Patent application number | Description | Published |
20120079250 | FUNCTIONAL UNIT CAPABLE OF EXECUTING APPROXIMATIONS OF FUNCTIONS - A semiconductor chip is described having a functional unit that can execute a first instruction and execute a second instruction. The first instruction is an instruction that multiplies two operands. The second instruction is an instruction that approximates a function according to C0+C1X2+C2X2 | 03-29-2012 |
20140122554 | Reducing Power Consumption In A Fused Multiply-Add (FMA) Unit Responsive To Input Data Values - In an embodiment, a fused multiply-add (FMA) circuit is configured to receive a plurality of input data values to perform an FMA instruction on the input data values. The circuit includes a multiplier unit and an adder unit coupled to an output of the multiplier unit, and a control logic to receive the input data values and to reduce switching activity and thus reduce power consumption of one or more components of the circuit based on a value of one or more of the input data values. Other embodiments are described and claimed. | 05-01-2014 |
20140181169 | METHOD, APPARATUS, SYSTEM FOR SINGLE-PATH FLOATING-POINT ROUNDING FLOW THAT SUPPORTS GENERATION OF NORMALS/DENORMALS AND ASSOCIATED STATUS FLAGS - A mechanism for performing single-path floating-point rounding in a floating point unit is disclosed. A system of the disclosure includes a memory and a processing device communicably coupled to the memory. In one embodiment, the processing device comprises a floating point unit (FPU) to generate a plurality of status flags for a rounded value of a finite nonzero number. The plurality of status flags are generated based on the finite nonzero number without calculating the rounded value of the finite nonzero number. The plurality of status flags comprises an overflow flag and an underflow flag. The FPU determines whether a rounded value should be calculated for the finite nonzero number based on the plurality of status flags and whether the overflow flag is asserted. Upon determining that the rounded value should be calculated for the finite nonzero number based on the plurality of status flags and that the overflow flag is asserted, the FPU calculates the rounded value of the finite nonzero number based on an overflow rounding. Upon determining that the rounded value should be calculated for the finite nonzero number based on the plurality of status flags and that the overflow flag is not asserted, the FPU calculates the rounded value of the finite nonzero number based on a blended reduced precision rounding. | 06-26-2014 |
20140181464 | COALESCING ADJACENT GATHER/SCATTER OPERATIONS - According to one embodiment, a processor includes an instruction decoder to decode a first instruction to gather data elements from memory, the first instruction having a first operand specifying a first storage location and a second operand specifying a first memory address storing a plurality of data elements. The processor further includes an execution unit coupled to the instruction decoder, in response to the first instruction, to read contiguous a first and a second of the data elements from a memory location based on the first memory address indicated by the second operand, and to store the first data element in a first entry of the first storage location and a second data element in a second entry of a second storage location corresponding to the first entry of the first storage location. | 06-26-2014 |
20140189305 | REDUNDANT EXECUTION FOR RELIABILITY IN A SUPER FMA ALU - A system, processor and method to increase computational reliability by using underutilized portions of a data path with a SuperFMA ALU. The method allows the reuse of underutilized hardware to implement spatial redundancy by using detection during the dispatch stage to determine if the operation may be executed by redundant hardware in the ALU. During execution, if determination is made that the correct conditions exists as determined by the redundant execution modes, the SuperFMA ALU performs the operation with redundant execution and compares the results for a match in order to generate a computational result. The method to increase computational reliability by using redundant execution is advantageous because the hardware cost of adding support for redundant execution is low and the complexity of implementation of the disclosed method is minimal due to the reuse of existing hardware. | 07-03-2014 |
20140201504 | FUNCTIONAL UNIT CAPABLE OF EXECUTING APPROXIMATIONS OF FUNCTIONS - A semiconductor chip is described having a functional unit that can execute a first instruction and execute a second instruction. The first instruction is an instruction that multiplies two operands. The second instruction is an instruction that approximates a function according to C | 07-17-2014 |
20150220345 | VECTOR MASK DRIVEN CLOCK GATING FOR POWER EFFICIENCY OF A PROCESSOR - A processor includes an instruction schedule and dispatch (schedule/dispatch) unit to receive a single instruction multiple data (SIMD) instruction to perform an operation on multiple data elements stored in a storage location indicated by a first source operand. The instruction schedule/dispatch unit is to determine a first of the data elements that will not be operated to generate a result written to a destination operand based on a second source operand. The processor further includes multiple processing elements coupled to the instruction schedule/dispatch unit to process the data elements of the SIMD instruction in a vector manner, and a power management unit coupled to the instruction schedule/dispatch unit to reduce power consumption of a first of the processing elements configured to process the first data element. | 08-06-2015 |
