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Remote Asic Rtl Design Engineer Jobs in Bellflower, CA

Design Engineer

Los Angeles, CA · On-site +1

$90K - $144K/yr

Remote Stryker is seeking to hire a Design Engineer to support Stryker Craniomaxillofacial (CMF) Division. This role has a direct impact on healthcare by designing customized patient implants. This ...

New

Design Engineer

Los Angeles, CA · On-site +1

$90K - $144K/yr

Remote Stryker is seeking to hire a Design Engineer to support Stryker Craniomaxillofacial (CMF) Division. This role has a direct impact on healthcare by designing customized patient implants. This ...

New

Our platform combines a modern, cloud-native CAD environment with AI-powered engineering workflows ... We are headquartered in Los Angeles, CA with both a local and remote team. We were founded and ...

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Showing results 1-20

Remote Asic Rtl Design Engineer information

See Bellflower, CA salary details

$98.2K

$156.9K

$211.1K

How much do remote asic rtl design engineer jobs pay per year?

As of Jul 15, 2026, the average yearly pay for remote asic rtl design engineer in Bellflower, CA is $156,950.00, according to ZipRecruiter salary data. Most workers in this role earn between $137,400.00 and $188,100.00 per year, depending on experience, location, and employer.

What is a Remote ASIC RTL Design Engineer?

A Remote ASIC RTL Design Engineer is a professional who specializes in designing the Register Transfer Level (RTL) code for Application-Specific Integrated Circuits (ASICs) while working remotely. Their main responsibilities include creating and verifying digital circuit designs using hardware description languages such as Verilog or VHDL. These engineers collaborate with hardware teams to ensure functionality, performance, and power requirements are met, all while operating from a location outside of a traditional office setting. They often use remote collaboration tools and simulation software to review and validate designs before fabrication.

What are the key skills and qualifications needed to thrive as a Remote ASIC RTL Design Engineer, and why are they important?

To thrive as a Remote ASIC RTL Design Engineer, you need a solid background in digital design, computer engineering, and hardware description languages like Verilog or VHDL, often supported by a relevant degree. Proficiency with industry-standard EDA tools such as Synopsys, Cadence, or Mentor Graphics, as well as experience with simulation, synthesis, and version control systems, is crucial. Strong problem-solving, self-motivation, and effective remote communication skills distinguish top performers in this role. These skills ensure accurate, efficient design cycles and effective collaboration across distributed teams, leading to successful chip delivery.

What is the difference between Remote Asic Rtl Design Engineer vs Remote Digital IC Design Engineer?

AspectRemote Asic Rtl Design EngineerRemote Digital IC Design Engineer
Primary FocusRegister Transfer Level (RTL) design for ASICsDigital integrated circuit design at the IC level
Skills & CertificationsHDL (Verilog/VHDL), EDA tools, verificationHDL, circuit simulation, verification, FPGA experience
Work EnvironmentASIC design teams, hardware developmentIC design teams, semiconductor industry
Industry UsageUsed in ASIC development for various applicationsUsed in digital IC manufacturing and prototyping

Both roles involve digital design and HDL skills, but the Remote Asic Rtl Design Engineer focuses on RTL coding for ASICs, while the Remote Digital IC Design Engineer covers broader digital IC design, including FPGA and chip-level work. They share similar credentials and work environments, often overlapping in semiconductor companies.

What are some common challenges faced by Remote ASIC RTL Design Engineers, and how can they be addressed?

Remote ASIC RTL Design Engineers often face challenges such as coordinating with distributed teams across different time zones and ensuring effective communication during complex design phases. To address these issues, it’s important to establish clear documentation practices, utilize collaboration tools like version control and video conferencing, and schedule regular check-ins with team members. Additionally, staying proactive in seeking feedback and clarifying design specifications helps ensure alignment and reduces misunderstandings. Building strong virtual relationships with verification and backend teams can also streamline the handoff process and overall project flow.
What job categories do people searching Remote Asic Rtl Design Engineer jobs in Bellflower, CA look for? The top searched job categories for Remote Asic Rtl Design Engineer jobs in Bellflower, CA are:
What cities near Bellflower, CA are hiring for Remote Asic Rtl Design Engineer jobs? Cities near Bellflower, CA with the most Remote Asic Rtl Design Engineer job openings:
Lead ASIC DFT Engineer - Remote (PST time zone) - Contract Opportunity

Lead ASIC DFT Engineer - Remote (PST time zone) - Contract Opportunity

Zodiac Solutions

Irvine, CA • Remote

Contractor

Posted 20 days ago


Job description

Title - Lead ASIC DFT Engineer

Location – Remote (must be aligned with PST time zone)

Duration – Contract Opportunity

Required Visa: Any Visa

Job Description

Key skills for Lead ASIC DFT:

please see these key words of in the project description for the profile consideration.

