Abstract: A semiconductor wafer comprises a first chip and a second chip, each chip comprising a core, link layer and physical layer. A kerf area physically connects the two chips on the wafer, and a kerf area interconnect selectively couples the link layers of the two chips while the two physical layers are disabled.

Abstract: A method for calibrating resistors on an integrated circuit chip via a daisy chain scheme. The method comprises the step of configuring one or more links of the daisy chain scheme, wherein each of the one or more links comprises one or more master resistors and one or more slave resistors. The method further comprises the steps of calibrating at least one on-chip reference resistor, the one or more master resistors, and the one or more slave resistors via the daisy chain scheme. The method using the daisy chain scheme enables resistance of at least one off-chip reference resistor to be duplicated to multiple distant locations while maintaining a low mismatch error.

Abstract: A method, system and computer program product for preventing execution of pirated software. A file is loaded on an end user's computer containing a binary image that is generated by removing one or more code bits from an executable code. A request is sent to a remote server to return a software key required for execution of the executable code from the binary image. The software key is downloaded to the end user's computer on which the binary image is loaded. One or more bits from the software key is inserted into the appropriate location of the binary image to regenerate the executable code. The executable code is enabled for execution on the end user's computer only following the embedding of the one or more bits.

Abstract: A structure and method for fabricating a light emitting diode and a light detecting diode on a silicon-on-insulator (SOI) wafer is provided. Specifically, the structure and method involves forming a light emitting diode and light detecting diode on the SOI wafer's backside and utilizing a deep trench formed in the wafer as an alignment marker. The alignment marker can be detected by x-ray diffraction, reflectivity, or diffraction grating techniques. Moreover, the alignment marker can be utilized to pattern openings and perform ion implantation to create p-n junctions for the light emitting diode and light detecting diode. By utilizing the SOI wafer's backside, the structure and method increases the number of light emitting diodes and light detecting diodes that can be formed on a SOI wafer, enables an increase in overall device density for an integrated circuit, and reduces attenuation of light signals being emitted and detected by the diodes.

Abstract: A structure and method for fabricating a light emitting diode and a light detecting diode on a silicon-on-insulator (SOI) wafer is provided. Specifically, the structure and method involves forming a light emitting diode and light detecting diode on the SOI wafer's backside and utilizing a deep trench formed in the wafer as an alignment marker. The alignment marker can be detected by x-ray diffraction, reflectivity, or diffraction grating techniques. Moreover, the alignment marker can be utilized to pattern openings and perform ion implantation to create p-n junctions for the light emitting diode and light detecting diode. By utilizing the SOI wafer's backside, the structure and method increases the number of light emitting diodes and light detecting diodes that can be formed on a SOI wafer, enables an increase in overall device density for an integrated circuit, and reduces attenuation of light signals being emitted and detected by the diodes.

Abstract: A method, structure, system of aligning a substrate to a photomask. The method comprising: directing light through a clear region of the photomask in a photolithography tool, through a lens of the tool and onto a set of at least three diffraction minor arrays on the substrate, each diffraction minor array of the set of at least three diffraction minor arrays comprising a single row of minors, all mirrors in any particular diffraction minor array spaced apart a same distance, minors in different diffraction minor arrays spaced apart different distances; measuring an intensity of light diffracted from the set of at least three diffraction mirror arrays onto an array of photo detectors; and adjusting a temperature of the photomask or photomask and lens based on the measured intensity of light.

Abstract: A semiconductor wafer comprises a first chip and a second chip, each chip comprising a core, link layer and physical layer. A kerf area physically connects the two chips on the wafer, and a kerf area interconnect selectively couples the link layers of the two chips while the two physical layers are disabled.

Abstract: A method, structure, system of aligning a substrate to a photomask. The method comprising: directing light through a clear region of the photomask in a photolithography tool, through a lens of the tool and onto a set of at least three diffraction mirror arrays on the substrate, each diffraction mirror array of the set of at least three diffraction minor arrays comprising a single row of mirrors, all mirrors in any particular diffraction mirror array spaced apart a same distance, mirrors in different diffraction mirror arrays spaced apart different distances; measuring an intensity of light diffracted from the set of at least three diffraction mirror arrays onto an array of photo detectors; and adjusting a temperature of the photomask or photomask and lens based on the measured intensity of light.

Abstract: A method, system and computer program product for partitioning the binary image of a software program, and partially removing code bits to create an encrypted software key, to increase software security. The software program's binary image is partitioned along a random segment length or a byte/nibble segment length, and the code bits removed, and stored, along with their positional data in a software key. The software key is encrypted and is separately distributed from the inoperable binary image to the end user. The encrypted key is stored on a secure remote server. When the end user properly authenticates with the developer's remote servers, the encrypted security key is downloaded from the secure remote server and is locally decrypted. The removed code bits are reinserted into the fractioned binary image utilizing the positional location information. The binary image is then operable to complete execution of the software program.

Abstract: A method, structure, system of aligning a substrate to a photomask. The method comprising: directing light through a clear region of the photomask in a photolithography tool, through a lens of the tool and onto a set of at least three diffraction mirror arrays on the substrate, each diffraction mirror array of the set of at least three diffraction mirror arrays comprising a single row of mirrors, all mirrors in any particular diffraction mirror array spaced apart a same distance, mirrors in different diffraction mirror arrays spaced apart different distances; measuring an intensity of light diffracted from the set of at least three diffraction mirror arrays onto an array of photo detectors; and adjusting a temperature of the photomask or photomask and lens based on the measured intensity of light.

Abstract: A method, system and computer program product for preventing execution of pirated software. A file is loaded on an end user's computer containing a binary image that is generated by removing one or more code bits from an executable code. A request is sent to a remote server to return a software key required for execution of the executable code from the binary image. The software key is downloaded to the end user's computer on which the binary image is loaded. One or more bits from the software key is inserted into the appropriate location of the binary image to regenerate the executable code. The executable code is enabled for execution on the end user's computer only following the embedding of the one or more bits.

Abstract: A method, system and computer program product for partitioning the binary image of a software program, and partially removing code bits to create an encrypted software key, to increase software security. The software program's binary image is partitioned along a random segment length or a byte/nibble segment length, and the code bits removed, and stored, along with their positional data in a software key. The software key is encrypted and is separately distributed from the inoperable binary image to the end user. The encrypted key is stored on a secure remote server. When the end user properly authenticates with the developer's remote servers, the encrypted security key is downloaded from the secure remote server and is locally decrypted. The removed code bits are reinserted into the fractioned binary image utilizing the positional location information. The binary image is then operable to complete execution of the software program.