Flexcompute Job Post Flexcompute is a cutting-edge technology startup that specializes in ultra-fast simulation technology. Our products are utilized by companies in designing and optimizing technology products, with applications ranging from designing airplanes and cars to
Program Manager HyperLight is at the forefront of the commercialization of thin-film lithium niobate (TFLN) integrated photonics - a material and process technology that is enabling high-performance, scalable optical components across AI/datacom infrastructure, hyperscale computing, quantum computing, sensing, and
Flexcompute Sales Director & Team Lead Flexcompute is a cutting-edge technology startup that specializes in ultra-fast simulation technology. Our products are utilized by companies in designing and optimizing technology products, with applications ranging from designing airplanes
This job is with Novartis, an inclusive employer and a member of myGwork – the largest global platform for the LGBTQ+ business community. Please do not contact the recruiter directly. Summary Location: Cambridge USA, #LI-Hybrid 3
Flexcompute Sales Director & Team Lead Flexcompute is a cutting-edge technology startup that specializes in ultra-fast simulation technology. Our products are utilized by companies in designing and optimizing technology products, with applications ranging from designing airplanes
The mission of the Quantum-Enabled Computation Group is to explore, prototype, and demonstrate transformative computational advantage by leveraging quantized and entangled signals. Our work falls into three key thrusts: quantum computing with superconducting qubits, classical computing with single flux
The Advanced Quantum Technologies Group focuses on accelerating quantum computing and quantum sensing using ion and solid-state platforms. Core areas of the Group include fundamental quantum science to guide next-generation advances, quantum devices (ion computing testbeds, precision clocks, magnetometers, and other sensors), and
The Optical and Quantum Communication Group develops impactful quantum and classical technologies and system prototypes for use in a wide range of challenging applications in terrestrial, space and underwater environments. Primary areas of research include the development
The Optical and Quantum Communication Group develops impactful quantum and classical technologies and system prototypes for use in a wide range of challenging applications in terrestrial, space and underwater environments. Primary areas of research include the development
The mission of the Quantum-Enabled Computation Group is to explore, prototype, and demonstrate transformative computational advantage by leveraging quantized and entangled signals. Our work falls into three key thrusts: quantum computing with superconducting qubits, classical computing with single flux
The mission of the Quantum-Enabled Computation Group is to explore, prototype, and demonstrate transformative computational advantage by leveraging quantized and entangled signals. Our work falls into three key thrusts: quantum computing with superconducting qubits, classical computing with single flux
Flexcompute is a cutting-edge technology startup that specializes in ultra-fast simulation technology. Our products are utilized by companies in designing and optimizing technology products, with applications ranging from designing airplanes and cars to wind turbines and
HyperLight is at the forefront of the commercialization of thin-film lithium niobate (TFLN) integrated photonics - a material and process technology that is enabling high-performance, scalable optical components across AI/datacom infrastructure, hyperscale computing, quantum computing, sensing, and more. Founded
HyperLight is at the forefront of the commercialization of thin-film lithium niobate (TFLN) integrated photonics - a material and process technology that is enabling high-performance, scalable optical components across AI/datacom infrastructure, hyperscale computing, quantum computing, sensing, and beyond. Founded
MIT Lincoln Laboratory’s Advanced Technology Division develops advanced materials, devices, and subsystems that have broad impact on U.S. Government, industry, and academia. The Division has made a wide range of important contributions during the Laboratory’s
The mission of the Advanced Materials and Microsystems Group in the Advanced Technology Division is to research and develop a broad array of electronic, electro-optic, and RF materials and devices to develop leap-ahead capability in
Microfabrication Engineering Co-Op The Microelectronics Laboratory is seeking students eager to apply their science and engineering skills in the US Government’s most capable wafer fabrication facility. Successful candidates will create and improve wafer fabrication
MIT Lincoln Laboratory’s Microelectronics Laboratory is a 200mm wafer facility with commercial-class equipment serving national security and economic interests. The facility processes full-flows for a range of integrated circuit technologies including 90 nm fully depleted
MIT Lincoln Laboratory’s Microelectronics Laboratory is a 200mm wafer facility with commercial-class equipment serving national security and economic interests. The facility processes full-flows for a range of integrated circuit technologies including 90 nm fully depleted