Patent application number | Description | Published |
20140047860 | LOW GWP HEAT TRANSFER COMPOSITIONS - The present invention relates, in part, to heat transfer compositions and methods that include (a) from about 65% to about 75% by weight of HFC-32; (b) from about 15% to about 35% by weight of a compound selected from unsaturated —CF3 terminated propenes, unsaturated —CF3 terminated butenes, and combinations of these; and (c) from greater than about 0% to less than about 10% by weight of CO2, provided that the amount of component (c) is effective to improve heating capacity of the composition and reduce the defrost cycle in refrigerant applications, as compared to compositions lacking this component. | 02-20-2014 |
20140137578 | LOW GWP HEAT TRANSFER COMPOSITIONS - The present invention relates, in part, to heat transfer and refrigerant compositions and methods that include HFC-32; HFO-1234ze and HFC-125. | 05-22-2014 |
20140260382 | LOW GWP FLUIDS FOR HIGH TEMPERATURE HEAT PUMP APPLICATIONS - The present invention relates, in part, to heat transfer compositions, and associated systems and methods, which include a first composition selected from the group consisting of HFO-1233zd, HFC-245fa, and combinations of these: and optionally, a second composition selected from the group consisting of HFO-1234ze, HFC-134a, and combinations of these. | 09-18-2014 |
20150121910 | LOW GWP HEAT TRANSFER COMPOSITIONS - The present invention relates, in part, to heat transfer and refrigerant compositions and methods that include HFC-32; HFO-1234ze and HFC-125. | 05-07-2015 |
Patent application number | Description | Published |
20090277146 | INTERLOCKING BELT GUARDS FOR A DRAPER HEADER - A harvesting machine includes a harvesting header with a header frame, a cutterbar assembly attached to the header frame along the length thereof and configured to cut a crop, and a draper assembly positioned behind the cutterbar assembly and operable to receive severed crop material from the cutterbar assembly. The draper assembly includes a center draper that delivers crop material to a feeder house of the harvesting machine and oppositely spaced side drapers that deliver crop material to the center draper. The harvesting header is operable to flex and thereby follow an uneven terrain. | 11-12-2009 |
20090277148 | FLEXIBLE DRAPER AND CUTTER BAR HAVING SHIFTABLE CROP DIVIDER WITH DEFLECTOR - A harvesting machine includes a harvesting header with a header frame, a cutterbar assembly attached to the header frame along the length thereof and configured to cut a crop, and a draper assembly positioned behind the cutterbar assembly and operable to receive severed crop material from the cutterbar assembly. The draper assembly includes a center draper that delivers crop material to a feeder house of the harvesting machine and oppositely spaced side drapers that deliver crop material to the center draper. The harvesting header is operable to flex and thereby follow an uneven terrain. | 11-12-2009 |
20100043374 | FLEXIBLE DRAPER AND CUTTER BAR HAVING SHIFTABLE CROP DIVIDER WITH DEFLECTOR - A harvesting machine includes a harvesting header with a header frame, a cutterbar assembly attached to the header frame along the length thereof and configured to cut a crop, and a draper assembly positioned behind the cutterbar assembly and operable to receive severed crop material from the cutterbar assembly. The draper assembly includes a center draper that delivers crop material to a feeder house of the harvesting machine and oppositely spaced side drapers that deliver crop material to the center draper. The harvesting header is operable to flex and thereby follow an uneven terrain. | 02-25-2010 |
20110154795 | Interlocking Belt Guards for a Draper Header - A harvesting machine includes a harvesting header with a header frame, a cutterbar assembly attached to the header frame along the length thereof and configured to cut a crop, and a draper assembly positioned behind the cutterbar assembly and operable to receive severed crop material from the cutterbar assembly. The draper assembly includes a center draper that delivers crop material to a feeder house of the harvesting machine and oppositely spaced side drapers that deliver crop material to the center draper. The harvesting header is operable to flex and thereby follow an uneven terrain. | 06-30-2011 |
20120079800 | Interlocking Belt Guards for a Draper Header - A harvesting machine includes a harvesting header with a header frame, a cutterbar assembly attached to the header frame along the length thereof and configured to cut a crop, and a draper assembly positioned behind the cutterbar assembly and operable to receive severed crop material from the cutterbar assembly. The draper assembly includes a center draper that delivers crop material to a feeder house of the harvesting machine and oppositely spaced side drapers that deliver crop material to the center draper. The harvesting header is operable to flex and thereby follow an uneven terrain. | 04-05-2012 |
