Position: RTL Design Engineer Location: Bangalore Education: Engineering Degree in Electronics & Communication (E&C) Experience: 3 to 6 years Job Overview We are seeking a skilled RTL Design Engineer to own the full lifecycle of FPGA design projects from understanding customer requirements to final delivery. You will define DSP, system, and board architecture, partition algorithms between FPGA and software, and lead design, simulation, and verification activities. This role requires hands-on expertise with FPGA technologies, strong problem-solving skills, and the ability to engage closely with customers and production teams. Key Responsibilities Interpret customer requirements, specifications, and tender documents to define system architecture. Take end-to-end ownership of projects including risk assessment, mitigation planning, schedule tracking, and customer discussions. Partition signal processing algorithms for FPGA and software implementation; identify key building blocks. Provide estimates for FPGA resources, computational and memory bandwidth needs. Develop detailed module-level designs including coding, simulation, and peer reviews. Apply design, verification, and validation methodologies rigorously. Prepare and maintain comprehensive project documentation, including design and analysis reports. Support customers during integration and testing phases on-site. Assist production teams with technical support. Define RTL architecture and perform HDL coding, simulation, implementation, board testing, and debugging. Professional Skills & Technical Expertise Proficient in VHDL coding; experience with Verilog or SystemVerilog is a plus. Expertise with Xilinx FPGA devices and associated synthesis and implementation tools. Strong experience in functional simulation and hardware logic design/debugging. Familiarity with FPGA synthesis and place & route (PAR) tools. Experience implementing DSP algorithms in FPGA environments, especially for Radar and Electronic Warfare applications. Skilled in modeling algorithms using MATLAB/Octave, generating test vectors, and data visualization. Working knowledge of interfacing with ADCs and DACs, and analyzing their performance. Good command of configuration and version control tools such as SVN. Excellent communication and presentation skills for technical discussions and customer interactions. What You ll Bring Strong analytical mindset and problem-solving abilities. Ability to work independently and manage multiple tasks effectively. Detail-oriented with a commitment to high-quality design and documentation. Collaborative attitude to work across teams and customer sites. Qualification : Engineering Degree in Electronics & Communication (E&C)

Introduction As a Hardware Developer at IBM, you ll get to work on the systems that are driving the quantum revolution and the AI era. Join an elite team of engineering professionals who enable IBM customers to make better decisions quicker on the most trusted hardware platform in today s market. Your Role and Responsibilities As a Functional verification engineer, you will be working on IBM server processors/SOC or ASICs used in IBM servers. Leading the development of the verification environment, testbenches and writing testcases. Develop skills in IBM Functional verification tools and methodologies. Work with design as well as other key stakeholders in debugging and fixing logic design issues and deliver a quality design Required Technical and Professional Expertise 9 + years of experience in Functional Verification of processors or ASICs. Minimum 6+ years of experience in any of the following Computer architecture knowledge, Processor core design specifications, instruction set architecture and logic verification. Core architecture/micro-architecture verification Multi-processor cache coherency, Memory subsystem verification. IO subsystem knowledge, any of the protocols like PCIE/CXL, DDR, Flash, Ethernet etc AXI/AHB/ACE/ACE-lite fabric verification or any other SoC fabric verification. Gate level simulation and emulation. Track record in leading team. Clock domain crossing and reset domain crossing verification Knowledge of functional verification methodology UVM/OVM/System Verilog/SystemC/ Knowledge of HDLs (Verilog, VHDL) Developed test-plans and test strategies for IP/unit/block level verification. Good object-oriented programming skills in C/C++, scripting languages like Python/Perl. Worked on multiple levels of verification (unit/element/sub-system/system level) Development experience on Linux/Unix environments, GIT repositories and good understanding of Continuous Integration and DevOps workflow Exposure in developing testbench environment, write complex test scenario, debugging and triaging fails Experience in driving verification coverage closure. Preferred Technical and Professional Expertise Stress testing and ability to identify corner case scenarios. Knowledge of high-speed SERDES and PHY Verification Good understanding of computer system architecture and microarchitecture. Knowledge in IP Integration and SoC level verification.

Technical Requirements: 1. Digital Logic Design & RTL Coding: Strong experience in digital logic design and RTL (Register Transfer Level) coding. Proficiency in Verilog, VHDL, or System Verilog for implementing complex designs. Deep understanding of logic synthesis, timing constraints, and logic optimization. 2. Peripheral Design (High/Low-Speed): Experience in designing high-speed and low-speed peripherals, ensuring compatibility and optimal performance. Knowledge of integrating peripherals within larger system architectures, ensuring robust data flow. 3. Synthesis, Timing Constraints, and CDC: Familiarity with synthesis tools and ensuring the correctness of timing constraints. Experience with Clock Domain Crossing (CDC) and methods to avoid timing hazards in designs. Ability to optimize logic for timing closure and power efficiency during synthesis. 4. Unit Level Verification Setup & Assertions: Hands-on experience in setting up unit-level verification for RTL modules. Proficient in writing assertions to ensure the correctness of designs during simulation and functional verification. 5. Low Power Design Techniques: Exposure to low power design techniques, including managing multiple power/clock domains in complex SoC designs. Ability to design power-efficient modules for consumer electronics or embedded systems. 6. ARM SoC/AMBA IP-based Designs: Exposure to ARM SoC architectures and integration of AMBA (AXI, AHB, APB) protocols into designs. Experience with SoC-level integration, managing both hardware and software interactions in complex systems. 7. Protocol Knowledge (Additional Advantage): Working knowledge of industry-standard protocols, including PCIe, DDRx, Ethernet, USB, I2C, SPI. Ability to implement these protocols in hardware designs for various interfaces. Expectations from the Role: 1. Communication & Interpersonal Skills: Excellent communication skills for interacting with cross-functional teams, stakeholders, and clients. Ability to convey complex technical details clearly, both in writing and verbally. 2. Independent and Teamwork Capabilities: Strong ability to work both independently and as part of a team. Willingness to take initiative and demonstrate leadership in solving technical challenges. 3. Fast Learner & Adaptability: Ability to quickly absorb and apply new technologies, tools, and methodologies. Eagerness to stay updated with trends in digital design and SoC development. 4. Ownership & Accountability: Demonstrated ownership of tasks and the ability to meet deadlines. Ensure that all aspects of the design process are completed with attention to detail and high-quality standards. 5. Punctuality and Responsibility: Strong track record of punctuality, meeting project deadlines, and delivering quality work. Ability to manage multiple design tasks and optimize workflows to maintain timelines. Ideal Candidate Profile: The ideal candidate should have solid experience in digital logic design, particularly with Verilog, VHDL, or System Verilog. They should have a strong foundation in designing both high-speed and low-speed peripherals and optimizing designs for timing and power efficiency. The role also requires familiarity with ARM SoC architectures and integration of AMBA-based IPs. The candidate should be a strong communicator with the ability to work both independently and collaboratively in a fast-paced, distributed work environment. Leadership potential and a demonstrated ownership mindset are essential to the success in this role.

