| Patent application number | Description | Published |
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| 20080288700 | Removable computer with mass storage - The present invention provides a detachable add-on card unit to a host system that combines mass storage capability and a processor on the same card. The card can receive data from the host, process the data, and store it in processed form, as well as the reverse process of retrieving stored data, processing it, and supplying it to the host. The non-volatile mass storage memory may contain program storage as well as card system data and user data. The end user of the card can program applications into the program storage. The combination of mass storage and a processor also adds to the capabilities of the on-card processor, allowing the card to store and execute programs. The present invention is able to provide a programmable add-on card unit to a host system. A number of applications can be stored in the card's mass storage and loaded as needed by the on-card micro-controller. | 11-20-2008 |
| 20100138652 | CONTENT CONTROL METHOD USING CERTIFICATE REVOCATION LISTS - Host devices present both the host certificate and the pertinent certificate revocation lists to the memory device for authentication so that the memory device need not obtain the list on its own. Processing of the certificate revocation list and searching for the certificate identification may be performed concurrently by the memory device. The certificate revocation lists for authenticating host devices to memory devices may be stored in an unsecured area of the memory device for convenience of users. | 06-03-2010 |
| 20100310076 | Method for Performing Double Domain Encryption in a Memory Device - A method for performing double domain encryption is provided. In one embodiment a memory device receives content encrypted with a transport encryption key. The memory device decrypts the content with the transport encryption key and then re-encrypts the content with a key unique to the memory device. The memory device then stores the re-encrypted content in the memory device. | 12-09-2010 |
| 20100332855 | Method and Memory Device for Performing an Operation on Data - A method and memory device for implementing long operations and supporting multiple streams are provided. In one embodiment, a memory device receives data and a command from a host to perform an operation on the data, wherein a time required for the memory device to complete the operation exceeds a maximum response time for the memory device to respond to the command. The memory device begins performing the operation on the data and, before exceeding the maximum response time and before completing the operation, sends the context of the operation to the host. At a later time, the memory device receives from the host: (i) a command to resume performing the operation and (ii) the context. The memory device then resumes performing the operation on the data based on the context received from the host. | 12-30-2010 |
| 20110107047 | Enforcing a File Protection Policy by a Storage Device - A file attribute, which is called herein “enforcement bit”, is used for each file that is stored in a storage device. If the protection particulars associated with a stored file are allowed to be changed, the enforcement bit is set to a first value, and if the protection particulars or properties are not to be changed, the enforcement bit is set to a second value. When the storage device is connected to a host device, the storage device provides to the host device protection particulars and an enforcement bit, which collectively form a “file protection policy”, for each stored file in response to a file system read command that the host device issues, in order to notify the host device of files in the storage device whose protection particulars are allowed to be changed freely, and of files whose protection particulars are not allowed to be changed by unauthorized users or devices. | 05-05-2011 |
| 20110107393 | Enforcing a File Protection Policy by a Storage Device - A file attribute, which is called herein “enforcement bit”, is used for each file that is stored in a storage device. If the protection particulars associated with a stored file are allowed to be changed, the enforcement bit is set to a first value, and if the protection particulars or properties are not to be changed, the enforcement bit is set to a second value. When the storage device is connected to a host device, the storage device provides to the host device protection particulars and an enforcement bit, which collectively form a “file protection policy”, for each stored file in response to a file system read command that the host device issues, in order to notify the host device of files in the storage device whose protection particulars are allowed to be changed freely, and of files whose protection particulars are not allowed to be changed by unauthorized users or devices. | 05-05-2011 |
| Patent application number | Description | Published |
