Patent application number | Description | Published |
20090164763 | METHOD AND APPARATUS FOR A DOUBLE WIDTH LOAD USING A SINGLE WIDTH LOAD PORT - A single micro-instruction to perform either an N-bit or a 2N-bit load is provided. A microprocessor having an N-bit load port performs either an N-bit load or a 2N-bit load in a single cycle with the same micro-instruction being used for both the N-bit and the 2N-bit load. | 06-25-2009 |
20090172363 | MIXING INSTRUCTIONS WITH DIFFERENT REGISTER SIZES - When legacy instructions, that can only operate on smaller registers, are mixed with new instructions in a processor with larger registers, special handling and architecture are used to prevent the legacy instructions from causing problems with the data in the upper portion of the registers, i.e., the portion that they cannot directly access. In some embodiments, the upper portion of the registers are saved to temporary storage while the legacy instructions are operating, and restored to the upper portion of the registers when the new instructions are operating. A special instruction may also be used to disable this save/restore operation if the new instruction are not going to use the upper part of the registers. | 07-02-2009 |
20090172365 | Instructions and logic to perform mask load and store operations - In one embodiment, logic is provided to receive and execute a mask move instruction to transfer a vector data element including a plurality of packed data elements from a source location to a destination location, subject to mask information for the instruction. Other embodiments are described and claimed. | 07-02-2009 |
20090327657 | GENERATING AND PERFORMING DEPENDENCY CONTROLLED FLOW COMPRISING MULTIPLE MICRO-OPERATIONS (uops) - A processor to perform an out-of-order (OOO) processing in which a reservation station (RS) may generate and process a dependency controlled flow comprising multiple micro-operations (uops) with specific clock based dispatch scheme. The RS may either combine two or more uops into a single RS entry or make a direct connection between two or more RS entries. The RS may allow more than two source values to be associated with a single RS by combining sources from the two or more uops. One or more execution units may be provisioned to perform the function defined by the uops. The execution units may receive more than two sources at a given time point and produce two or more results on different ports. | 12-31-2009 |
20090327661 | MECHANISMS TO HANDLE FREE PHYSICAL REGISTER IDENTIFIERS FOR SMT OUT-OF-ORDER PROCESSORS - Methods and apparatus relating to mechanisms to handle free physical register identifiers for SMT (Simultaneous Multi-Threading) out-of-order processors are described. In some embodiments, a physical register file stores both speculative data and architectural data corresponding to a plurality of registers. A free list logic may maintain free physical register identifiers corresponding to the plurality of registers. An instruction may read the architectural data from the physical register file at dispatch. Other embodiments are also described and claimed. | 12-31-2009 |
20090328057 | SYSTEM AND METHOD FOR RESERVATION STATION LOAD DEPENDENCY MATRIX - A device and method may fetch an instruction or micro-operation for execution. An indication may be made as to whether the instruction is dependent upon any source values corresponding to a set of previously fetched instructions. A value may be stored corresponding to each source value from which the first instruction depends. An indication may be made for each of the set of sources of the instruction, whether the source depends on a previously loaded value or source, where indicating may include storing a value corresponding to the indication. The instruction may be executed after the stored values associated with the instruction indicate the dependencies are satisfied. | 12-31-2009 |
20110208918 | MOVE ELIMINATION AND NEXT PAGE PREFETCHER - Methods and apparatus relating to a hardware move elimination and/or next page prefetching are described. In some embodiments, a logic may provide hardware move eliminations based on stored data. In an embodiment, a next page prefetcher is disclosed. Other embodiments are also described and claimed. | 08-25-2011 |
20120079251 | MULTIPLY ADD FUNCTIONAL UNIT CAPABLE OF EXECUTING SCALE, ROUND, GETEXP, ROUND, GETMANT, REDUCE, RANGE AND CLASS INSTRUCTIONS - A method is described that involves executing a first instruction with a functional unit. The first instruction is a multiply-add instruction. The method further includes executing a second instruction with the functional unit. The second instruction is a round instruction. | 03-29-2012 |
20120166509 | Performing Reciprocal Instructions With High Accuracy - In one embodiment, the present invention includes a method for receiving a reciprocal instruction and an operand in a processor, accessing an entry of a lookup table based on a portion of the operand and the instruction, generating an encoder output based on a type of the reciprocal instruction and whether the reciprocal instruction is a legacy instruction, and selecting portions of the lookup table entry and input operand to be provided to a reciprocal logic unit based on the encoder output. Other embodiments are described and claimed. | 06-28-2012 |