Technical Requirements: 1. RTL Design Expertise: Strong experience in RTL (Register Transfer Level) coding, with a good understanding of logic design principles. Proficiency in writing efficient, optimized RTL code using Verilog, System Verilog, or VHDL. 2. SDC and Constraints Syntax: Deep understanding of SDC (Synopsys Design Constraints) and constraints syntax used in synthesis. Experience in writing and managing timing constraints for designs at both the block and SoC levels. 3. Synthesis Experience (Block/SoC Level): Extensive hands-on experience in synthesis at both block and SoC (System on Chip) levels, ensuring efficient design implementation. Familiar with logical synthesis and physical synthesis techniques for optimizing RTL code. 4. Low Power Synthesis: Experience in low-power synthesis, using techniques such as clock gating, power gating, and multi-voltage domain design to reduce power consumption while maintaining design performance. 5. Optimization Techniques: Strong knowledge of optimization techniques to achieve the best Performance, Power, and Area (PPA) for designs. Familiarity with logic restructuring, retiming, and other optimization strategies to improve design efficiency. 6. Synthesis Tools and Methodologies: Expertise in Synopsys Design Compiler (DCT/DCG) or Cadence Genus/RC for synthesis. Experience with hierarchical synthesis, DFT (Design for Test) handling, and scan insertion. 7. Multi-Power Domain Designs: Familiarity with multi-power domain designs, including managing different power states for various blocks or subsystems in the design. 8. CPF (Common Power Format): Good knowledge of CPF (Common Power Format), used for managing power domains and low-power techniques across designs. 9. Timing and STA (Static Timing Analysis): Strong knowledge of timing concepts and STA for analyzing and ensuring timing closure of the design. Experience in LEC (Logical Equivalence Checking) and CLP (Clock Logic Propagation) to validate the functional correctness of the design. 10. Additional Tools & Concepts: Experience with tools like PTPX and Spyglass for timing analysis, power estimation, and linting. Knowledge of Functional ECO (Engineering Change Order) for making design modifications after the initial synthesis. Proficient in scripting with Perl/TCL for automating synthesis and verification tasks. Expectations from the Role: 1. Debugging and Problem-Solving: Strong debugging skills to identify and resolve issues in complex RTL designs and synthesis-related problems. Ability to troubleshoot synthesis issues related to timing, power, or design constraints. 2. Effective Communication: Excellent communication skills to interact with various stakeholders, including design teams, verification teams, and management. Ability to clearly articulate design choices, challenges, and solutions. 3. Project Focus and Ownership: Ability to stay focused on project goals and drive closure on timely delivery of design work. Ownership of assigned work and ensuring its completion within the agreed timelines. 4. Leadership Skills: Leadership abilities to guide and mentor junior engineers in the team. Ability to lead design projects, ensure best practices are followed, and promote a collaborative team environment. 5. Go-Getter Attitude: Proactive and self-driven with a Go-getter attitude, always seeking opportunities to improve designs, processes, and overall team performance. Ability to take initiative, stay motivated, and continually push for high-quality results. Ideal Candidate Profile: The ideal candidate should have a strong RTL design background with in-depth knowledge of synthesis techniques, low power design, and timing analysis. They should be well-versed with industry-standard tools such as Synopsys Design Compiler and Cadence Genus/RC, and have practical experience with multi-power domain designs. A deep understanding of SDC and timing constraints, along with strong debugging and problem-solving skills, is essential. Additionally, the candidate should have leadership potential, excellent communication skills, and a proactive attitude that drives results.

Position: Embedded Software Developer Department: Research & Development Reporting To: General Manager Location: Bengaluru Key Responsibilities Embedded System Development Work with a team of developers to design, create, and implement **embedded systems and applications** for R&D projects, which will later be integrated into BFW machines. Develop embedded software from requirements gathering to production and commercial deployment. Assist an in-house team of embedded developers in the creation of **prototype boards, coding, and testing**. Demonstrate previous embedded projects, including examples and supporting audiovisual materials. Software Design & Implementation Design, develop, test, and debug **embedded system software**. Review and optimize code for efficiency, stability, and scalability. Analyze system resources and integrate new product designs into the system. Interface with hardware design and development teams to ensure seamless integration. Testing & Support Provide **post-production support** and assist in the debugging and troubleshooting of embedded systems. Support software **quality assurance (QA)** and optimize I/O performance for embedded systems. Third-Party Software Integration Assess and integrate **third-party and open-source software** solutions as needed for system functionality. Behavioral Competencies Component Selection: Ability to select appropriate components for embedded systems based on requirements. Communication: Strong written and verbal communication skills for documentation, team collaboration, and customer interaction. Problem Solving: Ability to work independently, troubleshoot issues, and optimize system performance. Skills and Expertise Core Programming Skills Proficient in **C, C++, and Python**. (**Must know**) Expertise in **QT and QML**. (**Must know**) Hardware Knowledge Experience with schematic design, PCB component placements, layouts, and artwork. (Good to know) Understanding of **EMC standards** and their application in hardware design. (Good to know) Microcontroller & Processor Expertise Working knowledge of **8, 16, and 32-bit microcontrollers**. (**Must know**) Experience with **32-bit and 64-bit microprocessors**, including ATOM, ARM, PIC, Atmel, etc. (**Must know**) Communication Protocols Proficient with communication protocols such as **RS232C, RS485, USB, TCP/IP, Modbus RTU/TCP, and shared memory (Redis)**. (**Must know**) POC & Testing Setup Proficient in creating **proof-of-concept (POC)** layouts and writing test code for available lab resources to validate designs. Qualifications Essential: Bachelor's degree in Mechanical Engineering, Computer Science, or related field (or equivalent). Experience: Minimum of **2 years of experience** working and developing embedded software for platforms. Proficiency in developing software and working with hardware in an embedded environment. Qualification : Bachelor's degree in Mechanical Engineering, Computer Science, or related field (or equivalent)

