{"schemaVersion":"jobsearcher.job.v1","id":"0d4b797dd829a2f48d4911ed","url":"https://jobsearcher.com/jobs/0d4b797dd829a2f48d4911ed","canonicalUrl":"https://jobsearcher.com/jobs/0d4b797dd829a2f48d4911ed","title":"RTL Design Engineer","description":"About Normal Computing\nNormal Computing builds silicon that turns thermal noise from an obstacle into a computational resource. Conventional chips spend most of their energy forcing determinism onto physics; ours compute with it. Stochastic, in‑memory, asynchronous: the result is 10-100× more AI inference per dollar, per watt.\n\nWe co-design the full stack: AI‑native EDA systems in production with the world's largest semiconductor companies, and the advanced ASICs they make possible. Backed by $85M+ from the world's leading deep‑tech investors and built by scientists, engineers, and operators from the labs that built modern computing.\n\nNormal works as one team across New York, Silicon Valley, London, Copenhagen, and Seoul. We hire people who want the hardest version of their craft, across every discipline, at every seniority.\n\nThe Role\nAs an RTL Design Engineer at Normal, you will design and verify the digital logic at the heart of Normal's thermodynamic hardware. This work sits at the intersection of classical ASIC design, novel computing architectures, and a development environment where the hardware and the algorithms are built together, not in sequence.\n\nYou will own RTL from microarchitecture to tapeout: writing synthesizable SystemVerilog, authoring verification environments in UVM, cocotb, or formal tools, and working closely with architecture and physical design to make sure what you build is both functionally correct and physically realizable. Because Normal's chips are not standard accelerators, the RTL engineer here is closer to first‑principles decisions than at a larger company. You will be shaping architecture, not just implementing it.\n\nThis is a role for an engineer who does not draw a hard line between design and verification. The strongest candidates have taped out silicon, written both RTL and testbenches, and are comfortable working in an environment where the specification is still being developed in parallel.\n\nWhat You'll Own\n\nRTL Design: Write and own synthesizable RTL in SystemVerilog across blocks ranging from datapath logic to control and memory interfaces.\n\nVerification: Author functional verification environments using UVM, cocotb, formal property checking, or a combination.\n\nMicroarchitecture: Work with architecture to translate high‑level specifications into implementable microarchitectures.\n\nPhysical Design Collaboration: Collaborate with physical design on timing closure, floorplanning constraints, and DFT.\n\nSimulation Infrastructure: Develop and maintain simulation infrastructure, regression pipelines, and coverage closure flows.\n\nDesign Reviews: Participate in design reviews and contribute to architecture decisions, not just implementation.\n\nTapeout & Bring‑up: Support tapeout preparation, integration, and post‑silicon bring‑up as needed.\n\nWhat Makes You a Great Fit\n\nHands‑on experience writing production RTL in SystemVerilog and closing it through synthesis and place‑and‑route\n\nExperience authoring verification environments in UVM, cocotb, formal, or equivalent, not just running existing testbenches\n\nAt least one tapeout in your background, from any node and any company size\n\nComfort operating across both design and verification without treating them as separate disciplines\n\nExperience working on datapaths, pipelines, or custom logic where the microarchitecture was not fully specified upfront\n\nStrong debugging instincts across simulation, waveforms, and formal counterexamples\n\nAbility to work directly with architects and physical designers without needing a large intermediary layer\n\nIndustry experience in ASIC or SoC design\n\nBonus Points\n\nExperience at an AI chip company where design and verification were tightly coupled\n\nOpen‑source RTL contributions to projects like Chipyard, OpenTitan, or CVA6\n\nFamiliarity with RISC‑V or other open ISAs\n\nExperience with AI‑assisted RTL or EDA tooling in your design workflow\n\nExposure to physical design constraints, floorplanning, or timing‑driven RTL development\n\nEqual Employment Opportunity Statement\n\nNormal Computing is an Equal Opportunity Employer. We celebrate diversity and are committed to creating an inclusive environment for all employees. All qualified applicants will receive consideration for employment without regard to race, color, religion, sex, sexual orientation, gender identity, national origin, disability, veteran status, or any other legally protected status.\n\nAccessibility Accommodations\n\nNormal Computing is committed to providing reasonable accommodations to individuals with disabilities. If you need assistance or an accommodation due to a disability, please let us know at accommodations@normalcomputing.com.\n\nPrivacy Notice\n\nBy submitting your application, you agree that Normal Computing may collect, use, and store your personal information for employment‑related purposes in accordance with our Privacy Policy.