20130046959 | METHOD AND APPARATUS FOR PERFORMING LOGICAL COMPARE OPERATION - A method and apparatus for including in a processor instructions for performing logical-comparison and branch support operations on packed or unpacked data. In one embodiment, instruction decode logic decodes instructions for an execution unit to operate on packed data elements including logical comparisons. A register file including 128-bit packed data registers stores packed single-precision floating point (SPFP) and packed integer data elements. The logical comparisons may include comparison of SPFP data elements and comparison of integer data elements and setting at least one bit to indicate the results. Based on these comparisons, branch support actions are taken. Such branch support actions may include setting the at least one bit, which in turn may be utilized by a branching unit in response to a branch instruction. Alternatively, the branch support actions may include branching to an indicated target code location. | 02-21-2013 |
20130046960 | METHOD AND APPARATUS FOR PERFORMING LOGICAL COMPARE OPERATION - A method and apparatus for including in a processor instructions for performing logical-comparison and branch support operations on packed or unpacked data. In one embodiment, instruction decode logic decodes instructions for an execution unit to operate on packed data elements including logical comparisons. A register file including 128-bit packed data registers stores packed single-precision floating point (SPFP) and packed integer data elements. The logical comparisons may include comparison of SPFP data elements and comparison of integer data elements and setting at least one bit to indicate the results. Based on these comparisons, branch support actions are taken. Such branch support actions may include setting the at least one bit, which in turn may be utilized by a branching unit in response to a branch instruction. Alternatively, the branch support actions may include branching to an indicated target code location. | 02-21-2013 |
20130166883 | METHOD AND APPARATUS FOR PERFORMING LOGICAL COMPARE OPERATIONS - A method and apparatus for including in a processor instructions for performing logical-comparison and branch support operations on packed or unpacked data. In one embodiment, instruction decode logic decodes instructions for an execution unit to operate on packed data elements including logical comparisons. A register file including 128-bit packed data registers stores packed single-precision floating point (SPFP) and packed integer data elements. The logical comparisons may include comparison of SPFP data elements and comparison of integer data elements and setting at least one bit to indicate the results. Based on these comparisons, branch support actions are taken. Such branch support actions may include setting the at least one bit, which in turn may be utilized by a branching unit in response to a branch instruction. Alternatively, the branch support actions may include branching to an indicated target code location. | 06-27-2013 |
20130166884 | METHOD AND APPARATUS FOR PERFORMING LOGICAL COMPARE OPERATIONS - A method and apparatus for including in a processor instructions for performing logical-comparison and branch support operations on packed or unpacked data. In one embodiment, instruction decode logic decodes instructions for an execution unit to operate on packed data elements including logical comparisons. A register file including 128-bit packed data registers stores packed single-precision floating point (SPFP) and packed integer data elements. The logical comparisons may include comparison of SPFP data elements and comparison of integer data elements and setting at least one bit to indicate the results. Based on these comparisons, branch support actions are taken. Such branch support actions may include setting the at least one bit, which in turn may be utilized by a branching unit in response to a branch instruction. Alternatively, the branch support actions may include branching to an indicated target code location. | 06-27-2013 |
20130227253 | METHOD AND APPARATUS FOR PERFORMING LOGICAL COMPARE OPERATIONS - A method and apparatus for including in a processor instructions for performing logical-comparison and branch support operations on packed or unpacked data. In one embodiment, instruction decode logic decodes instructions for an execution unit to operate on packed data elements including logical comparisons. A register file including 128-bit packed data registers stores packed single-precision floating point (SPFP) and packed integer data elements. The logical comparisons may include comparison of SPFP data elements and comparison of integer data elements and setting at least one bit to indicate the results. Based on these comparisons, branch support actions are taken. Such branch support actions may include setting the at least one bit, which in turn may be utilized by a branching unit in response to a branch instruction. Alternatively, the branch support actions may include branching to an indicated target code location. | 08-29-2013 |
