Patent application number | Description | Published |
20090113180 | Fetch Director Employing Barrel-Incrementer-Based Round-Robin Apparatus For Use In Multithreading Microprocessor - A fetch director in a multithreaded microprocessor that concurrently executes instructions of N threads is disclosed. The N threads request to fetch instructions from an instruction cache. In a given selection cycle, some of the threads may not be requesting to fetch instructions. The fetch director includes a circuit for selecting one of threads in a round-robin fashion to provide its fetch address to the instruction cache. The circuit 1-bit left rotatively increments a first addend by a second addend to generate a sum that is ANDed with the inverse of the first addend to generate a 1-hot vector indicating which of the threads is selected next. The first addend is an N-bit vector where each bit is false if the corresponding thread is requesting to fetch instructions from the instruction cache. The second addend is a 1-hot vector indicating the last selected thread. In one embodiment threads with an empty instruction buffer are selected at highest priority; a last dispatched but not fetched thread at middle priority; all other threads at lowest priority. The threads are selected round-robin within the highest and lowest priorities. | 04-30-2009 |
20090249351 | Round-Robin Apparatus and Instruction Dispatch Scheduler Employing Same For Use In Multithreading Microprocessor - An apparatus for selecting one of N requesters of a shared resource in a round-robin fashion is disclosed. One or more of the N requestors may be disabled from being selected in a selection cycle. The apparatus includes a first input that receives a first value specifying which of the N requestors was last selected. A second input receives a second value specifying which of the N requestors is enabled to be selected. A barrel incrementer, coupled to receive the first and second inputs, 1-bit left-rotatively increments the second value by the first value to generate a sum. Combinational logic, coupled to the barrel incrementer, generates a third value specifying which of the N requestors is selected next. | 10-01-2009 |
20090271592 | Apparatus For Storing Instructions In A Multithreading Microprocessor - A circuit for selecting one of N requesters in a round-robin fashion is disclosed. The circuit 1-bit left rotatively increments a first addend by a second addend to generate a sum that is ANDed with the inverse of the first addend to generate a 1-hot vector indicating which of the requestors is selected next. The first addend is an N-bit vector where each bit is false if the corresponding requester is requesting access to a shared resource. The second addend is a 1-hot vector indicating the last selected requestor. A multithreading microprocessor dispatch scheduler employs the circuit for N concurrent threads each thread having one of P priorities. The dispatch scheduler generates P N-bit 1-hot round-robin bit vectors, and each thread's priority is used to select the appropriate round-robin bit from P vectors for combination with the thread's priority and an issuable bit to create a dispatch level used to select a thread for instruction dispatching. | 10-29-2009 |
20090327649 | Three-Tiered Translation Lookaside Buffer Hierarchy in a Multithreading Microprocessor - A three-tiered TLB architecture in a multithreading processor that concurrently executes multiple instruction threads is provided. A macro-TLB caches address translation information for memory pages for all the threads. A micro-TLB caches the translation information for a subset of the memory pages cached in the macro-TLB. A respective nano-TLB for each of the threads caches translation information only for the respective thread. The nano-TLBs also include replacement information to indicate which entries in the nano-TLB/micro-TLB hold recently used translation information for the respective thread. Based on the replacement information, recently used information is copied to the nano-TLB if evicted from the micro-TLB. | 12-31-2009 |
20100115244 | MULTITHREADING MICROPROCESSOR WITH OPTIMIZED THREAD SCHEDULER FOR INCREASING PIPELINE UTILIZATION EFFICIENCY - A multithreading processor for concurrently executing multiple threads is provided. The processor includes an execution pipeline and a thread scheduler that dispatches instructions of the threads to the execution pipeline. The execution pipeline execution pipeline is configured for generating a thread context (TC) flush indicator associated with a thread context when one or more instructions of the thread context would stall in the execution pipeline. One or more instructions in the pipeline of the thread context associated with the thread context flush signal can be flushed or nullified. | 05-06-2010 |
20120221838 | SOFTWARE PROGRAMMABLE HARDWARE STATE MACHINES - The present invention provides software programmable hardware state machines to detect a cause of an error in a processor and prevent the error from occurring. A processor core is provided that includes an execution unit, a programmable mask register and a buffer that stores values representing instructions dispatched to the execution unit. The processor core also includes control logic to determine whether there is a match between a sequence in the mask register and a sequence in the buffer and, upon detecting a match, to generate control signals to perform a desired action. The desired action prevents an unwanted change from occurring to the architectural state of the processor. The processor core further comprises a programmable fix register. In an embodiment, the control logic generates the control signals based on control bits stored in the fix register. | 08-30-2012 |