📍 Job Overview

• Job Title: Staff Systems Engineer - Chipset Power
• Company: Qualcomm
• Location: Hyderabad, Telangana, India
• Job Type: On-site
• Category: Systems Engineering
• Date Posted: June 11, 2025
• Experience Level: Mid-Senior level (5-10 years)

🚀 Role Summary

• Lead cross-functional teams to model SOC/chipset power and develop innovative power optimization solutions for Snapdragon automotive chipsets.
• Collaborate with multiple functions (systems, software, hardware, silicon process, production test, etc.) to achieve world-class low power consumption.
• Guide design cycles to meet power targets and optimize hardware and software for enhanced SOC and chipset performance.

📝 Enhancement Note: This role requires a strong background in systems engineering, power architecture, and low power feature design, with a focus on automotive SOCs and chipsets. Experience in power modeling, optimization, and customer interaction is also crucial for success in this position.

💻 Primary Responsibilities

• Power Architecture and Tradeoff Analysis: Evaluate and optimize power architecture to meet performance and power consumption targets.
• Chipset and System Level Power Modeling, Analysis, and Optimization: Develop and maintain power models for SOC, chipset, and platform solutions to identify power requirements and quantify power gap/risk areas.
• Power-Efficient Design: Optimize power efficiency and performance of present generation designs and help architect future products.
• Cross-Functional Collaboration: Guide multi-function groups through the design cycle to realize power targets and ensure successful project execution.
• Customer Interaction: Interact with customers to understand and address specific power requirements and advertise the capabilities of the chipset.
• Power Modeling of Customer-Specific Use Cases and Designs: Model customer-specific use cases and designs to ensure optimal power performance.

📝 Enhancement Note: This role involves a high degree of technical complexity, requiring strong analytical skills, attention to detail, and the ability to work effectively in a cross-functional environment. Experience in automotive SOCs, chipsets, and power modeling is essential for success in this position.

🎓 Skills & Qualifications

Education:

• Master’s degree in Electrical Engineering or a related field is required.

Experience:

• Proven experience (4+ years) in Systems Engineering or a related field, with a focus on power architecture, power modeling, and low power feature design.
• Experience in automotive SOCs, chipsets, and power optimization is essential.
• Strong background in hardware or software design, with a demonstrated ability to optimize low power features.

Required Skills:

• Expertise in power architecture, power modeling, and power optimization.
• Strong analytical and problem-solving skills.
• Proficiency in systems engineering, with experience in guiding cross-functional teams through design cycles.
• Excellent communication and customer interaction skills.
• Familiarity with automotive SOCs, chipsets, and related technologies.

Preferred Skills:

• Experience with Snapdragon chipsets and related technologies.
• Knowledge of machine learning, modem processors, and application processors.
• Familiarity with tradeoff analysis and system level analysis techniques.

📝 Enhancement Note: Candidates with a strong background in systems engineering, power architecture, and power optimization, along with experience in automotive SOCs and chipsets, are highly sought after for this role. A proven track record of successful power modeling and optimization projects is essential for success in this position.

📊 Web Portfolio & Project Requirements

Portfolio Essentials:

• Power Modeling Projects: Include examples of power modeling for SOC, chipset, and platform solutions, demonstrating your ability to identify power requirements and quantify power gap/risk areas.
• Power Optimization Case Studies: Showcase your experience in optimizing power efficiency and performance, with a focus on automotive SOCs and chipsets.
• Customer Interaction Examples: Provide examples of successful customer interactions, highlighting your ability to understand and address specific power requirements.
• Cross-Functional Collaboration Projects: Include projects that demonstrate your ability to guide multi-function groups through the design cycle and achieve power targets.

Technical Documentation:

• Power Modeling Documentation: Include detailed documentation of your power modeling techniques, assumptions, and results.
• Power Optimization Strategies: Document your power optimization strategies, highlighting the tradeoffs and benefits of different approaches.
• Customer Interaction Reports: Prepare reports summarizing your customer interactions, including any agreed-upon power requirements and solutions.

📝 Enhancement Note: A strong portfolio demonstrating a history of successful power modeling, optimization, and customer interaction projects is crucial for this role. Candidates should be prepared to provide detailed technical documentation and case studies showcasing their expertise in power architecture, power modeling, and power optimization.

💵 Compensation & Benefits

Salary Range: INR 1,800,000 - 2,500,000 per annum (Estimated, based on market research and industry standards for mid-senior level Systems Engineers with power architecture and optimization experience in the automotive industry)

Benefits:

• Comprehensive health, dental, and vision insurance.
• Retirement savings plans, including 401(k) matching.
• Employee stock purchase plan.
• Generous time-off policies, including vacation, sick leave, and holidays.
• Tuition reimbursement and professional development opportunities.
• Employee discounts on Qualcomm products and services.

