Patent application number | Description | Published |
20110154353 | Demand-Driven Workload Scheduling Optimization on Shared Computing Resources - Systems and methods implementing a demand-driven workload scheduling optimization of shared resources used to execute tasks submitted to a computer system are disclosed. Some embodiments include a method for demand-driven computer system resource optimization that includes receiving a request to execute a task (said request including the task's required execution time and resource requirements), selecting a prospective execution schedule meeting the required execution time and a computer system resource meeting the resource requirement, determining (in response to the request) a task execution price for using the computer system resource according to the prospective execution schedule, and scheduling the task to execute using the computer system resource according to the prospective execution schedule if the price is accepted. The price varies as a function of availability of the computer system resource at times corresponding to the prospective execution schedule, said availability being measured at the time the price is determined. | 06-23-2011 |
20110161964 | Utility-Optimized Scheduling of Time-Sensitive Tasks in a Resource-Constrained Environment - Systems and methods implementing utility-maximized scheduling of time-sensitive tasks in a resource constrained-environment are described herein. Some embodiments include a method for utility-optimized scheduling of computer system tasks performed by a processor of a first computer system that includes determining a time window including a candidate schedule of a new task to be executed on a second computer system, identifying other tasks scheduled to be executed on the second computer system within said time window, and identifying candidate schedules that each specifies the execution times for at least one of the tasks (which include the new task and the other tasks). The method further includes calculating an overall utility for each candidate schedule based upon a task utility calculated for each of the tasks when scheduled according to each corresponding candidate schedule and queuing the new task for execution according to a preferred schedule with the highest overall utility. | 06-30-2011 |
20110239275 | Centrally Managed Impersonation - Systems, methods and computer readable media for centrally managed impersonation are described. Examples include a system having a central server and a remote shell daemon running on a remote machine, wherein a trust relationship is established between the central server and the remote shell daemon. Examples also include a method wherein a user sends the management system a request to act upon a remote machine. The management system determines whether the user is authenticated for the requested action. Upon authentication, the management system identifies an impersonation policy based on user profile and the remote machine. The management system connects to the remote machine, impersonates an elevated privilege account if required, and executes the user action on the remote machine. | 09-29-2011 |
20110296499 | Security Context Passing for Stateless System Management - Systems and methods for stateless system management are described. Examples include a method wherein a user sends the management system a request to act upon a managed system. The management system determines whether the user is authorized for the requested action. Upon authorization, the management system looks up an automation principal, which is a security principal native to the managed system. The management system retrieves connecting credentials for the automation principal, and connects to the managed system using the retrieved credentials. Once the managed system is connected, the management system performs the requested action on the managed system, and sends the result back to the user. | 12-01-2011 |
20110320598 | System and Method for Offering Virtual Private Clouds within a Public Cloud Environment - Systems, methods and computer readable media for providing virtual private clouds within a public cloud are described. Examples include a method wherein a service provider deploys a primary instance of a cloud-in-a-box (CIAB) to his cloud computing system to create a public cloud. A CIAB includes adapters configured to manage virtual infrastructure of the cloud, and end-user portal and an administrative portal. A nested instance of CIAB may be deployed to one of the virtual machines, with one of the adapters of the nested instance of CIAB being connected to the end-user portal of the primary instance. An administrator of the nested instance may create his own library of virtual machine images and offer the library to the end-users of the nested CAIB instance. | 12-29-2011 |
Patent application number | Description | Published |
20090326337 | MULTIFUNCTIONAL NANOSCOPY FOR IMAGING CELLS - Disclosed herein is an apparatus for sensing characteristics of an object. In a preferred embodiment, the apparatus comprises an array, wherein the array comprises a plurality of nanoscale hybrid semiconductor/metal devices which are in proximity to an object, each hybrid semiconductor/metal device being configured to produce a voltage in response to a perturbation, wherein the produced voltage is indicative of a characteristic of the object. Any of a variety of nanoscale EXX sensors can be selected as the hybrid semiconductor/metal devices in the array. With such an array, ultra high resolution images of nanoscopic resolution can be generated of objects such as living cells, wherein the images are indicative of a variety of cell biologic processes. | 12-31-2009 |
20110233382 | Method and Apparatus for High Resolution Photon Detection Based on Extraordinary Optoconductance (EOC) Effects - The inventors disclose a new high performance optical sensor, preferably of nanoscale dimensions, that functions at room temperature based on an extraordinary optoconductance (EOC) phenomenon, and preferably an inverse EOC (I-EOC) phenomenon, in a metal-semiconductor hybrid (MSH) structure having a semiconductor/metal interface. Such a design shows efficient photon sensing not exhibited by bare semiconductors. In experimentation with an exemplary embodiment, ultrahigh spatial resolution 4-point optoconductance measurements using Helium-Neon laser radiation reveal a strikingly large optoconductance property, an observed maximum measurement of 9460% EOC, for a 250 nm device. Such an exemplary EOC device also demonstrates specific detectivity higher than 5.06×10 | 09-29-2011 |
20130234740 | Multifunctional Nanoscopy for Imaging Cells - Disclosed herein is an apparatus comprising a metal shunt and a planar semiconductor material in electrical contact with the metal shunt, the metal shunt located on a surface of the semiconductor material, thereby defining a semiconductor/metal interface for passing a flow of current between the semiconductor material and the metal shunt in response to an application of an electrical bias to the apparatus, wherein a portion of that semiconductor material surface is not covered by the metal shunt, wherein the semiconductor material and the metal shunt lie in different planes that are substantially parallel planes, the semiconductor/metal interface thereby being parallel to the plane of semiconductor material, and wherein, when under the electrical bias, the semiconductor/metal interface is configured to exhibit a change in resistance thereof in response to a perturbation. Such an apparatus can be used as a sensor and deployed as an array of sensors. | 09-12-2013 |
20130278806 | Method and Apparatus for High Resolution Photon Detection Based on Extraordinary Optoconductance (EOC) Effects - The inventors disclose a new high performance optical sensor, preferably of nanoscale dimensions, that functions at room temperature based on an extraordinary optoconductance (EOC) phenomenon, and preferably an inverse EOC (I-EOC) phenomenon, in a metal-semiconductor hybrid (MSH) structure having a semiconductor/metal interface. Such a design shows efficient photon sensing not exhibited by bare semiconductors. In experimentation with an exemplary embodiment, ultrahigh spatial resolution 4-point optoconductance measurements using Helium-Neon laser radiation reveal a strikingly large optoconductance property, an observed maximum measurement of 9460% EOC, for a 250 nm device. Such an exemplary EOC device also demonstrates specific detectivity higher than 5.06×10 | 10-24-2013 |
20140197855 | Multifunctional Nanoscopy for Imaging Cells - Disclosed herein is an apparatus comprising a metal shunt and a semiconductor material in electrical contact with the metal shunt, thereby defining a semiconductor/metal interface for passing a flow of current between the semiconductor material and the metal shunt in response to an application of an electrical bias to the apparatus, wherein the semiconductor material and the metal shunt lie in different planes that are substantially parallel planes, the semiconductor/metal interface thereby being parallel to planes in which the semiconductor material and the metal shunt lie, and wherein, when under the electrical bias, the semiconductor/metal interface is configured to exhibit a change in resistance thereof in response to a perturbation. Such an apparatus can be used as a sensor and deployed as an array of sensors. | 07-17-2014 |