20120151893 | FLEXIBLE CUTTERBAR STOP STRUCTURE FOR DRAPER HEADER - A harvesting header includes a header frame, a flexible cutterbar assembly attached to the header frame, a draper assembly supported behind the cutterbar assembly for conveying severed crop materials received from the cutterbar assembly, and a plurality of laterally spaced apart support arms attached to and cooperatively supporting the flexible cutterbar assembly, with each support arm being pivotal about a lateral axis. The header further includes stop structure associated with a respective one of the support arms, with the stop structure located forwardly of the lateral axis and defining a limited range of angular support arm movement. | 06-21-2012 |
20120279191 | Interlocking Belt Guards for a Draper Header - A harvesting machine includes a harvesting header with a header frame, a cutterbar assembly attached to the header frame along the length thereof and configured to cut a crop, and a draper assembly positioned behind the cutterbar assembly and operable to receive severed crop material from the cutterbar assembly. The draper assembly includes a center draper that delivers crop material to a feeder house of the harvesting machine and oppositely spaced side drapers that deliver crop material to the center draper. The harvesting header is operable to flex and thereby follow an uneven terrain. | 11-08-2012 |
Patent application number | Description | Published |
20100313540 | DRAPER BELT SUPPORT FOR FLEXIBLE DRAPER HEADER - A harvesting machine includes a harvesting header with a header frame, a cutterbar assembly attached to the header frame along the length thereof and configured to cut a crop, and a draper assembly positioned behind the cutterbar assembly and operable to receive severed crop material from the cutterbar assembly. The draper assembly includes a center draper that delivers crop material to a feeder house of the harvesting machine and oppositely spaced side drapers that deliver crop material to the center draper. The harvesting header is operable to flex and thereby follow an uneven terrain. | 12-16-2010 |
20110232252 | DRAPER ASSEMBLY WITH ROLLERS AND A DRAPER BELT SUPPORT PANEL FOR A FLEXIBLE DRAPER HEADER - A harvesting machine includes a harvesting header with a header frame, a flexible cutterbar assembly attached to the header frame along the length thereof and configured to cut a crop, and a flexible draper assembly positioned behind the cutterbar assembly to permit the draper assembly to flex with the cutterbar assembly and operable to receive severed crop material from the cutterbar assembly. The draper assembly includes fore-and-aft extending rollers and an endless flexible belt entrained around the rollers. The draper assembly further includes at least one support panel to support the belt. | 09-29-2011 |
20110308221 | BELT GUARD CROP DAM FOR FLEXIBLE DRAPER HEADER - Belt guards that overlie the interface between a flexible cutterbar assembly and a flexible draper assembly of a harvesting header define an underlying void region that is sealed against the entry of crop residue by an upright dam wall that bears against the underside of the overhanging belt guards forward of the front edge of the upper run of the belt of the draper assembly. The upright dam wall is on the front extremity of flexible support panels that underlie the upper belt run and may be essentially rigid or provided with a resilient trim seal strip. | 12-22-2011 |
20120096825 | FLEXIBLE COMBINE HARVESTER DRAPER HEADER HAVING DRAPER BELT WITH INTERNAL GUIDE RIB - A harvesting machine includes a harvesting header with a header frame, a flexible cutterbar assembly attached to the header frame along the length thereof and configured to cut a crop, and a flexible draper assembly positioned behind the cutterbar assembly to permit the draper assembly to flex with the cutterbar assembly and operable to receive severed crop material from the cutterbar assembly. The draper assembly includes fore-and-aft extending rollers and an endless flexible belt entrained around the rollers. The draper assembly further includes at least one support panel to support the belt. | 04-26-2012 |