Working Hours: Full-time, with flexible hours to accommodate project deadlines and maintenance windows.

📝 Enhancement Note: The estimated salary range is based on market research and industry standards for mid-senior level Systems Engineers with power architecture and optimization experience in the automotive industry. Actual salary may vary depending on the candidate's qualifications and experience.

🎯 Team & Company Context

Company Culture:

• Industry: Qualcomm is a global leader in wireless technology, with a strong focus on innovation, collaboration, and customer satisfaction.
• Company Size: Qualcomm has over 37,000 employees worldwide, providing ample opportunities for career growth and development.
• Founded: Qualcomm was founded in 1985 and has since grown to become a major player in the wireless technology industry.

Team Structure:

• The Systems Engineering team at Qualcomm is responsible for driving system-level architecture, design, and optimization efforts to meet performance, power, and cost targets.
• The team works closely with cross-functional groups, including hardware, software, and silicon process teams, to ensure successful project execution.
• The Chipset Power team focuses on power architecture, modeling, and optimization for Snapdragon automotive chipsets.

Development Methodology:

• Qualcomm employs Agile methodologies, including Scrum, to drive development efforts and ensure efficient project execution.
• The company emphasizes collaborative development, code reviews, and testing to maintain high-quality standards.
• Qualcomm's CI/CD pipelines and automated deployment strategies enable efficient and reliable software delivery.

Company Website: qualcomm.com

📝 Enhancement Note: Qualcomm's culture emphasizes innovation, collaboration, and customer focus, providing an ideal environment for Systems Engineers with a strong background in power architecture, power modeling, and power optimization. The company's size and global presence offer ample opportunities for career growth and development.

📈 Career & Growth Analysis

Web Technology Career Level: Mid-Senior level Systems Engineer with a focus on power architecture, power modeling, and power optimization for automotive SOCs and chipsets.

Reporting Structure: This role reports directly to the Manager of Systems Engineering, Chipset Power, and works closely with cross-functional teams, including hardware, software, and silicon process teams.

Technical Impact: The Staff Systems Engineer - Chipset Power has a significant impact on the power performance and efficiency of Snapdragon automotive chipsets, driving innovation and optimization efforts to meet performance, power, and cost targets.

Growth Opportunities:

• Technical Growth: Develop expertise in emerging power architecture techniques, power modeling tools, and optimization strategies to drive innovation in automotive SOCs and chipsets.
• Leadership Development: Gain experience in guiding cross-functional teams, mentoring junior engineers, and driving project execution to enhance your leadership skills and prepare for future technical leadership roles.
• Architecture Decisions: Contribute to strategic architecture decisions, influencing the design and optimization of future Snapdragon automotive chipsets and platform solutions.

📝 Enhancement Note: This role offers significant opportunities for technical growth, leadership development, and architecture decision-making, enabling Systems Engineers with a strong background in power architecture, power modeling, and power optimization to advance their careers and make a meaningful impact on Qualcomm's automotive chipset portfolio.

🌐 Work Environment

Office Type: Qualcomm's Hyderabad office is a modern, collaborative workspace designed to foster innovation and creativity.

Office Location(s): Hyderabad, Telangana, India.

Workspace Context:

• Collaborative Workspace: The office features open-plan workspaces, encouraging cross-functional collaboration and knowledge sharing.
• Development Tools: Qualcomm provides state-of-the-art development tools, multiple monitors, and testing devices to support engineers in their work.
• Cross-Functional Collaboration: The office layout facilitates interaction between teams, enabling efficient communication and collaboration between hardware, software, and silicon process teams.

Work Schedule: Full-time, with flexible hours to accommodate project deadlines, maintenance, and customer interactions.

📝 Enhancement Note: Qualcomm's Hyderabad office provides an ideal work environment for Systems Engineers, with a focus on collaboration, innovation, and customer satisfaction. The office's modern facilities and cross-functional layout enable effective communication and collaboration between teams, driving successful project execution.

📄 Application & Technical Interview Process

Interview Process:

• Technical Preparation: Brush up on your power architecture, power modeling, and power optimization skills, with a focus on automotive SOCs and chipsets. Familiarize yourself with Qualcomm's development methodologies, including Agile and Scrum.
• Technical Assessment: Prepare for a technical assessment, including power architecture tradeoff analysis, chipset power modeling, and power optimization case studies. Be ready to discuss your approach to power-efficient design and customer interaction.
• Cross-Functional Interaction: Expect to interact with cross-functional teams, including hardware, software, and silicon process teams, to assess your ability to collaborate effectively and drive project execution.
• Final Evaluation: Prepare for a final evaluation, focusing on your technical impact, customer satisfaction, and project execution skills.

