Aws
Aws Abdul-Wahid, Montreal CA
Patent application number | Description | Published |
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20130071417 | N-DOMAIN OF CARCINOEMBRYONIC ANTIGEN AND COMPOSITIONS, METHODS AND USES THEREOF - The present disclosure provides immunogenic compositions comprising the N-domain of carcinoembryonic antigen (CEA). These compositions are useful for inducing or enhancing an immune response, for inhibiting tumor cell growth and for treating cancer. | 03-21-2013 |
20150044218 | N-DOMAIN OF CARCINOEMBRYONIC ANTIGEN AND COMPOSITIONS, METHODS AND USES THEREOF - The present disclosure provides immunogenic compositions comprising the N-domain of carcinoembryonic antigen (CEA). These compositions are useful for inducing or enhancing an immune response, for inhibiting tumor cell growth and for treating cancer. | 02-12-2015 |
Aws Albarghouthi, Toronto CA
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20130239093 | PARALLELIZING TOP-DOWN INTERPROCEDURAL ANALYSIS - Technologies pertaining to top-down interprocedural analysis of a computer program are described herein. A query is received for processing over a root procedure in the computer program. Responsive to the query being received, the root procedure is explored, and calls to sub-procedures are located. Sub-queries are generated upon encountering the calls to the sub-procedures, and execution of the sub-queries is performed in parallel across multiple computing nodes. | 09-12-2013 |
Aws Al-Saadi, Berlin DE
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20130236137 | OPTICAL PULSE DELAY GENERATOR - An optical pulse delay generator is provided. The optical pulse delay generator includes a first optical converter which is dispersive and separates the spectral components of the incoming optical pulse in a time domain. The first optical converter generating a converted optical signal. The optical pulse delay generator also includes a modulator to modulate the converted optical signal and to generate a modulated optical signal and a second optical converter connected to the modulator. The second optical converter being dispersive for overlaying the previously separated spectral components in the time domain and generating the delayed optical output pulse. The dispersion imposed by the second optical converter has the same amount of dispersion, but the opposite sign, as the first optical converter. At least one of the first and second optical converter includes at least two waveguide resonator rings which differ in their optical length. | 09-12-2013 |
20140241656 | Electro-Optic Modulator - An electro-optic modulator for the modulation of optical radiation of a predetermined wavelength, the electro-optic modulator having at least one optical resonator in which a standing optical wave can be formed for the predetermined wavelength. In the resonator, at least two doped semiconductor sections—as seen in the longitudinal direction of the resonator—are arranged at a distance from one another, and the at least two doped semiconductor sections respectively lie locally at an intensity minimum of the standing optical wave. | 08-28-2014 |
Aws Shallal, Durham, NC US
Patent application number | Description | Published |
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20080307288 | Data coding apparatus and methods - Data encoding apparatus and methods are disclosed. A Cyclic Redundancy Check (CRC) coding module is selected, from a plurality of different CRC coding modules, for coding a block of information. A generic coder, which is configurable to perform CRC coding based on any of the plurality of different CRC coding modules, is configured to perform CRC coding for the block of information based on the selected CRC coding module. A block of information for which a coding operation is to be performed may be segmented into a plurality of segments having respective lengths. Respective generic coders may be configured to perform the coding operation for the plurality of segments. In this case, a result of the coding operation for the block of information may be determined based on results of the coding operations for the plurality of data segments. | 12-11-2008 |
20120079347 | DATA CODING APPARATUS AND METHODS - Data encoding apparatus and methods are disclosed. A Cyclic Redundancy Check (CRC) coding module is selected, from a plurality of different CRC coding modules, for coding a block of information. A generic coder, which is configurable to perform CRC coding based on any of the plurality of different CRC coding modules, is configured to perform CRC coding for the block of information based on the selected CRC coding module. A block of information for which a coding operation is to be performed may be segmented into a plurality of segments having respective lengths. Respective generic coders may be configured to perform the coding operation for the plurality of segments. In this case, a result of the coding operation for the block of information may be determined based on results of the coding operations for the plurality of data segments. | 03-29-2012 |
Aws Shallal, Cary, NC US
Patent application number | Description | Published |
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20120269511 | SIGNAL FORMAT CONVERSION APPARATUS AND METHODS - Signal format conversion apparatus and methods involve converting data signals between a first signal format associated with a first reference clock rate and a second signal format that is different from the first signal format and is associated with a second reference clock rate different from the first reference clock rate. A period of the second signal format is changed to match a period of a third signal format by controlling a synchronized second reference clock rate that is applied in converting data signals between the first signal format and the second signal format. The synchronized second reference clock rate is different from the second reference clock rate and is synchronized with a third reference clock rate. The third reference clock rate is associated with the third signal format. Such synchronization simplifies conversion of signals between the second and third signal formats. | 10-25-2012 |