20120137645 | DRAPER ASSEMBLY WITH ROLLERS AND A DRAPER BELT SUPPORT PANEL FOR A FLEXIBLE DRAPER HEADER - A harvesting machine includes a harvesting header with a header frame, a flexible cutterbar assembly attached to the header frame along the length thereof and configured to cut a crop, and a flexible draper assembly positioned behind the cutterbar assembly to permit the draper assembly to flex with the cutterbar assembly and operable to receive severed crop material from the cutterbar assembly. The draper assembly includes fore-and-aft extending rollers and an endless flexible belt entrained around the rollers. The draper assembly further includes at least one support panel to support the belt. | 06-07-2012 |
20120216500 | BELT GUARD CROP DAM FOR FLEXIBLE DRAPER HEADER - Belt guards that overlie the interface between a flexible cutterbar assembly and a flexible draper assembly of a harvesting header define an underlying void region that is sealed against the entry of crop residue by an upright dam wall that bears against the underside of the overhanging belt guards forward of the front edge of the upper run of the belt of the draper assembly. The upright dam wall is on the front extremity of flexible support panels that underlie the upper belt run and may be essentially rigid or provided with a resilient trim seal strip. | 08-30-2012 |
20120324855 | DRAPER ASSEMBLY WITH ROLLERS FOR A FLEXIBLE DRAPER HEADER - A harvesting machine includes a harvesting header with a header frame, a flexible cutterbar assembly attached to the header frame along the length thereof and configured to cut a crop, and a flexible draper assembly positioned behind the cutterbar assembly to permit the draper assembly to flex with the cutterbar assembly and operable to receive severed crop material from the cutterbar assembly. The draper assembly includes fore-and-aft extending rollers and an endless flexible belt entrained around the rollers. | 12-27-2012 |
20130160418 | Support for Reel or Auger with Single Piece Tube - A reel may be disclosed. The reel may comprise a bearing mount, a bearing, and a reel tube. The bearing mount may be connected to the bearing. The reel tube may comprise a midpoint. The reel tube may also be a continuous piece and may be supported proximate the midpoint by the bearing. | 06-27-2013 |
Patent application number | Description | Published |
20090061855 | DYNAMIC GGSN RELOCATION IN A GPRS NETWORK - A communication system is described herein which has at least two compact “network-in-a-box” systems which are configured such that when a mobile station roams from a first radio coverage area supported by a first compact system into a second radio coverage area supported by a second compact system then packets originating from an IP host will be routed to the mobile station via a GGSN and a SGSN in the second compact system instead of through a GGSN in the first compact system and then through the SGSN in the second compact system as had been done in the past. | 03-05-2009 |
20090262662 | AUTO-CONFIGURATION AND DISCOVERY OF PORTABLE TELECOMMUNICATION SYSTEM - A portable telecommunications system (PTS), and discovery and update protocol provides an ad-hoc system in which PTS systems can detect one another over a wide area network (WAN). The system may be compact in a way that allows mobility and rapid deployment with minimal on-site configuration. PTS systems exchange multicast packets and peer-to-peer data exchanges. A protocol manager sets up these communications channels, manages exchanges between PTS systems, and passes the data to or from internal system nodes. The protocol manager also performs key oversight functions such as signaling to other systems that a PTS is joining or leaving the community, keeping track of which other PTS systems are in the community and active, and determining when data needs to be updated and exchanged. | 10-22-2009 |
20090264162 | AUTO-CONTROL OF RADIATION POWER IN A PORTABLE TELECOMMUNICATION SYSTEM - A portable telecommunications system (PTS) allows mobility and rapid deployment with minimal on-site configuration. PTS systems exchange multicast packets including location and identification information. A protocol manager sets up these communications channels, manages exchanges between PTS systems, and passes the data to or from internal system nodes. The PTS system detects when another PTS system is operating in close physical proximity and automatically perform actions, such as adjustment of transmission power level, to maintain service to the user base. | 10-22-2009 |
Patent application number | Description | Published |
20150254992 | MEMORY-ENHANCING AND HABIT-TRAINING METHODS AND DEVICES - A wearable or other portable device in the form of a module, bracelet, anklet, ring, or part of a garment, is worn or carried by a user in order to facilitate remembering facts or other sensory memories (memory enhancement), to gain new memories retroactively, and to facilitate eliminating or forming particular habitual behaviors (habit training). The device produces one or more stimuli: for example, it may display words on an LED screen, emit a sound, shine a light, vibrate, or induce a shock. The user may control the device's operation by manually administering stimuli via the device, or the user may choose or create a program through which the device automatically produces stimuli in response to particular criteria detected by the device or another computer linked to the device. | 09-10-2015 |