  “SCAN, ATPG, MBIST, Timing Simulations,  SDF, SDC ,  PSV, Diagnosys ,  Pattern Retargeting , Pattern porting,  DRCs,  TetraMax, DFTMax “

Experience

10+ years of hands-on experience in ASIC Design-for-Test (DFT)

Role Summary

We are seeking a highly experienced Lead ASIC DFT Engineer to architect, implement, verify, and debug advanced DFT solutions for complex ASIC and SoC designs. This role requires deep technical ownership across DFT architecture, scan insertion, ATPG, MBIST/LBIST, JTAG, boundary scan, and post-silicon validation, along with the ability to lead cross-functional debug efforts and drive resolution of critical silicon issues.

The ideal candidate will have strong hands-on expertise in DFT fundamentals, fault models, test coverage, diagnosis, and debug, as well as the ability to evaluate and adopt emerging DFT methodologies and architecture schemes to improve robustness, quality, and yield.

Key Responsibilities

  • Lead DFT architecture, implementation, verification, and sign-off for complex ASIC and SoC designs.
  • Drive scan architecture, scan insertion, scan chain stitching, and scan compression workflows to achieve high coverage and robust testability.
  • Own MBIST/LBIST integration, implementation, verification, and debug across design and silicon bring-up phases.
  • Perform DFT debug, failure analysis, root-cause investigation, and fault coverage closure for complex silicon issues.
  • Develop and validate DFT constraints, including DFT SDC, timing checks, and DFT-specific timing analysis.
  • Collaborate with RTL design, verification, physical design, STA, and silicon validation teams to resolve integration and implementation issues.
  • Support ATPG pattern generation, ATPG simulations, DRC analysis, test coverage analysis, and diagnosis/debug.
  • Work on JTAG, boundary scan, iJTAG, SSN, and IP-level DFT integration.
  • Review RTL, synthesis, LEC, and physical design impacts on DFT implementation and test quality.
  • Act as a technical escalation point for advanced DFT and post-silicon debug issues.
  • Mentor junior and mid-level DFT engineers and promote best practices in DFT methodology and automation.
  • Develop scripts and automation using TCL, PERL, or Python to improve flow efficiency and debug productivity.

Required Skills & Qualifications

  • Strong hands-on experience in ASIC DFT with end-to-end ownership.
  • Solid understanding of DFT fundamentals, fault models, test techniques, and test coverage concepts.
  • Deep expertise in scan architecture, ATPG, MBIST, LBIST, JTAG, boundary scan, and silicon debug.
  • Hands-on experience with Synopsys, Cadence, and Siemens/Mentor EDA tools.
  • Proven experience in scan insertion, ATPG setup, simulation, debug, and DRC analysis.
  • Experience with MBIST implementation and verification; SMS experience preferred.
  • Experience with scan architecture and scan chain stitching; Tessent/SSN experience preferred.
  • Strong understanding of PLLs, RTL design, synthesis flows, logical equivalence checking (LEC), and physical design implementation.
  • Proven post-silicon debug and silicon bring-up experience.
  • Exposure to large SoC designs, hierarchical DFT flows, and multi-domain integration challenges.
  • Strong communication skills and the ability to work independently with minimal ramp-up.

Preferred Experience

  • MBIST post-silicon validation.
  • ATPG simulations and fault coverage debug.
  • DFT RTL, DFD, DFT verification, and IP-level DFT integration.
  • DFT SDC creation and DFT timing closure support.
  • Boundary scan, iJTAG, SSN, and design-for-debug methodologies.
  • TCL/PERL scripting for DFT automation, reporting, and debug.
  • Experience working across multiple ASIC technology nodes and complex product development cycles.
  • Familiarity with yield learning, diagnosis, and manufacturing test optimization.