Job Title: Principal Electronics Engineer Embedded Hardware Location: Bengaluru Experience: 8 14 years Industry: Automotive / EV / Manufacturing Employment Type: Full-time About Ultraviolette Join the Charge. Create the Future. At Ultraviolette, we are more than just a company we re a movement that s reshaping the future of electric mobility. From building India s fastest electric motorcycle to designing the world s most advanced electric scooter, we thrive on pushing the boundaries of what s possible. We are a team of engineers, designers, and trailblazers united by a passion to craft machines that are sustainable, intelligent, and exhilarating. Every bolt, every line of code, and every component is designed with a singular mission: to accelerate the global shift toward next-generation mobility. Role Overview We are looking for a Principal / Lead Electronics Engineer Embedded Hardware to take ownership of vehicle electronics architecture, embedded systems design, diagnostics, and system-level validation for our next-gen electric vehicles. In this role, you will be at the forefront of developing high-performance electronic control units, telematics, and connected systems for future-ready vehicles. You will drive architecture decisions, system integration, and compliance, working alongside cross-functional teams to bring innovation from concept to the street. Key Responsibilities 1. Vehicle Electronics Architecture Design and bring to production electronic hardware including ECUs, display clusters, and telematics modules. Develop high-speed embedded designs with RF, sensor integration, and communication interfaces (CAN, LIN, UART, SPI, I2C). Create and maintain system schematics, architecture documentation, and interface definitions. 2. Embedded Hardware Design Develop embedded platforms with high-performance microcontrollers/processors to support vision systems, graphics, radar/LiDAR, audio, and OS-based applications. Architect and validate connected systems involving GNSS, LTE, BLE, Wi-Fi. Lead the design and integration of vehicle subsystems like lighting, clusters, IMUs, and more. Collaborate closely with firmware teams on hardware-software integration, bootloaders, and OTA functionality. 3. Diagnostics & Compliance Implement UDS-based diagnostics, fault logging systems, and service tools. Ensure compliance with AIS-004, ISO 26262, and other automotive design standards. 4. Testing & Validation Define and execute component-level and vehicle-level validation test plans. Utilize tools like Vector CANoe, CANalyzer, ETAS INCA, oscilloscopes, and spectrum/network analyzers for debugging and validation. 5. Cross-functional Collaboration Partner with teams across mechanical, software, UX, powertrain, and wire harness for holistic system integration. Work with mobile and cloud teams to enable real-time data streaming, diagnostics, and OTA updates. Actively contribute in design reviews, DFMEAs, and root cause analyses of field issues. Required Qualifications & Skills B.E. / M.E. / B.Tech / M.Tech in Electronics, Electrical, Mechatronics, or related disciplines. 8+ years of embedded hardware design experience, preferably in 2W/EV/automotive domain. Strong understanding of embedded C and scripting languages (e.g., Python, MATLAB, Octave). Experience with circuit simulation tools (e.g., PSPICE, LTSPICE, SIMPLIS, Simetrix). Hands-on expertise in RF design, signal/power integrity, EMI/EMC compliant layouts. Proficiency in PCB design tools (e.g., OrCAD, Altium, Mentor Graphics). Demonstrated experience in designing systems with multi-core processors, memory chips, SoMs, and high-speed interfaces (USB, Ethernet, LVDS, MIPI). Deep knowledge of embedded communication protocols (CAN, LIN, SPI, UART, I2C). Strong debugging and problem-solving skills in hardware validation and field testing. Nice to Have Hands-on experience in vehicle electronics development for 2W, 4W, or electric vehicles. Familiarity with DFT/DFA (Design for Testing/Assembly) methodologies. Experience with manufacturing and compliance testing for embedded hardware. Background in developing connected vehicle ecosystems with OTA capabilities. Passionate about emerging technologies in mobility, EVs, and embedded systems. Be part of India s electric mobility revolution where engineering meets adrenaline. Work on world-class technologies that are pushing global boundaries. Join a culture that encourages innovation, learning, and ownership. Collaborate with passionate teams building next-gen mobility experiences. Qualification : B.E. / M.E. / B.Tech / M.Tech in Electronics, Electrical, Mechatronics, or related disciplines

Position: Junior/Senior Design Engineer Hardware Design Location: Bangalore Education: B.E./B.Tech. in Electronics & Communication / Electronics & Telecommunication M.E./M.Tech. in Electronics & Communication Experience: 2 to 4 years Job Overview We are looking for a passionate and detail-oriented Hardware Design Engineer (Junior/Senior level) to join our engineering team in Bangalore. In this role, you will be responsible for designing high-performance embedded hardware systems, from circuit design and schematic capture to board bring-up and testing. You ll work closely with cross-functional teams to deliver robust, scalable, and reliable hardware solutions, primarily for embedded and defense applications. Key Responsibilities Execute assigned hardware design tasks within defined timelines. Design and develop complex hardware circuits, schematics, and PCB layouts. Perform Signal Integrity (SI), Power Integrity (PI), and thermal analysis. Develop hardware test plans and execute board/system testing accordingly. Conduct board bring-up, validation, and debugging of hardware platforms. Participate in design reviews, defect prevention, and continuous improvement activities. Adhere to all QMS (Quality Management System) and project-specific processes. Prepare detailed technical documentation and maintain design records. Flag and resolve any technical challenges with guidance from tech leads. Technical Skill Set Strong expertise in circuit design, schematic capture, and PCB design. Hands-on experience with 16-bit or 32-bit processors/microcontrollers (e.g., ARM, PowerPC, IBM PPC 405, Intel x86). Experience with FPGA-based board designs. Good understanding of high-speed board design and signal integrity concepts. Familiarity with system interfaces: PCI, PCIe, VME, Compact PCI, ATCA/AMC is a plus. Exposure to embedded hardware design for defense applications. Understanding of qualification processes for industrial/defense-grade products. Proficiency in board bring-up and hardware debugging techniques. Technology Domains Storage Technologies: iSCSI, SATA, Fibre Channel Processors: MIPS, ARM, PowerPC Interfaces: USB, PCIe, PCI-X Memory: DDR, DDR2, RLDRAM Soft Skills & Attributes Strong verbal and written communication skills Excellent interpersonal and teamwork abilities Proactive and solution-oriented mindset Strong time management and organizational skills Opportunity to work on cutting-edge hardware design projects in embedded and defense domains Exposure to the complete hardware development lifecycle Collaborative and inclusive work culture Learning and development support Competitive compensation package Qualification : M.E./M.Tech. in Electronics & Communication

