RayStation can be deployed as different applications which represent groups of tasks in the clinical workflow. The applications are RayStation Planning, RayStation Anatomy, RayStation Doctor, RayStation Evaluation, RayStation Simulation and RayStation Tracker. The capabilities of an application is provided by the products it includes.

Workstation Hardware (minimum requirement and based on availability) :
- Make-Model Dell T7920
- OS Windows 10 Professional
- Processor Dual Intel Xeon Gold 6128
- RAM 64GB (4x16GB) RDIMM ECC
- HDD Dual 256 GB SATA Solid State Drive in Raid 1
- Dual 1.8TB SAS hard drive in RAID 1 GPU nVIDIA Quadro P6000
- Support 3 Year ProSupport Next Business Day On-Site Service
- Diagnosis on site available (Where geographical available)
- Accessories Regional Keyboard & Mouse
- 27” LED Monitor
- Printer

RayStation Planning :
- 1 RayConformal
- 1 RayIntensity
- 1 RayElectronPlanning
- 1 RayNavigator (MCO)
- 1 RayStation Doctor / Virtual Simulation


RayStation Planning:
The Planning application is the complete treatment planning system where all steps of the planning process can be performed. The following products are included:
- RayPlatform
- RayAnatomy
- RayEvaluation
- RaySetup

RayPlatform:
- DICOM import of images (CT, PET/CT, MR, 4D-CT, and CBCT), ROIs, photon plans, electron plans, DICOM import of images, ROIs, plans and doses from iDMS (for TomoTherapy planning)
- DICOM export (requires clinical licenses) to OIS, R&V systems and DICOM archives RayStorage, setup of systems and databases
- HIPAA compliance
- Undo/redo for every function, including ROI actions, dose computations, optimizations etc.
- Auto recovery in case the system would crash
- Macro recording
- Python based scripting

RayAnatomy - Patient Modeling:
- Manual and semi-automatic organ and target delineation tools
- Model-based organ delineation
- Atlas based organ delineation using the clinic's patient database
- Intelligent ROI expansion, algebra and administration
- Streamlined handling of multiple image datasets
- Visualization of ROIs in 2D and 3D
- 4D-CT movie function
- Rigid image registration and fusion tools of multiple image series
- Supporting CT-PET/CT, MR, CBCT and 4D-CT
- Creation of 4D-CT projections (maximum, minimum, average)

RayEvaluation - Plan Evaluation
- Dose statistics and clinical goal lists
- Plan evaluation tools
- Dose comparison and weighted summation of imported doses from any other system
- Dose computation on alternative image sets
- Perturbed dose computations for robustness evaluation, e.g., isocenter shifts & density errors
RaySetup:
- Geometrical beam configuration set-up tools
- Patient set-up tool using keV-beams with DRR
- Support for multiple DRRs per beam
- Room View
- Auto-scaling of dose to prescription
- Bolus handling
- Template support for beams, clinical goals etc.
- Tools for data preparation for quality assurance
- Report templates
- MR-based planning (photons only)

RayConformal - 3D CRT Planning :
- Beam aperture with MLC and blocks
- Shielding blocks
- Circular cones
- Tools for drawing and manipulating apertures in BEV
- Automatic computation of apertures based on target ROIs and OARs
- Merging of beams for field-in-field planning

RayPhotonPhysics – Photon Dose Calculation

RayOptimizer – Optimization Algorithm

RayIntensity – IMRT Optimization:
- Direct optimization of step-and-shoot segment shapes, and segment weights
- Direct optimization of sliding window segments
- Support for all MLC equipped Elekta, Varian and Siemens LINACs
- Possible to select target ROI(s) and target margin per beam (SMLC)

RayElectronPlanning – Electron Planning
- rayElectronPhysics – Electron Dose Calculation

RayNavigator – Multi-Criteria Optimization
- An interactive navigation tool for selecting the best clinical trade-off based on fluence-based anchor plans
- Automatic tool for generating a deliverable treatment plan from this selection
- Support for SMLC, DMLC, VMAT, pencil beam scanning and tomo helical treatment techniques
- Directly deliverable MCO for DMLC, pencil beam scanning and tomo helical treatments
- Robust optimization based on density, patient setup uncertainties and multiple image

RayFallback – Fallback Planning
- Fallback planning using dose mimicking
- Plans of any modality can be replicated using photon plans with 3D-CRT (rayConformal), IMRT (rayIntensity) and/or VMAT (rayArc)
- User-defined protocols specify the setup of the fallback plans
- Fallback plans are automatically generated from the protocols
- A Fallback plan can be approved and used for delivery in future fractions

RayArc – VMAT Optimization
- Direct optimization of leaf positions and arc segment weights considering all machine limitations
- Creation of single or multiple arcs
- VMAT with constant gantry angle speed and dose rate for non-upgraded LINACs
- Support for all rotational arc capable LINACs from Elekta and Varian
- Support for rotational arc capable LINAC from Siemens

RayDeformable – Deformable Registration
- Deformable registration tools to establish mappings between CT, CBCT or MR
- Mapping and accumulation of dose between the CT-datasets
- Propagation of ROI contours or meshes between images, including 4D-CT
- Hybrid intensity and structure based deformation algorithm (GPU-based)
- Biomechanical model based deformation algorithm (MORFEUS based)
- Tools for analysis and evaluation of deformable registration