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Remote Semiconductor Jobs in Indiana (NOW HIRING)

Engineering & Science Job Schedule: Full time Remote: No The Company We build the machines that ... semiconductor chips. Our portable compressors provide the air power to build roads and bridges, lay ...

Vision Engineer - Remote / Travel DISHER is currently partnering with a world leading automation company that specializes in groundbreaking technologies for flawlessly manufacturing millions of ...

Engineer

Brook, IN ยท On-site +1

$83K - $135K/yr

This is a fully remote position ideally based within the corridor between Mason, Ohio and Boston, Massachusetts. Responsibilities include developing and strengthening customer technical skills ...

$100K - $120K/yr

The actual offer will be based on the individual candidate. #LI-JS3 #LI-REMOTE Basic Requirements * 5+ years experience in delivering Public Safety projects in a technical role or enterprise-level ...

Senior AI Engineer

South Bend, IN ยท On-site +1

$102K - $140K/yr

We offer unlimited PTO, a flexible remote work policy, and a supportive environment that prioritizes sustainable, long-term performance. About the Role Role Overview: The Senior AI Engineer 1 (Senior ...

Join a National Top Workplace Named a Top Workplace in the USA and Top Remote Workplace, Kobie is where the best minds in loyalty come together, driven by passion and innovation. We're always looking ...

Senior AI Engineer

Indianapolis, IN ยท On-site +1

$99K - $137K/yr

We offer unlimited PTO, a flexible remote work policy, and a supportive environment that prioritizes sustainable, long-term performance. About the Role Role Overview: The Senior AI Engineer 1 (Senior ...

Remote Semiconductor information

See Indiana salary details

$25.3K

$110.9K

$175.3K

How much do remote semiconductor jobs pay per year?

As of Jul 13, 2026, the average yearly pay for remote semiconductor in Indiana is $110,900.00, according to ZipRecruiter salary data. Most workers in this role earn between $64,214.00 and $144,364.00 per year, depending on experience, location, and employer.

What are some typical challenges faced by remote semiconductor professionals, and how are they addressed?

Remote semiconductor professionals often encounter challenges related to collaborating across global teams, synchronizing project timelines, and accessing specialized design or lab equipment. To address these, companies provide secure VPN access, cloud-based EDA tools, and frequent virtual check-ins or meetings to ensure alignment. Successful remote employees proactively communicate progress and issues, leverage virtual collaboration platforms, and may travel occasionally for essential hands-on tasks. This remote model offers flexibility but requires strong time management and a willingness to adopt new digital workflows. With the right infrastructure and support, remote semiconductor engineers can contribute just as effectively as on-site colleagues.

What is a Remote Semiconductor job?

A Remote Semiconductor job involves working in the semiconductor industry while performing tasks remotely, rather than in a physical lab or manufacturing facility. These roles typically focus on design, simulation, testing, software development, or supply chain management using cloud-based tools and collaboration platforms. Engineers, designers, and analysts can contribute to chip development, verification, or optimization from anywhere with secure access to company resources. While hands-on fabrication remains facility-based, many aspects of semiconductor development and business operations can be efficiently handled remotely.

What are the key skills and qualifications needed to thrive in the Remote Semiconductor position, and why are they important?

To excel in a remote semiconductor role, you should have a solid background in electrical engineering, semiconductor physics, and experience with integrated circuit (IC) design, often backed by a relevant degree. Expertise with industry-standard EDA tools like Cadence or Synopsys, along with knowledge of hardware description languages (HDLs) and possibly certifications such as IPC or Six Sigma, is highly valuable. Strong communication, self-motivation, and collaboration skills are essential, particularly when working from a distance. These qualifications are vital for maintaining productivity, ensuring seamless project execution, and contributing effectively to cross-functional engineering teams in a remote setting.

What are the most commonly searched types of Semiconductor jobs in Indiana? The most popular types of Semiconductor jobs in Indiana are:
What are popular job titles related to Remote Semiconductor jobs in Indiana? For Remote Semiconductor jobs in Indiana, the most frequently searched job titles are:
What cities in Indiana are hiring for Remote Semiconductor jobs? Cities in Indiana with the most Remote Semiconductor job openings:
Infographic showing various Remote Semiconductor job openings in Indiana as of July 2026, with employment types broken down into 100% Full Time. Highlights an 100% Remote job distribution, with an average salary of $110,900 per year, or $53.3 per hour.

