Patent application number | Description | Published |
20080263377 | METHOD AND APPARATUS FOR ON-DEMAND POWER MANAGEMENT - An apparatus for on-demand power management including a system controller, a clock domain manager coupled to the system controller and a power distribution manager coupled to the system controller. The system controller monitors a processing demand in a processing system. The clock domain manager provides one or more clock frequencies and, in response to the processing demand, switches between a first set of clock frequencies and a second set of clock frequencies without halting the processing system. The power distribution manager provides one or more operating voltages and, in response to the processing demand, switches between a first set of voltages and a second set of voltages without halting the processing system. | 10-23-2008 |
20080263382 | METHOD AND APPARATUS FOR ON-DEMAND POWER MANAGEMENT - An apparatus for on-demand power management including a system controller, a clock domain manager coupled to the system controller and a power distribution manager coupled to the system controller. The system controller monitors a processing demand in a processing system. The clock domain manager provides one or more clock frequencies and, in response to the processing demand, switches between a first set of clock frequencies and a second set of clock frequencies without halting the processing system. The power distribution manager provides one or more operating voltages and, in response to the processing demand, switches between a first set of voltages and a second set of voltages without halting the processing system. | 10-23-2008 |
20100199114 | METHOD AND APPARATUS FOR ON-DEMAND POWER MANAGEMENT - A method for on-demand power management is described. The method includes detecting a plurality of processing events on a system bus within a processing system, recognizing a processing event pattern, and correlating the processing event pattern with a processing demand. | 08-05-2010 |
Patent application number | Description | Published |
20110182260 | SYSTEMS AND METHODS FOR ACHIEVING HIGH DATA-RATE WIRELESS COMMUNICATION - An embodiment of the present invention provides a system for increasing aggregate throughput in a wireless network array comprising a first node and a second node. The first node comprises a first plurality of wireless radios, a scheduling module, and an adaptive carrier sensing module. The second node can comprise a second plurality of wireless radios. The first node can be configured to simultaneously wirelessly transmit a first data packet from the first wireless radio in the first plurality of wireless radios to a first wireless radio in the second plurality of wireless radios at a first frequency and wirelessly transmit a second data packet from a second wireless radio in the first plurality of wireless radios to a second wireless radio in the second plurality of wireless radios at a second frequency, wherein the first frequency and second frequency are in a predetermined frequency band. | 07-28-2011 |
20120229499 | RAPID VIEW MOBILIZATION FOR ENTERPRISE APPLICATIONS - Certain embodiments of the invention may include systems, methods, and computer readable media for automatically converting a non-mobile computer platform application view to a mobile application view for use on a mobile device. The method can include transforming the non-mobile computer platform application view to the mobile application view based at least in part on differences between the-non mobile computer platform and the mobile device, wherein the differences comprise one or more of display capability, associated peripheral devices, bandwidth, or software libraries. The method can also include sending information associated with the transformed application view to the mobile device. | 09-13-2012 |
20130174047 | VIEW VIRTUALIZATION AND TRANSFORMATIONS FOR MOBILE APPLICATIONS - Application mobilization has assumed importance given the proliferation of smartphones amongst the enterprise workforce, and other users. Existing techniques to mobilize applications incur high overheads in terms of time, cost, and effort. Remote computing is a promising basis for application mobilization that has the advantages of zero code rewriting, full functionality applications, and seamless IT manageability. However, it has the major disadvantage of presenting a cumbersome PC application view on the smartphone. In this context the present invention, referred to as *Mobile, is described to perform dynamic transformation of application views for smartphones. Significant performance gains may be achieved by using this system and methodology. | 07-04-2013 |
Patent application number | Description | Published |
20130026669 | SYSTEMS AND METHODS FOR PREPARING NANOCRYSTALLINE COMPOSITIONS USING FOCUSED ACOUSTICS - Methods and systems for preparing nanocrystalline compositions using focused acoustic processing to cause and/or enhance crystal growth. A flow through system may be employed to expose sample material having a volume of greater or less than 30 mL to focused acoustic energy while flowing through a process chamber at a rate of at least 0.1 mL/min. Sample material may be processed by a suitable focused acoustic field in a cyclic fashion and/or with adjustment of processing parameters based on monitored characteristics of the sample, such as level of crystallinity. Nanocrystalline particles within the sample may have a tight particle size distribution with an average particle size between 10 nm and 1 micron. Stable nanocrystalline compositions may be reproducibly prepared using focused acoustics to have controllable morphologies and dimensions. | 01-31-2013 |
20130155802 | COMPOSITIONS AND METHODS FOR PREPARING NANOFORMULATIONS AND SYSTEMS FOR NANO-DELIVERY USING FOCUSED ACOUSTICS - Focused ultrasonic acoustic processing is used to prepare formulations particles ranging between approximately 10 nm and approximately 50 microns (e.g., between 1 micron and 20 microns), or between approximately 10 nm approximately 400 nm (e.g., between 10 nm and 100 nm). Formulations (e.g., nanoformulations) may include a suspension (e.g., nanosuspension), an emulsion (e.g., nanoemulsion) or another small particle system. Formulations may be used as delivery systems for therapeutic agents, e.g., a formulation may include a bioactive agent and a carrier compound such as a surfactant that encapsulates the bioactive agent. | 06-20-2013 |
20150079655 | METHOD AND APPARATUS FOR PROCESSING SAMPLE MATERIAL - Methods and systems for treating material with focused acoustic energy and/or ultraviolet radiation are described. Sample material may be provided to a single batch vessel or may flow in a continuous or intermittent fashion into/out of a processing chamber within which the material is exposed to focused acoustic energy and/or ultraviolet radiation. Exposure to focused acoustics in a flow through environment may enhance the effects of the radiation on the sample material. Further, in flow-through or single batch arrangements, sample material may be retained exterior to or within a processing chamber by one or more retaining members (e.g., filter, valve, etc.) until a characteristic of the sample material reaches one or more particular criteria (e.g., physical, chemical, biological). Once the criteria of the sample material is attained (e.g., via further treatment), the material is then permitted to flow past the retaining member(s) and through the inlet or outlet of the chamber. Further, focused acoustic processing may be used to treat articles, such as the retaining member(s), rather than only sample material located within an internal processing volume of the chamber. | 03-19-2015 |