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| 20080215847 | SECURE YET FLEXIBLE SYSTEM ARCHITECTURE FOR SECURE DEVICES WITH FLASH MASS STORAGE MEMORY - A device with mass storage capability that uses a readily available non secure memory for the mass storage but has firmware (and hardware) that provides security against unauthorized copying of data. This is true even though the firmware itself is stored in the non secure mass storage memory, and therefore potentially vulnerable to hacking. An indication of the authenticity of the firmware must be present before it will be executed by the device. This protects the device contents from unauthorized duplication or tampering. Additional functionality can be added to the device with additional firmware applications, and the authenticity of those additional applications will also be verified before they will be executed. This further prevents unauthorized copying or tampering of secure content through any mechanisms that may be unscrupulously introduced. Any data within the mass storage memory may also be encrypted. | 09-04-2008 |
| 20080270639 | Optimized Non-Volatile Storage Systems - A memory card that adapts its operation according to the application to which it applied or the conditions under which it is operated. This allows the card to dynamical self optimize. In a first set of embodiments, the card uses host profiling where it will learn about the host during host-card interactions and the card's controller will optimize its algorithms accordingly. In another set of embodiments, the host and card will report to one another their capabilities for a quality of service negotiation. A further set of embodiments allows the storage device to memorize access sequences issued by the host under various predefined conditions, such as host reset or a power on boot sequence. The storage device can use this information to optimize operation for the expected commands. On deviation from an expected sequence, the device would memorize the new command sequence and save it, thus operating in a self-adaptive manner. | 10-30-2008 |
| 20100199032 | ENHANCED DATA COMMUNICATION BY A NON-VOLATILE MEMORY CARD - A method of transmitting a stream of data bits from a memory card to a host device includes determining, at the memory card, a first number of data lines between the memory card and the host device, from one to a plurality of data lines. If the first number of data lines is determined to be a plurality of data lines, the method includes switching, at the memory card, the data stream between one of the first number of data lines and another of the first number of data lines after each occurrence of a second number of one or more bits of the data stream having passed toward the host device. The method also includes, if the first number of data lines is determined to be one data line, transmitting, from the memory card, the stream of data bits over the one data line to the host device. | 08-05-2010 |
| 20110022898 | NON-VOLATILE MEMORY SYSTEM WITH SELF TEST CAPABILITY - In a non-volatile memory system, test data may be retrieved by means of a circuit without the help of firmware. The circuit is triggered into action when it detects an abnormality in the processor or host interface. In such event, it formats the self test or status signals from the various blocks in the non-volatile memory system controller and sends a test message to the outside world without the assistance of the system processor or interface controller. When implemented in memory systems with multiple data lines, only one of the data lines may be utilized for such purpose, thereby allowing the testing to be performed while the system is still performing data transfer. Preferably, the system includes the test mode communication controller, which can select between a test channel and a host interface channel for the test message transfer so that the same testing may be performed when the memory system is in the test package as well as in an encapsulated package. The test message is transmitted repeatedly and the test message is structured so that it is easier for the receiver host to decipher the message without a handshake with the memory system. A communication controller preferably detects whether any of the communication channels is not used by the controller of a non-volatile memory system for sending signals and sends diagnostic signals through such channel. | 01-27-2011 |
| 20110113158 | ENHANCED DATA STORAGE DEVICE - A data storage device includes one or more electrical contacts and one or more data paths through the electrical contacts. The one or more electrical contacts enable bits to be transferred into and out of the data storage device via the one or more data paths. The data storage device also includes a memory that stores an indication of a number of the one or more data paths. The data storage device is configured to provide the indication via at least one of the one or more data paths while the data storage device is operatively coupled to a host device to indicate to the host device the number of the one or more data paths. | 05-12-2011 |
| 20110167186 | Optimized Non-Volatile Storage Systems - A memory card that adapts its operation according to the application to which it applied or the conditions under which it is operated. This allows the card to dynamical self optimize. In a first set of embodiments, the card uses host profiling where it will learn about the host during host-card interactions and the card's controller will optimize its algorithms accordingly. In another set of embodiments, the host and card will report to one another their capabilities for a quality of service negotiation. A further set of embodiments allows the storage device to memorize access sequences issued by the host under various predefined conditions, such as host reset or a power on boot sequence. The storage device can use this information to optimize operation for the expected commands. On deviation from an expected sequence, the device would memorize the new command sequence and save it, thus operating in a self-adaptive manner. | 07-07-2011 |
