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Opportunity

Opportunity

India’s semiconductor industry is rapidly expanding due to rising electronic demand, supportive government policies, and the need for diversified global supply chains. The government has introduced initiatives like production-linked incentives to attract investment and establish manufacturing facilities. Both domestic and international firms are investing in R&D, striving to make India a significant contributor to the global semiconductor sector. Furthermore, the country’s skilled workforce and growing start-up ecosystem foster innovation, enhancing its potential in the evolving semiconductor landscape. Follow @vlsi_point for more!! Share with all your ECE Friends✌️ Save for Future! [vlsi electronics job salary career ece embedded vlsiroadmap engineering cse gate semiconductor electronicsindustry vlsidesign collegeplacement undergraduate digital productbased servicebased frontendvlsi backendvlsi physicaldesign csevsece fpga asic verilog analog] #vlsi #ece #vlsipoint #futurejobs #ai #semiconductor #career #engineering #undergraduate #trendingaudio #india #electronics #electronicsengineering #engineeringjobs #btech #mtech #iit #gate

!!Now Hiring!!                                                                                                     One of our client is hiring for Embedded (Power Electronics). Interested Candidate can share their resume via email or WhatsApp             WhatsApp @ 9445911058 Email: kalaiselvi.k@ramsol.onmicrosoft.com                                          #job #career #hiring #jobsearch #jobopening #nowhiring #chennaijobs #chennaijobseekers #embeddedpowerelectronics #powerelectronicsdomain #RTOS #communicationprotocols #spi #I2c #UART #debuggingmicrocotroller #embeddedc++ #matlab #UMLbasedtool #softwaredesign #softwaredevelopment #incircuitemulators #networkingprotocols

-Wait a minute, Doc. Ah... Are you telling me that you built a Radar SoC... in a DeLorean? -The way I see it, if you're gonna build a Radar SoC into a car, why not do it with some style? -Ok Doc,but we better back up. We don't have enough road to get up to 88Mph. -Roads? Where we're going, we don't need roads.   Bosch to the future 🚗 🔥 🔥 🔥 Do you want to be part of the future of automotive electronics? we have an open position, we are looking for a Senior Mixed Signal Verification Engineer. If you are interested please visit https://lnkd.in/d_EsabWQ and submit your CV. P.S. Thanks to all of you that interact and share my funny posts 😄. Any help is usefull to reach good candidates. This time my manager Miguel Chanca Martin promise me a bonus if a reach a good number of interactions and reactions, so please help me and also help your network to find a very good job in a very good place. Miguel how many reactions for the bonus? 🤣 P.S.2 Some colleagues properly pointed me that I´m losing young people and not reaching GenZ wit my posts. I promise to solve this in my next post, maybe a Frozen based post is a good option 🤣 #LikeABosch #Bosch #hiring #work

**VLSI Backend Series** 5. What is CTS and routing? Clock Tree Synthesis (CTS) and routing are critical steps in the VLSI backend design process. Clock Tree Synthesis (CTS) is the process of designing an efficient clock distribution network to ensure the clock signal reaches all sequential elements (like flip-flops) in a chip with minimal skew and delay. The primary goal is to balance the clock signal’s arrival time at all destinations, ensuring synchronization while minimizing power consumption and area. CTS involves inserting buffers or inverters in the clock path to achieve this balance. Routing follows CTS and is the process of physically connecting all the circuit elements through metal layers. It involves routing the signals between logic gates and connecting power, ground, and clock nets. The challenge lies in optimizing the routing for performance, minimizing congestion, and ensuring signal integrity (such as avoiding crosstalk). The final routing must also comply with design rules, ensuring manufacturability and reliability of the chip. Watch full video: https://lnkd.in/gCjY9Sat Follow VLSI POINT for more✌️ Share with all your ECE Friends! Save for Future! [vlsi electronics job salary career ece embedded vlsiroadmap engineering cse gate semiconductor electronicsindustry vlsidesign collegeplacement undergraduate digital productbased servicebased frontendvlsi backendvlsi physicaldesign csevsece fpga asic verilog analog] #vlsi #ece #vlsipoint #futurejobs #ai #semiconductor #career #engineering #undergraduate #trendingaudio #india #electronics #electronicsengineering #engineeringjobs #btech #mtech #iit #gate

Dear Chip Designers, . . . "Three ways to Learn Analog IC Design : A Framework for Success" 1.Learning by Doing: Join Live Projects: Engage in real-world analog design projects to gain practical experience. Design and Simulate: Move beyond theoretical knowledge by actively designing circuits and simulating them across various scenarios. Embrace Challenges: Push the boundaries by experimenting, troubleshooting, and refining designs to gain a deeper understanding. 2.Silicon Debugging/Verification: Expect the Unexpected: Despite exhaustive simulations, silicon may present unforeseen challenges such as parasitic components or corner cases. Embrace Frustration: View debugging as an opportunity for growth, understanding that overcoming challenges builds resilience and expertise. Learn from Experience: Each simulation debugging instance provides invaluable insights that contribute to becoming a proficient analog engineer. 3.Engage with Peers: Collaborate and Communicate: Interact with fellow analog engineers to exchange ideas, discuss challenges, and explore diverse approaches to problem-solving. Seek Feedback: Share your understanding and seek feedback from others to enhance comprehension and identify potential gaps in knowledge. Foster a Learning Environment: Encourage open dialogue and knowledge-sharing through informal conversations, dedicated sessions, and design reviews. By following these three tips—learning by doing, embracing silicon debugging, and engaging with peers—budding analog engineers can accelerate their growth and develop the skills necessary for success in the field. Remember, continuous learning and collaboration are key to thriving in the dynamic realm of analog circuit design. #semiconductor #vlsi #analog #semiconductors #vlsijobs #analogdesign #semiconductorindustry #vlsidesign #semiconductorwave #vlsitraining #semiconductormanufacturing #vlsijobseekers #semiconductores #vlsicareer #semiconductorjobs #vlsijob #onsemiconductor #vlsiexpert #semiconducteur #vlsiprojects #semiconductorclub #vlsifreshers #vlsiengineer #vlsiverification #vlsicourses #vlsijobsalert #vlsiindustry #vlsity

