Neilly
Michael Neilly, Santa Clara, CA US
Patent application number | Description | Published |
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20130326199 | METHOD AND APPARATUS FOR CONTROLLING A MXCSR - Disclosed is an apparatus and method generally related to controlling a multimedia extension control and status register (MXCSR). A processor core may include a floating point unit (FPU) to perform arithmetic functions; and a multimedia extension control register (MXCR) to provide control bits to the FPU. Further an optimizer may be used to select a speculative multimedia extension status register (SPEC_MXSR) from a plurality of SPEC_MXSRs to update a multimedia extension status register (MXSR) based upon an instruction. | 12-05-2013 |
Michael Neilly, Cupertino, CA US
Patent application number | Description | Published |
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20140189659 | HANDLING OF BINARY TRANSLATED SELF MODIFYING CODE AND CROSS MODIFYING CODE - A processor core includes a processor to execute a first translated instruction translated from a first instruction stored in first page of a memory. The processor also includes a translation indicator agent (XTBA) to store a first translation indicator that is read from a physical map (PhysMap) in the memory. In an embodiment, the first translation indicator is to indicate whether the first page has been modified after the first instruction is translated. Other embodiments are described as claimed. | 07-03-2014 |
Patrick Neilly, Mount Albert CA
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20120131611 | METHOD ANS SYSTEM FOR CONTROLLING MEDIA CONVEYANCE BY A DEVICE TO A USER BASED ON CURRENT LOCATION OF THE DEVICE - A method for execution by a customer premises receiver, comprising: receiving a signal that carries an original media stream; determining a location of the receiver; obtaining an identifier of an authorized region for the receiver; determining whether said location is contained within said authorized region; if said location is determined to be contained within said authorized region, outputting the original media stream for conveyance to a user; if said location is determined to not be contained within said authorized region, outputting a second media stream that is sufficiently corrupted relative to the original media stream as to degrade the user's viewing experience while being demonstrative of non-malfunctioning of the receiver. Also, a method, comprising a service provider releasing towards a plurality of customer premises receivers information regarding a respective geographic region within which each receiver is authorized to operate, wherein different geographic regions define coverage areas of different sizes. | 05-24-2012 |
William C. Neilly, Palm City, FL US
Patent application number | Description | Published |
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20090302990 | THERMALLY ACTIVATED ELECTRICAL INTERRUPT SWITCH - A thermally activated electrical interrupt device incorporates a thermally activated portion engaging with an electrical interrupt portion. The thermally activated material expands when heated, causing an interrupt control rod to open an electrical contact. When the interrupt device is placed into an interrupt state, a reset mechanism maintains the interrupt control rod in the interrupt state until specifically reset. An actuating shaft is in operational communication with at least one electrical contact. The actuating shaft is maintained in a thermal monitoring position until an interrupt control rod is moved via a thermally expanding material and engages with the actuating shaft, releasing it from the thermal monitoring position. The actuating shaft is projected via a biasing member to cause a change in state of the electrical contact. The actuating shaft remains in the interrupt state until the user resets the switch. | 12-10-2009 |
20090302991 | Thermally Activated Electrical Interrupt Switch - A thermally activated electrical interrupt device incorporates a thermally activated portion ( | 12-10-2009 |
20120068811 | METHOD OF THERMALLY OPERATING AN ELECTRICAL INTERRUPT SWITCH - A thermally activated electrical interrupt device incorporates a thermally activated portion engaging with an electrical interrupt portion. The thermally activated material expands when heated, causing an interrupt control rod to open an electrical contact. When the interrupt device is placed into an interrupt state, a reset mechanism maintains the interrupt control rod in the interrupt state until specifically reset. An actuating shaft is in operational communication with at least one electrical contact. The actuating shaft is maintained in a thermal monitoring position until an interrupt control rod is moved via a thermally expanding material and engages with the actuating shaft, releasing it from the thermal monitoring position. The actuating shaft is projected via a biasing member to cause a change in state of the electrical contact. The actuating shaft remains in the interrupt state until the user resets the switch. | 03-22-2012 |