Senior Emulation Engineer Company Arm Location Bengaluru, India Job Overview Arm s Central Emulation team is excited to welcome experienced Emulation experts to join the team in Bengaluru. You will collaborate with design and verification engineers across the UK, US, India, and France to support advanced Compute Subsystems and SoC projects. Arm is building a team to develop exceptional silicon demonstrators based on Arm s IP compute sub-system solutions, targeting premium mobile, infrastructure, and automotive markets. Using the latest technology nodes (e.g., 3nm) and new 3D packaging innovations, Arm s goal is to demonstrate industry-leading performance by architecting, designing, implementing, and fabricating cutting-edge silicon test chips. This initiative brings together innovative talent and expertise from across the semiconductor industry to shape the next generation of compute on Arm devices. Responsibilities Collaborate with end users to understand system use cases and guide validation efforts. Ensure tight integration between hardware qualification and final application use models. Work in an exciting emulation environment using hybrid and virtual solutions, integrating industry-standard high/low-speed IO IPs into subsystems and SoCs. Engage from early architecture and design phases to pre-silicon validation and post-silicon validation on emulation platforms. Drive pre-silicon emulation across all SoC teams. Ensure design quality and debuggability by collaborating closely with the design team. Support architecture, verification, system validation, performance, power, and DFT teams with insights from performance and power characterization. Develop comprehensive pre and post-silicon test plans in collaboration with verification teams. Develop tests, create bare-metal drivers for industry-standard IO IPs, and build frameworks to enable scalable testing across multiple ASIC projects. Required Skills and Experience Bachelor s degree (BE/BTech) in Electronics Engineering. 8+ years of experience in Pre-Silicon Validation and Emulation/FPGA-based platforms. Experience developing C/C++/SystemC tests for HDL-HVL co-emulation platforms. Proficiency in IO bus protocols such as I2C, SPI, USB, and/or PCIe. Experience with SoC debugging tools such as JTAG and Trace32. Nice-to-Have Skills and Experience Knowledge of ASIC design and prototyping flows. Experience with SystemC/C/C++ and UVM/SystemVerilog (SV) verification languages. Familiarity with domains such as PCIe, Flash, Memory, CPU, GPU, and DRAM. Hands-on experience with emulation toolchains such as Zebu, Veloce, or Palladium. What Arm Offers Arm is committed to global talent acquisition, offering an attractive relocation package. With offices worldwide, Arm is a diverse organization of dedicated, creative, and hardworking engineers. By fostering a dynamic, inclusive, meritocratic, and open workplace where everyone can thrive, Arm encourages its people to make exceptional contributions to its global success. #LI-KR2 Qualification : Bachelors degree (BE/BTech) in Electronics Engineering.

Job Title: Pre-Silicon Validation Engineer SoC/IP Job Description: Join the Devices Development Group (DDG), one of Intel s premier System-on-Chip (SoC) design teams, driving innovation in future Intel SoCs and IPs. As a Pre-Silicon Validation Engineer, you will be part of a dynamic team responsible for ensuring the functionality, performance, and reliability of Intel s cutting-edge designs. Key Responsibilities: Validate IP blocks or features at the SoC level, ensuring compliance with design specifications. Develop validation plans and test strategies based on architectural specifications, RTL code, and existing test methodologies. Analyze microarchitecture and debug failures to identify root causes and improve design quality. Develop and utilize various debugging and validation tools to implement validation plans effectively. Participate in silicon debugging, identifying issues and enhancing testing methodologies for future RTL models. Collaborate with IP providers and internal customers to define, develop, and deliver essential infrastructure while addressing issues identified during execution. Qualifications & Requirements: Educational Qualifications: Bachelor s (B.Tech/BS) degree in Computer Science, Computer Engineering, or Electrical Engineering with 5+ years of experience, OR Master s (M.Tech/MS) degree in Computer Science, Computer Engineering, or Electrical Engineering with 3+ years of experience. Technical Skills & Experience: Minimum 2 years of experience in IP or SoC development, verification, or integration using SystemVerilog and UVM (Universal Verification Methodology). Minimum 2 years of experience in writing validation plans and developing software to execute those plans. Minimum 2 years of experience with object-oriented programming languages. Minimum 2 years of experience working with SystemVerilog and UVM. Minimum 1 year of experience with UNIX/Linux environments. Exposure to Graphics Verification and/or Security Verification is a plus. Preferred Qualifications: Minimum 1 year of experience with computer architecture. Minimum 2 years of experience in validation or testing, particularly in silicon design teams. About the Client Computing Group (CCG): The Client Computing Group (CCG) is at the forefront of Intel s PC product and platform development, spanning notebooks, desktops, 2-in-1s, and all-in-one devices. Through strategic partnerships across the industry, CCG delivers innovative computing experiences that empower users to create, connect, and collaborate. As Intel s largest business unit, CCG drives innovation, scalability, and IP development, helping the company fulfill its mission of enriching lives through technology. Intel s Commitment to Diversity & Inclusion: Intel is an equal opportunity employer, providing fair consideration to all applicants regardless of race, color, religion, gender, sexual orientation, gender identity, national origin, disability, veteran status, or any other protected characteristic under local law. Intel offers a highly competitive total compensation package, which includes: Competitive salary, stock options, and performance-based bonuses. Comprehensive healthcare, retirement plans, and paid time off. Professional development opportunities to support career growth.