20150379880 | DEVICE FOR TRAINING BEHAVIOR - A wearable or other portable device in the form of a module, bracelet, necklace, anklet, ring, watchband, part of watchband, necklace, or part of a garment, is worn or carried by a user in order to assist in behavioral training and subconscious learning of a user. The device produces one or more stimuli: for example, it may display words on an LED screen, emit a sound, shine a light, vibrate, induce a warming or cooling sensation, or induce an electric stimulus. The user may control the device's operation by manually administering stimuli via the device, via a remote control, or the user may choose or create a program through which the device automatically produces stimuli in response to particular criteria detected by the device or another computer linked to the device. | 12-31-2015 |
20160063890 | METHOD FOR TRAINING BEHAVIOR - A wearable or other portable device in the form of a module, bracelet, anklet, ring, watchband, part of watchband, necklace, or part of a garment, is worn or carried by a user in order to assist in behavioral training of a user. The device produces one or more stimuli: for example, it may display words on an LED screen, emit a sound, shine a light, vibrate, induce a warming or cooling sensation, or induce a shock. The user may control the device's operation by manually administering stimuli via the device, or the user may choose or create a program through which the device automatically produces stimuli in response to particular criteria detected by the device or another computer linked to the device. A method for behavioral reinforcement involving use of the device. | 03-03-2016 |
Patent application number | Description | Published |
20090269560 | ALIGNED CARBON NANOTUBE-POLYMER MATERIALS, SYSTEMS AND METHODS - The invention is directed to carbon nanostructure composite systems which may be useful for various applications, including as dry adhesives, self-cleaning applications, electronics and display technologies, or in a wide variety of other areas where organized nanostructures may be formed and integrated into a flexible substrate. The present invention provides systems and methods wherein organized nanotube structures or other nanostructures are embedded within an adhesive, with the properties and characteristics of the nanotubes or other nanostructures exploited for use in various applications. In one aspect, the invention is directed to a self-cleaning carbon nanotube composite material that includes a substrate, an adhesive coating on at least a portion of the substrate, a plurality of carbon nanostructures formed into a predetermined architecture, each of the plurality of nanostructures having a substantially predetermined width and length, and the architecture of the plurality of nanostructures defining at least one orientation for a plurality of nanostructures, and defining the approximate spacing between nanostructures and/or groups of nanostructures, the carbon nanostructures architecture being at least partially adhered to the adhesive coating on the substrate in a manner that the architecture is stabilized in the predetermined architecture, wherein the carbon nanostructures architecture renders the composite material superhydrophobic. | 10-29-2009 |
20110212297 | HYDROPHOBIC SURFACE COATING SYSTEMS AND METHODS FOR METALS - This is provided a hydrophobic or superhydrophobic surface configuration and method of forming a hydrophobic or superhydrophobic material on a metallic substrate. The surface configuration comprises a metallic substrate having a carbon nanotube/carbon fibers configuration grown thereon, with the carbon nanotubes/carbon fibers configuration having a heirarchial structure formed to have a predetermined roughness in association with the surface. The method comprises providing a metallic substrate having a predetermined configuration, and growing a plurality of carbon nanotubes/fibers or other nanostructures formed into a predetermined architecture supported on the substrate. | 09-01-2011 |
Patent application number | Description | Published |
20120231270 | MATERIALS AND METHODS FOR THERMAL AND ELECTRICAL CONDUCTIVITY - A method of implementing a carbon nanotube thermal interface material onto a heat sink that includes growing carbon nanotubes on said heat sink by chemical vapor deposition and compressing the carbon nanotubes onto metallic surfaces to increase a contact surface area between the carbon nanotubes and the metallic surfaces. The increase in the contact surface area is the area of the carbon nanotubes that is in contact with the metallic surfaces. | 09-13-2012 |
