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Effects On Modern Microprocessors and Method of Shielding From Neutron Irradiation in Photon Therapy Vaults

J Herrington1*, Y Chen1, S Ahmad1, (1) University of Oklahoma Health Sciences Center, Oklahoma City, OK

Presentations

(Sunday, 7/12/2020)   [Eastern Time (GMT-4)]

Room: AAPM ePoster Library

Purpose: To quantify and reduce frequency of neutron induced single event CPU-errors in photon treatment vaults and develop affordable and effective neutron shielding for high-performance computing in radiation treatment rooms.

Methods: Computers used Intel Core2Duo 65nm CPUs and NVIDIA QuadroNVS 295 graphics cards. They were placed in the treatment room ~3.21m from linac, out of beamline, and left running for exposure to neutron irradiation for 24 months including delivery of 621,984MU of 18x and 4,122,374MU of 6X. Neutron induced errors were recorded during exposure. Computer stability was tested for 6 hours per 90 days. Geant4 simulation approximated the reduction in thermal and epithermal neutron flux for a CPU shielded with 60x100x100cm3 borated polyethylene tank filled with mineral oil. Testing of temperature and stability of computer with and without oil was done using AMD Ryzen7 3700X and NVIDIA 1070GTX under maximum load.

Results: CPU core errors were induced by neutron exposure resulting in unrecoverable OS crash. Average rate of errors/MU was 8.039x10-5 at 18X and 0 at 6X. Shielding simulation resulted in a neutron flux of 4.66% of unshielded flux. Testing of computer temperature and stability resulted in rapid overheating of system without oil. Ambient temperature under load reached 77.4°C with significant loss of stability and consistent crashes noted above 70°C. When submerged in oil, temperature increase reached a maximum of 51.4°C after six hours. No system instability was observed at this temperature.

Conclusion: Computer systems in treatment room environments experience stochastic errors due to neutron irradiation causing system instability. High performance and modern computer are more susceptible. Standard shielding using only borated polyethylene resulted in overheating. Combining borated polyethylene with mineral oil resulted in a stable system. Simulation of neutron flux reduction of this shielding configuration in Geant4 demonstrated a greater than 95% reduction in thermal and epithermal neutron flux.

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