Portfolio Review Tips:

• Power Modeling Projects: Highlight your power modeling projects, emphasizing your ability to identify power requirements and quantify power gap/risk areas.
• Power Optimization Case Studies: Showcase your power optimization case studies, demonstrating your ability to optimize power efficiency and performance for automotive SOCs and chipsets.
• Customer Interaction Examples: Provide examples of successful customer interactions, illustrating your ability to understand and address specific power requirements.
• Technical Documentation: Include detailed documentation of your power modeling techniques, assumptions, and results, as well as your power optimization strategies and customer interaction reports.

Technical Challenge Preparation:

• Power Architecture Tradeoff Analysis: Brush up on your power architecture tradeoff analysis skills, focusing on automotive SOCs and chipsets.
• Chipset Power Modeling: Familiarize yourself with power modeling techniques for automotive SOCs and chipsets, and prepare for hands-on modeling exercises.
• Power Optimization Case Studies: Review your power optimization case studies and be ready to discuss your approach to optimizing power efficiency and performance for automotive SOCs and chipsets.

ATS Keywords: (Organized by category)

Programming Languages:

• C, C++, Python, MATLAB

Web Frameworks & Libraries:

• None relevant for this role

Server Technologies:

• None relevant for this role

Databases:

• None relevant for this role

Tools:

• Power modeling tools (e.g., PowerNoDe, PowerPlay)
• Circuit simulation tools (e.g., SPICE, HSPICE)
• Chip design tools (e.g., Cadence, Synopsys)
• Project management tools (e.g., JIRA, Confluence)

Methodologies:

• Agile, Scrum, Waterfall

Soft Skills:

• Problem-solving, analytical thinking, attention to detail, collaboration, communication, customer focus

Industry Terms:

• Power architecture, power modeling, power optimization, automotive SOC, automotive chipset, low power features, cross-functional collaboration, customer interaction, hardware design, software design, machine learning, modem processor, application processor, tradeoff analysis, system level analysis

📝 Enhancement Note: The interview process for this role is designed to assess your technical expertise in power architecture, power modeling, and power optimization, as well as your ability to collaborate effectively with cross-functional teams. Familiarize yourself with Qualcomm's development methodologies, and be prepared to discuss your approach to power-efficient design and customer interaction.

🛠 Technology Stack & Web Infrastructure

Frontend Technologies:

• Not applicable for this role

Backend & Server Technologies:

• Not applicable for this role

Development & DevOps Tools:

• Power Modeling Tools: PowerNoDe, PowerPlay, MATLAB
• Circuit Simulation Tools: SPICE, HSPICE
• Chip Design Tools: Cadence, Synopsys
• Project Management Tools: JIRA, Confluence
• Version Control: Git, Perforce
• CI/CD Pipelines: Jenkins, Bamboo
• Automation Tools: Ansible, Puppet

📝 Enhancement Note: This role requires proficiency in power modeling tools, circuit simulation tools, and chip design tools. Familiarity with project management tools, version control, CI/CD pipelines, and automation tools is also beneficial for success in this position.

👥 Team Culture & Values

Web Development Values:

• Innovation: Qualcomm values innovation and encourages its employees to think creatively and push the boundaries of what's possible.
• Collaboration: Qualcomm fosters a culture of collaboration, with a strong emphasis on cross-functional teamwork and knowledge sharing.
• Customer Focus: Qualcomm is committed to understanding and addressing its customers' needs, with a focus on delivering high-quality, reliable, and secure products.
• Performance: Qualcomm values high performance and encourages its employees to strive for excellence in all aspects of their work.

Collaboration Style:

• Cross-Functional Integration: Qualcomm's cross-functional teams work closely together to ensure successful project execution and drive innovation in wireless technology.
• Code Review Culture: Qualcomm emphasizes code reviews and peer programming to maintain high-quality standards and facilitate knowledge sharing.
• Knowledge Sharing: Qualcomm encourages its employees to share their knowledge and expertise with their colleagues, fostering a culture of continuous learning and development.

📝 Enhancement Note: Qualcomm's culture emphasizes innovation, collaboration, and customer focus, providing an ideal environment for Systems Engineers with a strong background in power architecture, power modeling, and power optimization. The company's commitment to high performance and continuous learning enables employees to grow both personally and professionally.

⚡ Challenges & Growth Opportunities

Technical Challenges:

• Emerging Power Architecture Techniques: Stay up-to-date with emerging power architecture techniques and be prepared to adapt to new technologies and methodologies.
• Power Modeling Tool Limitations: Understand the limitations of power modeling tools and develop workarounds to ensure accurate and reliable power analysis.
• Customer-Specific Use Cases: Model customer-specific use cases and designs to ensure optimal power performance, requiring strong analytical and problem-solving skills.
• Power Optimization Tradeoffs: Balance power efficiency, performance, and cost considerations to make informed architecture decisions and optimize power consumption.

