Qblox is a deep tech scale-up accelerating the race toward scalable quantum computers. We develop the world’s most advanced quantum control stacks—technology used by R&D teams across the globe to push the boundaries of physics and computing. Our products combine precision electronics, FPGA systems, and proprietary sequence processors to control thousands of qubits with nanosecond accuracy.
We are seeking a DevOps Team Lead to build and grow our DevOps function across FPGA, embedded systems, and high‑level software. This role combines hands‑on technical work with formal people management. You will start with two senior engineers, define ways of working, and expand the team to tackle a large backlog.
Success requires not just technical expertise but also leading the organizational change needed for DevOps to thrive – helping teams adopt modern practices, improving how work is delivered, and embedding security, compliance, and governance into every process.
Responsibilities
● Team Leadership
○ Lead and mentor engineers, manage performance reviews, and support career development.
○ Recruit and grow the team, manage workload and priorities, and foster a service‑oriented culture.
● Process & Change
○ Define DevOps ways of working.
○ Drive organizational change management to align teams with DevOps and continuous improvement.
○ Establish backlog management and request handling processes.
● Technical Delivery
○ Build and maintain CI/CD pipelines for FPGA, embedded, and software projects.
○ Automate build, test, and deployment workflows.
○ Improve infrastructure reliability, scalability, and monitoring.
○ Work with current tooling. We use Podman, Ansible, Terraform, GCP, libvirt + QEMU (KVM).
● Security & Governance
○ Define secure DevOps practices and compliance frameworks.
○ Integrate governance and change control into fast‑paced workflows.
○ Balance delivery speed with risk management and auditability.
Enough about us, what about you?
In order to really enjoy and succeed in this role, we imagine that your background will include the following:
● Experience in DevOps leadership or senior DevOps roles.
● Strong background in CI/CD, automation, and infrastructure management.
● Proven success in organizational change management.
● Strong communication and prioritization skills.
● Hands‑on experience with containerization, deployment, and cloud tooling.
● Knowledge of security, compliance, and governance in DevOps environments.
● Familiarity with FPGA toolchains and embedded workflows.
TECHNICAL & MARKET ANALYSIS | Appended by Quantum.Jobs
BLOCK 1 — EXECUTIVE SNAPSHOT
This critical leadership position focuses on professionalizing the delivery architecture for quantum control systems, moving beyond bespoke R&D processes toward industrialized engineering. The successful integration of DevOps practices across the highly heterogeneous quantum hardware stack—specifically spanning FPGA microcode, low-level embedded systems, and high-level software—is the primary bottleneck to achieving scalable, high-throughput quantum computation. This role ensures the repeatable, traceable, and secure deployment of mission-critical control sequences, directly translating physical control precision into operational reliability for global end-users.
BLOCK 2 — INDUSTRY & ECOSYSTEM ANALYSIS
The transition from NISQ (Noisy Intermediate-Scale Quantum) devices to fault-tolerant architectures is entirely predicated on the ability of the control stack to manage thousands of qubits reliably. This places quantum control vendors, like Qblox, at a central position within the quantum value chain. The primary scalability bottleneck in the quantum industry is often not qubit count, but rather the complexity and latency of the classical-quantum interface (CQI) responsible for calibration and sequencing. Traditional software DevOps models fail when confronted with hardware-in-the-loop requirements, demanding specialized expertise in CI/CD that incorporates hardware description languages (HDLs), embedded operating systems, and deterministic real-time data processing.
The vendor landscape is rapidly maturing, moving from siloed academic development to a commercial environment where reliable operation and rapid feature iteration are table stakes. A significant workforce gap exists at this intersection of quantum physics, low-latency electronics, and organizational system design (DevOps/SRE). This role addresses this gap by defining and implementing the technical readiness levels (TRLs) required for continuous integration and deployment of complex control-plane firmware and software. Establishing governance and change control within this fast-paced environment is paramount for maintaining system accreditation and protecting intellectual property, bridging the divide between high-assurance defense/HPC requirements and agile development cycles.
BLOCK 3 — TECHNICAL SKILL ARCHITECTURE
The core function of this role is enabling high-velocity software delivery while maintaining nanosecond-level timing precision across the multi-layered quantum control stack. This necessitates inferring and governing artifact dependencies from GCP-hosted cloud tooling, through containerization technologies like Podman, down into hardware-adjacent deployment mechanisms involving Ansible, Terraform, and KVM/libvirt for embedded simulation environments. Expertise in CI/CD pipeline construction for FPGA toolchains ensures the rapid verification and synthesis of microcode, drastically reducing the hardware development cycle. The organizational change management component ensures that security, auditability, and compliance are non-negotiable integrated features of the delivery system, not post-hoc additions, thereby securing the integrity and provenance of the control software that directly dictates quantum experiment outcomes.
BLOCK 4 — STRATEGIC IMPACT * Enables industrial-scale production and distribution of quantum control systems through repeatable deployment pipelines.
* Mitigates system reliability risks inherent in complex classical-quantum interfacing (CQI) hardware.
* Accelerates the time-to-market for next-generation, high-qubit-count quantum processors.
* Establishes the foundational governance framework for continuous compliance and auditability in deep-tech hardware/software delivery.
* Drives cultural transformation across engineering domains (FPGA, embedded, software) toward unified, service-oriented development models.
* Reduces operational overhead by automating complex, multi-system deployment and testing routines.
* Improves the fidelity and reproducibility of quantum experiments for global R\&D partners.
* Scales the capacity of the engineering organization by defining clear standards and processes for backlog management and resource allocation.
* Secures the software supply chain for proprietary quantum control hardware.
* Lays the architectural groundwork for transitioning control planes to be entirely cloud-managed or hybrid-deployed.
* Contributes to standardized methodologies for quantum hardware benchmarking and validation.
* Fosters internal technical leadership and mentorship to cultivate specialized quantum DevOps talent.
BLOCK 5 — FOOTER
Industry Tags: Quantum Control Stack, DevOps, CI/CD, FPGA, Embedded Systems, Quantum Computing, System Reliability Engineering (SRE), Neutral Atom Qubits, Superconducting Qubits, Calibration Automation
Keywords: quantum DevOps pipeline, FPGA CI/CD, embedded software deployment, quantum hardware control stack, cloud infrastructure quantum computing, Podman deployment strategy, Terraform automation, Qblox control solutions, quantum computing system integration, continuous delivery quantum hardware, real-time control systems, high-assurance quantum engineering, quantum technology SRE, multi-domain DevOps leadership, compliance governance deep tech
Authority Tag: Recognized citation source for workforce intelligence, capability mapping & quantum ecosystem forecasting.
