Patent application number | Description | Published |
20100183213 | OPPOSED VIEW AND DUAL HEAD DETECTOR APPARATUS FOR DIAGNOSIS AND BIOPSY WITH IMAGE PROCESSING METHODS - The invention relates generally to biopsy needle guidance which employs an x-ray/gamma image spatial co-registration methodology. A gamma camera is configured to mount on a biopsy needle gun platform to obtain a gamma image. More particular, the spatially co-registered x-ray and physiological images may be employed for needle guidance during biopsy. Moreover, functional images may be obtained from a gamma camera at various angles relative to a target site. Further, the invention also generally relates to a breast lesion localization method using opposed gamma camera images or dual opposed images. This dual head methodology may be used to compare the lesion signal in two opposed detector images and to calculate the Z coordinate (distance from one or both of the detectors) of the lesion. | 07-22-2010 |
20120219112 | OPPOSED VIEW AND DUAL HEAD DETECTOR APPARATUS FOR DIAGNOSIS AND BIOPSY WITH IMAGE PROCESSING METHOD - The invention relates generally to biopsy needle guidance which employs an x-ray/gamma image spatial co-registration methodology. A gamma camera is configured to mount on a biopsy needle gun platform to obtain a gamma image. More particular, the spatially co-registered x-ray and physiological images may be employed for needle guidance during biopsy. Moreover, functional images may be obtained from a gamma camera at various angles relative to a target site. Further, the invention also generally relates to a breast lesion localization method using opposed gamma camera images or dual opposed images. This dual head methodology may be used to compare the lesion signal in two opposed detector images and to calculate the Z coordinate (distance from one or both of the detectors) of the lesion. | 08-30-2012 |
20140334603 | OPPOSED VIEW AND DUAL HEAD DETECTOR APPARATUS FOR DIAGNOSIS AND BIOPSY WITH IMAGE PROCESSING METHODS - The invention relates generally to biopsy needle guidance which employs an x-ray/gamma image spatial co-registration methodology. A gamma camera is configured to mount on a biopsy needle gun platform to obtain a gamma image. More particular, the spatially co-registered x-ray and physiological images may be employed for needle guidance during biopsy. Moreover, functional images may be obtained from a gamma camera at various angles relative to a target site. Further, the invention also generally relates to a breast lesion localization method using opposed gamma camera images or dual opposed images. This dual head methodology may be used to compare the lesion signal in two opposed detector images and to calculate the Z coordinate (distance from one or both of the detectors) of the lesion. | 11-13-2014 |
Patent application number | Description | Published |
20100288934 | APPARATUS AND METHOD FOR EXTERNAL BEAM RADIATION DISTRIBUTION MAPPING - An apparatus and method for in vivo and ex vivo control, detection and measurement of radiation in therapy, diagnostics, and related applications accomplished through scintillating fiber detection. One example includes scintillating fibers placed along a delivery guide such as a catheter for measuring applied radiation levels during radiotherapy treatments, sensing locations of a radiation source, or providing feedback of sensed radiation. Another option is to place the fibers into a positioning device such as a balloon, or otherwise in the field of the radiation delivery. The scintillating fibers provide light output levels correlating to the levels of radiation striking the fibers and comparative measurement between fibers can be used for more extensive dose mapping. Adjustments to a radiation treatment may be made as needed based on actual and measured applied dosages as determined by the fiber detectors. Characteristics of a radiation source may also be measured using scintillating materials. | 11-18-2010 |
20110284757 | APPARATUS, METHOD AND SYSTEM FOR MEASURING PROMPT GAMMA AND OTHER BEAM-INDUCED RADIATION DURING HADRON THERAPY TREATMENTS FOR DOSE AND RANGE VERIFICATION PURPOSES USING IONIZATION RADIATION DETECTION - An apparatus, method and system for measurement of radiation during or directly following hadron therapy treatment for dose and range verification purposes accomplished through measurement of prompt gamma and other beam-induced radiation. One example includes the measurement of secondary prompt gamma radiation during proton and carbon ion beam irradiation. The measurement can also be made of other beam-induced radiation results. The measurement of gamma radiation or other beam-induced radiation allows for optimization of radiation dose disposition to the target tissue, with improved sparing of surrounding critical structures and normal tissue. Adjustments to a radiation treatment may be made as needed based on actual and measured applied dosages. | 11-24-2011 |
