Rivian

Principal NPU Microarchitect

Rivian$218K — $312K *
Transportation
Less than 5 years of experience
Job Overview by Ladders

Qualifications

  • Deep expertise in computer architecture and silicon microarchitecture with successful project completion from concept to production.
  • Strong understanding of machine learning inference hardware components and their optimization.
  • Experience designing specialized compute engines like NPUs or TPUs.
  • Expert knowledge of on-chip memory hierarchy and advanced memory management techniques.
  • Proven ability to evaluate architectural tradeoffs through analytical performance modeling.
  • Excellent communication and collaboration skills across various technical teams.

Responsibilities

  • Define and evolve the microarchitecture for the NPU core focusing on efficiency for deep learning workloads.
  • Architect solutions for Rivian's custom hardware model, including processing array and silicon partitioning.
  • Drive architectural tradeoffs concerning performance, power, and scalability.
  • Lead memory management strategies for efficient data movement in hardware architecture.
  • Collaborate with cross-functional teams to ensure effective translation of ML models to hardware architecture.
  • Establish requirements for system completions such as correctness and observability.
  • Construct performance models to evaluate and guide design decisions against production workloads.

Benefits

  • Comprehensive healthcare benefits including medical, dental, and vision.
  • Paid vacation and sick leave.
  • 401(k) Plan participation opportunities.
  • Employee Stock Purchase Program eligibility.
  • Coverage begins on the first day of employment for full-time employees.
Full Job Description
Role Summary

We are seeking a Principal Microarchitect to lead the definition of Rivian's next-generation Neural Network Accelerator Engine (NPU) microarchitecture. This role is aligned to Rivian's Professional track at RIV-8 (Principal), where the expectation is broad technical expertise, ownership of critical silicon design matters, and work that shapes future vehicle computing platforms.

You will drive the hardware microarchitecture of the compute core with emphasis on execution datapath design, hardware scheduling, quantization-aware execution units, silicon partitioning, and performance scalability for production deep learning workloads. At Rivian, the RAP1 SoC compute engine includes a large processing array (e.g., systolic arrays or tensor cores), configurable partitioning, instruction DMA engines, data DMA engines, and substantial on-chip SRAM. This is a deeply cross-functional silicon architecture role spanning compute logic, memory hierarchy/movement, hardware-software co-design, and physical system constraints.

This is a silicon/hardware microarchitecture role focused on ASIC/SoC design for AI compute accelerators. It is not an IT networking, infrastructure, or telecommunications position.

Responsibilities

  • Define and evolve the NPU core microarchitecture, including compute datapaths, instruction flow, hardware scheduling strategy, quantization support, and execution efficiency for deep learning inference workloads.
  • Architect solutions that map effectively onto Rivian's custom hardware model, including the processing array, silicon partitioning strategy, and coordination of instruction and data movement across the engine.
  • Drive architectural tradeoffs across PPA (Performance, Power, Area), utilization, latency, and scalability.
  • Lead the definition of mechanisms for efficient movement of tensor activations, weights, and outputs through on-chip and off-chip memory pathways and high-throughput DMA architecture.
  • Partner closely with compiler, model, firmware, RTL design, hardware verification, and SoC teams to ensure ML models are translated into efficient executable flows for the accelerator. Rivian's compiler flow translates neural network model descriptions into raw instruction streams executed on the hardware, making tight hardware-software co-design essential.
  • Define architectural requirements for correctness, observability, resiliency, and debuggability, including support for silicon-level error handling, recovery hooks, and functionally safe execution flows where needed.
  • Build cycle-accurate or architectural performance models, evaluate hardware bottlenecks, and guide design decisions with data across representative production workloads.
  • Influence long-range accelerator direction, establish technical principles, and serve as a key architecture voice across the silicon organization. At the RIV-8 level, this role is expected to contribute to company objectives and use broad expertise to resolve critical silicon design matters.
  • Mentor engineers across architecture and implementation disciplines and raise the technical bar for AI hardware accelerator design at Rivian.

