About Paradromics
Brain-related illness is one of the last great frontiers in medicine, not because the brain is unknowable, but because it has been inaccessible. Paradromics is building a brain-computer interface (BCI) platform that records brain activity at the highest possible resolution: the individual neuron. AI algorithms then decode this massive amount of brain-data, enabling the seamless translation of thought into treatments.
Our first clinical application, the Connexus® BCI, will help people who are unable to speak, due to ALS, spinal cord injuries and stroke, to communicate independently through digital devices. However, the capabilities of our BCI platform go far beyond our first application. With the brain in direct communication with digital devices, we can leverage technology to transform how we treat conditions ranging from sensory and motor deficits to untreatable mental illness.
The Role
The Operator I role is an entry-level manufacturing position responsible for reliably building the small, delicate, and patient-critical components of the Connexus BCI platform. This role is focused on executing released manufacturing processes with precision, consistency, and strict adherence to quality and documentation standards in a cleanroom or controlled manufacturing environment.
Over the first 12–18 months, the Operator I will become a dependable contributor across foundational manufacturing blocks. Success in this role requires patience, fine manual dexterity, attention to detail, and a willingness to learn through hands-on training and continuous feedback.
Responsibilities
Execute released manufacturing work instructions exactly as written while meeting quality expectations.Perform fine manual assembly, handling, and processing tasks under microscopes or magnification.Complete GDP-compliant manufacturing documentation accurately and legibly, including lot tracking, measurements, and observations.Safely handle delicate materials and minimize damage events.Maintain cleanroom protocols, gowning standards, and contamination-control practices.Participate in training and qualification activities for manufacturing processes and equipment.Communicate clearly and respectfully with operators, technicians, engineers, manufacturing leadership, and quality teams.Support a culture of quality, safety, organization, and continuous improvement.Required Education
High school diploma or equivalent required.Technical certification, vocational training, or associate degree in manufacturing, laboratory sciences, electronics, or a related field is a plus.Required Qualifications
2–4 years of experience performing intricate, fine manual work in manufacturing, laboratory, technical, craft, or hobby environments requiring precision and patience.Demonstrated ability to follow written work instructions exactly as released without undocumented deviations.Comfort working under microscopes or magnification for sustained periods.Strong attention to detail and the ability to maintain focus during repetitive, high-precision tasks.Clear written documentation skills with the ability to accurately record production information and observations.Coachable mindset and willingness to learn through hands-on training and feedback.Reliable attendance and ability to work effectively in a cleanroom or controlled environment.Preferred Qualifications
Experience in regulated manufacturing environments such as medical devices, aerospace, semiconductor, or microelectronics.Familiarity with GDP, GMP, ISO 13485, FDA-regulated production, or similar quality systems.Prior cleanroom experience and familiarity with gowning protocols.Experience using precision tools such as tweezers, torque drivers, calipers, soldering tools, or pick-and-place equipment.Exposure to lean manufacturing, 5S, or continuous improvement methodologies.Experience using manufacturing execution systems (MES), including SEAL.Interest in neurotechnology and patient-impacting medical devices.Paradromics is an Equal Opportunity Employer. All qualified applicants will receive consideration for employment without regard to race, color, religion, sex, sexual orientation, gender identity, or national origin.
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Read LessAbout Paradromics
Brain-related illness is one of the last great frontiers in medicine, not because the brain is unknowable, but because it has been inaccessible. Paradromics is building a brain-computer interface (BCI) platform that records brain activity at the highest possible resolution: the individual neuron. AI algorithms then decode this massive amount of brain-data, enabling the seamless translation of thought into treatments.
Our first clinical application, the Connexus® BCI, will help people who are unable to speak, due to ALS, spinal cord injuries and stroke, to communicate independently through digital devices. However, the capabilities of our BCI platform go far beyond our first application. With the brain in direct communication with digital devices, we can leverage technology to transform how we treat conditions ranging from sensory and motor deficits to untreatable mental illness.
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Read LessElectrical Engineer (Systems Generalist)
About Paradromics
Brain-related illness is one of the last great frontiers in medicine, not because the brain is unknowable, but because it has been inaccessible. Paradromics is building a brain-computer interface (BCI) platform that records brain activity at the highest possible resolution: the individual neuron. AI algorithms then decode this massive amount of brain-data, enabling the seamless translation of thought into treatments.
Our first clinical application, the Connexus® BCI, will help people who are unable to speak, due to ALS, spinal cord injuries and stroke, to communicate independently through digital devices. However, the capabilities of our BCI platform go far beyond our first application. With the brain in direct communication with digital devices, we can leverage technology to transform how we treat conditions ranging from sensory and motor deficits to untreatable mental illness.
