Patent application number | Description | Published |
20140281238 | SYSTEMS AND METHODS FOR ACCESSING CACHE MEMORY - Systems and methods for providing data from a cache memory to requestors includes a number of cache memory levels arranged in a hierarchy. The method includes receiving a request for fetching data from the cache memory and determining one or more addresses in a cache memory level which is one level higher than a current cache memory level using one or more prediction algorithms. Further, the method includes pre-fetching the one or more addresses from the high cache memory level and determining if the data is available in the addresses. If data is available in the one or more addresses then data is fetched from the high cache level, else addresses of a next level which is higher than the high cache memory level are determined and pre-fetched. Furthermore, the method includes providing the fetched data to the requestor. | 09-18-2014 |
20150149716 | WRITE AND READ COLLISION AVOIDANCE IN SINGLE PORT MEMORY DEVICES - A method of avoiding a write collision in single port memory devices from two independent write operations is described. A first data object from a first write operation is divided into a first even sub-data object and first odd sub-data object. A second data object from a second write operation is divided into a second even sub-data object and a second odd sub-data object. The first even sub-data object is stored to a first single port memory device and the second odd sub-data object to a second single port memory device when the first write operation and the second write operation occur at the same time. The second even sub-data object is stored to the first single port memory device and the first odd sub-data object to the second single port memory device when the first write operation and the second write operation occur at the same time. | 05-28-2015 |
20150149727 | WRITE AND READ COLLISION AVOIDANCE IN SINGLE PORT MEMORY DEVICES - A method of avoiding a write collision in single port memory devices from two independent write operations is described. A first data object from a first write operation is divided into a first even sub-data object and first odd sub-data object. A second data object from a second write operation is divided into a second even sub-data object and a second odd sub-data object. The first even sub-data object is stored to a first single port memory device and the second odd sub-data object to a second single port memory device when the first write operation and the second write operation occur at the same time. The second even sub-data object is stored to the first single port memory device and the first odd sub-data object to the second single port memory device when the first write operation and the second write operation occur at the same time. | 05-28-2015 |
20150154131 | DATA TRANSFER USING A DESCRIPTOR - A data processing apparatus includes a number of processor cores, a shared processor cache, a bus unit and a bus controller. The shared processor cache is connected to each of the processor cores and to a main memory. The bus unit is connected to the shared processor cache by a bus controller for transferring data to/from an I/O device. In order to achieve further improvements to the data transfer rate between the processor cache and I/O devices, the bus controller is configured, in response to receiving a descriptor from a processor core, to perform a direct memory access to the shared processor cache for transferring data according to the descriptor from the shared processor cache to the I/O device via the bus unit. | 06-04-2015 |
20150154139 | RESOURCE ALLOCATION BY VIRTUAL CHANNEL MANAGEMENT AND BUS MULTIPLEXING - According to embodiments of the invention, methods, computer system, and apparatus for virtual channel management and bus multiplexing are disclosed. The method may include establishing a virtual channel from a first device to a second device via a bus, the bus having a first bus capacity and a second bus capacity, the second bus capacity having greater capacity than the first bus capacity, determining whether a store command is issued for the first bus capacity, determining whether the first bus capacity is available, and allocating the second bus capacity and marking the second bus capacity as unavailable in response to the store command if the first bus capacity is unavailable. | 06-04-2015 |
20150365225 | TRACING DATA FROM AN ASYNCHRONOUS INTERFACE - An apparatus for tracing data from a data bus in a first clock domain operating at a first clock frequency to a trace array in a second clock domain operating at a second clock frequency, wherein the first clock frequency is lower than the second clock frequency. The apparatus includes a change detector to detect a change of the data on the data bus in the first clock domain, a trigger responsive to the change detector to send a trigger pulse to the second clock domain, pulse synchronization on the second clock domain responsive to the trigger pulse to synchronize the trigger pulse to the second clock frequency of the second clock domain by a meta-stability latch, as well as a data capture in the second clock domain responsive to the pulse synchronization to capture data from the data bus and to store the captured data in the trace array. | 12-17-2015 |
20160048468 | RESOURCE ALLOCATION BY VIRTUAL CHANNEL MANAGEMENT AND BUS MULTIPLEXING - According to embodiments of the invention, methods, computer system, and apparatus for virtual channel management and bus multiplexing are disclosed. The method may include establishing a virtual channel from a first device to a second device via a bus, the bus having a first bus capacity and a second bus capacity, the second bus capacity having greater capacity than the first bus capacity, determining whether a store command is issued for the first bus capacity, determining whether the first bus capacity is available, and allocating the second bus capacity and marking the second bus capacity as unavailable in response to the store command if the first bus capacity is unavailable. | 02-18-2016 |
20160055107 | DATA PROCESSING APPARATUS AND METHOD - A data processing apparatus is provided, which includes: a plurality of processor cores; a shared processor cache, the shared processor cache being connected to each of the processor cores and to a main memory; a bus controller, the bus controller being connected to the shared processor cache and performing, in response to receiving a descriptor sent by one of the processor cores, a transfer of requested data indicated by the descriptor from the shared processor cache to an input/output (I/O) device; a bus unit, the bus unit being connected to the bus controller and transferring data to/from the I/O device; wherein the shared processor cache includes means for prefetching the requested data from the shared processor cache or main memory by performing a direct memory access in response to receiving a descriptor from the one of the processor cores. | 02-25-2016 |
20160098363 | INITIALIZING I/O DEVICES - A data processing system is provided which includes a processor nest communicatively coupled to an input/output bus by a bus controller, and a service interface controller communicatively coupled to the processor nest. The system includes storage for storing commands for the bus controller and associated command data and resulting status data, the storage being communicatively coupled to the processor nest and the bus controller. The service interface controller is configured, in response to received service commands, to read and write the storage, to execute the command specified in the storage, to retrieve the result of the command, and to store the result in the storage. | 04-07-2016 |