Job Title: RTL Design Engineer Job Description: Join Intel s Design Team and contribute to the development of high-quality Intel products. In this role, you will work on RTL tool flow methodologies, leveraging industry-standard design tools and scripting environments such as Perl and Python to enhance design automation and optimization. Key Responsibilities: Work on digital design concepts and RTL design using Verilog. Develop and implement RTL tool flow methodologies to optimize design efficiency. Utilize industry-standard design tools to enhance digital design workflows. Develop scripts using Perl and Python to automate design processes. Apply computer architecture knowledge to drive innovations in design methodologies. Qualifications & Requirements: Educational Qualifications: Master s (M.Tech/MS) degree in Computer Science, Electrical Engineering, Electronics, Telecommunications, Microelectronics, or VLSI from IITs, NITs, or equivalent institutions. Technical Skills & Experience: Strong understanding of digital design concepts and computer architecture. Experience with RTL design using Verilog. Proficiency in scripting languages such as Perl and Python for automation. Familiarity with industry-standard design tools and RTL tool flow methodologies. About the Client Computing Group (CCG): The Client Computing Group (CCG) at Intel leads the development of PC products and platforms, spanning notebooks, desktops, 2-in-1s, and all-in-one devices. By collaborating with industry partners, CCG delivers cutting-edge computing experiences that enable users to create, connect, and innovate. As Intel s largest business unit, CCG plays a pivotal role in driving technological advancements and product innovation. Intel s Commitment to Diversity & Inclusion: Intel is an equal opportunity employer, ensuring fair consideration for all applicants regardless of race, color, religion, gender, sexual orientation, gender identity, national origin, disability, veteran status, or any other protected characteristic under local law. Intel offers a highly competitive total compensation package, including: Competitive salary, stock options, and performance-based bonuses. Comprehensive healthcare, retirement plans, and paid time off. Professional development and career growth opportunities. Qualification : Masters (M.Tech/MS) degree in Computer Science, Electrical Engineering, Electronics, Telecommunications, Microelectronics, or VLSI from IITs, NITs, or equivalent institutions.

Job Title: CPU/Core Design Engineer (Intern) Job Description: Join Intel s Core and Client Development Group (C2DG) and contribute to the development of leading-edge CPU and Core technologies. In this role, you will be involved in CPU/Core design activities across various domains, supporting Intel s ongoing and next-generation Core CPUs. Key Responsibilities: Contribute to CPU/Core logic design for Intel s high-performance processors. Support pre-silicon verification, system validation, and firmware development. Assist in physical design, layout, and DFT (Design for Testability) engineering. Work with cross-functional teams to ensure high-quality and efficient CPU designs. Utilize industry-standard tools and methodologies for design and validation processes. Qualifications & Requirements: Educational Qualifications: Currently pursuing a Postgraduate Degree (M.Tech or equivalent) from a reputed institute in: Microelectronics & VLSI Digital System Design Computer Architecture Preferred Skills: Logic Design and digital circuit design fundamentals. Pre-Silicon Verification using simulation and validation techniques. Physical Design & Layout methodologies for semiconductor products. DFT (Design for Testability) Engineering. System Validation for ensuring reliability and performance. Firmware development related to CPU architecture and microarchitecture. About the Core and Client Development Group (C2DG): The Core and Client Development Group (C2DG) is a global organization responsible for the development and integration of SoCs, Core processors, and critical IPs that power Intel s flagship products. C2DG drives the client roadmap for Intel s Client Computing Group (CCG), delivers server-first cores for Data Center Group (DCG), and invests in future disruptive technologies. Intel s Commitment to Diversity & Inclusion: Intel is an equal opportunity employer, ensuring fair consideration for all applicants regardless of race, color, religion, gender, sexual orientation, gender identity, national origin, disability, veteran status, or any other protected characteristic under local law. Intel offers a highly competitive total compensation package, including: Competitive pay, stock options, and performance-based bonuses. Comprehensive healthcare, retirement plans, and paid time off. Opportunities for professional development and career growth. Qualification : Currently pursuing a Postgraduate Degree (M.Tech or equivalent) from a reputed institute in:

Job Description Join Intel s world-class Graphics Physical Design Team, working on high-performance GPUs/GFX targeting high-end graphics, gaming, artificial intelligence, and media processing. This is an exciting opportunity to collaborate with a talented team early in the product lifecycle, driving innovation in RTL-to-GDSII implementation for multi-million gate designs on advanced process nodes. Key Responsibilities: RTL-to-GDSII implementation, including logic synthesis, physical synthesis, and routing. Clock tree synthesis, performance verification (static timing), noise and power verification. Conduct ERC (Electrical Rule Check), reliability verification, and layout verification. Work closely with design automation, methodology, and product integration teams to enhance execution efficiency and quality. Contribute to process improvements and methodology advancements. Qualifications & Requirements: Educational Qualifications: Final-year M.Tech students specializing in Electrical, Electronics, or Microelectronics Engineering, with exposure to Semiconductors and VLSI design. Preferred Skills: Strong fundamentals in Digital VLSI design and RTL-to-GDSII ASIC Design flow. Excellent problem-solving skills and a strong ability to learn new concepts and methodologies quickly. Basic knowledge of UNIX/Linux environments and scripting languages such as Perl, Python, and TCL (a plus). About the Client Computing Group (CCG): The Client Computing Group (CCG) drives Intel s PC business strategy and product development, spanning notebooks, desktops, 2-in-1s, and all-in-one systems. Working alongside industry partners, CCG delivers cutting-edge computing experiences that empower users to focus, create, and connect. As Intel s largest business unit, CCG continues to innovate aggressively, investing in leadership products, next-generation technologies, and scalable IP solutions. Intel s Commitment to Diversity & Inclusion: Intel is an equal opportunity employer, providing fair consideration to all applicants regardless of race, color, religion, gender, sexual orientation, national origin, disability, veteran status, or any other protected characteristic under local law. Intel offers a best-in-class compensation and benefits package, including: Competitive salary, stock options, and performance-based bonuses. Comprehensive healthcare, retirement plans, and paid time off. Opportunities for professional development and career advancement. Qualification : Final-year M.Tech students specializing in Electrical, Electronics, or Microelectronics Engineering, with exposure to Semiconductors and VLSI design.