20130262926 | RECOVERABLE PARITY AND RESIDUE ERROR - An error recovery unit that may include error logic to detect an error in a dispatch port and timestamp logic configured to generate a timestamp for the error. The error recovery unit may also include check logic to determine if an instruction associated with the error has been retired based on the timestamp. If the instruction has been retired, a machine check error logic may be initiated. If the instruction has not been retired, an error correction logic may be initiated to recover the error and to re-execute the instruction. Thus, speculative errors may be recovered without the need for calling the machine check error, which is undesirable because of its catastrophic nature. Therefore, machine check errors may be significantly reduced. | 10-03-2013 |
20130326160 | GATHER USING INDEX ARRAY AND FINITE STATE MACHINE - Methods and apparatus are disclosed for using an index array and finite state machine for scatter/gather operations. Embodiment of apparatus may comprise: decode logic to decode a scatter/gather instruction and generate a set of micro-operations, and an index array to hold a set of indices and a corresponding set of mask elements. A finite state machine facilitates the gather operation. Address generation logic generates an address from an index of the set of indices for at least each of the corresponding mask elements having a first value. An address is accessed to load a corresponding data element if the mask element had the first value. The data element is written at an in-register position in a destination vector register according to a respective in-register position the index. Values of corresponding mask elements are changed from the first value to a second value responsive to completion of their respective loads. | 12-05-2013 |
20140223226 | APPARATUS AND METHOD FOR DETECTING AND RECOVERING FROM DATA FETCH ERRORS - An apparatus and method are described for detecting and correcting data fetch errors within a processor core. For example, one embodiment of an instruction processing apparatus for detecting and recovering from data fetch errors comprises: at least one processor core having a plurality of instruction processing stages including a data fetch stage and a retirement stage; and error processing logic in communication with the processing stages to perform the operations of: detecting an error associated with data in response to a data fetch operation performed by the data fetch stage; and responsively performing one or more operations to ensure that the error does not corrupt an architectural state of the processor core within the retirement stage. | 08-07-2014 |
20140379773 | FUSED MULTIPLY ADD OPERATIONS USING BIT MASKS - Systems and methods of performing a fused multiply add (FMA) operations are provided. In one embodiment, the length of the adder used by the FMA operation is less than 3*N, where N is the number of bits in the mantissa term of a floating point number. A mask may be used to perform the addition portion of the FMA operation using the adder. A second mask may be used to denormalize the result of the addition portion of the FMA operation if an underflow occurs. | 12-25-2014 |
20150074373 | SCATTER USING INDEX ARRAY AND FINITE STATE MACHINE - Methods and apparatus are disclosed using an index array and finite state machine for scatter/gather operations. Embodiment of apparatus may comprise: decode logic to decode scatter/gather instructions and generate micro-operations. An index array holds a set of indices and a corresponding set of mask elements. A finite state machine facilitates the scatter operation. Address generation logic generates an address from an index of the set of indices for at least each of the corresponding mask elements having a first value. Storage is allocated in a buffer for each of the set of addresses being generated. Data elements corresponding to the set of addresses being generated are copied to the buffer. Addresses from the set are accessed to store data elements if a corresponding mask element has said first value and the mask element is changed to a second value responsive to completion of their respective stores. | 03-12-2015 |
20150212816 | METHOD AND APPARATUS FOR PERFORMING LOGICAL COMPARE OPERATIONS - A method and apparatus for including in a processor instructions for performing logical-comparison and branch support operations on packed or unpacked data. In one embodiment, instruction decode logic decodes instructions for an execution unit to operate on packed data elements including logical comparisons. A register file including 128-bit packed data registers stores packed single-precision floating point (SPFP) and packed integer data elements. The logical comparisons may include comparison of SPFP data elements and comparison of integer data elements and setting at least one bit to indicate the results. Based on these comparisons, branch support actions are taken. Such branch support actions may include setting the at least one bit, which in turn may be utilized by a branching unit in response to a branch instruction. Alternatively, the branch support actions may include branching to an indicated target code location. | 07-30-2015 |
