Abstract: A dedicated pin of a processor or system-on-chip (SoC) is used to indicate whether power level (e.g., charge, voltage, and/or current) of a battery falls below a threshold. The threshold can be predetermined or programmable. The battery is used to provide power to the processor and/or SoC. Upon determining that the power level of the battery falls below the threshold, the processor by-passes the conventional process of entering low performance or power mode, and directly throttles voltage and/or operating frequency of the processor. This allows the processor to continue to operate at low battery power. The fast transition (e.g., approximately 10 ?S) from an active state to a low performance or power mode, in accordance with a logic level of the voltage on the dedicated pin, reduces decoupling capacitor design requirements, and makes it possible for the processor to adapt higher package power control settings (e.g., PL4).

Abstract: A dedicated pin of a processor or system-on-chip (SoC) is used to indicate whether power level (e.g., charge, voltage, and/or current) of a battery falls below a threshold. The threshold can be predetermined or programmable. The battery is used to provide power to the processor and/or SoC. Upon determining that the power level of the battery falls below the threshold, the processor by-passes the conventional process of entering low performance or power mode, and directly throttles voltage and/or operating frequency of the processor. This allows the processor to continue to operate at low battery power. The fast transition (e.g., approximately 10 ?S) from an active state to a low performance or power mode, in accordance with a logic level of the voltage on the dedicated pin, reduces decoupling capacitor design requirements, and makes it possible for the processor to adapt higher package power control settings (e.g., PL4).

Abstract: The timing cycles in a circuit design are identified and cut such that timing constraint paths in the circuit design are preserved. Timing cycles in the circuit design may be identified by traversing an adjacency list data structure, in which elements of the circuit design are represented as vertices interconnected by edges. Timing constraint paths may be distinguished from false timing paths using timing analysis, such as a greatest common path heuristic. Timing constraint paths may be marked as “constrained” to prevent these paths from being cut. With the cycles and timing constraint paths identified, cuts may be selected that cut the identified timing cycles while preserving the timing constraint paths. The cycle cuts allow the circuit design to be correctly processed within a conventional CAD tool design flow.

Abstract: The timing cycles in a circuit design are identified and cut such that timing constraint paths in the circuit design are preserved. Timing cycles in the circuit design may be identified by traversing an adjacency list data structure, in which elements of the circuit design are represented as vertices interconnected by edges. Timing constraint paths may be distinguished from false timing paths using timing analysis, such as a greatest common path heuristic. Timing constraint paths may be marked as “constrained” to prevent these paths from being cut. With the cycles and timing constraint paths identified, cuts may be selected that cut the identified timing cycles while preserving the timing constraint paths. The cycle cuts allow the circuit design to be correctly processed within a conventional CAD tool design flow.

Abstract: The timing cycles in a circuit design are identified and cut such that timing constraint paths in the circuit design are preserved. Timing cycles in the circuit design may be identified by traversing an adjacency list data structure, in which elements of the circuit design are represented as vertices interconnected by edges. Timing constraint paths may be distinguished from false timing paths using timing analysis, such as a greatest common path heuristic. Timing constraint paths may be marked as “constrained” to prevent these paths from being cut. With the cycles and timing constraint paths identified, cuts may be selected that cut the identified timing cycles while preserving the timing constraint paths. The cycle cuts allow the circuit design to be correctly processed within a conventional CAD tool design flow.