Job Description Intel is seeking an enthusiastic, motivated, and self-driven engineer specializing in Power Analysis and Signoff. This role involves working on power and performance optimization for complex multi-million gate SoCs, collaborating across teams to ensure low-power design efficiency and successful tape-out. Key Responsibilities: Define and analyze chip power & performance targets. Perform FSDB analysis for various design power scenarios and extract optimal activity windows. Conduct power estimation and analysis at block level and aggregate total power for SoC. Collaborate with architecture, design, and implementation teams for power optimization. Execute low-power (LP) checks at both block and full-chip level, analyze logs/reports, and ensure high-quality results. Work closely with Front-End (FE) and Back-End (BE) teams to achieve overall power convergence and low-power signoff for tape-out. Qualifications & Experience: Educational Requirements: B.E/M.E in Electrical Engineering or a related field. 8+ years of experience in logic design, synthesis, and low-power design/implementation for complex SoCs. Technical Expertise: Proficiency in power analysis tools such as PT-PX/Prime Power. Experience with FSDB analysis using Verdi tool. Knowledge of Power Artist for power analysis (a plus). Hands-on experience with industry-standard LP check tools like PTPX for power estimation. Strong analytical and problem-solving skills. Scripting expertise in Tcl, Perl, and Python (required). About the Xeon and Networking Engineering (XNE) Group: The Xeon and Networking Engineering (XNE) Group focuses on the development and integration of Xeon and Networking SoCs, supporting Intel s Xeon and 5G networking roadmap. XNE drives high-performance computing innovations while ensuring power efficiency and scalability. Intel s Commitment to Diversity & Inclusion: Intel is an equal opportunity employer, providing fair consideration to all applicants regardless of race, color, religion, gender, sexual orientation, disability, veteran status, or any other protected characteristic under local law. Intel offers a best-in-class compensation and benefits package, including: Competitive salary, stock options, and performance-based bonuses. Comprehensive healthcare, retirement plans, and paid time off. Opportunities for professional development and career advancement. Qualification : B.E/M.E in Electrical Engineering or a related field.

Job Title: Hardware Engineer General Summary: Qualcomm, a leading technology innovator, is at the forefront of next-generation experiences and digital transformation. Our mission is to create a smarter, more connected future by pushing the boundaries of hardware engineering. As a Hardware Engineer at Qualcomm, you will be involved in the design, optimization, verification, and testing of cutting-edge electronic systems. You will work on digital, analog, RF, and optical systems, covering circuit design, mechanical systems, test systems, FPGA, DSP, and packaging. Collaborating with cross-functional teams, you will develop high-performance solutions that meet industry-leading standards. Key Responsibilities: Front-End Design & Implementation: Develop and implement MSIP designs (Temperature/Voltage/Security Sensors, Controllers). Perform RTL development and validation, ensuring compliance with linting, clock-domain crossing (CDC), conformal low-power, and DFT rules. Verification & Debugging: Collaborate with the functional verification team to define test plans and debug issues. Support SoC integration and chip-level pre/post-silicon debugging. Synthesis & Timing Analysis: Develop timing constraints and deliver synthesized netlists to the physical design team. Provide constraints support for static timing analysis (STA). Write Unified Power Format (UPF) for power-aware equivalence checks and low-power validation. Design for Testability (DFT): Insert DFT structures and perform ATPG analysis to optimize Stuck-at Fault (SAF) and Transition Delay Fault (TDF) coverage. Minimum Qualifications: One of the following: Bachelor s degree in Computer Science, Electrical/Electronics Engineering, or a related field with 3+ years of hardware engineering experience. Master s degree in Computer Science, Electrical/Electronics Engineering, or a related field with 2+ years of hardware engineering experience. Preferred Skills & Experience: 6+ years of experience in hardware engineering, preferably in front-end design and verification. Expertise in micro-architecture development, RTL design, and front-end flows (Lint, CDC, Low-Power Checks, etc.). Hands-on experience with synthesis, DFT, formal verification (FV), and STA. Exposure to post-silicon bring-up and debugging is a plus. Strong ability to collaborate with global teams and excellent communication skills. Work with industry-leading technology in a highly innovative environment. Be part of a collaborative, global team that values technical excellence. Enjoy a competitive salary, professional development, and growth opportunities. Qualification : Masters degree in Computer Science, Electrical/Electronics Engineering

About NVIDIA NVIDIA has continually reinvented itself. From pioneering the GPU fueling the growth of the PC gaming industry and transforming modern computer graphics to revolutionizing parallel computing, we have consistently shaped the future of technology. Today, NVIDIA GPUs drive innovation in artificial intelligence (AI), providing highly scalable, parallel computation that powers groundbreaking advancements across industries. We are a company that thrives on learning, evolution, and tackling the world s most complex challenges. Join us, and you ll be part of a diverse, innovative, and supportive team that inspires everyone to achieve their best work. About the Role: SOC Design Engineer The System-On-Chip (SOC) group at NVIDIA is expanding! As the complexity of SOCs grows with chips now integrating tens of billions of transistors we are seeking a talented SOC Design Engineer with a passion for RTL integration and chip-level front-end design. This role focuses on padring design, pinmuxing, SOC assembly, and retiming. If you enjoy developing methodologies and automation solutions to optimize SOC creation, this is the opportunity for you. In this role, you will work on NVIDIA s advanced Tegra SOCs, collaborating closely with cross-functional teams, including System Architecture, Physical Design, CAD, and DFT. You will help define and implement scalable and efficient SOC design methodologies for future technologies. What You ll Be Doing Drive SOC assembly and design chip-level functions for Tegra SOCs. Perform front-end design quality checks, reviews, and collaborate with cross-functional teams to resolve issues. Oversee SOC execution across key milestones by defining, tracking, and managing complex dependencies with multiple stakeholders. Develop system-level methodologies, tools, and IPs to enable efficient and scalable SOC design. Identify and address inefficiencies in front-end chip implementation processes, implementing solutions for continuous improvement. What We Need to See B.Tech or M.Tech in Electronics Engineering or a related field. 2+ years of proven experience in chip design, with a focus on SOC integration and design automation. (Experience with padring design and fuse/floorsweep is a plus.) Strong analytical and problem-solving skills. Proficiency in RTL design (Verilog) and knowledge of SOC design/implementation flows. Experience with scripting languages such as Perl, Python, or other industry-standard tools. Exposure to multiple chip design functions, enabling collaboration and problem-solving across diverse teams. Excellent communication and collaboration skills with a team-oriented mindset. Bonus Skills: Experience in SOC verification, synthesis, physical design, and DFT. Familiarity with RTL build flows and Makefiles. At NVIDIA, you ll work on technologies that make a lasting global impact. We believe in fostering a diverse, inclusive work environment where everyone can grow and thrive. NVIDIA is proud to be an equal opportunity employer and does not discriminate based on race, religion, gender identity, age, disability status, or any other protected characteristic. Qualification : B.Tech or M.Tech in Electronics Engineering.

