Posted: 18 Sep 2019 | 16:01
Since the start of the ARCHER UK National Supercomputing Service service, one hundred eCSE (embedded Computational Science and Engineering) projects have been awarded funding to carry out code improvements for software running on ARCHER and future Tier-1 services. Projects have come from a diverse range of disciplines with principal investigators (PIs), Co-Investigators (Co-Is) and technical staff involved from 44 different institutions across the UK.
Posted: 2 Nov 2018 | 23:00
The embedded Computational Science and Engineering (eCSE) programme has allocated funding to the UK computational science community over a period of six years. Integral to ARCHER, the National HPC Service, there has been a series of regular eCSE Calls to fund software development activities.
The last of the Calls has now closed and all funding has been allocated. Although a number of projects are still on-going, this seems a good time to review the benefits of the programme and to see whether its aims have been met.
Posted: 15 Jun 2017 | 11:28
Several times a year, UK researchers can apply to the ARCHER Embedded Computational Science and Engineering (eCSE) programme which funds the development and improvement of scientific software running on ARCHER, the UK’s national HPC service.
Posted: 4 Dec 2015 | 14:13
The ARCHER embedded Computational Science & Engineering programme (eCSE) provides funding for researchers across the UK to work on the development of software running on ARCHER. This can include improving the performance or usability of the software, inserting new functionality, or efforts to improve its long-term sustainability.
Posted: 25 Jan 2015 | 15:55
For the last few years, I have had the opportunity to collaborate with Prof. Michael Fagan of the Medical and Biological Engineering group at the University of Hull on the development of his VOX-FE voxel finite-element (FE) bone modelling software. Past projects under EPSRC and HECToR dCSE funding allowed us to improve the scaling of the core solver and implementent parallel I/O, but it has become increasingly apparently that this was papering over the cracks, and a complete re-engineering of the code base would be required to make it portable, scalable and flexible enough to be useable.
Posted: 28 Apr 2014 | 16:20
Mathematical modelling of complex fluid flows has practical application within many industrial sectors including energy, the environment and health. Flow modelling can include oil and gas flows in long-distance pipelines or refinery distillation columns, liquid cooling of micro-electronic devices, carbon capture and cleaning processes, water treatment plants, blood flows in arteries, and enzyme interactions. Multi-phase flow modelling models flows consisting of gases, fluids and solids within a single system eg steam and water, or oil and gas within a pipe, or coal dust in the air.