A universally-designed control circuit for communicating with multiple types of sensors is disclosed. For example, a control circuit may communicate with either ring oscillator-based sensors or BJT-based sensors based on programming implemented in the control circuit. The control circuit may include programmable communication protocol circuits for communicating with the sensors and conversion circuits that convert a particular type of sensor data packet into a generic format. The generic format sensor data may then be utilized by a power management unit or other device to control operation of an integrated circuit.

A universally-designed control circuit for communicating with multiple types of sensors is disclosed. For example, a control circuit may communicate with either ring oscillator-based sensors or BJT-based sensors based on programming implemented in the control circuit. The control circuit may include programmable communication protocol circuits for communicating with the sensors and conversion circuits that convert a particular type of sensor data packet into a generic format. The generic format sensor data may then be utilized by a power management unit or other device to control operation of an integrated circuit.

A computer-implemented method for programming a universal control system includes generating a list of devices associated with a network; based on configuration data and statistical data associated with a first set of devices included in the list of devices, generating programming for a first activity to be performed via the network, wherein first activity is associated with the first set of devices included in the list of devices, and the programming is associated with a device configuration for the first set of devices and includes commands for transmission to the first set of devices by the universal control system; and causing the programming for the first activity to be stored, wherein, when the first activity is selected, the device configuration for the first set of devices is implemented.

A computer-implemented method for programming a universal control system includes generating a list of devices associated with a network; based on configuration data and statistical data associated with a first set of devices included in the list of devices, generating programming for a first activity to be performed via the network, wherein first activity is associated with the first set of devices included in the list of devices, and the programming is associated with a device configuration for the first set of devices and includes commands for transmission to the first set of devices by the universal control system; and causing the programming for the first activity to be stored, wherein, when the first activity is selected, the device configuration for the first set of devices is implemented.