20120001096 | HADRON TREATMENT PLANNING WITH ADEQUATE BIOLOGICAL WEIGHTING - Treatment planning methods are provided that determine the variability of relative biological effectiveness (RBE) along a beam line and calculate, among other things, what intensity of hadron beam such as a proton or a carbon ion beam should be applied to achieve a desired biological dose at treatment site of a patient afflicted with a medical condition. Typically, three or four RBE values at three or four corresponding spacially-dispersed intervals along the beam line are calculated. In one embodiment, two RBE values for the spread-out Bragg peak (SOBP) region of the treatment site; one for the proximal section and one for the declining distal section is calculated. A third and different RBE value may be determined for the distal edge region of the SOBP. A fourth value may also be calculated for a pre-SOBP region. | 01-05-2012 |
20140018675 | APPARATUS AND METHOD FOR EXTERNAL BEAM RADIATION DISTRIBUTION MAPPING - An apparatus and method for in vivo and ex vivo control, detection and measurement of radiation in therapy, diagnostcs, and related applications accomplished through scintillating fiber detection. One example includes scintillating fibers placed along a delivery guide such as a catheter for measuring applied radiation levels during radiotherapy treatments, sensing locations of a radiation source, or providing feedback of sensed radiation. Another option is to place the fibers into a positioning device such as a balloon, or otherwise in the field of the radiation delivery. The scintillating fibers provide light output levels correlating to the levels of radiation striking the fibers and comparative measurement between fibers can be used for more extensive dose mapping. Adjustments to a radiation treatment may be made as needed based on actual and measured applied dosages as determined by the fiber detectors. Characteristics of a radiation source may also be measured using scintillating materials. | 01-16-2014 |
20140107395 | HADRON TREATMENT PLANNING WITH ADEQUATE BIOLOGICAL WEIGHTING - Treatment planning methods are provided that determine the variability of relative biological effectiveness (RBE) along a beam line and calculate, among other things, what intensity of hadron beam such as a proton or a carbon ion beam should be applied to achieve a desired biological dose at treatment site of a patient afflicted with a medical condition. Typically, three or four RBE values at three or four corresponding spacially-dispersed intervals along the beam line are calculated. In one embodiment, two RBE values for the spread-out Bragg peak (SOBP) region of the treatment site; one for the proximal section and one for the declining distal section is calculated. A third and different RBE value may be determined for the distal edge region of the SOBP. A fourth value may also be calculated for a pre-SOBP region. | 04-17-2014 |
20140336442 | HADRON TREATMENT PLANNING WITH ADEQUATE BIOLOGICAL WEIGHTING - Treatment planning methods are provided that determine the variability of relative biological effectiveness (RBE) along a beam line and calculate, among other things, what intensity of hadron beam such as a proton or a carbon ion beam should be applied to achieve a desired biological dose at treatment site of a patient afflicted with a medical condition. Typically, three or four RBE values at three or four corresponding spacially-dispersed intervals along the beam line are calculated. In one embodiment, two RBE values for the spread-out Bragg peak (SOBP) region of the treatment site; one for the proximal section and one for the declining distal section is calculated. A third and different RBE value may be determined for the distal edge region of the SOBP. A fourth value may also be calculated for a pre-SOBP region. | 11-13-2014 |
20150073200 | HADRON TREATMENT PLANNING WITH ADEQUATE BIOLOGICAL WEIGHTING - Treatment planning methods are provided that determine the variability of relative biological effectiveness (RBE) along a beam line and calculate, among other things, what intensity of hadron beam such as a proton or a carbon ion beam should be applied to achieve a desired biological dose at treatment site of a patient afflicted with a medical condition. Typically, three or four RBE values at three or four corresponding spacially-dispersed intervals along the beam line are calculated. In one embodiment, two RBE values for the spread-out Bragg peak (SOBP) region of the treatment site; one for the proximal section and one for the declining distal section is calculated. A third and different RBE value may be determined for the distal edge region of the SOBP. A fourth value may also be calculated for a pre-SOBP region. | 03-12-2015 |