20120235097 | CARBON NANOTUBE BASED FIELD EMISSION DEVICES AND METHODS - A method of fabricating a cathodic portion of a field emission display includes the steps of producing an array of substantially parallel carbon nanotubes attached at one end to a substantially planar substrate. Then, embedding the nanotubes in a polymer matrix that extends to a plane of attachment of the nanotubes to the planar substrate, wherein the polymer matrix allows an end of the nanotubes distal from the ends attached to the planar substrate, uncovered by the polymer matrix in order to allow electrical contact with each other and with an attached conductor. Next, detaching the array from the planar substrate, thus producing a surface having the formerly attached ends of the nanotubes substantially in a plane, and then attaching the conductor to the array of nanotube ends, uncovered by the polymer matrix and distal to the plane. | 09-20-2012 |
20140213130 | CARBON NANOTUBE-BASED ROBUST STEAMPHOBIC SURFACES - A method for creating a superhydrophobic coated nanoporous assembly includes the steps of: providing a nanoporous assembly formed of discrete and/or continuous structures that provide a morphology defining pores of less than 1 micron between neighboring discrete and continuous structures; bringing gaseous plasma precursors in the presence of the nanoporous assembly and in the presence of a plasma generator; employing the plasma generator to convert the gaseous plasma precursors to the plasma state; and permitting the plasma precursors to deposit as a coating on the nanoporous assembly through plasma polymerization techniques the deposition thereof preserving the porous structure of the nanoporous assembly, the deposited coating exhibiting a surface energy of less than 30 dynes/cm. | 07-31-2014 |
Patent application number | Description | Published |
20100263269 | Process for Drying Coal - A process for drying coal is provided in which coal is passed into a fluidized bed reactor and heated to a predetermined temperature. The dried coal is then fed to a cooler where the temperature of the product is reduced to approximately 200 degrees Fahrenheit and water is added to further passivate the coal. | 10-21-2010 |
20110252698 | Method of Drying Biomass - A process for torrefaction of biomass is provided in which biomass are passed into a fluidized bed reactor and heated to a predetermined temperature in an oxidizing environment. The dried biomass is then fed to a cooler where the temperature of the product is reduced to approximately 100 degrees Fahrenheit. | 10-20-2011 |
20110314728 | Method of Simultaneously Drying Coal and Torrefying Biomass - A process for simultaneously drying coal and/or torrefying biomass is provided in which coal and/or biomass are passed into a fluidized bed reactor and heated to a predetermined temperature. The dried coal and/or biomass is then fed to a cooler where the temperature of the product is reduced to approximately 200 degrees Fahrenheit and water is added to further passivate the coal. | 12-29-2011 |
20120023813 | METHOD OF DRYING BIOMASS - A process for torrefaction of biomass is provided in which biomass are passed into a fluidized bed or a non-fluidized bed reactor and heated to a predetermined temperature in an oxidizing environment. The dried biomass is then fed to a cooler where the temperature of the product is reduced to approximately 100 degrees Fahrenheit. | 02-02-2012 |
20120272569 | Process for Drying Coal - A process for drying coal is provided in which coal is passed into a fluidized bed reactor and heated to a predetermined temperature. The dried coal is then fed to a cooler where the temperature of the product is reduced to approximately 200 degrees Fahrenheit and water is added to further passivate the coal. | 11-01-2012 |
20130055631 | POST TORREFACTION BIOMASS PELLETIZATION - A process for torrefaction of biomass is provided in which biomass are passed into a fluidized bed or a non-fluidized bed reactor and heated to a predetermined temperature in an oxidizing environment. The dried biomass is then fed to a cooler where the temperature of the product is reduced to approximately 100 degrees Fahrenheit. | 03-07-2013 |
20150159105 | METHOD OF DRYING BIOMASS - A process for torrefaction of biomass is provided in which biomass are passed into a fluidized bed reactor and heated to a predetermined temperature in an oxidizing environment. The dried biomass is then fed to a cooler where the temperature of the product is reduced to approximately 100 degrees Fahrenheit. | 06-11-2015 |
