Berkeley Lab's Computational Research Division was featured in a video at the ICIAM19 conference. Select "Read More" to watch on YouTube. » Read More
Through DOE's HPC4Mfg program, PPG - one of the world's largest paint manufacturers - is collaborating with applied mathematicians in the Computational Research Division on computational models that will help optimize paint design and application to reduce energy consumption. » Read More
A team of computer and environmental scientists are developing a computational tool that will allow groundwater managers to plan and manage their precious water resources more sustainably, leading to improved resistance to droughts. » Read More
As he prepared to head to ISC19 to give a keynote address on the topic, CRD's John Shalf shared his thoughts on what the future holds for computing technologies and architectures in the era beyond exascale. » Read More
Researchers from a number of DOE national labs, including Berkeley Lab, are collaborating to develop new exascale-level code to take astrophysical research to the next level. » Read More
CRD’s Mauro Del Ben, Osni Marques, and Andrew Canning are developing new Eigensolver algorithms based on an iterative approach using an unconstrained energy functional scheme to improve scaling on parallel computing architectures.
Through DOE's HPC4Mfg program, PPG - one of the world's largest paint manufacturers - is collaborating with applied mathematicians in the Computational Research Division on computational models that will help optimize paint design and application to reduce energy consumption.
A number of staff from Berkeley Lab’s Computational Research Division are presenting talks and posters at the International Congress on Industrial and Applied Mathematics in Valencia, Spain, July 15-19, 2019.
Five Berkeley Lab researchers were recently honored with a Best Paper Award at the International Conference on Computational Science, held in Faro, Portugal, June 12-14.
As he prepared to head to ISC19 to give a keynote address on the topic, CRD's John Shalf shared his thoughts on what the future holds for computing technologies and architectures in the era beyond exascale.
Ptycho-tomography and spectro-ptychography are the most computationally intensive techniques being developed at the Advanced Light Source and light sources around the world.
The Applied Mathematics Department develops advanced mathematical models and efficient computational algorithms for solving scientific and engineering problems of interest to the Department of Energy, including in particular those related to energy and environment.
The Computer Science Department performs research on Computer Architectures, Computer Languages, Systems Software, Performance, and Algorithms.
The mission of the Computational Science Department is to perform innovative research that enhances high-performance computational science application codes used in scientific discovery across a broad range of scientific disciplines.
The mission of the Computational Science Department is to perform innovative research that enhances high-performance computational science application codes used in scientific discovery across a broad range of scientific disciplines.
