Patent application number | Description | Published |
20110265191 | SYSTEM AND METHOD FOR PLACING AN ELECTRONIC APPARATUS INTO A PROTECTED STATE IN RESPONSE TO ENVIRONMENTAL DATA - A system and method is disclosed for placing an electronic apparatus into a protected state in response to environmental data. The method discloses: receiving a set of environmental data applicable to an electronic apparatus; generating an environmental status applicable to the electronic apparatus based-on the environmental data; and placing the electronic apparatus into a protected state based-on the environmental status. The system discloses an environment characterization module which receives a set of environmental data applicable to an electronic apparatus, and generates an environmental status applicable to the electronic apparatus based-on the environmental data; and an apparatus protection module which places the electronic apparatus into a protected state based-on the environmental status. | 10-27-2011 |
20110296153 | OPTIMIZATION OF STORAGE DEVICE OPERATING PARAMETERS - Example embodiments relate to storage devices, computing devices, and machine-readable storage media that optimize storage device operating parameters for desktop and notebook computing devices. Example embodiments allow for optimization of operating parameters of a storage device for one of a desktop computing device and a notebook computing devices based on provision of a command to the storage device. In example embodiments, upon receipt of such a command, the storage device may reconfigure its operating parameters to be optimized for the particular type of system. | 12-01-2011 |
20130024638 | STORAGE DEVICE IN A LOCKED STATE - A method for managing a storage device including identifying a lock timing for the storage device when coupling to a device, transitioning the storage device into a locked state in response to detecting the storage device decoupling from the device, and configuring the storage device to remain in the locked state if the storage device is re-coupled to the device after the lock timing has elapsed. | 01-24-2013 |
20130054872 | DATA STORAGE APPARATUS WITH A HDD AND A REMOVABLE SOLID STATE DEVICE - A data storage apparatus includes a non-volatile hard disk drive platter, a coupling interface for removably receiving a non-volatile solid state device operable as a cache. The data storage apparatus also includes a communication line functionally connected to the hard disk drive platter and the coupling interface and a storage controller are connected to the communication line to control operations of the hard disk drive platter and the solid state device, in which the storage controller is to determine whether the solid state device is coupled to the coupling interface and to modify operations of the hard disk drive platter based upon whether the solid state device is coupled to the coupling interface. | 02-28-2013 |
20130067149 | NON-VOLATILE CACHE - A method for managing a storage device including determining whether the storage device includes a non-volatile cache, scanning for a clear cache instruction received from a computing machine, and clearing the non-volatile cache on the storage device in response to authenticating the clear cache instruction. | 03-14-2013 |
20130332663 | DATA STORAGE APPARATUS WITH A HDD AND A REMOVABLE SOLID STATE DEVICE - According to an example, a data storage apparatus may include a non-volatile primary storage medium, a coupling interface to removably receive a non-volatile solid state device, a communication line connected to the non-volatile primary storage medium and the coupling interface, and a storage controller connected to the communication line. The storage controller may determine a memory type of the non-volatile solid state device, cache a first type of data in the non-volatile solid state device in response to a determination that the non-volatile to solid state device is of a first memory type, and cache a second type of data in the non-volatile solid state device in response to a determination that the non-volatile solid state device is of a second memory type, in which the second type of data differs from the first type of data. | 12-12-2013 |
20140250295 | LOAD BOOT DATA - Embodiments herein relate to loading boot data. In an embodiment, a device loads boot data from a first portion of a first non-volatile memory to complete a first booting of the device. The first portion of the first non-volatile memory is then released to allow the device to overwrite the first portion. Next, the boot data is written to the first non-volatile memory before the device enters a reduced power state. The written boot data is to be loaded from the first non-volatile memory to complete a second booting of the device, if the second booting is initiated. | 09-04-2014 |
20140297937 | SEGMENTED CACHES - Embodiments herein relate to segmenting and pinning a first non-volatile memory to store cache information. In an embodiment, the first non-volatile memory is divided into a plurality of segments. Then, a first type of software of a plurality of types of software is pinned to a first segment of the plurality of segments. The first pinned segment stores the cache information associated with the first type of software. | 10-02-2014 |
20140325133 | AMOUNT OF MEMORY FOR EXECUTION OF AN APPLICATION - Examples disclose determining an amount of memory for execution of an application, associated with a user preference, based on an inspection of data associated with the application. Further the example discloses transmitting a request to a non-volatile memory to allocate a segment corresponding to the amount of memory for execution of the application. Additionally, the example also discloses receiving a response of the amount of memory available for the segment and reserving a portion of the segment for the execution of the application. | 10-30-2014 |