\n\n#J-18808-Ljbffr","company":"Normal Computing","rawCompany":"normal computing","city":"New York","state":"NY","isRemote":false,"isActive":false,"createdAt":"2026-07-09T03:34:04.129Z","occupations":[{"code":"17-2061.00","title":"Computer Hardware Engineers","slug":"computer-hardware-engineers"},{"code":"17-2072.00","title":"Electronics Engineers, Except Computer","slug":"electronics-engineers-except-computer"},{"code":"17-2199.00","title":"Engineers, All Other","slug":"engineers-all-other"}],"industries":[{"code":"334413","title":"Semiconductor and Related Device Manufacturing","slug":"semiconductor-and-related-device-manufacturing"},{"code":"333242","title":"Semiconductor Machinery Manufacturing","slug":"semiconductor-machinery-manufacturing"},{"code":"334111","title":"Electronic Computer Manufacturing","slug":"electronic-computer-manufacturing"}],"jobPosting":{"@context":"https://schema.org","@type":"JobPosting","title":"RTL Design Engineer","description":"About Normal Computing\nNormal Computing builds silicon that turns thermal noise from an obstacle into a computational resource. Conventional chips spend most of their energy forcing determinism onto physics; ours compute with it. Stochastic, in‑memory, asynchronous: the result is 10-100× more AI inference per dollar, per watt.\n\nWe co-design the full stack: AI‑native EDA systems in production with the world's largest semiconductor companies, and the advanced ASICs they make possible. Backed by $85M+ from the world's leading deep‑tech investors and built by scientists, engineers, and operators from the labs that built modern computing.\n\nNormal works as one team across New York, Silicon Valley, London, Copenhagen, and Seoul. We hire people who want the hardest version of their craft, across every discipline, at every seniority.\n\nThe Role\nAs an RTL Design Engineer at Normal, you will design and verify the digital logic at the heart of Normal's thermodynamic hardware. This work sits at the intersection of classical ASIC design, novel computing architectures, and a development environment where the hardware and the algorithms are built together, not in sequence.\n\nYou will own RTL from microarchitecture to tapeout: writing synthesizable SystemVerilog, authoring verification environments in UVM, cocotb, or formal tools, and working closely with architecture and physical design to make sure what you build is both functionally correct and physically realizable. Because Normal's chips are not standard accelerators, the RTL engineer here is closer to first‑principles decisions than at a larger company. You will be shaping architecture, not just implementing it.\n\nThis is a role for an engineer who does not draw a hard line between design and verification. The strongest candidates have taped out silicon, written both RTL and testbenches, and are comfortable working in an environment where the specification is still being developed in parallel.\n\nWhat You'll Own\n\nRTL Design: Write and own synthesizable RTL in SystemVerilog across blocks ranging from datapath logic to control and memory interfaces.\n\nVerification: Author functional verification environments using UVM, cocotb, formal property checking, or a combination.\n\nMicroarchitecture: Work with architecture to translate high‑level specifications into implementable microarchitectures.\n\nPhysical Design Collaboration: Collaborate with physical design on timing closure, floorplanning constraints, and DFT.\n\nSimulation Infrastructure: Develop and maintain simulation infrastructure, regression pipelines, and coverage closure flows.\n\nDesign Reviews: Participate in design reviews and contribute to architecture decisions, not just implementation.\n\nTapeout & Bring‑up: Support tapeout preparation, integration, and post‑silicon bring‑up as needed.\n\nWhat Makes You a Great Fit\n\nHands‑on experience writing production RTL in SystemVerilog and closing it through synthesis and place‑and‑route\n\nExperience authoring verification environments in UVM, cocotb, formal, or equivalent, not just running existing testbenches\n\nAt least one tapeout in your background, from any node and any company size\n\nComfort operating across both design and verification without treating them as separate disciplines\n\nExperience working on datapaths, pipelines, or custom logic where the microarchitecture was not fully specified upfront\n\nStrong debugging instincts across simulation, waveforms, and formal counterexamples\n\nAbility to work directly with architects and physical designers without needing a large intermediary layer\n\nIndustry experience in ASIC or SoC design\n\nBonus Points\n\nExperience at an AI chip company where design and verification were tightly coupled\n\nOpen‑source RTL contributions to projects like Chipyard, OpenTitan, or CVA6\n\nFamiliarity with RISC‑V or other open ISAs\n\nExperience with AI‑assisted RTL or EDA tooling in your design workflow\n\nExposure to physical design constraints, floorplanning, or timing‑driven RTL development\n\nEqual Employment Opportunity Statement\n\nNormal Computing is an Equal Opportunity Employer. We celebrate diversity and are committed to creating an inclusive environment for all employees. All qualified applicants will receive consideration for employment without regard to race, color, religion, sex, sexual orientation, gender identity, national origin, disability, veteran status, or any other legally protected status.\n\nAccessibility Accommodations\n\nNormal Computing is committed to providing reasonable accommodations to individuals with disabilities. If you need assistance or an accommodation due to a disability, please let us know at accommodations@normalcomputing.com.\n\nPrivacy Notice\n\nBy submitting your application, you agree that Normal Computing may collect, use, and store your personal information for employment‑related purposes in accordance with our Privacy Policy.\n\n#J-18808-Ljbffr","datePosted":"2026-07-09T03:34:04.129Z","dateModified":"2026-07-09T03:34:04.129Z","hiringOrganization":{"@type":"Organization","name":"Normal Computing","sameAs":"https://jobsearcher.com"},"jobLocation":{"@type":"Place","address":{"@type":"PostalAddress","addressLocality":"New York","addressRegion":"NY","addressCountry":"US"}},"identifier":{"@type":"PropertyValue","name":"JobSearcher","value":"0d4b797dd829a2f48d4911ed"},"url":"https://jobsearcher.com/jobs/0d4b797dd829a2f48d4911ed"}}