Fast and Accurate Dose Computation
Speed and accuracy for superior plan quality. Radically transform your treatment planning process with the unrivaled speed of RayStation. Computation is measured in seconds rather than minutes, so you can efficiently produce several competing treatment plans to assess different tradeoff situations and avoid interruptions. This has been shown to contribute to overall plan quality. Decreasing calculation times for VMAT planning – from around 10-17 minutes for optimization and final dose calculation to around 2-4 minutes – significantly increases the fulfillment of clinical goals*. RayStation also offers the possibility to use Monte Carlo dose algorithms**, providing the highest level of accuracy. All calculations are run on GPU to enable outstanding results like those displayed here***.
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Electron dose calculation contains the dose engine for therapeutic electron beams.
- Electron dose calculation engine uses a state-of-the art direct Monte Carlo code for energy transport in the patient and an in-house beam model to determine the phase space from the treatment unit head, including applicators.
- Beam commissioning workspace with auto-modeling.
- Extremely fast GPU based Monte Carlo dose engine for optimization and final dose of proton PBS plans with calculation times typically under five seconds
- Collapsed Cone (CC) photon dose calculation engine
Singular value decomposition photon dose calculation engine for real-time purposes - Efficient Monte Carlo (MC) for electron treatments
- Pencil-beam algorithm for proton PBS and broad beam techniques
- PBS carbon and helium dose computation using pencil-beam dose engine and RBE dose computation
Photon dose calculation contains the dose calculation engines for megavoltage photon beams, i.e. conventional linacs.
- High-accuracy photon Monte Carlo (MC) dose calculation algorithm
- Collapsed cone photon dose calculation engine with clinical accuracy
- Singular value decomposition photon dose calculation engine for real-time purposes.
- Beam commissioning workspace with auto modeling.