The Role
The Electrical Engineer (Generalist) will own and support system-level electrical development across hardware, programmable logic, and mixed-signal domains. This role focuses on system integration, bring-up, debugging, and stabilization rather than solely PCB layout.
Working closely with cross-functional teams—including FPGA, firmware, mechanical, and test engineers—this person will drive hardware systems from prototype through validation and early production. The ideal candidate is comfortable operating across digital, analog, power, and signal integrity domains and thrives in fast-paced, multidisciplinary environments.
Responsibilities
Lead system bring-up and stabilization across hardware and programmable logic platforms.Debug FPGA-based systems at both the board and system level, collaborating with digital design teams.Develop structured debug plans and execute root cause analysis across electrical, firmware, and system domains.Analyze and optimize digital system architecture including clocking schemes, reset strategies, high-speed data paths, and timing considerations.Evaluate and troubleshoot analog and mixed-signal subsystems including power regulation, grounding, EMI mitigation, and signal integrity.Support integration of subsystems involving wireless power transfer, RF signaling, or optical communication links.Develop Python-based tools for lab automation, instrument control, data capture, and validation workflows.Support system-level validation, characterization, and field testing activities.Contribute to technical trade studies and clearly communicate design trade-offs across teams.Maintain organized documentation, debug records, and validation reports throughout development.Required Education
Bachelor’s or Master’s degree in Electrical Engineering or related field, or equivalent practical experience.Required Qualifications
Demonstrated ownership of system bring-up and stabilization across hardware and programmable logic platforms.Strong experience debugging FPGA-based systems at the board and system level.Solid understanding of digital system architecture including clocking, resets, high-speed data paths, and timing constraints.Working knowledge of analog and mixed-signal fundamentals including power regulation, signal integrity, grounding, and EMI principles.Experience supporting or integrating systems involving wireless power transfer, RF signaling, or optical communication links.Proficiency in Python for test automation, lab control, data analysis, or validation infrastructure.Ability to develop structured debug plans and drive root cause analysis across multiple technical domains.Experience supporting system-level validation, field testing, or early production hardware.Strong ability to synthesize cross-domain findings and communicate technical trade-offs clearly.Comfort working in fast-paced hardware development environments with evolving requirements.Preferred Qualifications
Experience collaborating closely with FPGA/RTL design teams.Exposure to regulated hardware environments (medical, aerospace, industrial, etc.).Familiarity with high-speed interfaces (e.g., SERDES-based links, DDR memory systems).Experience designing or supporting hardware test infrastructure.Background in multidisciplinary system integration efforts.Paradromics is an Equal Opportunity Employer. All qualified applicants will receive consideration for employment without regard to race, color, religion, sex, sexual orientation, gender identity, or national origin.
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Read LessAbout Paradromics
Brain-related illness is one of the last great frontiers in medicine, not because the brain is unknowable, but because it has been inaccessible. Paradromics is building a brain-computer interface (BCI) platform that records brain activity at the highest possible resolution: the individual neuron. AI algorithms then decode this massive amount of brain-data, enabling the seamless translation of thought into treatments.
Our first clinical application, the Connexus® BCI, will help people who are unable to speak, due to ALS, spinal cord injuries and stroke, to communicate independently through digital devices. However, the capabilities of our BCI platform go far beyond our first application. With the brain in direct communication with digital devices, we can leverage technology to transform how we treat conditions ranging from sensory and motor deficits to untreatable mental illness.
The Role
As a Senior Digital Design Engineer, you will translate algorithms and system requirements into clear digital microarchitectures and high-quality, synthesizable RTL that forms the foundation of our silicon. You will own digital blocks from microarchitecture through RTL implementation and work closely with physical design across the RTL-to-GDS flow to deliver robust, production-quality designs, using implementation feedback to drive architecture and algorithm tradeoffs for best PPA.
Rapid FPGA prototyping is a core part of this role: you will bring designs up early on FPGA to de-risk architectures, validate interfaces, and enable system-level integration and lab testing. You will own FPGA implementation end-to-end (synthesis, constraints, implementation, and timing closure), iterating quickly while keeping a clear eye on how designs will translate cleanly from FPGA to ASIC.
ResponsibilitiesDefine digital microarchitecture for datapaths, control, buffering, and interfaces.Write high-quality, synthesizable RTL for FPGAs and ASICs.Own FPGA implementation end-to-end: synthesis, timing/physical constraints, implementation, timing closure, and board-level debug.Translate DSP algorithms into efficient, real-time hardware pipelines.Produce clear interface specs, block diagrams, and timing documentation.Partner with physical design to refine RTL and microarchitecture based on synthesis and timing feedback.Contribute to verification planning and debug using waveforms, logs, and assertions.Support front-end checks (lint, CDC/RDC, constraint reviews).Required EducationMaster’s or Ph.D. in Electrical Engineering, Computer Engineering, or equivalent experience.
