technical education across the country, especially in the northeastern region. Despite being one of the newer NITs, NIT Imphal has shown steady progress in terms of infrastructure, academic quality, research output, and student placements.

Location and Campus

NIT Imphal is located in Langol, Imphal, the capital city of Manipur. The institute is nestled in a scenic region surrounded by lush hills and greenery, providing an inspiring learning environment. The permanent campus spans around 150 acres, and the infrastructure is rapidly developing to match the standards of older NITs.

The serene and pollution-free environment allows students to focus deeply on their studies and research. The region is also rich in culture and heritage, offering a unique experience for students coming from different parts of the country.

Courses Offered

NIT Imphal offers undergraduate, postgraduate, and doctoral programs in various disciplines of engineering, science, and humanities.

Undergraduate (B.Tech) Programs:

Computer Science and Engineering (CSE)

Electrical Engineering (EE)

Electronics and Communication Engineering (ECE)

Mechanical Engineering (ME)

Civil Engineering (CE)

All B.Tech programs are of four years duration, and admission is based on JEE Main followed by JoSAA counselling.

Postgraduate (M.Tech and M.Sc) Programs:

M.Tech in Computer Science and Engineering

M.Tech in Power & Control Systems

M.Tech in VLSI Design and Embedded Systems

M.Sc in Physics, Chemistry, and Mathematics

Admission to M.Tech programs is through GATE, and for M.Sc programs through IIT JAM.

Doctoral Programs (Ph.D):

NIT Imphal offers Ph.D. programs in:

Engineering

Basic Sciences

Humanities and Social Sciences

Admission is based on academic records, written tests, and personal interviews.

Academic Departments

The institute has the following key departments:

Department of Computer Science & Engineering

Department of Mechanical Engineering

Department of Electrical Engineering

Department of Electronics & Communication Engineering

Department of Civil Engineering

Department of Physics

Department of Chemistry

Department of Mathematics

Department of Humanities & Social Sciences

Each department is staffed with qualified faculty and engages in research and development activities.

Facilities and Infrastructure

Though still in a developing phase, NIT Imphal has invested significantly in improving its infrastructure. Key facilities include:

Academic Buildings: Equipped with modern classrooms, smart boards, and projectors.

Central Library: A well-stocked digital and print collection of books, journals, and research papers.

Computer Centers: High-speed internet and computing resources are available for students and faculty.

Laboratories: State-of-the-art labs for each engineering discipline.

Hostels: Separate hostels for boys and girls with necessary amenities.

Sports and Recreation: Playground, gymnasium, and sports facilities for cricket, football, basketball, badminton, and more.

Wi-Fi Enabled Campus: High-speed internet access throughout the campus.

Medical Unit: On-campus health care facility with a resident doctor and tie-ups with local hospitals.

Faculty and Research

NIT Imphal has a team of highly qualified and experienced faculty members, many of whom are Ph.D. holders from premier institutions like IITs, IISc, and reputed foreign universities. The faculty actively participate in national and international research collaborations and publish in reputed journals.

The institute promotes interdisciplinary research and has several research projects funded by:

DST (Department of Science and Technology)

DRDO (Defence Research and Development Organisation)

ISRO (Indian Space Research Organisation)

AICTE (All India Council for Technical Education)

NIT Imphal encourages a research-driven environment where both students and faculty contribute to scientific innovation.

Student Life and Activities

Life at NIT Imphal is vibrant and engaging. The student community is active in organizing:

TechFest – "Innovision", a national-level technical fest with competitions, workshops, and exhibitions.

Cultural Fest – "Ougri", which includes music, dance, drama, fashion shows, and cultural performances.

Clubs & Societies – Robotics Club, Coding Club, Literary Club, Drama Society, and others foster creativity and leadership.

The student body also participates in social initiatives and community development projects in and around Manipur.

Placements

Despite being a relatively new NIT, NIT Imphal has seen a steady improvement in placements. The Training and Placement Cell (TPC) is dedicated to preparing students for the job market by organizing soft skills training, coding boot camps, aptitude sessions, and mock interviews.

Top recruiters include:

Infosys

Wipro

TCS

Cognizant

Capgemini

IBM

L&T Infotech

Tech Mahindra

The highest package offered has reached over ��20 LPA in recent years, with an average package of around ��6–8 LPA in core and IT sectors.

Admissions Process

B.Tech Admission: Based on JEE Main ranks and centralized counseling via JoSAA/CSAB.

M.Tech Admission: Through GATE scores and CCMT counseling.

Ph.D Admission: Based on institute entrance tests and interviews.

Reservations follow the Government of India norms for SC/ST/OBC/EWS/PwD categories.

Why Choose NIT Imphal?

Growing Infrastructure with government support

Affordable education with high RoI (Return on Investment)

Experienced faculty and focused research

Diverse student community from all over India

Beautiful, peaceful location conducive to learning

Conclusion

NIT Imphal is a fast-rising technical institute in India, making notable progress in engineering education and research despite its recent inception. It serves as a beacon of higher education in the Northeast, offering students not only academic excellence but also a unique cultural and personal growth experience. With increasing placements, expanding infrastructure, and a student-centric ecosystem, NIT Imphal is a promising destination for future engineers and researchers.