摘要:
At least one first numbered phy of a first SAS expander is grouped with at least one second numbered phy of a second SAS expander physically separate from the first SAS expander into at least one common SAS wide port. An identical SAS address is assigned to the first SAS expander and the second SAS expander for operating the first SAS expander and the second SAS expander to behave and respond as a single, cohesive SAS expander. The first SAS expander is directly connected to the second SAS expander for inter-expander communications.
摘要:
A hardware automated IO path, comprising a message transport unit for transporting an IO request to a local memory via a DMA operation and determining a LMID for associating with a request descriptor of the IO request; a fastpath engine for validating the request descriptor and creating a fastpath descriptor based on the request descriptor; a data access module for performing an IO operation based on the fastpath descriptor and posting a completion message into the fastpath completion queue upon a successful completion of the IO operation. The fastpath engine is further configured for: receiving the completion message, releasing the IO request stored in the local memory, and providing a reply message based on the completion message. The message transport unit is further configured for providing the reply message in response to the IO request.
摘要:
At least one first numbered phy of a first SAS expander is grouped with at least one second numbered phy of a second SAS expander physically separate from the first SAS expander into at least one common SAS wide port. An identical SAS address is assigned to the first SAS expander and the second SAS expander for operating the first SAS expander and the second SAS expander to behave and respond as a single, cohesive SAS expander. The first SAS expander is directly connected to the second SAS expander for inter-expander communications.
摘要:
A message-based I/O architecture comprising a list describing one or more source buffers and a message header. The list may be segmented in multiple memory locations. The message header may be configured to (i) indicate whether the list is segmented and (ii) provide information for linking the list when the list is segmented.
摘要:
A memory management unit (MMU) for a device controller that provides enhanced functionality while maintaining a small physical size or footprint, such that the die size required to manufacture the memory management unit circuitry within the device controller integrated circuit device remains small notwithstanding such enhanced functionality. This compact/tiny MMU provides virtual memory addressing and memory error detection functionality while maintaining a small physical die size. The small physical die size with enhanced functionality is obtained by improvements in translating virtual to physical addressing without use of extensive translation tables, which themselves would otherwise consume memory and associated die real estate. In addition, the MMU allows a firmware image containing code and data segments to be run-time swapped between internal shared context RAM and external memory.
摘要:
A hardware automated IO path, comprising a message transport unit for transporting an IO request to a local memory via a DMA operation and determining a LMID for associating with a request descriptor of the IO request; a fastpath engine for validating the request descriptor and creating a fastpath descriptor based on the request descriptor; a data access module for performing an IO operation based on the fastpath descriptor and posting a completion message into the fastpath completion queue upon a successful completion of the IO operation. The fastpath engine is further configured for: receiving the completion message, releasing the IO request stored in the local memory, and providing a reply message based on the completion message. The message transport unit is further configured for providing the reply message in response to the IO request.
摘要:
A circuit and associated methods of operation for a standardized scatter/gather list processor component within DMACs and intelligent IOPs. The standardized circuit architecture and methods provide a register interface and associated processing capabilities to simplify firmware processing to save and restore context information regarding block transfer operations that are paused and resumed prior to completion. Furthermore, the invention provides for architecture and associated methods for processing of standard scatter/gather list elements by a standardized scatter/gather list processor embedded within DMACs and IOPs. Specifically, as applied in the context of SCSI or Fiber Channel IOPs, the scatter/gather list processor of the present invention simplifies IOP firmware processing to save the current block transfer context on occurrence of a SCSI disconnect and to restore the saved context on occurrence of a SCSI reselect.
摘要:
The optimal lanes of at least one SAS wide port for the data connection are discovered. The allowable lanes for the data connection within the SAS wide ports of each level of the SAS domain are specified. The specified allowable lanes for the data connection are checked. The data connection is created on the specified allowable lanes.
摘要:
Defibrillator assemblies and methods to wirelessly transfer energy from an external source to a battery or other rechargeable power source within the defibrillator assembly. The transfer of energy may be through a non-contact interface on a defibrillator cradle or a docking station that mounts the defibrillator. The rate of energy transfer may be equal to the energy drain caused by self-discharge and automated self-testing. Accordingly, since the rate of energy transfer is lower than that required to run the defibrillator system continuously, several wireless methods of energy transfer may be used. In addition, the defibrillator assembly may communicate diagnostic and non-diagnostic data to the external source.
摘要:
A mechanism is provided for controlling the heat output of a controller by monitoring the temperature of the controller using an embedded heat sensor. The IO processor monitors the temperature and controls the rate of the IO flow to control the temperature. The IO processor accomplishes this by checking the current temperature every time it gets a timer interrupt. If the temperature becomes too high, the IO processor may slow down the processor speeds in the controller. The IO processor may also slow down the throughput by inserting a delay between each IO request processed. Furthermore, the IO processor may slow down the rate at which data is passed onto the bus. Still further, the IO processor may insert a delay between batches of IO requests. By slowing down the IO flow, the IO processor decreases the overall power consumption and, thus, controls the heat output.