Patent application number | Description | Published |
20080208512 | Maximal Temperature Logging - A computer implemented method, data processing system, and processor are provided for logging a maximal temperature in an integrated circuit. A digital thermal sensor senses a temperature in the integrated circuit. The sensed temperature of the digital thermal sensor is read and a determination is made as to whether the sensed temperature is higher than a current maximal temperature. The sensed temperature is logged in response to the sensed temperature being higher than the current maximal temperature. The sensed temperature becomes a new maximal temperature for the integrated circuit. | 08-28-2008 |
20080221826 | Maximal Temperature Logging - A computer implemented method, data processing system, and processor are provided for logging a maximal temperature in an integrated circuit. A digital thermal sensor senses a temperature in the integrated circuit. The sensed temperature of the digital thermal sensor is read and a determination is made as to whether the sensed temperature is higher than a current maximal temperature. The sensed temperature is logged in response to the sensed temperature being higher than the current maximal temperature. The sensed temperature becomes a new maximal temperature for the integrated circuit. | 09-11-2008 |
20080256275 | Multi-Chip Module With Third Dimension Interconnect - A computer architecture and programming model for high speed processing over broadband networks are provided. The architecture employs a consistent modular structure, a common computing module and uniform software cells. The common computing module includes a control processor, a plurality of processing units, a plurality of local memories from which the processing units process programs, a direct memory access controller and a shared main memory. A synchronized system and method for the coordinated reading and writing of data to and from the shared main memory by the processing units also are provided. A hardware sandbox structure is provided for security against the corruption of data among the programs being processed by the processing units. The uniform software cells contain both data and applications and are structured for processing by any of the processors of the network. Each software cell is uniquely identified on the network. | 10-16-2008 |
20090030644 | Tracing Thermal Data Via Performance Monitoring - A computer implemented method, data processing system, and processor are provided for tracing thermal data via performance monitoring. A performance monitor is set into a tracing mode. Temperatures are sensed by a digital thermal sensor over a time period. The sensed temperatures are stored in a data structure and a trace of the sensed temperatures is graphically displayed. | 01-29-2009 |
20090031085 | Directory for Multi-Node Coherent Bus - A method for maintaining cache coherency for a multi-node system using a specialized bridge which allows for fewer forward progress dependencies. A look-up of a local node directory is performed if a request received at a multi-node bridge of the local node is a system request. If a directory entry indicates that data specified in the request has a local owner or local destination, the request is forwarded to the local node. If the local node determines that the request is a local request, a look-up of the local node directory is performed. If the directory entry indicates that data specified in the request has a local owner and local destination, the coherency of the data on the local node is resolved and a transfer of the request data is performed if required. Otherwise, the request is forwarded to all remote nodes in the multi-node system. | 01-29-2009 |
20090031086 | Directory For Multi-Node Coherent Bus - A method for maintaining cache coherency for a multi-node system using a specialized bridge which allows for fewer forward progress dependencies. A local node makes a determination whether a request is a local or system request. If the request is a local request, a look-up of a directory in the local node is performed. If an entry in the directory of the local node indicates that data in the request does not have a remote owner and that the request does not have a remote destination, the coherency of the data is resolved on the local node, and a transfer of the data specified in the request is performed if required and if the request is a local request. If the entry indicates that the data has a remote owner or that the request has a remote destination, the request is forwarded to all remote nodes in the multi-node system. | 01-29-2009 |
20090048720 | Support of Deep Power Savings Mode and Partial Good in a Thermal Management System - A computer implemented method, data processing system, and processor are provided for managing a thermal management system. A determination is made as to whether a plurality of digital thermal sensors is faulty or functional. A power savings mode of at least one unit within the integrated circuit associated with the functional digital thermal sensor is monitored in response to at least one of the plurality of digital thermal sensors being functional. A functional digital thermal sensor is disabled in response to the at least one unit being in a power savings mode. | 02-19-2009 |
20090077322 | System and Method for Getllar Hit Cache Line Data Forward Via Data-Only Transfer Protocol Through BEB Bus - A system and method for using a data-only transfer protocol to store atomic cache line data in a local storage area is presented. A processing engine includes an atomic cache and a local storage. When the processing engine encounters a request to transfer cache line data from the atomic cache to the local storage (e.g., GETTLAR command), the processing engine utilizes a data-only transfer protocol to pass cache line data through the external bus node and back to the processing engine. The data-only transfer protocol comprises a data phase and does not include a prior command phase or snoop phase due to the fact that the processing engine communicates to the bus node instead of an entire computer system when the processing engine sends a data request to transfer data to itself. | 03-19-2009 |
20090099806 | Thermal Interrupt Generation - A computer implemented method, data processing system, and processor are provided for thermal interrupt generation. An interrupt temperature is set to a first temperature and an interrupt direction is to a greater than or equal to determination. A determination is made as to whether a sensed temperature from a digital thermal sensor meets or exceeds the interrupt temperature in response to the interrupt direction. A first interrupt is generated in response to the sensed temperature meeting or exceeding the interrupt temperature. | 04-16-2009 |
20110040517 | Tracing Thermal Data Via Performance Monitoring - A data processing system and processor are provided for tracing thermal data via performance monitoring. A performance monitor is set into a tracing mode. Temperatures are sensed by a digital thermal sensor over a time period. The sensed temperatures are stored in a data structure and a trace of the sensed temperatures is graphically displayed. | 02-17-2011 |
20110246695 | CONTROLLING BANDWIDTH RESERVATIONS METHOD AND APPARATUS - Disclosed is an apparatus which operates to substantially evenly distribute commands and/or data packets issued from a managed program or other entity over a given time period. The even distribution of these commands or data packets minimizes congestion in critical resources such as memory, I/O devices and/or the bus for transferring the data between source and destination. Any unmanaged commands or data packets are treated as in conventional technology. | 10-06-2011 |
20120030386 | Configurable Interface Controller - A flexible input/output controller logic interfaces with existing input/output controllers (IOC's) in order to configure the amount of data sent to and received from the IOC's. The flexible I/O interface receives data from a component at a rate determined by the particular component. The flexible I/O interface then feeds the received data to a traditional I/O controller at a rate suitable for the I/O controller. Thus, the interface to the individual I/O controllers is maintained. The flexible I/O logic balances bandwidth between a plurality of individual I/O controllers in order to better utilize the overall system I/O bandwidth. In one embodiment, the I/O configuration managed by the flexible I/O logic is determined during system-build, while in another embodiment, the I/O configuration is set during system initialization. | 02-02-2012 |