Patent application number | Description | Published |
20100162063 | Control of clock gating - Clock signal control circuitry is disclosed along with a method for switching a clock between modes and a computer program product. The clock signal control circuitry is for receiving a clock signal from a clock signal generator and for outputting said clock signal to synchronous circuitry that is to be clocked by said clock signal. It comprises: an input for receiving mode switching signals indicating said synchronous circuitry is to switch between modes, said mode switching signals comprising a clock gating request signal indicating said synchronous circuitry is to enter a sleep mode during which said circuitry is not clocked and a wake up request signal indicating said synchronous circuitry is to enter an operational mode during which said circuitry is clocked; and is responsive to said clock gating request signal to gate said clock signal such that no clock signal is output to said synchronous circuitry and being responsive to said wake up request signal to output said clock signal to said synchronous circuitry. The clock signal control circuitry further comprises: a data store for storing a delay value; and delay circuitry for delaying switching of said clock signal between modes in response to at least one of said mode switching signals, said delay circuitry delaying said switching by an amount dependent upon said stored delay value. | 06-24-2010 |
20120036340 | Data processing apparatus and method using checkpointing - A data processing apparatus and method of data processing are provided. The data processing apparatus comprises execution circuitry configured to execute a sequence of program instructions. Checkpoint circuitry is configured to identify an instance of a predetermined type of instruction in the sequence of program instructions and to store checkpoint information associated with that instance. The checkpoint information identifies a state of the data processing apparatus prior to execution of that instance of the predetermined type of instruction, wherein the predetermined type of instruction has an expected long completion latency. If the execution circuitry does not complete execution of that instance of the predetermined type of instruction due to occurrence of a predetermined event, the data processing apparatus is arranged to reinstate the state of the data processing apparatus with reference to the checkpoint information, such that the execution circuitry is then configured to recommence execution of the sequence of program instructions at that instance of the predetermined type of instruction. | 02-09-2012 |
20120110396 | Error handling mechanism for a tag memory within coherency control circuitry - A data processing system | 05-03-2012 |
20120124300 | Apparatus and method for predicting target storage unit - A data processing apparatus comprises processing circuitry and a plurality of storage units. When the processing circuitry executes a data access instruction, then a storage controller identifies based on a target storage address of the data access instruction, which of the storage units includes the target storage location identified by the target storage address. Prediction circuitry is provided to predict a predicted storage unit predicted to include the target storage location, so that retrieval of the data value from the predicted storage unit can be initiated before the storage controller has identified the target storage unit. The prediction circuitry makes the prediction based on the type of the data access instruction executed by the processing circuitry. | 05-17-2012 |
20140019734 | DATA PROCESSING APPARATUS AND METHOD USING CHECKPOINTING - A data processing apparatus and method of data processing are provided. The data processing apparatus comprises execution circuitry configured to execute a sequence of program instructions. Checkpoint circuitry is configured to identify an instance of a predetermined type of instruction in the sequence of program instructions and to store checkpoint information associated with that instance. The checkpoint information identifies a state of the data processing apparatus prior to execution of that instance of the predetermined type of instruction, wherein the predetermined type of instruction has an expected long completion latency. If the execution circuitry does not complete execution of that instance of the predetermined type of instruction due to occurrence of a predetermined event, the data processing apparatus is arranged to reinstate the state of the data processing apparatus with reference to the checkpoint information, such that the execution circuitry is then configured to recommence execution of the sequence of program instructions at that instance of the predetermined type of instruction. | 01-16-2014 |
20140317390 | RETURN ADDRESS PREDICTION - A data processing apparatus executes call instructions, and after a sequence of instructions executed in response to a call instruction a return instruction causes the program flow to return to a point in the program sequence associated with that call instruction. The data processing apparatus is configured to speculatively execute instructions in dependence on a predicted outcome of earlier instructions and a return address prediction unit is configured to store return addresses associated with unresolved call instructions. The return address prediction unit comprises: a stack portion onto which return addresses associated with unresolved call instructions are pushed, and from which a return address is popped when a return instruction is speculatively executed; and a buffer portion which stores an entry for each unresolved call instruction executed and for each return instruction which is speculatively executed. | 10-23-2014 |
20140331028 | IDENTIFICATION OF MISSING CALL AND RETURN INSTRUCTIONS FOR MANAGEMENT OF A RETURN ADDRESS STACK - A data processing apparatus and method of data processing are disclosed. A fetch unit retrieves program instructions comprising call instructions and return instructions from memory to be executed by an execution unit. A branch prediction unit generates a return address prediction for an identified return instruction with reference to a return address stack. The branch prediction unit performs a return address push onto said return address stack when the execution unit executes a call instruction and performs a return address pop from the return address stack when the execution unit executes a return instruction. An error detection unit identifies a missing call instruction or a missing return instruction in said program instructions by reference to the return address prediction, a resolved return address indicated by the execution unit when the return instruction is executed and the content of the return address stack. | 11-06-2014 |