Patent application number | Description | Published |
20110106722 | COMPARING UTILITY AND WARRANTY OF SERVICES - An invention for comparing utility and warranty of services in an information (IT) stack is provided. Embodiments of this invention are directed to comparing utility and warranty of services in an information technology (IT) stack comprising a plurality of layers, at least one of the plurality of layers having a set of services. In these embodiments, a utility and warranty tool provides this capability. Specifically, the utility and warranty tool comprises a determination component configured to determine, at each layer of the IT stack, a required utility and warranty (RUW) value for each of the set of services, wherein the RUW value represents a desired solution for implementing a business process; and determine, at each layer of the IT stack, an available utility and warranty (AUW) value for each of the set of services, wherein the AUW value is a measure of an ability of each of the set of services to satisfy the RUW at each layer of the IT stack. The utility and warranty tool further comprises a comparison component configured to compare the RUW value against the AUW value at each layer of the IT stack to determine whether each of the set of services satisfies the desired solution for implementing the business process. | 05-05-2011 |
20120016715 | OPTIMIZING IT INFRASTRUCTURE CONFIGURATION - A computer implemented method optimizes a configuration of an information technology (IT) infrastructure. A processor establishes a technology rule set, which defines technology weights of an IT infrastructure by mapping capabilities of IT infrastructure components to IT infrastructure attributes needed to execute a specific workload. A candidate IT infrastructure for executing the specific workload is then configured. The processor then receives responses, provided by a customer, to an attribute questionnaire. Each question in the attribute questionnaire is mapped to an IT infrastructure attribute of the candidate IT infrastructure, and the responses define a customer's level of agreement/disagreement with the technology weights. In response to the processor determining that the candidate IT infrastructure fails to meet the customer's expectations, the candidate IT infrastructure is reconfigured until the customer's expectations are met. | 01-19-2012 |
20120238032 | LAB ON A CHIP - A Lab On a Chip (LOC) has a Sample Preparation Module (SPM) coupled to a sample inlet, a microchannel coupled to the SPM, and an optic module optically proximate to the microchannel. The optic module holds multiple lenses, each of which has a different effective focal length, such that all fields of focus within the microchannel are covered as objects suspended within the liquid sample pass through the microchannel. | 09-20-2012 |
20120246488 | BORN ENCRYPTED OPTICAL DATA - A device for generating a born encrypted optical file includes a photovoltaic matrix for converting an optical image into a digital file. The digital file is a collection of digital data that has not been processed by any image processing logic and thus cannot be used to directly generate a reproduced image of the object. An encryption logic converts the digital file into an encrypted digital file that can be exported from the device to an authorized device to create a decrypted digital file. This decrypted digital file is capable of being used by a display logic to display an image of the object. | 09-27-2012 |
20130227305 | BORN ENCRYPTED OPTICAL DATA - A device for generating a born encrypted optical file includes a photovoltaic matrix for converting an optical image into a digital file. The digital file is a collection of digital data that has not been processed by any image processing logic and thus cannot be used to directly generate a reproduced image of the object. An encryption logic converts the digital file into an encrypted digital file that can be exported from the device to an authorized device to create a decrypted digital file. This decrypted digital file is capable of being used by a display logic to display an image of the object. | 08-29-2013 |
20130246123 | OPTIMIZING IT INFRASTRUCTURE CONFIGURATION - A computer implemented method optimizes a configuration of an information technology (IT) infrastructure. A processor establishes a technology rule set, which defines technology weights of an IT infrastructure by mapping capabilities of IT infrastructure components to IT infrastructure attributes needed to execute a specific workload. A candidate IT infrastructure for executing the specific workload is then configured. The processor then receives responses, provided by a customer, to an attribute questionnaire. Each question in the attribute questionnaire is mapped to an IT infrastructure attribute of the candidate IT infrastructure, and the responses define a customer's level of agreement/disagreement with the technology weights. In response to the processor determining that the candidate IT infrastructure fails to meet the customer's expectations, the candidate IT infrastructure is reconfigured until the customer's expectations are met. | 09-19-2013 |
20130286195 | LAB ON A CHIP - A Lab On a Chip (LOC) has a Sample Preparation Module (SPM) coupled to a sample inlet, a microchannel coupled to the SPM, and an optic module optically proximate to the microchannel. The optic module holds multiple lenses, each of which has a different effective focal length, such that all fields of focus within the microchannel are covered as objects suspended within the liquid sample pass through the microchannel. | 10-31-2013 |
20150037215 | LAB ON A CHIP - A Lab On a Chip (LOC) comprises: a sample inlet for receiving a liquid sample; and a Sample Preparation Module (SPM) coupled to the sample inlet. The SPM comprises: a mixing chamber; a reagent chamber containing a reagent; a semi-permeable membrane oriented between the mixing chamber and the reagent chamber; and a tuned energy source, wherein the tuned energy source selectively causes contents of the reagent chamber to expand and pass through the semi-permeable membrane into the mixing chamber to mix the reagent with the liquid sample. The LOC further comprises a microchannel coupled to the SPM; a light source; an optic module optically proximate to the microchannel; and a plurality of lenses within the optic module, wherein each lens has a different effective focal length for generating a single composite image of an object passing through the microchannel. | 02-05-2015 |