Qualifications

  • Deep expertise in computer architecture, logic design, and silicon microarchitecture, with a strong track record of taking complex compute blocks from concept through tape-out and production.
  • Strong understanding of machine learning inference hardware components, including custom execution datapath design, hardware-managed scheduling, numerical formats, quantization, and microarchitectural performance optimization.
  • Direct experience architecting, modeling, or designing specialized compute engines such as NPUs, TPUs, AI accelerators, vector/SIMD/tensor processors, or systolic arrays.
  • Direct experience architecting, modeling, or designing specialized compute engines such as NPUs, TPUs, AI accelerators, vector/SIMD/tensor processors, or systolic arrays.
  • Expert knowledge of on-chip memory hierarchy and hardware data movement, including SRAM bank organization, high-throughput DMA engines, multi-buffered structures, bandwidth management, and latency hiding techniques.
  • Experience working across the hardware-software boundary, explicitly partnering with compiler teams, runtime development, or ML model deployment teams on hardware-software co-design.
  • Proven ability to evaluate architectural tradeoffs using cycle-level, trace-driven, or analytical performance modeling, analysis, and empirical workload characterization.
  • Excellent communication skills and the ability to drive technical alignment across RTL design, hardware verification, physical design, firmware, compiler, and product teams.
  • Deep expertise in computer architecture and hardware microarchitecture, with a strong track record designing complex silicon blocks from concept through production.
  • Strong understanding of neural network inference hardware, including datapath design, scheduling, numerical formats, quantization, and performance optimization.
  • Experience architecting or optimizing specialized compute engines such as NPUs, AI accelerators, vector/tensor processors, or systolic-array-based architectures.
  • Strong knowledge of memory hierarchy and data movement, including SRAM organization, DMA-based transfer models, buffering, bandwidth management, and latency hiding.
  • Experience working across hardware and software boundaries, especially with compiler, runtime, or model deployment teams.
  • Proven ability to evaluate architectural tradeoffs using modeling, analysis, and empirical workload characterization.
  • Excellent communication skills and the ability to influence across architecture, design, verification, physical design, firmware, compiler, and product teams.
  • BS, MS, or PhD in Electrical Engineering, Computer Engineering, or a related field.

Preferred Qualifications
  • Experience with automotive SoC or safety-critical silicon development (e.g., ISO 26262, ASIL requirements).
  • Experience mapping production deep learning workloads-such as Transformers, CNNs, or Large Language Models (LLMs)-onto custom hardware fabrics, particularly in perception and autonomy contexts.
  • Familiarity with instruction-driven accelerator architectures, partitioned compute fabrics, and high-efficiency memory orchestration.
  • Hands-on experience with hardware modeling frameworks (e.g., SystemC, C++, Python architectural simulators) or pre-silicon emulation.
  • Experience defining architecture for systems that must strictly balance throughput, determinism, power efficiency, and silicon-level debuggability.


Pay Disclosure

The listed base salary range for this role is $218,000 - $312,000 for San Francisco Bay Area based applicants. This is the lowest to highest salary we in good faith believe we would pay for this role at the time of this posting. An employee's position within the salary range will be based on several factors including, but not limited to, specific competencies, relevant education, qualifications, certifications, experience, skills, geographic location, shift, and organizational needs.

We offer a comprehensive package of benefits for full-time and part-time employees, their spouse or domestic partner, and children up to age 26, including but not limited to paid vacation, paid sick leave, and a competitive portfolio of insurance benefits including life, medical, dental, vision, short-term disability insurance, and long-term disability insurance to eligible employees. You may also have the opportunity to participate in Rivian's 401(k) Plan and Employee Stock Purchase Program if you meet certain eligibility requirements. Full-time employee coverage is effective on their first day of employment. Part-time employee coverage is effective the first of the month following 90 days of employment. More information about benefits is available at rivianbenefits.com.

About Rivian

Rivian is an American automaker and automotive technology company. Founded in 2009, the company develops vehicles, products and services related to sustainable transportation. Rivian has raised over $10.5 billion since 2019, with investments from Amazon, Ford, and Cox Automotive. The company's first two vehicles, the R1T and R1S, are electric vehicles that are expected to be released in 2021. Rivian has also announced plans to produce electric delivery vans for Amazon. The company has received praise for its focus on sustainability and its commitment to using recycled materials in its vehicles.
Learn more about Rivian
Size
10,000 employees
Market Cap
$16.8 billion
Industry
Founded
2009
NASDAQ

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