Equipment

UWMC & Fred Hutch Cancer Center provide an excellent research environment, using a variety of radiation modalities, including proton and neutron therapy, to treat a large number of diverse patients - excellent for data driven research. We have two FLASH-capable proton machines and a radiation biology lab located just next to the department at UWMC.

Computational Equipment


Team members working on computationally intensive projects have their own GPU workstations with GeForce RTX4090's - for more demanding training we have a Lambda Vector GPU server (AMD Ryzen Threadripper PRO 16-core, 32-Thread Processor, 256GB memory & 2 NVIDIA Quadro A6000 GPUs with 48GB memory each - NVLink compatible)




Software / Code

Most of our code is maintained on internal githubs, but we try to publish more polished versions of code associated with publications for other people to use:

1. HEDOS : A computational framework for HEmatological DOSe calculation in radiotherapy patients --> https://github.com/mghro/hedos

2. Modeling resistance development during EGFR-targeted tyrosine kinase inhibitors (TKIs) in non-small cell lung cancer patients: model includes the possible effect and clinical benefit of chemo-radiation/TKI combination regimen in locally-advanced disease --> https://github.com/bomcclatchy/Modeling-Multimodal-TKI-ChemoRadiation