20150261590 | CONDITIONAL MEMORY FAULT ASSIST SUPPRESSION - In some disclosed embodiments instruction execution logic provides conditional memory fault assist suppression. Some embodiments of processors comprise a decode stage to decode one or more instruction specifying: a set of memory operations, one or more register, and one or more memory address. One or more execution units, responsive to the one or more decoded instruction, generate said one or more memory address for the set of memory operations. Instruction execution logic records one or more fault suppress bits to indicate whether one or more portion of the set of memory operations are masked. Fault generation logic is suppressed from considering a memory fault corresponding to a faulting one of the set of memory operations when said faulting one of the set of memory operations corresponds to a portion of the set of memory operations that is indicated as masked by said one or more fault suppress bits. | 09-17-2015 |
Patent application number | Description | Published |
20090172358 | IN-LANE VECTOR SHUFFLE INSTRUCTIONS - In-lane vector shuffle operations are described. In one embodiment a shuffle instruction specifies a field of per-lane control bits, a source operand and a destination operand, these operands having corresponding lanes, each lane divided into corresponding portions of multiple data elements. Sets of data elements are selected from corresponding portions of every lane of the source operand according to per-lane control bits. Elements of these sets are copied to specified fields in corresponding portions of every lane of the destination operand. Another embodiment of the shuffle instruction also specifies a second source operand, all operands having corresponding lanes divided into multiple data elements. A set selected according to per-lane control bits contains data elements from every lane portion of a first source operand and data elements from every corresponding lane portion of the second source operand. Set elements are copied to specified fields in every lane of the destination operand. | 07-02-2009 |
20090214026 | METHOD AND APPARATUS FOR OPTIMIZING ADVANCED ENCRYPTION STANDARD (AES) ENCRYPTION AND DECRYPTION IN PARALLEL MODES OF OPERATION - The throughput of an encryption/decryption operation is increased in a system having a pipelined execution unit. Different independent encryptions (decryptions) of different data blocks may be performed in parallel by dispatching an AES round instruction in every cycle. | 08-27-2009 |
20090220071 | COMBINING INSTRUCTIONS INCLUDING AN INSTRUCTION THAT PERFORMS A SEQUENCE OF TRANSFORMATIONS TO ISOLATE ONE TRANSFORMATION - The Advanced Encryption Standard (AES) is a symmetric block cipher that can encrypt and decrypt information. Encryption (cipher) performs a series of transformations (Shift Rows, Substitute Bytes, Mix Columns) using the secret key (cipher key) to transforms intelligible data referred to as “plaintext” into an unintelligible form referred to as “cipher text”. The transformations (Inverse Shift Rows, Inverse Substitute Bytes, Inverse Mix Columns) in the inverse cipher (decryption) are the inverse of the transformations in the cipher. Encryption and decryption is performed efficiently through the use of instructions that perform the series of transformations. Combinations of these instructions allow the isolation of the transformations (Shift Rows, Substitute Bytes, Mix Columns, Inverse Shift Rows, Inverse Substitute Bytes, Inverse Mix Columns) to be obtained. | 09-03-2009 |
20090327663 | Power Aware Retirement - In one embodiment, the present invention includes a retirement unit to receive and retire executed instructions. The retirement unit may include a first array to receive information at allocation and a second array to receive information after execution. The retirement unit may further include logic to calculate an event associated with an executed instruction if information associated with the executed instruction is stored in an on-demand portion of at least one of arrays. Other embodiments are described and claimed. | 12-31-2009 |
20110307687 | IN-LANE VECTOR SHUFFLE INSTRUCTIONS - In-lane vector shuffle operations are described. In one embodiment a shuffle instruction specifies a field of per-lane control bits, a source operand and a destination operand, these operands having corresponding lanes, each lane divided into corresponding portions of multiple data elements. Sets of data elements are selected from corresponding portions of every lane of the source operand according to per-lane control bits. Elements of these sets are copied to specified fields in corresponding portions of every lane of the destination operand. Another embodiment of the shuffle instruction also specifies a second source operand, all operands having corresponding lanes divided into multiple data elements. A set selected according to per-lane control bits contains data elements from every lane portion of a first source operand and data elements from every corresponding lane portion of the second source operand. Set elements are copied to specified fields in every lane of the destination operand. | 12-15-2011 |
