Patent application number | Description | Published |
20090060228 | Systems and Methods for Shadowing an HDA Codec - Systems and methods for “shadowing” a target codec to provide additional features that are not available in the target codec. In one embodiment, an audio amplification system includes a High Definition Audio (HDA) bus, and an HDA controller, a conventional HDA codec and a shadow HDA codec coupled to the HDA bus. The conventional codec receives audio data and commands from the HDA controller via the bus and processes them to generate an output audio signal. The shadow codec snoops the audio data and commands on the HDA bus that are targeted to the conventional codec. The shadow codec processes the snooped audio data and commands to generate a second audio output. The shadow codec does not communicate with the HDA controller and is transparent to the controller. The shadow codec does not request enumeration from the HDA controller and does not receive an address from the HDA controller. | 03-05-2009 |
20090062948 | Systems and Methods for Controlling Audio Volume in the Processor of a High Definition Audio Codec - Systems and methods for controlling the audio volume of an audio signal in an HDA codec having a programmable processor such as a DSP, wherein the codec receives digital audio signals and audio volume control verbs over an HDA bus, and the audio volume levels associated with the audio volume control verbs are used by the processor in the generation pulse width modulated (PWM) output signals, thereby controlling the audio volume levels of the output signals. The processor may be configured to adjust non-volume parameters such as PWM deadtime, in addition to adjusting audio volume, based on the audio volume levels. The codec may be implemented in a PC or other system that implements an HDA system that includes the HDA bus and HDA codec. | 03-05-2009 |
20090063828 | Systems and Methods for Communication between a PC Application and the DSP in a HDA Audio Codec - Systems and methods implemented in a PC for enabling communication between an application executing on the CPU and a DSP that is incorporated into a codec in the High Definition Audio (HDA) system, wherein the communication is carried out via the HDA bus. In one embodiment, an HDA codec includes one or more conventional HDA widgets coupled to a programmable processor such as a DSP. The codec includes a set of registers that are configured to store HDA verbs and data transmitted via the HDA bus. The programmable processor is configured to identify verbs that indicate associated information is a communication from an application executing on the CPU, read the associated information, and process the information according to the associated verbs. The information may be program instructions, parametric data, requests for information, etc. | 03-05-2009 |
20090063843 | Systems and Methods for Booting a Codec Processor over a High Definition Audio Bus - Systems and methods for booting a programmable processor such as a DSP that is incorporated into an HDA codec. The codec and a system memory containing boot program instructions are connected to an HDA bus. In a first mode, the DSP receives boot program instructions via the HDA bus and boots using these instructions. In a second mode, the DSP boots from instructions that are contained in a memory that is connected to the DSP. In one embodiment, the memory connected to the DSP is a component of a plug-in card, and the DSP is configured to determine whether the plug-in card is present, then boot from the memory on the plug-in card if it is present or boot from the system memory via the HDA bus if the plug-in card is not present. | 03-05-2009 |
Patent application number | Description | Published |
20080215702 | Merging scalable nodes into single-partition merged system using service processors of nodes - Controlling the merging of nodes into a single-partition merged system using the nodes' service processors is disclosed. The system runs a single instance of an operating system. A user communicates with a service processor of a predetermined boot node to enter partition configuration information for the system without using a dedicated console. The partition configuration information is stored by the service processor of the boot node, and transmitted from the service processor of the boot node to the service processors of predetermined secondary nodes. The service processor of each secondary node then stores the partition configuration information. At reset, power-up, or power-down of any secondary node, the reset, power-up or power-down is conveyed to the service processor of the boot node, which resets, starts up, or shuts down the system, including transmitting commands to the service processors of the secondary nodes to individually reset, start up, or shut down. | 09-04-2008 |
20090063662 | Arrangements for Auto-Merging Processing Components - In some embodiments a method for auto-configuring a network is disclosed. The method can include communicating with at least one node in a processing complex, receiving node connection data from the at least one node querying a node to verify at least a portion of the node connection data and auto-configuring system partitioning in response to the node connection data. In some embodiments the method can also include verifying the node connection data by transmitting a request for a universally unique identifier and a node identifier. The node identifier can be associated with the universally unique identifier. The node identifier can be utilized in data transmitted between nodes. | 03-05-2009 |
20090073896 | ARRANGEMENTS FOR AUTO-MERGING AND AUTO-PARTITIONING PROCESSING COMPONENTS - In some embodiments, a method for auto-partitioning a scalable processing system is disclosed. The method can include establishing connection data, identifying a primary node and automatically transmitting partitioning commands to other nodes to configure them as secondary nodes. The partitioning commands can adjust the basic input output settings of the secondary nodes such that the system can boot as a single partitioned system. Other embodiments are also disclosed. | 03-19-2009 |
20090077478 | ARRANGEMENTS FOR MANAGING PROCESSING COMPONENTS USING A GRAPHICAL USER INTERFACE - In some embodiments a method for managing processing components using a graphical user interface is disclosed. The method can include determining connection data of a processing system automatically by communicating with at least one node of the processing system, displaying the connection data on a graphical user interface, accepting a user selection via selectable buttons on the graphical user interface, where the selectable buttons representing selectable system operations for configuring operations of nodes. Based on the user selection the system can automatically perform system configuring. In some embodiments, the method can detect improper or malfunctioning connections and automatically provide a pop-up window that has a suggested remedy. Other embodiments are also disclosed. | 03-19-2009 |