20150275115 | POST TORREFACTION BIOMASS PELLETIZATION - A process for torrefaction of biomass is provided in which biomass are passed into a fluidized bed or a non-fluidized bed reactor and heated to a predetermined temperature in an oxidizing environment. The dried biomass is then fed to a cooler where the temperature of the product is reduced to approximately 100 degrees Fahrenheit. | 10-01-2015 |
Patent application number | Description | Published |
20080235429 | Operating PCI Express Resources in a Logically Partitioned Computing System - Methods, systems, and products are disclosed for operating Peripheral Component Interconnect (‘PCI’) Express resources in a logically partitioned computing system that include: allocating, by a hypervisor installed on the computing system, a PCI Express adapter installed in the computing system to a logical partition of the computing system, including establishing a data communication path between a processor of the computing system and the PCI Express adapter, the data communication path including a link between a PCI Express root complex and the PCI Express adapter; and administering, by the hypervisor for the logical partition, the PCI Express root complex and the link between the PCI Express root complex and the PCI Express adapter. | 09-25-2008 |
20090292960 | Method for Correlating an Error Message From a PCI Express Endpoint - In a method of handling errors in a digital system that includes a root complex in data communication with at least one endpoint, the endpoint including at least one advanced error reporting register, an error is detected by the endpoint. Error data indicative of the error is stored in an advanced error reporting register. An indication of which transaction caused the error is stored in a secondary location. An error message packet that includes the error data and the indication of which transaction caused the error is generated. The error message packet is transmitted to the root complex. The root complex is caused to take a preselected action in response to the error message packet. | 11-26-2009 |
20140380319 | ADDRESS TRANSLATION/SPECIFICATION FIELD FOR HARDWARE ACCELERATOR - Embodiments relate an address translation/specification (ATS) field. An aspect includes receiving a work queue entry from a work queue in a main memory by a hardware accelerator, the work queue entry corresponding to an operation of the hardware accelerator that is requested by user-space software, the work queue entry comprising a first ATS field that describes a structure of the work queue entry. Another aspect includes, based on determining that the first ATS field is consistent with the operation corresponding to the work queue entry and the structure of the work queue entry, executing the operation corresponding to the work queue entry by the hardware accelerator. Another aspect includes, based on determining that the first ATS field is not consistent with the operation corresponding to the work queue entry and the structure of the work queue entry, rejecting the work queue entry by the hardware accelerator. | 12-25-2014 |
20150020192 | ADDRESS TRANSLATION/SPECIFICATION FIELD FOR HARDWARE ACCELERATOR - Embodiments relate an address translation/specification (ATS) field. An aspect includes receiving a work queue entry from a work queue in a main memory by a hardware accelerator, the work queue entry corresponding to an operation of the hardware accelerator that is requested by user-space software, the work queue entry comprising a first ATS field that describes a structure of the work queue entry. Another aspect includes, based on determining that the first ATS field is consistent with the operation corresponding to the work queue entry and the structure of the work queue entry, executing the operation corresponding to the work queue entry by the hardware accelerator. Another aspect includes, based on determining that the first ATS field is not consistent with the operation corresponding to the work queue entry and the structure of the work queue entry, rejecting the work queue entry by the hardware accelerator. | 01-15-2015 |
20150089303 | FAST PATH USERSPACE RDMA RESOURCE ERROR DETECTION - Mechanisms are provided for providing an early warning of an error state of a remote direct memory access (RDMA) resource to a userspace application. The mechanisms detect, using kernelspace logic, an error event having occurred, and perform a write operation to write an error state value to a userspace shared memory state data structure indicating the RDMA resource to be in an error state. The mechanisms detect, using userspace logic, the RDMA resource being in an error state by reading the error state value from the userspace shared memory state data structure in response to a userspace application attempting to perform a RDMA operation using the RDMA resource. In addition, the mechanisms initiate, by the userspace application, an operation to tear down the RDMA resource in response to detecting the RDMA resource being in the error state. | 03-26-2015 |