20120224687 | Method and apparatus for optimizing Advanced Encryption Standard (AES) encryption and decryption in parallel modes of operation - The throughput of an encryption/decryption operation is increased in a system having a pipelined execution unit. Different independent encryptions (decryptions) of different data blocks may be performed in parallel by dispatching an AES round instruction in every cycle. | 09-06-2012 |
20130191615 | INSTRUCTIONS AND LOGIC TO PERFORM MASK LOAD AND STORE OPERATIONS - In one embodiment, logic is provided to receive and execute a mask move instruction to transfer a vector data element including a plurality of packed data elements from a source location to a destination location, subject to mask information for the instruction. Other embodiments are described and claimed. | 07-25-2013 |
20130212360 | In-Lane Vector Shuffle Instructions - In-lane vector shuffle operations are described. In one embodiment a shuffle instruction specifies a field of per-lane control bits, a source operand and a destination operand, these operands having corresponding lanes, each lane divided into corresponding portions of multiple data elements. Sets of data elements are selected from corresponding portions of every lane of the source operand according to per-lane control bits. Elements of these sets are copied to specified fields in corresponding portions of every lane of the destination operand. Another embodiment of the shuffle instruction also specifies a second source operand, all operands having corresponding lanes divided into multiple data elements. A set selected according to per-lane control bits contains data elements from every lane portion of a first source operand and data elements from every corresponding lane portion of the second source operand. Set elements are copied to specified fields in every lane of the destination operand. | 08-15-2013 |
20130275482 | PROCESSORS, METHODS, SYSTEMS, AND INSTRUCTIONS TO GENERATE SEQUENCES OF CONSECUTIVE INTEGERS IN NUMERICAL ORDER - A method of an aspect includes receiving an instruction indicating a destination storage location. A result is stored in the destination storage location in response to the instruction. The result includes a sequence of at least four consecutive non-negative integers in numerical order. In an aspect, the instruction does not indicate a source packed data operand having a plurality of packed data elements in an architecturally-visible storage location. Other methods, apparatus, systems, and instructions are disclosed. | 10-17-2013 |
20130275727 | Processors, Methods, Systems, and Instructions to Generate Sequences of Integers in which Integers in Consecutive Positions Differ by a Constant Integer Stride and Where a Smallest Integer is Offset from Zero by an Integer Offset - A method of an aspect includes receiving an instruction. The instruction indicates an integer stride, indicates an integer offset, and indicates a destination storage location. A result is stored in the destination storage location in response to the instruction. The result includes a sequence of at least four integers in numerical order with a smallest one of the at least four integers differing from zero by the integer offset and with all integers of the sequence in consecutive positions differing by the integer stride. Other methods, apparatus, systems, and instructions are disclosed. | 10-17-2013 |
20130275729 | Packed Data Rearrangement Control Indexes Precursors Generation Processors, Methods, Systems, and Instructions - A method of an aspect includes receiving an instruction indicating a destination storage location. A result is stored in the destination storage location in response to the instruction. The result includes the result including a sequence of at least four non-negative integers. In an aspect, values of the at least four non-negative integers are not calculated using a result of a preceding instruction. Other methods, apparatus, systems, and instructions are disclosed. | 10-17-2013 |
20130275730 | APPARATUS AND METHOD OF IMPROVED EXTRACT INSTRUCTIONS - An apparatus is described that includes instruction execution logic circuitry to execute first, second, third and fourth instructions. Both the first instruction and the second instruction select a first group of input vector elements from one of multiple first non overlapping sections of respective first and second input vectors. The first group has a first bit width. Each of the multiple first non overlapping sections have a same bit width as the first group. Both the third instruction and the fourth instruction select a second group of input vector elements from one of multiple second non overlapping sections of respective third and fourth input vectors. The second group has a second bit width that is larger than the first bit width. Each of the multiple second non overlapping sections have a same bit width as the second group. The apparatus includes masking layer circuitry to mask the first and second groups of the first and third instructions at a first granularity, where, respective resultants produced therewith are respective resultants of the first and third instructions. The masking circuitry is also to mask the first and second groups of the second and fourth instructions at a second granularity, where, respective resultants produced therewith are respective resultants of the second and fourth instructions. | 10-17-2013 |