Principal Microelectronics Architect

TAP Engineering LLC

Bloomington, IN โ€ข On-site, Remote

Full-time

Medical, Dental, Vision, Retirement, PTO

Posted 24 days ago


Job description

Principal Microelectronics Architect (SME)
Remote (U.S.) | Full-Time | Secret Clearance Required
Position: Principal Microelectronics Architect (SME)
Location: Remote (Periodic On-site Support as Needed)
Category: Hardware Engineering / Systems Architecture
Clearance Requirement: U.S. Citizenship Required; Active Secret Clearance
Education Requirement: Bachelor's Degree in Electrical Engineering, Computer Engineering, or related discipline (Master's or PhD preferred)
Experience Requirement: 10+ Years in Microelectronics Design, Semiconductor Development, or IP Architecture
Position Overview
We are seeking an experienced Principal Microelectronics Architect to serve as a Subject Matter Expert (SME) supporting a critical government-sponsored microelectronics modernization initiative. This role will provide technical leadership in the development of a secure, collaborative design environment focused on advancing semiconductor innovation, intellectual property reuse, and next-generation design workflows.
The selected candidate will work within a highly technical team responsible for defining architecture, standards, and governance models that support the development and integration of advanced microelectronics technologies. This position offers the opportunity to influence long-term strategy while working closely with government stakeholders, industry partners, and engineering teams across the semiconductor ecosystem.
The ideal candidate brings deep expertise in microelectronics design, silicon IP, system-on-chip (SoC) architecture, FPGA technologies, and semiconductor design workflows, along with the ability to communicate complex technical concepts to both technical and executive audiences.
Key Responsibilities
Strategic Technical Leadership
  • Serve as a trusted technical advisor supporting the development of secure, cloud-enabled microelectronics design environments.
  • Provide expertise in semiconductor design methodologies, silicon IP reuse, and design ecosystem modernization.
  • Guide architectural decisions that support long-term scalability, interoperability, and sustainability.
Intellectual Property Management & Governance
  • Develop and validate standards for managing reusable design IP repositories.
  • Establish best practices for secure integration and lifecycle management of commercial and government-developed IP assets.
  • Assess technical risks, licensing considerations, and long-term sustainability of IP portfolios.
  • Support governance strategies that promote efficient IP sharing and collaboration.
Design Flow & Technology Integration
  • Evaluate and optimize semiconductor design workflows across modern engineering environments.
  • Support the integration of foundry-qualified design flows and advanced packaging technologies.
  • Promote interoperability across multiple vendors, toolchains, and semiconductor platforms.
  • Identify opportunities to accelerate development timelines and improve engineering productivity.
Technical Assessments & Program Execution
  • Conduct technology evaluations and produce technical assessment reports.
  • Deliver recommendations related to design infrastructure, tool interoperability, and ecosystem scalability.
  • Support milestone reviews and provide technical briefings to program leadership and stakeholders.
  • Contribute to strategic roadmaps that support future program growth and modernization efforts.
Stakeholder Collaboration
  • Coordinate requirements and technical activities across government organizations, industry partners, research institutions, and engineering teams.
  • Facilitate collaboration among stakeholders focused on semiconductor design, fabrication, packaging, and testing.
  • Build consensus around standards, processes, and technical direction.
Required Qualifications
  • Bachelor's degree in Electrical Engineering, Computer Engineering, or a related technical discipline
  • 10+ years of experience in microelectronics design, semiconductor development, FPGA design, or System-on-Chip (SoC) architecture
  • Deep understanding of silicon IP development, integration, validation, and reuse methodologies
  • Experience evaluating and managing third-party intellectual property within complex hardware environments
  • Familiarity with industry-standard Electronic Design Automation (EDA) tools, including:
    • Cadence
    • Synopsys
    • Siemens EDA
  • Understanding of cloud-enabled design environments and collaborative engineering workflows
  • Strong knowledge of semiconductor design processes and technology development lifecycles
  • Exceptional technical writing, documentation, and presentation skills
  • Ability to communicate complex technical concepts to both engineering teams and executive leadership
  • U.S. Citizenship with the ability to obtain and maintain a Secret security clearance
Preferred Qualifications
  • Active Secret clearance or higher preferred
  • Experience supporting government-sponsored microelectronics programs
  • Familiarity with trusted semiconductor manufacturing and supply chain assurance initiatives
  • Experience with advanced packaging technologies and chiplet architectures
  • Knowledge of modern semiconductor fabrication processes and foundry ecosystems
  • Familiarity with radiation-hardened, high-reliability, or mission-critical electronics
  • Experience supporting collaborative research and development initiatives involving government, industry, and academia
  • Knowledge of leading semiconductor foundries and advanced process technologies
Benefits Overview
TAP Engineering offers a comprehensive and highly competitive benefits package designed to support your health, financial well-being, professional growth, and work-life balance.
  • Paid Time Off: 15-25 days of PTO annually based on tenure, plus 11 paid holidays with no use-it-or-lose-it policy.
  • Retirement Benefits: Up to a 15% employer contribution to your 401(k) through a combination of company match and profit-sharing.
  • Comprehensive Medical Coverage: Employer-paid medical insurance for employees, with optional enhanced plans and dependent coverage available.
  • Dental & Vision Insurance: Employer-paid dental and vision coverage with optional buy-up plans.
  • Tuition Reimbursement: Up to $36,000 annually for approved degree programs, certifications, and continuing education opportunities.
  • Wellness & Employee Support Programs: Employee Assistance Program (EAP), wellness incentives, virtual healthcare services, prescription savings programs, and travel assistance resources.
  • Additional Employee Perks: Access to employee discount programs and other company-sponsored benefits.
  • Performance-Based Recognition: Merit increases, performance bonuses, and employee referral bonuses designed to reward contributions and success.
Why Join Us?
This is a unique opportunity to help shape the future of microelectronics design and collaboration within a highly visible national-level initiative. You'll work alongside industry and government leaders, influence next-generation design environments, and contribute to the development of technologies that will impact critical systems for years to come.
The role begins with an initial six-month technical engagement focused on architecture definition, standards development, and technology assessments. Successful completion of Phase 1 is expected to lead to a five-year follow-on effort, providing the opportunity to serve as a technical lead for a major microelectronics modernization initiative and help shape its long-term architecture, standards, and implementation strategy.