Learning & Development Opportunities:

• Technical Skill Development: Develop expertise in emerging power architecture techniques, power modeling tools, and optimization strategies to drive innovation in automotive SOCs and chipsets.
• Conference Attendance: Attend industry conferences and events to stay current on emerging trends and best practices in power architecture, power modeling, and power optimization.
• Certification Programs: Pursue relevant certifications to enhance your technical skills and demonstrate your commitment to professional development.
• Mentorship and Leadership Development: Seek mentorship opportunities to gain insights into technical leadership and architecture decision-making, and develop your leadership skills to prepare for future roles.

📝 Enhancement Note: This role offers significant technical challenges and learning opportunities, enabling Systems Engineers with a strong background in power architecture, power modeling, and power optimization to advance their careers and make a meaningful impact on Qualcomm's automotive chipset portfolio.

💡 Interview Preparation

Technical Questions:

• Power Architecture Tradeoff Analysis: Describe your approach to power architecture tradeoff analysis, focusing on automotive SOCs and chipsets. Provide examples of successful tradeoff analysis projects and discuss the challenges and limitations of different power architecture techniques.
• Chipset Power Modeling: Explain your experience with chipset power modeling, including your preferred power modeling tools and techniques. Describe a complex power modeling project you've worked on, and discuss the challenges and solutions you implemented to ensure accurate and reliable power analysis.
• Power Optimization Strategies: Detail your power optimization strategies, focusing on automotive SOCs and chipsets. Provide examples of successful power optimization projects, and discuss the tradeoffs and benefits of different optimization approaches.

Company & Culture Questions:

• Qualcomm's Power Architecture: Describe your understanding of Qualcomm's power architecture and how your experience aligns with the company's power optimization goals.
• Cross-Functional Collaboration: Explain your experience working with cross-functional teams, and discuss how you've driven successful project execution and customer satisfaction in a collaborative environment.
• Customer Interaction: Describe your approach to customer interaction, focusing on understanding and addressing specific power requirements. Provide examples of successful customer interactions, and discuss the challenges and solutions you implemented to meet customer needs.

Portfolio Presentation Strategy:

• Power Modeling Projects: Highlight your power modeling projects, emphasizing your ability to identify power requirements and quantify power gap/risk areas. Include visual representations of your power modeling techniques, assumptions, and results.
• Power Optimization Case Studies: Showcase your power optimization case studies, demonstrating your ability to optimize power efficiency and performance for automotive SOCs and chipsets. Include visual representations of your optimization strategies and the impact of your solutions on power consumption.
• Customer Interaction Examples: Provide examples of successful customer interactions, illustrating your ability to understand and address specific power requirements. Include visual representations of your customer interaction strategies and the solutions you implemented to meet customer needs.

📝 Enhancement Note: The interview process for this role is designed to assess your technical expertise in power architecture, power modeling, and power optimization, as well as your ability to collaborate effectively with cross-functional teams and drive customer satisfaction. Familiarize yourself with Qualcomm's power architecture, development methodologies, and customer interaction strategies to make a strong impression during the interview.

📌 Application Steps

To apply for this Staff Systems Engineer - Chipset Power position at Qualcomm:

1. Tailor Your Resume: Highlight your relevant experience in power architecture, power modeling, and power optimization, with a focus on automotive SOCs and chipsets. Include specific examples of your power modeling projects, power optimization case studies, and customer interaction experiences.
2. Prepare Your Portfolio: Include detailed documentation of your power modeling techniques, assumptions, and results, as well as your power optimization strategies and customer interaction reports. Ensure your portfolio is well-organized and easy to navigate, with clear and concise explanations of your work.
3. Research Qualcomm: Familiarize yourself with Qualcomm's power architecture, development methodologies, and customer interaction strategies. Understand the company's culture, values, and commitment to innovation, collaboration, and customer focus.
4. Prepare for Technical Assessment: Brush up on your power architecture, power modeling, and power optimization skills, with a focus on automotive SOCs and chipsets. Review your power modeling projects, power optimization case studies, and customer interaction experiences to ensure you're prepared to discuss your approach and the challenges you've overcome.
5. Practice Interview Questions: Prepare for common interview questions related to power architecture tradeoff analysis, chipset power modeling, and power optimization strategies. Practice your responses to ensure you can clearly and concisely articulate your approach and the value you can bring to Qualcomm's automotive chipset power team.

⚠️ Important Notice: This enhanced job description includes AI-generated insights and web development/server administration industry-standard assumptions. All details should be verified directly with the hiring organization before making application decisions.