20130283018 | Packed Data Rearrangement Control Indexes Generation Processors, Methods, Systems and Instructions - A method of an aspect includes receiving a packed data rearrangement control indexes generation instruction. The packed data rearrangement control indexes generation instruction indicates a destination storage location. A result is stored in the destination storage location in response to the packed data rearrangement control indexes generation instruction. The result includes a sequence of at least four non-negative integers representing packed data rearrangement control indexes. In an aspect, values of the at least four non-negative integers are not calculated using a result of a preceding instruction. Other methods, apparatus, systems, and instructions are disclosed. | 10-24-2013 |
20130283019 | PROCESSORS, METHODS, SYSTEMS, AND INSTRUCTIONS TO GENERATE SEQUENCES OF INTEGERS IN NUMERICAL ORDER THAT DIFFER BY A CONSTANT STRIDE - A method of an aspect includes receiving an instruction indicating a destination storage location. A result is stored in the destination storage location in response to the instruction. The result includes a sequence of at least four non-negative integers in numerical order with all integers in consecutive positions differing by a constant stride of at least two. In an aspect, storing the result including the sequence of the at least four integers is performed without calculating the at least four integers using a result of a preceding instruction. Other methods, apparatus, systems, and instructions are disclosed. | 10-24-2013 |
20130283021 | APPARATUS AND METHOD OF IMPROVED INSERT INSTRUCTIONS - An apparatus is described having instruction execution logic circuitry to execute first, second, third and fourth instruction. Both the first instruction and the second instruction insert a first group of input vector elements to one of multiple first non overlapping sections of respective first and second resultant vectors. The first group has a first bit width. Each of the multiple first non overlapping sections have a same bit width as the first group. Both the third instruction and the fourth instruction insert a second group of input vector elements to one of multiple second non overlapping sections of respective third and fourth resultant vectors. The second group has a second bit width that is larger than said first bit width. Each of the multiple second non overlapping sections have a same bit width as the second group. The apparatus also includes masking layer circuitry to mask the first and third instructions at a first resultant vector granularity, and, mask the second and fourth instructions at a second resultant vector granularity. | 10-24-2013 |
20130290687 | APPARATUS AND METHOD OF IMPROVED PERMUTE INSTRUCTIONS - An apparatus is described having instruction execution logic circuitry. The instruction execution logic circuitry has input vector element routing circuitry to perform the following for each of three different instructions: for each of a plurality of output vector element locations, route into an output vector element location an input vector element from one of a plurality of input vector element locations that are available to source the output vector element. The output vector element and each of the input vector element locations are one of three available bit widths for the three different instructions. The apparatus further includes masking layer circuitry coupled to the input vector element routing circuitry to mask a data structure created by the input vector routing element circuitry. The masking layer circuitry is designed to mask at three different levels of granularity that correspond to the three available bit widths. | 10-31-2013 |
20140006755 | VECTOR MULTIPLICATION WITH ACCUMULATION IN LARGE REGISTER SPACE | 01-02-2014 |
20140006817 | Performing Local Power Gating In A Processor | 01-02-2014 |
20140013075 | SYSTEMS, APPARATUSES, AND METHODS FOR PERFORMING A HORIZONTAL ADD OR SUBTRACT IN RESPONSE TO A SINGLE INSTRUCTION - Embodiments of systems, apparatuses, and methods for performing in a computer processor vector packed horizontal add or subtract of packed data elements in response to a single vector packed horizontal add or subtract instruction that includes a destination vector register operand, a source vector register operand, and an opcode are describes. | 01-09-2014 |
