| Patent application number | Description | Published |
|---|
| 20090063867 | Method, System and Computer Program Product for Preventing Execution of Software Without a Dynamically Generated Key - A method, system and computer program product for partitioning the binary image of a software program, and partially removing code bits to create an encrypted software key, to increase software security. The software program's binary image is partitioned along a random segment length or a byte/nibble segment length, and the code bits removed, and stored, along with their positional data in a software key. The software key is encrypted and is separately distributed from the inoperable binary image to the end user. The encrypted key is stored on a secure remote server. When the end user properly authenticates with the developer's remote servers, the encrypted security key is downloaded from the secure remote server and is locally decrypted. The removed code bits are reinserted into the fractioned binary image utilizing the positional location information. The binary image is then operable to complete execution of the software program. | 03-05-2009 |
| 20090063868 | Method, System and Computer Program Product for Preventing Execution of Pirated Software - A method, system and computer program product for preventing execution of pirated software. A file is loaded on an end user's computer containing a binary image that is generated by removing one or more code bits from an executable code. A request is sent to a remote server to return a software key required for execution of the executable code from the binary image. The software key is downloaded to the end user's computer on which the binary image is loaded. One or more bits from the software key is inserted into the appropriate location of the binary image to regenerate the executable code. The executable code is enabled for execution on the end user's computer only following the embedding of the one or more bits. | 03-05-2009 |
| 20100188908 | Setting Memory Device VREF in a Memory Controller and Memory Device Interface in a Communication Bus - A memory device is connected through an interface to a memory controller. The memory device's reference voltage is set based on a driver's impedance of the memory device and the controller driver drive strength during driver training. The voltage is applied to a reference resistor pair at the memory device and changed until the voltage level switches. The voltage is then set at the reference resistor pair of the memory device. | 07-29-2010 |
| 20100188916 | Setting Memory Controller Driver to Memory Device Termination Value in a Communication Bus - A method and system are provided for coupling a DRAM and a memory controller during driver training to reduce mismatches by controlling impedances within the system environment. A memory device initializes a bit level voltage on a data net. A driver impedance in a driving element in the controller is modified to yield improvements in timing margins. | 07-29-2010 |
| 20100188917 | Setting Memory Device Termination in a Memory Device and Memory Controller Interface in a Communication Bus - A memory device and memory controller are coupled during driver training to reduce mismatches. The impedances of the system are controlled through a termination at the memory device to yield improvements in timing margins. The coupling of the components on a shared electrical bus through adjustment of the termination values during training removes known offset issues. | 07-29-2010 |
| 20100188918 | Setting Controller VREF in a Memory Controller and Memory Device Interface in a Communication Bus - A memory device is connected through an interface to a memory controller. The controller's reference voltage is set based on a driver's impendence of the memory device during driver training. The voltage is applied to a reference resistor pair at the controller and changed until the voltage level switches. The voltage is then set at the reference resistor pair of the controller. | 07-29-2010 |
| 20100188919 | Calibration of Memory Driver With Offset in a Memory Controller and Memory Device Interface in a Communication Bus - A method and system are provided for coupling a DRAM and a memory controller during driver training to reduce mismatches by controlling impedances within the system environment. The memory device, which is typically the device initializing a bit level voltage on a data net, is adjusted through altering what appears to be the reference voltage value to the memory device. A current driven to the memory device is varied in small increments while impedance training is rerun until a desired value is achieved to set the 0 level voltage on the data net. | 07-29-2010 |
| 20100192000 | Setting Controller Termination in a Memory Controller and Memory Device Interface in a Communication Bus - A DRAM and memory controller are coupled during driver training to reduce mismatches. The impedances of the system are controlled through a termination at the controller to yield improvements in timing margins. The coupling of the components on a shared electrical bus through adjustment of the termination values during training removes known offset issues. | 07-29-2010 |