20150089306 | FAST PATH USERSPACE RDMA RESOURCE ERROR DETECTION - Mechanisms are provided for providing an early warning of an error state of a remote direct memory access (RDMA) resource to a userspace application. The mechanisms detect, using kernelspace logic, an error event having occurred, and perform a write operation to write an error state value to a userspace shared memory state data structure indicating the RDMA resource to be in an error state. The mechanisms detect, using userspace logic, the RDMA resource being in an error state by reading the error state value from the userspace shared memory state data structure in response to a userspace application attempting to perform a RDMA operation using the RDMA resource. In addition, the mechanisms initiate, by the userspace application, an operation to tear down the RDMA resource in response to detecting the RDMA resource being in the error state. | 03-26-2015 |
20150106661 | Device State Capture During Operating System Dump - Mechanisms are provided for generating a system dump data structure based on device state data. A system dump operation is initialized in a data processing system and a device dump is requested by a dump manager from a device coupled to the data processing system. A collection scope data structure and disruption vector corresponding to the device are retrieved. The collection scope data structure specifies a set of one or more functions in the device for which to collect state data. The disruption vector specifies, for each of the one or more functions, a corresponding level of disruption that will be caused by the device dump. The device dump data is collected from the device in accordance with the collection scope data structure and the disruption vector and the system dump data structure is generated based on the collected device dump data. | 04-16-2015 |
20150121355 | UNIFIED UPDATE TOOL FOR MULTI-PROTOCOL NETWORK ADAPTER - A method and technique for updating firmware on a multi-protocol network adapter includes: reading parameter values for a firmware update to determine an update scope indicating one or more functions of the network adapter affected by the firmware update and a write scope indicating which of the one or more functions should receive a write request for writing the firmware update to the network adapter. The update tool is operable to: send a message indicating to the one or more functions based on the update scope that a firmware update process is beginning; send a write request to write the firmware update to the one or more functions based on the write scope; send a reset request to reset the one or more functions to activate the firmware update; and send a message indicating to the one or more functions that the firmware update process is completed. | 04-30-2015 |
20150127861 | Dynamic Data Collection Communication Between Adapter Functions - An approach is provided that collects data from a multi-function adapter that is used by multiple functions. In the approach, a master function is dynamically selected from the group of functions. The approach further allows the master function to perform a disruptive adapter data collection while inhibiting performance of disruptive adapter data collection processes by the other (non-master) functions. | 05-07-2015 |
20150142995 | DETERMINING A DIRECT MEMORY ACCESS DATA TRANSFER MODE - In response to receiving a request for a DMA data transfer, a DMA transfer mode may be determined based on based on the size of the requested DMA data transfer and profile data of an I/O adapter. The profile data for the I/O adapter may include a physical location of the I/O adapter or a number of clients supported by the I/O adapter. The DMA transfer mode may also be determined based on a preference of an application or an I/O device. Moreover, the DMA transfer mode may be determined based on a CPU usage metric being outside of a threshold for the CPU usage metric or on a memory usage metric being outside of a threshold for the memory usage metric. | 05-21-2015 |
20150347347 | Dynamic Data Collection Communication Between Adapter Functions - An approach is provided that collects data from a multi-function adapter that is used by multiple functions. In the approach, a master function is dynamically selected from the group of functions. The approach further allows the master function to perform a disruptive adapter data collection while inhibiting performance of disruptive adapter data collection processes by the other (non-master) functions. | 12-03-2015 |