![3d frog frenzy could not open file resource.dat 3d frog frenzy could not open file resource.dat](https://nfts.wtf/wp-content/uploads/2021/08/Mobile-Sync-Scam.jpg)
In the “gPET.cu” file, the simulation process is defined. “detector.cu” also defines some other functions related to the detector. “iniDevice.cu”, “initialize.cu” and “detector.cu” contain main initialization functions for device, source and phantom, and detector, respectively. “main.cu” file contains the main function of the package. “gPET.h” file then defines all struct data types and declare functions for both host and device. The “externCUDA.h” file gives all extern declarations. “gPETInternal.h” defines all global variables used in the host while “gPET_kernals.h” defines that for the device. “Constants.h” file defines global constants.
#3D FROG FRENZY COULD NOT OPEN FILE RESOURCE.DAT CODE#
The main functions of the code files are as follows. data folder, for all predefined, code-running-critical data, e.g., material data, cross section, etc. input folder, for all user input files, including source, phantom, detector configurations, etc. “*.in” file, for the entire simulation configuration “*.h” files, for programming function declaration and global memory definition “*.cu” files, for programming function definition and logic flow control The compilation should also work for CUDA version later than 5.0. To run the code, a single GPU card supporting CUDA platform is required to be installed. Correspondingly, the time cost for the simulation is expected to be longer than that reported in the paper listed above. For more details or for citation, please refer to the following publication:Ĭaution: In this released version, double precision floating-point numbers are employed for recording time in the entire simulation, including those computations on the GPU-end, to improve accuracy. Yujie Chi's group in the University of Texas at Arlington. Xun Jia's group in the University of Texas Southwestern Medical Center and Dr. This is a GPU-based MC simulation package dedicated for PET simulation, co-developed by reseachers from Dr. *Corresponding authors: significant contributors in the development of the code include: Innovative Technology Of Radiotherapy Computation and Hardware (iTORCH) Laboratory, Department of Radiation Oncology, University of Texas Southwestern Medical Center, Dallas, TX 75390, USA. Please useĭepartment of Physics, University of Texas at Arlington, Arlington, TX 76019, USA.