Senior Avionics FPGA Design & Verification Engineer - TeraWave

Blue Origin•Los Angeles, WA

About The Position

At Blue Origin, we envision millions of people living and working in space for the benefit of Earth. We’re working to develop reusable, safe, and low-cost space vehicles and systems within a culture of safety, collaboration, and inclusion. Join our team of problem solvers as we add new chapters to the history of spaceflight! Blue Origin is pioneering the future of space-based communications with TeraWave, a revolutionary satellite communications network designed to deliver symmetrical data speeds of up to 6 Tbps anywhere on Earth. This multi-orbit constellation will consist of optically interconnected satellites in low Earth orbit (LEO) and medium Earth orbit (MEO), providing enterprise-grade connectivity for critical operations worldwide. As part of the Spacecraft Systems team, you will develop vehicle avionics with Field Programmable Gate Arrays (FPGA) at the core for vehicle control and operation with processing and integration of various system interfaces. As part of the development team, you will design, develop, and verify high-performance avionics hardware for space flight vehicles. You will drive requirements definition, modeling, analysis, design, test, and production release of on-vehicle systems. Your responsibilities will encompass electronic requirements, architecture concepts, detailed design development, design verification and test. In addition, you will follow avionics designs through formal verification, environmental qualification, release, and participate in integration and flight support activities.

Requirements

B.S. or higher in Electrical Engineering, Computer Engineering, or a related discipline
7+ years of experience in digital design and SoC architecture
Proficiency in SystemVerilog or Verilog for RTL implementation
Experience with SoC integration and interface design
Understanding of digital timing and synchronization concepts
Knowledge of industry-standard bus protocols (AXI, AHB, etc.)
Familiarity with synthesis tools and RTL-to-gates methodology
Experience with simulation and debugging of complex digital systems
Strong background in Field Programmable Gate Arrays (FPGA) and FPGA tool flow
Solid knowledge of simulation-based test using Questasim, and evaluation of code coverage metrics

Responsibilities

Design and develop digital hardware architectures for high reliability satellite avionics
Create and implement RTL code for critical SoC blocks and interfaces
Contribute to architecture optimization for performance, power, and cost trade-offs
Collaborate on design verification to ensure robust and reliable designs
Participate in advanced verification techniques: Assertion-Based Verification, Universal Verification Methodology, and/or Constrained Random Verification
Support prototype development for early validation
Document design specifications, architecture decisions, and implementation details
Participate in design reviews and technical discussions with cross-functional teams
Troubleshoot and debug complex digital design issues
Implement interfaces between digital hardware and firmware/software components
Research and evaluate new architectural approaches to meet evolving requirements