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System Software Engineer, Networking

Role overview

Qualifications

  • Strong experience designing and operating data center or HPC networks, ideally supporting distributed AI or other tightly-coupled workloads.
  • Deep, hands-on familiarity with the networking stack across layers — L2/L3 forwarding, ECMP, BGP, RoCE, QoS, PFC, buffer tuning, and telemetry.
  • Solid software engineering fundamentals in C/C++, Python, Go, and/or Rust.
  • BS or MS in Electrical Engineering, Computer Science, or a related technical field, or equivalent practical experience.

Responsibilities

  • Architect ultra-high-bandwidth, non-blocking multi-hop scale-out fabrics for large-scale distributed AI inference.
  • Optimize lossless Ethernet and RDMA/RoCE transport using congestion-control mechanisms.
  • Work across the full stack to diagnose and remove bottlenecks wherever they live.
  • Drive routing and programming flows from control-plane intent to ASIC hardware state.

About the company

Tensordyne logo

Tensordyne

Semiconductors

Every leap in AI has followed the same pattern: first we made models bigger, then we tailored them, and now we let them think longer. Each step (scaling law) truly adds intelligence. But in the end we land on the same runway: inference, and demand is exploding while power supply lags. We asked: what if the next step isn’t stacking another law on top, but a zeroth law beneath them all. A law that changes AI math. Because after all, AI is math, trillions of multiplies, and multiplication burns watts. Tensordyne uses logarithmic compute to turn multiplies into adds, cutting power at the root. We’ve cast our proprietary logarithmic math into custom silicon, hardware, interconnect, and system software. The result: one integrated system for multimodal GenAI inference designed for Hyperscaler and Neo Cloud data centers. What this means for our customers: With Tensordyne they can run the world’s largest multimodal models for thousands of users, with fewer racks, less power, and lower cost. We’re well-funded and fast-moving, with co-headquarters in Sunnyvale, California and Munich, Germany, and a distributed team across North America and Europe. Join us to change how the world runs Gen AI.

Company details

IndustrySemiconductors
Company size51 - 200

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Job description

System Software Engineer, Networking

About Tensordyne

AI is reshaping our world, taking on cognitive work that once belonged only to humans — perceiving across modalities and environments, learning quickly, and solving hard problems. Tensordyne is an AI systems company building very high-performance, low-power generative AI inference platforms. Through custom silicon, hardware, and software, our mission is to accelerate multimodal generative AI inference at scale with safe, sustainable, high-performance systems for our hyperscaler and neocloud data center customers.

We are a well-funded, fast-paced startup with headquarters in Sunnyvale, CA and Munich, Germany, plus talented team members working remotely across North America and Europe. We take care of our people and their families with comprehensive benefits, competitive compensation, flexible spending options, and recognition programs — because category-defining technology starts with a healthy, supported team. Come help us shape the future of multimodal generative AI.

About the Role

We are looking for a Networking Engineer to design, build, and optimize the multi-hop fabrics that connect Tensordyne's AI inference systems at rack, pod, and cluster scale. This is a deeply technical, hands-on role for someone who is at home moving up and down the stack — tuning userspace services, patching kernel drivers, and reaching into firmware — to squeeze latency, bandwidth, and reliability out of large, lossless networks.

You will own networking problems end-to-end: from topology and fabric architecture through control-plane behavior, data-plane programming, and the hardware and firmware that sit underneath. The ideal candidate treats "the network" as one continuous system spanning application, operating system, ASIC, and optics, and is energized by chasing a single packet path across all of those boundaries.

This role is based on-site at our Sunnyvale, CA headquarters.

