摘要:
Systems and methods for processing quality-of-service (QoS) information of memory transactions are described. In an embodiment, a method comprises receiving identification information and quality-of-service information corresponding to a first or original memory transaction transmitted from a hardware subsystem to a memory, receiving a given memory transaction from a processor complex that does not support quality-of-service encoding, determining whether the given memory transaction matches the original memory transaction, and appending the stored quality-of-service information to the given memory transaction in response to the given memory transaction matching the original memory transaction. In some embodiments, a system may be implemented as a system-on-a-chip (SoC). Devices suitable for using these systems include, for example, desktop and laptop computers, tablets, network appliances, mobile phones, personal digital assistants, e-book readers, televisions, and game consoles.
摘要:
Systems and methods for processing quality-of-service (QoS) information of memory transactions are described. In an embodiment, a method comprises receiving identification information and quality-of-service information corresponding to a first or original memory transaction transmitted from a hardware subsystem to a memory, receiving a given memory transaction from a processor complex that does not support quality-of-service encoding, determining whether the given memory transaction matches the original memory transaction, and appending the stored quality-of-service information to the given memory transaction in response to the given memory transaction matching the original memory transaction. In some embodiments, a system may be implemented as a system-on-a-chip (SoC). Devices suitable for using these systems include, for example, desktop and laptop computers, tablets, network appliances, mobile phones, personal digital assistants, e-book readers, televisions, and game consoles.
摘要:
Systems and methods for performing memory transactions are described. In an embodiment, a system comprises a processor configured to perform an action in response to a transaction indicative of a request originated by a hardware subsystem. A logic circuit is configured to receive the transaction. In response to identifying a specific characteristic of the transaction, the logic circuit splits the transaction into two or more other transactions. The two or more other transactions enable the processor to satisfy the request without performing the action. The system also includes an interface circuit configured to receive the request originated by the hardware subsystem and provide the transaction to the logic circuit. In some embodiments, a system may be implemented as a system-on-a-chip (SoC). Devices suitable for using these systems include, for example, desktop and laptop computers, tablets, network appliances, mobile phones, personal digital assistants, e-book readers, televisions, and game consoles.
摘要:
Systems and methods for re-mapping memory transactions are described. In an embodiment, a method includes receiving a memory request from a hardware subsystem to a memory, replacing a first identifier with a modified identifier in the memory request, and transmitting the memory request to the memory through a processor complex. The method further includes receiving a response from the memory, determining that the response corresponds to the memory request, replacing the modified identifier with the first identifier in the response, and transmitting the response to the hardware subsystem. In some embodiments, a system may be implemented as a system-on-a-chip (SoC). Devices suitable for using these systems include, for example, desktop and laptop computers, tablets, network appliances, mobile phones, personal digital assistants, e-book readers, televisions, and game consoles.
摘要:
Systems and methods for re-mapping memory transactions are described. In an embodiment, a method includes receiving a memory request from a hardware subsystem to a memory, replacing a first identifier with a modified identifier in the memory request, and transmitting the memory request to the memory through a processor complex. The method further includes receiving a response from the memory, determining that the response corresponds to the memory request, replacing the modified identifier with the first identifier in the response, and transmitting the response to the hardware subsystem. In some embodiments, a system may be implemented as a system-on-a-chip (SoC). Devices suitable for using these systems include, for example, desktop and laptop computers, tablets, network appliances, mobile phones, personal digital assistants, e-book readers, televisions, and game consoles.
摘要:
In an embodiment, a control circuit is configured to transmit operations to a circuit block that is being powered up after being powered down, to reinitialize the circuit block for operation. The operations may be stored in a memory (e.g. a set of registers) to which the control circuit is coupled. In an embodiment, the control circuit may also be configured to transmit other operations from the memory to the circuit block prior to the circuit block being powered down. Accordingly, the circuit block may be powered up or powered down even during times that the processors in the system are powered down (and thus software is not executable at the time), without waking the processors for the power up/power down event. In an embodiment, the circuit block may be a cache coupled to the one or more processors.
摘要:
In an embodiment, a control circuit is configured to transmit operations to a circuit block that is being powered up after being powered down, to reinitialize the circuit block for operation. The operations may be stored in a memory (e.g. a set of registers) to which the control circuit is coupled. In an embodiment, the control circuit may also be configured to transmit other operations from the memory to the circuit block prior to the circuit block being powered down. Accordingly, the circuit block may be powered up or powered down even during times that the processors in the system are powered down (and thus software is not executable at the time), without waking the processors for the power up/power down event. In an embodiment, the circuit block may be a cache coupled to the one or more processors.
摘要:
A method and apparatus of stopping a functional block of an integrated circuit (IC) for debugging purposes is disclosed. In one embodiment, an IC includes a number of functional units accessible by an external debugger via a debug port (DP). During a debug operation, a power controller in the IC may power down a functional unit. When the functional unit is powered off, a first register may be programmed. Responsive to the programming of the first register, a first signal may be asserted and provided to the functional unit. When power is restored to the functional unit, operation of the functional unit may be halted prior to execution of instructions or other operations, responsive to the signal.
摘要:
A method and apparatus of stopping a functional block of an integrated circuit (IC) for debugging purposes is disclosed. In one embodiment, an IC includes a number of functional units accessible by an external debugger via a debug port (DP). During a debug operation, a power controller in the IC may power down a functional unit. When the functional unit is powered off, a first register may be programmed. Responsive to the programming of the first register, a first signal may be asserted and provided to the functional unit. When power is restored to the functional unit, operation of the functional unit may be halted prior to execution of instructions or other operations, responsive to the signal.
摘要:
A debug port configured to generate and provide a return clock is disclosed. In one embodiment, an integrated circuit (IC) includes one or more functional units and a debug port (DP). The DP is configured to enable access by an external debugger to the functional unit(s) of the IC for debugging purposes. The DP includes circuitry that may generate a first clock signal that is provided to the functional unit(s) during debug operations. Receiving test result data at the DP may require a return clock signal that is not provided by the functional unit(s). Accordingly, the IC may include a clock modifier coupled to receive the first clock signal. The clock modifier may generate a second clock signal based on the first, the second clock signal being provided to the DP as a return clock signal.