20140019713 | SYSTEMS, APPARATUSES, AND METHODS FOR PERFORMING A DOUBLE BLOCKED SUM OF ABSOLUTE DIFFERENCES - Embodiments of systems, apparatuses, and methods for performing in a computer processor vector double block packed sum of absolute differences (SAD) in response to a single vector double block packed sum of absolute differences instruction that includes a destination vector register operand, first and second source operands, an immediate, and an opcode are described. | 01-16-2014 |
20140040604 | PACKED ROTATE PROCESSORS, METHODS, SYSTEMS, AND INSTRUCTIONS - A method of an aspect includes receiving a masked packed rotate instruction. The instruction indicates a first source packed data including a plurality of packed data elements, a packed data operation mask having a plurality of mask elements, at least one rotation amount, and a destination storage location. A result packed data is stored in the destination storage location in response to the instruction. The result packed data includes result data elements that each correspond to a different one of the mask elements in a corresponding relative position. Result data elements that are not masked out by the corresponding mask element include one of the data elements of the first source packed data in a corresponding position that has been rotated. Result data elements that are masked out by the corresponding mask element include a masked out value. Other methods, apparatus, systems, and instructions are disclosed. | 02-06-2014 |
20140059322 | APPARATUS AND METHOD FOR BROADCASTING FROM A GENERAL PURPOSE REGISTER TO A VECTOR REGISTER - An apparatus and method are described for broadcasting from a general purpose source register to a destination vector register. For example, a method according to one embodiment includes the following operations: selecting data element position N within the destination vector register to be updated; broadcasting a set of data from the general purpose source register to data element position N within the destination vector register if a mask indicator is set to a first indication; and either copying zeroes to data element position N within the destination vector register or maintaining existing values stored within data element position N within the destination vector register if the mask indicator is set to a second indication. | 02-27-2014 |
20140082333 | SYSTEMS, APPARATUSES, AND METHODS FOR PERFORMING AN ABSOLUTE DIFFERENCE CALCULATION BETWEEN CORRESPONDING PACKED DATA ELEMENTS OF TWO VECTOR REGISTERS - Embodiments of systems, apparatuses, and methods for performing in a computer processor absolute difference calculation in response to a single vector packed absolute difference instruction that includes a first and second source vector register operand, a destination vector register operand, and an opcode are described. | 03-20-2014 |
20140188967 | Leading Change Anticipator Logic - In one embodiment, a processor includes at least one floating point unit. The at least one floating point unit may include an adder, leading change anticipator (LCA) logic, and a shifter. The adder may be to add a first operand X and a second operand Y to obtain an output operand having a bit length n. The LCA logic may be to: for each bit position i from n−1 to 1, obtain a set of propagation values and a set of bit values based on the first operand X and the second operand Y; and generate a LCA mask based on the set of propagation values and the set of bit values. The shifter may be to normalize the output operand based on the LCA mask. Other embodiments are described and claimed. | 07-03-2014 |
20140201502 | SYSTEMS, APPARATUSES, AND METHODS FOR PERFORMING A BUTTERFLY HORIZONTAL AND CROSS ADD OR SUBSTRACT IN RESPONSE TO A SINGLE INSTRUCTION - Embodiments of systems, apparatuses, and methods for performing in a computer processor vector packed butterfly horizontal cross add or subtract of packed data elements in response to a single vector packed butterfly horizontal cross add or subtract instruction that includes a destination vector register operand, a source vector register operand, an immediate, and an opcode are described. | 07-17-2014 |
20140208080 | APPARATUS AND METHOD FOR DOWN CONVERSION OF DATA TYPES - An apparatus and method are described for down-converting from a source operand to a destination operand with masking. For example, a method according to one embodiment includes the following operations: reading a source operand value to be down-converted from a first value to a down-converted value and stored in a destination location; reading each mask register bit stored in a mask register, the mask register bit(s) indicating whether to perform a masking operation or a conversion operation on the source operand value; if the mask register bit(s) indicates that a masking operation is to be performed, then performing a specified masking operation and storing the results of the masking operation in the destination location; and if the mask register bit(s) indicates that a masking operation is not to be performed, then down-converting the source operand value and storing the down-converted value in the specified destination location. | 07-24-2014 |