Aspiring Embedded Digital Engineer Seeking an Exciting Challenge! 🚀 Final year student in embedded digital electronics, I am an engineer passionate about technology and innovation. I am eager to put my technical skills and enthusiasm to use to contribute to cutting-edge projects within a dynamic company.🧑🔧💡 During my internship as a Digital Validation Engineer at NXP, I had the opportunity to develop valuable skills in silicon validation, project management, and data analysis, as well as executing automated tests to ensure the quality and reliability of electronic systems. 🔍🛠️📊 Passionate about embedded digital electronics, embedded software development, and the design of microprocessor and microcontroller-based systems, I am looking for a first position in one of the following fields: digital validation, circuit verification, test bench automation, or embedded software development. 📟🖥️🔌 My quick wit and enthusiasm for innovation will allow me to quickly integrate into your team and make a significant contribution to your projects. 🤝✨ Available for an interview at your convenience, I am eager to discuss how I can put my skills to the service of your company. Please do not hesitate to contact me via LinkedIn or email. 📧📱 Thank you for your time and consideration! #ingénierienuemériqueembarquée #validationnumérique #vérificationdecircuit #automatisationdebanctest #cembarquée #cpp #java #premierposte #engineer #graduates #interested #opentowork #embeddeddigitalengineer #digitalvalidation #circuitverification #testautomation #embeddedsw #firstposition #entrylevel #electronics #hardware #software #semiconductor #testing #qualityassurance #innovation #problem_solving #teamwork

𝗤.𝟰 𝗪𝗵𝗮𝘁 𝗮𝗿𝗲 𝗗𝗶𝗳𝗳𝗲𝗿𝗲𝗻𝗰𝗲𝘀 𝗯𝗲𝘁𝘄𝗲𝗲𝗻 𝗘𝗺𝗯𝗲𝗱𝗱𝗲𝗱 𝘀𝗼𝗳𝘁𝘄𝗮𝗿𝗲 𝗲𝗻𝗴𝗶𝗻𝗲𝗲𝗿 𝘃𝘀 𝗘𝗺𝗯𝗲𝗱𝗱𝗲𝗱 𝗦𝘆𝘀𝘁𝗲𝗺𝘀 𝗲𝗻𝗴𝗶𝗻𝗲𝗲𝗿? 𝗔𝗻𝘀𝘄𝗲𝗿: The roles of Embedded Software Engineer and Embedded Systems Engineer are closely related but have distinct focuses. Here's a comparison: 𝗘𝗺𝗯𝗲𝗱𝗱𝗲𝗱 𝗦𝗼𝗳𝘁𝘄𝗮𝗿𝗲 𝗘𝗻𝗴𝗶𝗻𝗲𝗲𝗿 Focus: Primarily works on the software side of embedded systems. Responsibilities: 1. Writing, testing, and debugging firmware or software for microcontrollers, processors, or other embedded devices. 2. Developing real-time operating system (RTOS) applications. 3. Implementing low-level drivers and APIs for hardware components. 4. Ensuring software performance meets system requirements. 5. Programming in languages like C, C++, and sometimes Python or assembly language. 6. Optimizing code for performance and power efficiency. Skills Required: Strong programming skills in C/C++. Knowledge of RTOS and embedded frameworks. Experience with debugging tools (e.g., JTAG, logic analyzers). Familiarity with communication protocols (e.g., SPI, I2C, UART, CAN). Common Employers: Companies developing firmware, IoT devices, automotive systems, and consumer electronics. 𝗘𝗺𝗯𝗲𝗱𝗱𝗲𝗱 𝗦𝘆𝘀𝘁𝗲𝗺𝘀 𝗘𝗻𝗴𝗶𝗻𝗲𝗲𝗿 Focus: Takes a more holistic approach, covering both hardware and software integration. Responsibilities: 1. Designing and implementing embedded systems, including hardware selection and integration. 2. Working with sensors, actuators, and communication interfaces. 3. Collaborating with PCB designers and hardware engineers. 4. Analyzing system performance and ensuring reliability. 5. Writing firmware for hardware control and system-level testing. 6. Considering power, size, and cost constraints in design. Skills Required: Knowledge of both hardware and software. Understanding of microcontrollers, FPGAs, and SoCs. Experience with hardware debugging tools (oscilloscopes, multimeters). Proficiency in embedded programming and hardware-software co-design. Common Employers: Companies working in automotive, aerospace, robotics, industrial automation, and medical devices. If you're interested in software development and enjoy coding, Embedded Software Engineer might suit you better. If you prefer a mix of hardware and software and enjoy system-level design, consider Embedded Systems Engineer. #embedded #electronics #hardware #vlsi #embeddedsystem #embeddedsoftware #software #cprogramming #c #assembly #microcontroller #dsp #microprocessor