Abstract: The present disclosure is directed to a scheduler in a real time operating system for a central processing unit (CPU) that runs a number of, and diverse set of processes in a ready queue, the scheduler when executed by the CPU performs steps including dividing the ready queue of P processes into two lists, list 1 contains n processes while list 2 contains m processes, where n+m=P, averaging total execution times of the processes in each list, generating a first quantum s based on an average of each list, generating a second quantum t based on the average of each list, comparing total execution time of a candidate process which needs to be assigned to the CPU with the quantum values, and assigning the value of a quantum, based on the comparing, that is the quantum value closest to the total execution time of the candidate process, to that process as a time period for running on the CPU.

Abstract: The present disclosure is directed to a scheduler in a real time operating system for a central processing unit (CPU) that runs a number of, and diverse set of processes in a ready queue, the scheduler when executed by the CPU performs steps including dividing the ready queue of P processes into two lists, list 1 contains n processes while list 2 contains m processes, where n+m=P, averaging total execution times of the processes in each list, generating a first quantum s based on an average of each list, generating a second quantum t based on the average of each list, comparing total execution time of a candidate process which needs to be assigned to the CPU with the quantum values, and assigning the value of a quantum, based on the comparing, that is the quantum value closest to the total execution time of the candidate process, to that process as a time period for running on the CPU.

Abstract: A building system is disclosed comprising a beam and column connection particularly suited for mass timber buildings. A first connection arrangement comprises a projection and slot arrangement with the beam being supported on an upwardly facing bearing surface. A second connection arrangement may be provided to tie the column to the beam. The system also discloses arrangements to accommodate greater tolerance at the connection and to provide an ability to accommodate limited rotation under dynamic loading.

Abstract: The present disclosure is directed to a scheduler in a real time operating system for a central processing unit (CPU) that runs a number of, and diverse set of processes in a ready queue, the scheduler when executed by the CPU performs steps including dividing the ready queue of P processes into two lists, list 1 contains n processes while list 2 contains m processes, where n+m=P, averaging total execution times of the processes in each list, generating a first quantum s based on an average of each list, generating a second quantum t based on the average of each list, comparing total execution time of a candidate process which needs to be assigned to the CPU with the quantum values, and assigning the value of a quantum, based on the comparing, that is the quantum value closest to the total execution time of the candidate process, to that process as a time period for running on the CPU.

Abstract: The present disclosure is directed to dual core processor scheduling based on relative time quantum. A time quantum is calculated by taking the average of the process burst times for each roughly half portion of a ready queue list and then applying addition and subtraction to the relative values. A first CPU is assigned the quantum based on addition while the second CPU is assigned the quantum based on subtraction.

Abstract: The present disclosure is directed to dual core processor scheduling based on relative time quantum. A time quantum is calculated by taking the average of the process burst times for each roughly half portion of a ready queue list and then applying addition and subtraction to the relative values. A first CPU is assigned the quantum based on addition while the second CPU is assigned the quantum based on subtraction.