20160103684 | COALESCING ADJACENT GATHER/SCATTER OPERATIONS - According to one embodiment, a processor includes an instruction decoder to decode a first instruction to gather data elements from memory, the first instruction having a first operand specifying a first storage location and a second operand specifying a first memory address storing a plurality of data elements. The processor further includes an execution unit coupled to the instruction decoder, in response to the first instruction, to read contiguous a first and a second of the data elements from a memory location based on the first memory address indicated by the second operand, and to store the first data element in a first entry of the first storage location and a second data element in a second entry of a second storage location corresponding to the first entry of the first storage location. | 04-14-2016 |
20160103786 | COALESCING ADJACENT GATHER/SCATTER OPERATIONS - According to one embodiment, a processor includes an instruction decoder to decode a first instruction to gather data elements from memory, the first instruction having a first operand specifying a first storage location and a second operand specifying a first memory address storing a plurality of data elements. The processor further includes an execution unit coupled to the instruction decoder, in response to the first instruction, to read contiguous a first and a second of the data elements from a memory location based on the first memory address indicated by the second operand, and to store the first data element in a first entry of the first storage location and a second data element in a second entry of a second storage location corresponding to the first entry of the first storage location. | 04-14-2016 |
20160103787 | COALESCING ADJACENT GATHER/SCATTER OPERATIONS - According to one embodiment, a processor includes an instruction decoder to decode a first instruction to gather data elements from memory, the first instruction having a first operand specifying a first storage location and a second operand specifying a first memory address storing a plurality of data elements. The processor further includes an execution unit coupled to the instruction decoder, in response to the first instruction, to read contiguous a first and a second of the data elements from a memory location based on the first memory address indicated by the second operand, and to store the first data element in a first entry of the first storage location and a second data element in a second entry of a second storage location corresponding to the first entry of the first storage location. | 04-14-2016 |
20160103788 | COALESCING ADJACENT GATHER/SCATTER OPERATIONS - According to one embodiment, a processor includes an instruction decoder to decode a first instruction to gather data elements from memory, the first instruction having a first operand specifying a first storage location and a second operand specifying a first memory address storing a plurality of data elements. The processor further includes an execution unit coupled to the instruction decoder, in response to the first instruction, to read contiguous a first and a second of the data elements from a memory location based on the first memory address indicated by the second operand, and to store the first data element in a first entry of the first storage location and a second data element in a second entry of a second storage location corresponding to the first entry of the first storage location. | 04-14-2016 |
20160103789 | COALESCING ADJACENT GATHER/SCATTER OPERATIONS - According to one embodiment, a processor includes an instruction decoder to decode a first instruction to gather data elements from memory, the first instruction having a first operand specifying a first storage location and a second operand specifying a first memory address storing a plurality of data elements. The processor further includes an execution unit coupled to the instruction decoder, in response to the first instruction, to read contiguous a first and a second of the data elements from a memory location based on the first memory address indicated by the second operand, and to store the first data element in a first entry of the first storage location and a second data element in a second entry of a second storage location corresponding to the first entry of the first storage location. | 04-14-2016 |
20160103790 | COALESCING ADJACENT GATHER/SCATTER OPERATIONS - According to one embodiment, a processor includes an instruction decoder to decode a first instruction to gather data elements from memory, the first instruction having a first operand specifying a first storage location and a second operand specifying a first memory address storing a plurality of data elements. The processor further includes an execution unit coupled to the instruction decoder, in response to the first instruction, to read contiguous a first and a second of the data elements from a memory location based on the first memory address indicated by the second operand, and to store the first data element in a first entry of the first storage location and a second data element in a second entry of a second storage location corresponding to the first entry of the first storage location. | 04-14-2016 |
20160110196 | COALESCING ADJACENT GATHER/SCATTER OPERATIONS - According to one embodiment, a processor includes an instruction decoder to decode a first instruction to gather data elements from memory, the first instruction having a first operand specifying a first storage location and a second operand specifying a first memory address storing a plurality of data elements. The processor further includes an execution unit coupled to the instruction decoder, in response to the first instruction, to read contiguous a first and a second of the data elements from a memory location based on the first memory address indicated by the second operand, and to store the first data element in a first entry of the first storage location and a second data element in a second entry of a second storage location corresponding to the first entry of the first storage location. | 04-21-2016 |