Required Qualifications5+ years designing RTL for FPGAs and/or ASICs, including microarchitecture and ownership of a major block from spec to signoff.Deep proficiency in SystemVerilog/Verilog (or VHDL) for synthesizable RTL.Strong theoretical foundation in digital signal processing (i.e. filters, transforms, and sampling). Strong hands-on FPGA prototyping and bring-up experience (constraints, implementation, timing analysis, board debug).Experience translating DSP algorithms into efficient, real-time hardware pipelines.Experience with digital control of analog/mixed-signal IP, including ADC/DAC control, SPI/I²C, high-speed SERDES, and clocking/reset logic.Proven ability to develop microarchitecture from system requirements.Understanding of process-node tradeoffs and their impact on RTL and microarchitecture.Familiarity with front-end flows (synthesis, STA, lint, CDC/RDC).Strong debug skills using waveforms, logs, and implementation reports.Scripting in Python/Tcl/Perl for automation and analysis.Preferred QualificationsExperience proactively tuning RTL and microarchitecture to deliver ASIC-ready RTL that meets PPA targets in collaboration with physical design.Familiarity with SystemC or high-level behavioral modeling.Exposure to UVM/formal and SystemVerilog Assertions (SVA).Working knowledge of DFT (scan, MBIST/LBIST).Experience with common interfaces (AXI/APB, SPI, I²C, UART).Experience with silicon debug.Familiarity with neural signal processing or real-time data systems.Paradromics is an Equal Opportunity Employer. All qualified applicants will receive consideration for employment without regard to race, color, religion, sex, sexual orientation, gender identity, or national origin.Powered by JazzHR
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Read LessElectrical Engineer - PCB
About Paradromics
Brain-related illness is one of the last great frontiers in medicine, not because the brain is unknowable, but because it has been inaccessible. Paradromics is building a brain-computer interface (BCI) platform that records brain activity at the highest possible resolution: the individual neuron. AI algorithms then decode this massive amount of brain-data, enabling the seamless translation of thought into treatments.
Our first clinical application, the Connexus® BCI, will help people who are unable to speak, due to ALS, spinal cord injuries and stroke, to communicate independently through digital devices. However, the capabilities of our BCI platform go far beyond our first application. With the brain in direct communication with digital devices, we can leverage technology to transform how we treat conditions ranging from sensory and motor deficits to untreatable mental illness.
The Role
The Electrical (PCB) Engineer will transform high-level electrical design intent into complete, manufacturable board designs. Working closely with senior engineers, this person will produce schematics, assist with component selection and substitution, and lay out complex, multi-layer PCBs. They will prepare clean release packages and coordinate with vendors to ensure successful fabrication. Once boards arrive, they will inspect, test, and support bring-up to ensure readiness for system integration.
Responsibilities
Translate system-level electrical design intent into detailed schematics.Select components, evaluate alternates, and maintain component libraries.Perform PCB layout for multi-layer boards (6+ layers), including high-speed, low-noise, and RF routing.Generate complete release documentation packages, including drawings, BOMs, and revision notes.Coordinate with PCB fabrication and assembly vendors; incorporate DFM/DFA feedback.Support PCB bring-up, debugging, and characterization using oscilloscopes, power supplies, DMMs, and similar equipment.Develop simple test fixtures or scripts to support inspection and testing.Contribute to design reviews and document decision-making outcomes.Maintain organized design files and version control discipline across projects.Required Education
Bachelor’s or Master’s degree in Electrical Engineering or related field, or equivalent practical experience.Required Qualifications
Proficiency in PCB design software, ideally Altium Designer.Demonstrated experience creating schematics and selecting electronic components.Experience with component library management (symbols, footprints, 3D models).Proven ability to route low-noise, high-speed, or RF signals on 6+ layer PCBs.Understanding of design-for-test, including test-point strategy and module isolation.Ability to produce clean documentation: release drawings, BOMs, revision notes.Experience working with PCB vendors and applying DFM/DFA best practices.Hands-on experience inspecting and testing fabricated PCBs using standard lab instruments.Strong communication skills, ability to take feedback, and comfort working in a fast-paced hardware development environment.Demonstrated ownership of designs, from schematic capture through preliminary bring-up.Preferred Qualifications
Experience using Python or similar scripting languages to control lab instruments.Experience with rigid-flex PCB design.Experience in wireless power transfer design.Exposure to medical devices, implantable systems, or regulated hardware environments.Paradromics is an Equal Opportunity Employer. All qualified applicants will receive consideration for employment without regard to race, color, religion, sex, sexual orientation, gender identity, or national origin.
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