Are you a recent graduate who has an enthusiasm for innovation and technology?
If so, you have an amazing chance with Intel. Motivated candidates are being sought after by Intel’s off-campus hiring initiative for Graduate Intern Technical positions, particularly in the System on Chip (SoC) Validation (Val) team. This is your opportunity to launch your career at one of the top tech businesses globally.
Introduction Intel
Global technological giant Intel is well-known for its advancements in computing and semiconductor manufacturing. Since its founding in 1968, Intel has developed into one of the top producers of semiconductors worldwide, offering chips for a variety of products, including personal computers, data centers, and more.
For recent graduates with a passion for creativity and technology, Intel offers a unique entry-level position called Graduate Intern Technical.
You will work as an intern for Intel’s System on Chip (SoC) Validation (Val) team, which is essential to guaranteeing the performance and functionality of Intel’s state-of-the-art processors and related technologies.
With the opportunity to collaborate with seasoned professionals on real-world projects, Intel’s technical internships enable students to apply their academic knowledge to real-world problems.
Interns frequently get the chance to participate in Intel’s state-of-the-art research and development projects, obtaining invaluable knowledge about the company’s breakthrough ideas and technological developments.
Understanding the Role of an Graduate Intern Technical
The foundation for guaranteeing the dependability and caliber of Intel’s innovative products is the System-on-Chip Validation (SoC Val) Team.
By combining several electronic components into one chip, the SoC maximizes both performance and power economy. The Val Team carefully verifies that these chips meet the highest requirements for performance and functionality.
You will get the chance to collaborate on innovative projects with professionals in the field as a Graduate Intern Technical in Intel’s SoC Val Team.
Gaining practical expertise in validating intricate chip designs will help you hone your technical abilities and have a significant influence on Intel’s product development process.
Role and Key Responsibilities: Graduate Intern Technical
1) Register Transfer Level (RTL) Modeling and Functional Validation:
- Using Register Transfer Level abstraction, create RTL models that accurately represent the operation and behavior of digital circuits.
- Make sure the logic behavior of RTL models satisfies design standards by thoroughly simulating their functionality with EDA (Electronic Design Automation) tools.
2) Simulation and Performance Analysis:
- Simulate the logic behavior and performance of circuits using EDA tools, taking into account variables like speed, power consumption, and space usage.
- To help with design optimizations, analyze simulation findings to find possible bottlenecks or problems with circuit performance.
3) Direction of Physical Design:
- Give the physical design process direction so that deep submicron embedded circuit solutions can be implemented.
- During the physical design phase, define strategies to achieve maximum performance, power efficiency, and manufacturability.
4) Validation Against Silicon and Simulation Model:
- Give the physical design process direction so that deep submicron embedded circuit solutions can be implemented.
- During the physical design phase, define strategies to achieve maximum performance, power efficiency, and manufacturability.
5) Methodology for VLSI Structural Design:
- Explain the principles and best practices of the VLSI (Very Large Scale Integration) structural design technique for creating intricate integrated circuits.
- Create design flows that maximize efficiency and dependability by streamlining the structural design process.
6) Physical Design Implementation:
- Put into practice structural physical designs that cover a range of phases, including clock tree synthesis, floor planning, power grid design, and synthesis.
- Timing budgeting and closure should be done with robustness and dependability in mind to satisfy performance targets and time limitations.
7)Place and Route:
- To find the best location for circuit parts on the chip layout, carry out place and route operations.
- To reduce power usage and signal delay, optimize interconnects and address routing issues.
8) RC Extraction and Integration:
- To accurately simulate interconnect parasitics and their effect on circuit performance, undertake RC (Resistance-Capacitance) extraction.
- In order to improve timing analysis and guarantee design robustness, use the results of RC extraction into the design process.
9) Verification of Structural Physical Designs:
- Check for functional equivalency in structural physical designs to make sure the implemented circuits perform as anticipated.
- Optimize for efficiency and reliability by validating timing, performance, and noise characteristics against design standards.
10) Rules for Layout Design and Dependability Assurance:
- Make sure layout design guidelines are followed in order to fulfill fabrication and manufacturing specifications.
- Consider issues related to dependability, such as electromigration and the effects of aging, and take appropriate action to mitigate them.
Qualifications And Skill
- Master’s degree-seeking graduate student: Currently enrolled in a master’s program in microelectronics, electrical engineering, or a similar discipline.
- Good Knowledge of Physics of Semiconductors: knowledgeable with the principles of semiconductors and device physics.
- Understanding of PC Computer Architecture: acquainted with the fundamental ideas behind the design and functioning of computers.
- Knowledge of VLSI Design: knowledgeable in VLSI processes, including physical and RTL design.
- Proficiency in CMOS Logic Circuit Design: Able to create CMOS logic circuits that maximize efficiency and performance.
- Ability to program in C and operate in UNIX/Linux environments: Able to program in C and operate in UNIX/Linux environments.
- Practical knowledge of CAD tools: familiarity with CAD tools utilized in VLSI design.
- Strong Problem-Solving and Analytical Skills: Capable of deciphering intricate issues and putting forth workable answers.
- Good Teamwork and Communication: Proficient in both areas, as well as a cooperative team player.
- Devoted to Ongoing Education: Willing to remain current with developments in VLSI design techniques and semiconductor technology.
Apply Here: Graduate Intern Technical
- Job Designation: Graduate Intern Technical
- Salary: 4-5 LPA
- Qualification: Graduate / Post Graduate
- Experience: Intern
- Organization Name: Intel
- Website: Intel, India
- Industry: IT
- Type: Privately Held
- Locations: Bengaluru, Karnataka
- Mode: Hybrid
Inside this Business Group
The goal of Xeon and Networking Engineering (XNE) is to support Intel’s Xeon and 5G networking strategy through the development and integration of XEON and networking SOCs and essential IPs.
Benefits and Perks
We provide one of the greatest total compensation packages in the business. Competitive compensation, stock options, incentives, and benefit plans including health, retirement, and vacation time are all part of it. Learn more about all of our incredible benefits by clicking this link.
We have discovered that a few individuals have been sent fictitious letters purporting to be from Intel, requesting them to come in for interviews for different jobs at Intel’s headquarters.
The letters also state that they must deposit money in order to be considered for the interviews. We would like to make it clear to you that neither Intel nor any of its authorized representatives have sent out these communications.
Intel does not request or require applicants to pay any money; hiring decisions are made solely on the basis of merit. We strongly advise anyone interested in working for Intel to apply directly at https://jobs.intel.com/ to avoid falling victim to dishonest persons.
Ace the Interview Process
To apply for the Graduate Intern Technical position, follow these steps:
- Go to the Intel Career Page: Look for the Graduate Intern Technical post on the official Intel career page.
- Send in your resume: Create a professional CV that highlights your training, experience, and any related projects or internships.
- Cover Letter: Compose an engaging cover letter outlining your reasons for applying for the job and how your qualifications fit the requirements of the post.
- Online Application: Complete the application form online and attach your cover letter and resume.
- Assessment and Interview: In order to determine your technical expertise and team fit, if you are shortlisted, you will go through an assessment and interview procedure.
Conclusion:
Starting your career with a top technology firm is a fantastic opportunity when you join Intel as a Graduate Intern Technical in the SoC Val team.
The knowledge, contacts, and experiences you gain from your internship will be extremely useful as you advance in the tech sector. Don’t pass up this opportunity to join a group that is influencing computer technology in the future.
