| Patent application number | Description | Published |
|---|
| 20080276255 | Alternate Communication Path Between ESSNI Server and CEC - An enterprise network interface client application and a local, central electronic complex (CEC) in a dual CEC environment implement an alternative method of communication. Upon a send failure of a command to a first CEC in the environment, the command is sent to a second CEC using a CEC to CEC message mechanism. A method of communicating an asynchronous event is implemented between a microcode layer and an enterprise network interface client application in a dual central electronic complex (CEC) environment. A copy of the event is retained. Upon a send failure of the event to a first CEC in the environment, the copy of the event is sent to a second CEC in the environment. | 11-06-2008 |
| 20090049226 | STALE TRACK INITIALIZATION IN A STORAGE CONTROLLER - Deleting a data volume from a storage system and freeing its storage space to make it available to be allocated to a new volume is accomplished by only zeroing associated metadata for the tracks contained in the freed storage space which is then reused in a new volume allocation and an attempt is made by the new volume to read a first record R | 02-19-2009 |
| 20090049227 | AVOIDING FAILURE OF AN INITIAL PROGRAM LOAD IN A LOGICAL PARTITION OF A DATA STORAGE SYSTEM - An initial program load (IPL) of a logical partition (LPAR) is managed by establishing a logical path to the LPAR from a storage controller. When a notice is received by the storage controller from the LPAR that the IPL has commenced, the LPAR address is stored in a data structure. After the storage controller initiates a pack change state interrupt, the stored address is compared with the addresses in a list of all LPARS to which the interrupt is directed. If the list of addresses includes the stored address, the stored address is removed from the list. Thus, the pack change state interrupt is transmitted only to the addresses in the list, leaving the LPAR to complete the IPL without interruption. After the storage controller receives a notice from the LPAR that the IPL has completed, the address of the LPAR is removed from the data structure. | 02-19-2009 |
| 20090049228 | AVOIDING FAILURE OF AN INITIAL PROGRAM LOAD IN A LOGICAL PARTITION OF A DATA STORAGE SYSTEM - An initial program load (IPL) of a logical partition (LPAR) is managed by establishing a logical path to the LPAR from a storage controller. When a notice is received by the storage controller from the LPAR that the IPL has commenced, the LPAR address is stored in a data structure. After the storage controller initiates a pack change state interrupt, the stored address is compared with the addresses in a list of all LPARS to which the interrupt is directed. If the list of addresses includes the stored address, the stored address is removed from the list. Thus, the pack change state interrupt is transmitted only to the addresses in the list, leaving the LPAR to complete the IPL without interruption. After the storage controller receives a notice from the LPAR that the IPL has completed, the address of the LPAR is removed from the data structure. | 02-19-2009 |
| 20090049265 | STALE TRACK INITIALIZATION IN A STORAGE CONTROLLER - Deleting a data volume from a storage system and freeing its storage space to make it available to be allocated to a new volume is accomplished by only zeroing associated metadata for the tracks contained in the freed storage space which is then reused in a new volume allocation and an attempt is made by the new volume to read a first record R | 02-19-2009 |
| 20090049456 | LIMITING RECEIPT OF UNSOLICITED EVENTS BY A LOGICAL PARTITION IN A DATA STORAGE SYSTEM - A logical partition (LPAR) is managed in a data processing system by performing an initial program load (IPL), commencing execution of an application on the LPAR and selecting from a plurality of unsolicited events of which the application is to receive notice. A command is transmitted to a storage controller indicating the identity of the selected unsolicited events, wherein the storage controller will store the information in a data structure. Upon the later occurrence of an unsolicited event, the storage controller will transmit to the LPAR only notices of the selected unsolicited events. | 02-19-2009 |
| 20090049457 | LIMITING RECEIPT OF UNSOLICITED EVENTS BY A LOGICAL PARTITION IN A DATA STORAGE SYSTEM - A logical partition (LPAR) is managed in a data processing system by performing an initial program load (IPL), commencing execution of an application on the LPAR and selecting from a plurality of unsolicited events of which the application is to receive notice. A command is transmitted to a storage controller indicating the identity of the selected unsolicited events, wherein the storage controller will store the information in a data structure. Upon the later occurrence of an unsolicited event, the storage controller will transmit to the LPAR only notices of the selected unsolicited events. | 02-19-2009 |
| 20090193429 | METHOD TO IDENTIFY UNIQUE HOST APPLICATIONS RUNNING WITHIN A STORAGE CONTROLLER - A method for operating a controller includes receiving a command associated with at least one operation, determining a CPU channel path based on the received command, determining a unique job identifier based on the received command, and determining a state based on the received command. In addition, the method includes updating at least one data matrix based on the determined state, unique job identifier and CPU channel path and operating the controller based on the updated data matrix. | 07-30-2009 |
| 20090241136 | Method to Precondition a Storage Controller for Automated Data Collection Based on Host Input - An FTDC interface with the host or user. The interface can include a command application programming interface (API) or a data storage Command-Line Interface (DS CLI)/Graphical User Interface (GUI). In certain embodiments, the FTDC interface allows a host or user to customize a desired FTDC on a two-tiered system. The first tier is one in which a host/user selects, from a list of conditions, which ones, upon occurrence of those conditions, they would like the controller to perform FTDC. The second tier a second selection such that for each first tier item, the host/user will select the level of FTDC (collection and offloading of logs and/or the forcing and offloading of a statesave). | 09-24-2009 |
| 20100185895 | FAILURE-SPECIFIC DATA COLLECTION AND RECOVERY FOR ENTERPRISE STORAGE CONTROLLERS - A method, apparatus, and computer program product for handling a failure condition in a storage controller is disclosed. In certain embodiments, a method may include initially detecting a failure condition in a storage controller. The failure condition may be associated with a specific host and a specific storage device connected to the storage controller. The method may further include determining a failure ID associated with the failure condition. Using the failure ID, en entry may be located in a data collection and recovery table. This entry may indicate one or more data collection and/or recovery processes to execute in response to the failure condition. The method may then execute the data collection and/or recovery processes indicated in the entry. While executing the data collection and/or recovery processes, connectivity may be maintained between hosts and storage devices not associated with the failure condition. | 07-22-2010 |
| 20110072153 | APPARATUS, SYSTEM, AND METHOD FOR DEVICE LEVEL ENABLEMENT OF A COMMUNICATIONS PROTOCOL - An apparatus, system, and method are disclosed for device level enablement of a communications protocol. An adapter compatibility module determines an adapter compatibility status for a plurality of host adapters. A positive adapter compatibility status indicates that each host adapter in the plurality of host adapters is compatible with a communications protocol. A processor compatibility module determines a processor compatibility status for one or more processors. The one or more processors coordinate data transfers to and from the plurality of host adapters. A positive processor compatibility status indicates that each of the one or more processors is compatible with the communications protocol. A compatibility summary module determines a compatibility summary for the plurality of host adapters and the one or more processors. The compatibility summary indicates a positive compatibility relative to the communications protocol in response to a positive processor compatibility status and a positive adapter compatibility status. | 03-24-2011 |