20140223138 | SYSTEMS, APPARATUSES, AND METHODS FOR PERFORMING CONVERSION OF A MASK REGISTER INTO A VECTOR REGISTER. - Embodiments of systems, apparatuses, and methods for performing in a computer processor conversion of a mask register into a vector register in response to a single vector packed convert a mask register to a vector register instruction that includes a destination vector register operand, a source writemask register operand, and an opcode are described. | 08-07-2014 |
20140317422 | Method And Apparatus To Control Current Transients In A Processor - In an embodiment, a processor includes at least one core. The at least one core includes an execution unit and a current protection (IccP) controller. The IccP controller may receive instruction width information associated with one or more instructions of an instruction queue prior to execution of the instructions by the execution unit. The IccP controller may determine an anticipated highest current level (Icc) for the at least one core based on the instruction width information. The IccP controller may generate a request for a first license for the at least one core that is associated with the Icc. Other embodiments are described and claimed. | 10-23-2014 |
20140365747 | SYSTEMS, APPARATUSES, AND METHODS FOR PERFORMING A HORIZONTAL PARTIAL SUM IN RESPONSE TO A SINGLE INSTRUCTION - Embodiments of systems, apparatuses, and methods for performing in a computer processor vector packed horizontal partial sum of packed data elements in response to a single vector packed horizontal sum instruction that includes a destination vector register operand, a source vector register operand, and an opcode are described. | 12-11-2014 |
20140380338 | Method And Apparatus To Protect A Processor Against Excessive Power Usage - In an embodiment, a processor includes at least a first core. The first core includes execution logic to execute operations, and a first event counter to determine a first event count associated with events of a first type that have occurred since a start of a first defined interval. The first core also includes a second event counter to determine a second event count associated with events of a second type that have occurred since the start of the first defined interval, and stall logic to stall execution of operations including at least first operations associated with events of the first type, until the first defined interval is expired responsive to the first event count exceeding a first combination threshold concurrently with the second event count exceeding a second combination threshold. Other embodiments are described and claimed. | 12-25-2014 |
20150026439 | APPARATUS AND METHOD FOR PERFORMING PERMUTE OPERATIONS - An apparatus and method are described for permuting data elements with masking. For example, a method according to one embodiment includes the following operations: reading values from a mask data structure to determine whether masking is implemented for each data element of a destination operand; if masking not implemented for a particular data element, then selecting data elements from a first source operand and a second source operand based on index values stored in destination operand to be copied to data element positions within the destination operand, wherein any one of the data elements from either the first source operand and the second source operand may be copied to any one of the data element positions within the destination operand; and if masking is implemented for a particular data element of the destination operand, then performing a designated masking operation with respect to that particular data element. | 01-22-2015 |
20150026440 | APPARATUS AND METHOD FOR PERFORMING A PERMUTE OPERATION - An apparatus and method are described for permuting data elements with masking. For example, a method according to one embodiment includes the following operations: reading values from a mask data structure to determine whether masking is implemented for each data element of a destination operand; if masking not implemented for a particular data element, then selecting data elements from the destination operand and a second source operand based on index values stored in a first source operand to be copied to data element positions within the destination operand, wherein any one of the data elements from either the destination operand and the second source operand may be copied to any one of the data element positions within the destination operand; if masking is implemented for a particular data element of the destination operand, then performing a designated masking operation with respect to that particular data element. | 01-22-2015 |
20150088947 | MULTIPLY ADD FUNCTIONAL UNIT CAPABLE OF EXECUTING SCALE, ROUND, GETEXP, ROUND, GETMANT, REDUCE, RANGE AND CLASS INSTRUCTIONS - A method is described that involves executing a first instruction with a functional unit. The first instruction is a multiply-add instruction. The method further includes executing a second instruction with the functional unit. The second instruction is a round instruction. | 03-26-2015 |