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Msc Applied Electronics Jobs (NOW HIRING)

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Msc Applied Electronics information

What is an MSc Applied Electronics job?

An MSc Applied Electronics job involves designing, developing, and testing advanced electronic systems used in various industries, including telecommunications, automation, embedded systems, and power electronics. Professionals in this field work on circuit design, signal processing, VLSI, and embedded programming. They may find roles as electronics engineers, research associates, or system designers in sectors like aerospace, healthcare, consumer electronics, and industrial automation.

What are the main responsibilities of professionals with an MSc in Applied Electronics in a typical workplace?

Professionals with an MSc in Applied Electronics are often tasked with designing, developing, and testing electronic circuits and systems for applications such as automation, instrumentation, telecommunications, or embedded devices. Day-to-day responsibilities may include analyzing client requirements, programming microcontrollers, troubleshooting circuits, and collaborating with cross-functional teams such as software developers, mechanical engineers, and project managers. You may also be involved in preparing technical documentation, prototyping new products, and staying updated with technological advancements relevant to the field. These responsibilities provide a varied work environment that blends hands-on technical work with collaborative problem-solving and continuous learning.

Which is the highest paid ECE job?

The highest paid ECE (Electronics and Communication Engineering) jobs typically include roles such as systems engineer, hardware design engineer, and RF engineer, especially in sectors like telecommunications, aerospace, and defense. Senior positions with advanced skills in embedded systems, signal processing, and certifications tend to offer the highest salaries in this field.

What job roles can I get with MTech electronics?

With an MTech in Electronics, you can pursue roles such as Electronics Engineer, Embedded Systems Engineer, Signal Processing Engineer, or Design Engineer. These positions often require knowledge of circuit design, microcontrollers, and software tools like MATLAB or CAD, and may involve working in industries like telecommunications, consumer electronics, or automation.

What can I do with a degree in electronics?

A degree in electronics, such as an MSc in Applied Electronics, prepares individuals for roles like electronics engineer, embedded systems designer, or hardware developer. Graduates can work in industries including telecommunications, consumer electronics, automation, and aerospace, often utilizing skills in circuit design, programming, and testing. Certifications in relevant tools or standards can enhance job prospects.

What are the key skills and qualifications needed to thrive in the Msc Applied Electronics position, and why are they important?

To thrive with an MSc in Applied Electronics, you need a solid grasp of electronic circuit design, signal processing, embedded systems, and practical engineering principles, typically supported by a master's degree in electronics or a related field. Familiarity with tools such as MATLAB, LabVIEW, PCB design software, and microcontroller programming is essential, and certifications in areas like embedded systems or industrial automation can be advantageous. Strong problem-solving ability, effective teamwork, and good communication skills help you excel when collaborating on interdisciplinary engineering projects. These combined technical and interpersonal skills ensure you can develop, implement, and refine complex electronic systems in dynamic, real-world environments.

What jobs can I get after an MSC?

With an MSc in Applied Electronics, graduates can pursue roles such as electronics engineer, embedded systems engineer, automation engineer, or research scientist. These positions typically require knowledge of circuit design, programming, and testing, often utilizing tools like MATLAB, VHDL, or PCB design software.
More about Msc Applied Electronics jobs
What job categories do people searching Msc Applied Electronics jobs look for? The top searched job categories for Msc Applied Electronics jobs are:
Infographic showing various Msc Applied Electronics job openings in the United States as of July 2026, with employment types broken down into 75% Full Time, 23% Part Time, 1% Temporary, and 1% Contract. Highlights an 90% Physical, 2% Hybrid, and 8% Remote job distribution.
Senior Math Libraries Engineer - Direct Sparse Solvers

Senior Math Libraries Engineer - Direct Sparse Solvers

Nvidia

Santa Clara, CA • On-site

$143K - $189K/yr

Full-time

Re-posted 3 days ago


Nvidia rating

9.3

Company rating: 9.3 out of 10

Based on 5 frontline employees who took The Breakroom Quiz

15th of 209 rated software companies


Job description

We are looking for software engineers to join our development efforts in cuDSS, a CUDA library for direct solvers for sparse linear systems. Around the world, leading commercial and academic organizations are revolutionizing scientific and engineering simulations, data analytics, and AI using data centers powered by GPUs and high-performance linear algebra libraries. Applications of these technologies include computer aided engineering (CAE), electronic design automation (EDA), optimization, quantum chemistry, autonomous vehicles, LLMs, and countless others. Did you know our team develops the GPU accelerated libraries and SDKs that help make these possible?