NVIDIA is seeking a passionate, highly motivated, and creative ASIC Design Engineer to design and implement PCI Express controllers for the world s leading SoCs and GPUs. This position offers the opportunity to have real impact in a dynamic, technology-focused company impacting product lines ranging from consumer graphics to self-driving cars and the growing field of artificial intelligence. We have crafted a team of exceptional people stretching around the globe, whose mission is to push the frontiers of what is possible today and define the platform for the future of computing. The GPU started out as an engine for simulating human imagination, conjuring up the amazing virtual worlds of video games and Hollywood films. Today, NVIDIA s GPU simulates human intelligence, running deep learning algorithms and acting as the brain of computers, robots, and self-driving cars that can perceive and understand the world. NVIDIA is increasingly known as the AI computing company. What you ll be doing: Own the micro-architecture and RTL development of design modules for PCI Express Controllers. Micro-architect features to meet performance, power and area requirements. Work with HW and system architects to define critical features. Help verification teams to verify the correctness of implemented features. Collaborate with timing, VLSI and Physical design teams to ensure design meets timing, interface requirements and is routable. Enable FPGA and software teams to prototype the design and ensure that software is tested. Work on post-silicon verification and debug. What we need to see: BS / MS or equivalent experience. 3+ years of design experience. Experience in micro-architecture and RTL design of complex units. Exposure to design and verification tools (VCS or equivalent simulation tools, debug tools like Debussy, Verdi). Deep understanding of ASIC design flow including RTL design, verification, logic synthesis, prototyping, DFT, timing analysis, floor-planning, ECO, bring-up & lab debug. Expertise in Verilog. Ways to stand out from the crowd: Design experience in High Speed IO controllers like PCI Express. Good knowledge of PCI Express Protocol - Gen 3 and above. Good debugging and problem solving skills. Scripting knowledge (Python/Perl/shell). Good interpersonal skills and ability & desire to work as a teammate. NVIDIA is widely considered to be one of the technology world s most desirable employers. We have some of the most brilliant and talented people in the world working for us. If you are creative, autonomous and love a challenge, we want to hear from you. We are an equal opportunity employer and value diversity at our company. We do not discriminate on the basis of race, religion, color, national origin, gender, sexual orientation, age, marital status, veteran status, or disability status. #LI-Hybrid Qualification : BS / MS or equivalent experience.

As one of the technology industry's most desirable employers, NVIDIA has been redefining accelerated computing, computer graphics and leading the Artificial Intelligence revolution. NVIDIA's innovation is fueled by its great technology and amazing people. We seek a Senior Power and Thermal Engineer to join our dynamic and fast-paced Silicon Solution Group. As part of the Silicon Solutions Team, we architect and deliver groundbreaking system solutions that integrate all aspects of the system from silicon design, software design to operations and final deployment in multiple market segments that NVIDIA serves. This position offers a unique opportunity to collaborate with multiple organizations in the company and grow your career in a high impact role. We need a passionate, hard-working, and creative individual to architect and productize next generation power and performance controllers. What You Will Be Doing: Responsible for architecting, developing, characterization of next generation power and thermal management features and solutions working with multi-functional teams across the company. Drive methodologies for deployment of features into products. Drive initiatives for power and thermal optimizations spanning across silicon, platform, software, manufacturing, and product systems; for products ranging from largescale datacenters to low-power client devices. Debug and architect solutions for issues seen by customers in the field across a wide range of industries. Influence next generation SW, chip, board, and platform design of products across SOC, GPU and CPUs in Laptops, Servers, and Datacenters Work alongside system architects, designers, chip and board designers, software/firmware engineers, HW/SW applications engineering, process/reliability authorities, ATE engineers, and silicon operations, in a fast-paced, high-energy, collaborative work environment to bring industry-defining products to market. What We Need to See: B. Tech or M. Tech in Electronics Engineering, Computer Science, or related field (or equivalent experience) 4+ years of experience in silicon bring-up, validation, and productization. Experience with power and thermal controllers and management. Expertise and deep understanding in the areas of silicon power, transistor/device physics, power modeling and measurement, active power management is a plus Proficiency in Python, Perl or C programming languages. Self-starter with strong skills in multi-tasking, influencing, communication, presentation, and consensus-building Enthusiastic, responsive, and keen on process improvement With competitive salaries and a generous benefits package, we are widely considered to be one of the technology world s most desirable employers. We have some of the most forward-thinking and hardworking people in the world working for us and, due to unprecedented growth, our exclusive engineering teams are rapidly growing. If you're a creative and autonomous engineer with a real passion for technology, we want to hear from you. We are an equal-opportunity employer and value diversity at our company. We do not discriminate on the basis of race, religion, color, national origin, sex, gender, gender expression, sexual orientation, age, marital status, veteran status, or disability status. Qualification : B. Tech or M. Tech in Electronics Engineering, Computer Science, or related field (or equivalent experience)