What You'll Do

  • Architect ultra-high-bandwidth, non-blocking multi-hop scale-out fabrics (Clos spine–leaf and super-spine style topologies) for large-scale distributed AI inference, and define redundancy, oversubscription, and performance targets.
  • Optimize lossless Ethernet and RDMA/RoCE transport using congestion-control mechanisms such as PFC, ECN, and DCQCN, including buffer and QoS tuning tied to real workload behavior.
  • Work across the full stack — userspace control-plane services, the Linux kernel and network device drivers, switch ASIC SDK/SAI layers, and platform firmware — to diagnose and remove bottlenecks wherever they live.
  • Drive route, neighbor, next-hop, and ECMP programming flows from control-plane intent all the way to confirmed ASIC hardware state, and build mechanisms that distinguish control-plane acceptance from SDK acceptance from hardware programming acknowledgement.
  • Select and validate switches, optics, transceivers, and cabling systems, and lead fabric bring-up, link training, SerDes tuning, and performance baselining together with hardware and platform teams.
  • Build and maintain high-resolution telemetry pipelines that surface network health, detect microbursts, and expose congestion patterns across the fleet.
  • Develop automation for provisioning, configuration management, and remediation, and contribute to reproducible build and rollout pipelines for network software and images.
  • Debug complex, cross-boundary issues that span kernel drivers, platform monitoring, routing and control-plane agents, ASIC state, optics, firmware, and topology.
  • Define deployment standards and operational best practices so fabrics can be stood up consistently across sites, and support the path from factory qualification through mass deployment.
  • Partner closely with silicon, hardware, platform, and manufacturing teams, and help evaluate next-generation networking technologies and vendor solutions.
  • Mentor teammates and help shape Tensordyne's long-term networking strategy and roadmap.

What We're Looking For

  • Strong experience designing and operating data center or HPC networks, ideally supporting distributed AI or other tightly-coupled workloads.
  • Deep, hands-on familiarity with the networking stack across layers — L2/L3 forwarding, ECMP, BGP, RoCE, QoS, PFC, buffer tuning, and telemetry — and comfort reasoning about how they interact end-to-end.
  • Demonstrated willingness and ability to optimize a system by working through multiple layers: userspace services, the Linux kernel and network drivers, and firmware/SDK layers underneath.
  • Solid software engineering fundamentals: clear interfaces, thoughtful data models, state-machine design, error handling, testing, observability, and maintainable code in C/C++, Python, Go, and/or Rust.
  • Strong hands-on skills in network configuration, debugging, and performance tuning, and a track record of chasing hard problems across software, hardware, and vendor boundaries.
  • Ability to independently drive ambiguous, open-ended networking work from problem definition through implementation, validation, rollout, and support.
  • Excellent technical communication skills, with the ability to explain complex networking concepts and practical trade-offs clearly.
  • BS or MS in Electrical Engineering, Computer Science, or a related technical field, or equivalent practical experience.

Nice to Have

  • Experience with SONiC or comparable network operating system stacks (FBOSS, Cumulus Linux, or equivalent platform software), and with SAI implementations.
  • Experience integrating or debugging switch ASIC SDKs from Broadcom, Marvell, NVIDIA, Intel, or comparable vendors.
  • Familiarity with InfiniBand and high-performance Ethernet fabric design.
  • Platform and board-level bring-up experience touching thermal and fan control, power monitoring, transceivers, watchdogs, CPLDs, OSFP/CMIS, or LEDs.
  • Experience with OpenConfig gNMI, YANG data models, or other structured telemetry.
  • Comfort with CI/CD pipelines, reproducible builds, distributed config and state management, and large-scale automation.
  • Prior technical leadership or mentoring experience.

Additional Information

To comply with U.S. export control laws and regulations, candidates for this role may need to meet certain legal status requirements as provided in those laws and regulations.

Tensordyne is an equal opportunity employer. We believe that a diverse team is better at tackling complex problems and coming up with innovative solutions. All qualified applicants will receive consideration for employment without regard to age, color, gender identity or expression, marital status, national origin, disability, protected veteran status, race, religion, pregnancy, sexual orientation, or any other characteristic protected by applicable laws, regulations and ordinances.

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Marcus Rivera

Chief Revenue Officer

m.rivera@company.com
linkedin.com/in/marcusrivera
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