In this role, you will work together with other developers in crafting algorithms and kernels for direct sparse solvers. Ideal candidates will not only have experience developing and optimizing accelerated computing kernels, but also demonstrate dedication to advancing the state-of-the-art in a variety of accelerated computing domains. If this sounds exciting, we would love to meet you!

What you will be doing:

  • Designing, implementing, and optimizing direct sparse solvers for existing and future GPU architectures

  • Working with library engineers, QA engineers, and interns on all library development aspects from design to implementation and test to release and support

  • Working closely with product management and other internal and external partners to understand feature and performance requirements and contribute to the technical roadmaps of libraries

  • Finding and realizing opportunities to improve library quality, performance, and maintainability for sparse linear algebra libraries through re-architecting and establishing innovative software development practices

What we need to see:

  • PhD or MSc degree in Computer Science, Computational Science and Engineering, Applied Mathematics, or related science or engineering field (or equivalent experience)

  • 5+ years of overall experience developing, debugging, and optimizing high-performance numerical software using C++ and parallel programming; ideally using CUDA, MPI, OpenMP, OpenACC, pthreads, or equivalent technologies

  • Strong fundamentals in floating-point arithmetic, numerical analysis, and implementation of sparse linear algebra primitives like matrix-vector and matrix-matrix products and triangular solves

  • Experience in developing, maintaining, and testing scientific computing libraries

  • Strong collaboration, communication, and documentation habits.

Ways to stand out from the crowd:

  • Familiarity with techniques in direct solvers such as reordering, multi-frontal factorizations, supernodal factorizations, numerical pivoting strategies, and iterative refinement

  • Good knowledge of CPU and/or GPU hardware architecture and low-level GPU performance optimization

  • Experience with adopting and advancing modern methods in software engineering such as CI/CD systems, project management tools such as JIRA, and AI agents

  • Understanding of large-scale computing technologies such as PDE solvers, eigenvalue solvers and time-domain simulation methods (e.g., CFD, FEA)

  • Working experience in a globally distributed and agile organization

NVIDIA's invention of the GPU in 1999 sparked the growth of the PC gaming market, redefined modern computer graphics, and revolutionized parallel computing for science and engineering. More recently, GPU deep learning ignited modern AI - the next era of computing - with the GPU acting as the brain of computers, robots, and self-driving cars that can perceive and understand the world. Today, we are increasingly known as "the AI computing company." We're looking to grow our company and build our teams with the smartest people in the world! Join us at the forefront of technological advancement.

NVIDIA is widely considered to be one of the technology world's most desirable employers. We have some of the most forward-thinking and talented people in the world working for us. If you're creative, autonomous and love a challenge, we want to hear from you!

Your base salary will be determined based on your location, experience, and the pay of employees in similar positions. The base salary range is 184,000 USD - 287,500 USD for Level 4, and 224,000 USD - 356,500 USD for Level 5.

You will also be eligible for equity and benefits.

Applications for this job will be accepted at least until June 13, 2026.

This posting is for an existing vacancy.

NVIDIA uses AI tools in its recruiting processes.

NVIDIA is committed to fostering an inclusive work environment and proud to be an equal opportunity employer. As we highly value diversity in our current and future employees, we do not discriminate (including in our hiring and promotion practices) on the basis of race, religion, color, national origin, gender, gender expression, sexual orientation, age, marital status, veteran status, disability status or any other characteristic protected by law.

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About Nvidia

Sourced by ZipRecruiter

NVIDIA has been transforming computer graphics, PC gaming, and accelerated computing for more than 25 years. It's a unique legacy of innovation that's fueled by great technology--and amazing people. Today, we're tapping into the unlimited potential of AI to define the next era of computing. An era in which our GPU acts as the brains of computers, robots, and self-driving cars that can understand the world. Doing what's never been done before takes vision, innovation, and the world's best talent.

Industry

Computer and electronic product manufacturing

Company size

10,000+ Employees

Headquarters location

Santa Clara, CA, US

Year founded

1993