20150216491 | APPARATUS AND METHOD FOR EXTERNAL BEAM RADIATION DISTRIBUTION MAPPING - An apparatus and method for in vivo and ex vivo control, detection and measurement of radiation in therapy, diagnostcs, and related applications accomplished through scintillating fiber detection. One example includes scintillating fibers placed along a delivery guide such as a catheter for measuring applied radiation levels during radiotherapy treatments, sensing locations of a radiation source, or providing feedback of sensed radiation. Another option is to place the fibers into a positioning device such as a balloon, or otherwise in the field of the radiation delivery. The scintillating fibers provide light output levels correlating to the levels of radiation striking the fibers and comparative measurement between fibers can be used for more extensive dose mapping. Adjustments to a radiation treatment may be made as needed based on actual and measured applied dosages as determined by the fiber detectors. Characteristics of a radiation source may also be measured using scintillating materials. | 08-06-2015 |
Patent application number | Description | Published |
20100262955 | METHOD FOR INTEGRATION OF INTERPRETATION AND TRANSLATION IN A MICROPROCESSOR - A method for executing a target application on a host processor including the steps of translating each target instruction being to be executed into host instructions, storing the translated host instructions, executing the translated host instructions, responding to an exception during execution of a translated instruction by rolling back to a point in execution at which correct state of a target processor is known, and interpreting each target instruction in order from the point in execution at which correct state of a target processor is known. | 10-14-2010 |
20140189240 | Apparatus and Method For Reduced Core Entry Into A Power State Having A Powered Down Core Cache - A method performed by a multi-core processor is described. The method includes, while a core is executing program code, reading a dirty cache line from the core's last level cache and sending the dirty cache line from the core for storage external from the core, where, the dirty cache line has not been evicted from the cache nor requested by another core or processor. | 07-03-2014 |
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 |
20140344596 | Controlling Power Consumption Of A Processor Using Interrupt-Mediated On-Off Keying - In an embodiment, a processor includes a logic to cause at least one core to operate with a power control cycle including a plurality of on times and a plurality of off times according to an ON-OFF keying protocol, where the on and off times vary depending on whether and when an interrupt is incurred. Other embodiments are described and claimed. | 11-20-2014 |
Patent application number | Description | Published |
20140189401 | BLOCK-LEVEL SLEEP LOGIC - In one embodiment, a processor includes at least one sleep block and a central sleep controller. The at least one sleep block may include at least one execution unit, at least one processor component, and sleep logic. The central sleep controller may be to program the sleep logic to perform at least one sleep transition for the at least one sleep block, and to operate in a first sleep mode. The sleep logic may be to perform the at least one sleep transition for the at least one sleep block without waking the central sleep controller from the first sleep mode. Other embodiments are described and claimed. | 07-03-2014 |
20140281602 | Controlling Processor Consumption Using On-Off Keying Having A Maximum Off Time - In an embodiment, a processor includes a logic to cause at least one core to operate with a power control cycle including a plurality of on times and a plurality of off times according to an ON-OFF keying protocol, where the off times each correspond to a maximum off time for a platform including the processor. Other embodiments are described and claimed. | 09-18-2014 |
20150095542 | COLLECTIVE COMMUNICATIONS APPARATUS AND METHOD FOR PARALLEL SYSTEMS - A collective communication apparatus and method for parallel computing systems. For example, one embodiment of an apparatus comprises a plurality of processor elements (PEs); collective interconnect logic to dynamically form a virtual collective interconnect (VCI) between the PEs at runtime without global communication among all of the PEs, the VCI defining a logical topology between the PEs in which each PE is directly communicatively coupled to a only a subset of the remaining PEs; and execution logic to execute collective operations across the PEs, wherein one or more of the PEs receive first results from a first portion of the subset of the remaining PEs, perform a portion of the collective operations, and provide second results to a second portion of the subset of the remaining PEs. | 04-02-2015 |
20150278011 | METHOD AND APPARATUS FOR MANAGING A SPIN TRANSFER TORQUE MEMORY - An apparatus and method for scrubbing spin transfer torque (STT) memory. For example, one embodiment of a apparatus comprises: a memory subsystem including at least one spin transfer torque (STT) memory, the STT memory arranged into one or more entries; and a scrub engine to ensure that the entries of the STT contain valid data, the scrub engine including analysis and processing logic to determine, for each entry, whether a specified scrubbing interval has expired and, if so, then to invalidate the entry or re-fetch data for the entry from a source and, if the scrubbing interval has not expired, then to perform error detection and/or correction on the entry. | 10-01-2015 |