About NVIDIA NVIDIA has continuously reinvented itself. From inventing the GPU, which sparked the growth of the PC gaming market and redefined modern computer graphics, to revolutionizing parallel computing, NVIDIA remains at the forefront of technological innovation. Today, NVIDIA GPUs power the world's most advanced AI research, providing highly scalable and massively parallel computational power. Join us and become part of a diverse, inclusive environment that encourages innovation and empowers everyone to do their best work. NVIDIA is an equal opportunity employer, and we are committed to building a diverse team and supporting your growth and success. About the Role DFT Engineer The Design-for-Test (DFT) Engineering team at NVIDIA is at the cutting edge of innovation, solving complex challenges in DFT architecture, verification, and post-silicon validation for some of the most advanced semiconductor chips in the industry. We are looking for a passionate DFT engineer to join our team and help shape the future of technology. What You ll Be Doing Design and implement state-of-the-art DFT features, including test access mechanisms, IO BIST, memory BIST, and scan compression. Verify and validate Scan ATPG and other DFT features, both in simulation and during silicon bring-up. Develop and deploy DFT methodologies for next-generation products, continuously improving DFT quality and efficiency. Collaborate with cross-functional teams to integrate DFT features into the overall chip design. Occasionally participate in travel and late-hour online meetings during critical project milestones. What We Need to See BSEE or MSEE from a reputable institution or equivalent experience. 2+ years of experience in DFT, ASIC design, or a related field. Strong understanding of static timing analysis, ECO, ASIC/logic design flow, HDL, and digital logic design. Experience in RTL and gate-level verification and simulation. Familiarity with BIST architecture, JTAG, and IEEE standards (1149.1/1500). Proficiency in Scan ATPG, compression techniques, and memory tests. Strong analytical and problem-solving skills. Scripting knowledge (Perl or Python) is essential. At NVIDIA, you'll have the opportunity to work on world-changing technology, be part of a diverse and innovative team, and experience continuous learning and growth. We strive to foster a culture of creativity, collaboration, and excellence in everything we do. #LI-Hybrid Qualification : BSEE or MSEE from reputed institutions or equivalent experience with 2+ years of experience

Meet the Team Join the Cisco Silicon One team in shaping the future of networking with a unified silicon architecture designed for web-scale and service provider networks. Cisco s silicon team offers a unique experience for ASIC engineers by combining the extensive resources of a large, multi-geography organization with the dynamic startup culture and growth opportunities typically found in a smaller team. Enjoy the benefits of a large campus that includes on-site amenities such as a gym, healthcare, caf , social interest groups, and philanthropy initiatives, all while working in a collaborative and innovative environment. Your Impact Write detailed micro-architecture specifications and actively participate in design reviews. Implement Verilog RTL to meet stringent timing, performance, and power requirements. Contribute to full-chip integration and collaborate on timing methodology and analysis. Develop and analyze functional coverage to ensure quality and completeness. Help define, evolve, and support our design methodology to maintain high standards. Collaborate with the verification team to address design bugs and improve code coverage. Work closely with the physical design team to resolve design timing and place-and-route issues. Perform triage, debugging, and root cause analysis for simulation, software bring-up, and customer failures. Conduct diagnostic and post-silicon validation tests in the lab to ensure product readiness. Minimum Qualifications: Bachelor s or Master s degree in Electrical or Computer Engineering with 7+ years of experience in ASIC design. Expertise in Verilog or System Verilog programming. Experience with simulation, synthesis, static timing constraints, and related tools (e.g., VCS, DC, PrimeTime). Solid understanding of debugging and verification methodologies. Preferred Qualifications: Understanding of networking technologies and concepts. Scripting experience with Python, Perl, TCL, or shell programming. Familiarity with formal verification tools. Experience with emulation techniques. #WeAreCisco At Cisco, every individual brings their unique skills and perspectives together to pursue our mission of powering an inclusive future for all. Our employees' passion for connection drives our culture of diversity, learning, and growth. With a focus on unlocking potential, Cisconians often experience one company, many careers, where learning and development are encouraged and supported at every stage of their career. Our technology, tools, and culture pioneered hybrid work trends, allowing every individual to perform at their best and be their authentic self. One-third of Cisconians participate in our 30 employee resource organizations, called Inclusive Communities, which foster belonging, allyship, and social impact. Cisco also provides 80 hours of paid volunteer time off each year, and nearly 86% of employees take part in giving back to the causes they care about. At the heart of Cisco s success is our people, driving us to be the worldwide leader in technology that powers the internet. We are committed to helping our customers reimagine their applications, secure their enterprises, transform their infrastructures, and achieve their sustainability goals. Join us and be a part of a forward-thinking company dedicated to creating a more inclusive future for all. Qualification : Bachelors or Masters degree in Electrical or Computer Engineering with 7+ years of experience in ASIC design.

Job Overview Qualcomm is a leading technology innovator, pushing the boundaries of what's possible to enable next-generation experiences and drive digital transformation. As a Hardware Engineer at Qualcomm, you will be responsible for planning, designing, optimizing, verifying, and testing electronic systems, circuits, mechanical systems, and various systems like Digital/Analog/RF/optical systems, FPGA, and DSP systems. You will collaborate with cross-functional teams to develop world-class products that meet performance requirements. Key Responsibilities Front-End Implementation: Develop and implement MSIP designs, including Temp/Voltage/Security Sensors and Controllers. RTL Development: Design, validate, and ensure the proper functioning of RTL for linting, clock-domain crossing, conformal low power, and DFT (Design for Test) rules. Verification: Work with the functional verification team to create test plans, debug issues, and ensure that all designs meet the required specifications. Timing Constraints: Develop timing constraints, deliver synthesized netlists to the physical design team, and provide support for Physical Design STA (Static Timing Analysis). Low Power Checks: Write UPF (Unified Power Format), perform power-aware equivalence checks, and ensure compliance with low-power design standards. DFT Insertion & Analysis: Perform DFT insertion and ATPG (Automatic Test Pattern Generation) analysis for optimal SAF (Scan Acceptance Fault) and TDF (Transition Delay Fault) coverage. SoC Integration Support: Provide support for SoC integration and pre/post-silicon debugging at the chip level. Minimum Qualifications Education: Bachelor s degree in Computer Science, Electrical/Electronics Engineering, or a related field with 3+ years of relevant experience, or Master s degree in Computer Science, Electrical/Electronics Engineering, or a related field with 2+ years of relevant experience, or PhD in Computer Science, Electrical/Electronics Engineering, or a related field. Skills & Experience Educational Background: MTech/BTech in EE/CS with 3+ years of hardware engineering experience. Technical Experience: Expertise in micro-architecture development, RTL design, front-end flows (Lint, CDC, low-power checks, etc.), synthesis/DFT/FV/STA. Experience with post-silicon bring-up and debugging is a plus. Collaboration: Ability to work effectively with teams across the globe and possess strong communication skills. Qualification : MTech/BTech in EE/CS with 3+ years of hardware engineering experience.