31 web-developer-university-of-liverpool positions at Lawrence Berkeley National Laboratory
Sort by
Refine Your Search
-
Listed
-
Category
-
Program
-
Field
-
Administration (NNSA) nonproliferation mission. Fellows conduct their own project, build cross-lab networks, and receive targeted career and leadership development through the Next Generation Nonproliferation
-
for Doudna, NERSC's next supercomputer, and develop I/O and data management solutions for the American Science Cloud. Working with lab, academic, and industry partners, you will help design and deploy advanced
-
Do: Lead or contribute to multidisciplinary projects developing mechanical, mechatronic, or opto-mechanical systems that support LBNL's scientific mission. Create high-quality 3D CAD models and
-
partners at NVIDIA and Dell to prepare high-impact workflows for 12,000+ NERSC users. What You Will Do: Contribute to one or more NESAP AI-based scientific workflows targeting NERSC HPC resources, edge
-
. The focus of this role is to contribute to the rapidly evolving quantum computing technologies by developing the FPGA based control systems for a wide range of advanced qubit technologies, including
-
projects that target NERSC HPC systems. Analyze and optimize quantum-related workflows, including classical simulation of quantum systems. Develop and apply advanced workflow capabilities such as on-system
-
computation and data in their research. Collaborate with scientists and Science IT specialists to develop and translate those needs into information technology requirements & Networks with key contacts outside
-
the full stack, and develop scalable classical simulations (e.g., tensor networks)--including performance bounds beyond brute-force classical simulability. This role is deeply collaborative with the Advanced
-
Daniel Carney. What You Will Do: Develop advanced techniques to surpass the Standard Quantum Limit (SQL) and enable quantum-coherent readout of multiple devices. Conduct original research both
-
the development and application of a digital twin approach, aimed at bridging the gap between theoretical predictions, data interpretation, and experimental/spectroscopic observations. What You Will Do: Design