| Patent application number | Description | Published |
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| 20090144592 | Method and Apparatus for Describing Components Adapted for Dynamically Modifying a Scan Path for System-on-Chip Testing - The present invention provides a new hardware description language for chip-level JTAG testing. This new hardware description language, referred to as New BSDL (NSDL), enables testing resources of a system-on-chip to be described, thereby enabling the system-on-chip to be described in a manner that facilitates testing of the system-on-chip. The present invention provides a bottom-up approach to describing a system-on-chip. The present invention supports algorithmic descriptions of each of the components of the system-on-chip, and supports an algorithmic description of interconnections between the components of the system-on-chip, thereby enabling generation of an algorithmic description of the entire system-on-chip or portions of the system-on-chip. The present invention supports devices adapted for dynamically modifying the scan path of a system-on-chip (referred to herein as crossroad devices), including methods for describing such devices and use of such devices to perform testing of system-on-chips. | 06-04-2009 |
| 20090144593 | Method and apparatus for describing parallel access to a system-on-chip - The present invention provides a new hardware description language for chip-level JTAG testing. This new hardware description language, referred to as New BSDL (NSDL), enables testing resources of a system-on-chip to be described, thereby enabling the system-on-chip to be described in a manner that facilitates testing of the system-on-chip. The present invention provides a bottom-up approach to describing a system-on-chip. The present invention supports algorithmic descriptions of each of the components of the system-on-chip, and supports an algorithmic description of interconnections between the components of the system-on-chip, thereby enabling generation of an algorithmic description of the entire system-on-chip or portions of the system-on-chip. The present invention supports parallel access to one or more system-on-chip devices, including methods for describing and using parallel access for testing. | 06-04-2009 |
| 20090193304 | Apparatus and Method for Isolating Portions of a Scan Path of a System-on-Chip - The invention includes an apparatus and method for dynamically isolating a portion of a scan path of a system-on-chip. In one embodiment, an apparatus includes a scan path and control logic. The scan path includes at least a first hierarchical level, where the first hierarchical level includes a plurality of components, and a second hierarchical level having at least one component. The second hierarchical level is adapted for being selected and deselected such that the second hierarchical level is active or inactive. The control logic is adapted to filter application of at least one control signal to the at least one component of the second hierarchical level in a manner for controlling propagation of data within the second hierarchical level independent of propagation of data within the first hierarchical level. In one embodiment, when the second hierarchical level is deselected, the control logic prevents data from being propagated within the second hierarchical level while data is propagated within the first hierarchical level. In one embodiment, the second hierarchical level may be used for independent, parallel testing while data continues to be propagated through the first hierarchical level. | 07-30-2009 |
| 20090193306 | APPARATUS AND METHOD FOR CONTROLLING DYNAMIC MODIFICATION OF A SCAN PATH - The invention includes an apparatuses and associated methods for controlling dynamic modification of a testing scan path using a control scan path. In one embodiment, an apparatus includes a testing scan path and a control scan path. The testing scan path includes testing components and at least one hierarchy-enabling component. In one embodiment, the control scan path includes at least one control component coupled to the at least one hierarchy-enabling component for controlling dynamic modification of the testing scan path. In one embodiment, the control scan path includes the at least one hierarchy-enabling component, wherein the at least one hierarchy-enabling component is adapted for dynamically modifying the testing scan path using the control scan path. The dynamic modification of the testing scan path may include modifying a hierarchy of the testing scan path, such as selecting or deselecting one or more hierarchical levels of the testing scan path. | 07-30-2009 |
| 20100293423 | METHOD AND APPARATUS FOR VIRTUAL IN-CIRCUIT EMULATION - A virtual In-Circuit Emulation (ICE) capability is provided herein for supporting testing of Joint Test Action Group (JTAG) hardware. A Virtual ICE Driver is configured for enabling any debug software to interface with target hardware in a flexible and scalable manner. The Virtual ICE Driver is configured such that the test instruction set used with the Virtual ICE Driver is not required to compute vectors, as the JTAG operations are expressed as local native instructions on scan segments, thereby enabling ICE resources to be accessed directly. The Virtual ICE Driver is configured such that ICE may be combined with instrument-based JTAG approaches (e.g., the IEEE P1687 standard and other suitable approaches). The Virtual ICE Driver is configured for receiving a plurality of scan segment operations generated by a plurality of target ICE controllers of at least one ICE host, scheduling the received scan segment operations, based at least in part on a scan chain of the target hardware, to form thereby a scheduled set of scan segment operations, and providing the scheduled set of scan segment operations to a processor configured for executing the scheduled set of scan segment operations for testing the target hardware. | 11-18-2010 |
| Patent application number | Description | Published |
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| 20090144594 | METHOD AND APPARATUS FOR DESCRIBING AND TESTING A SYSTEM-ON-CHIP - The present invention provides a new hardware description language for chip-level JTAG testing. This new hardware description language, referred to as New BSDL (NSDL), enables testing resources of a system-on-chip to be described, thereby enabling the system-on-chip to be described in a manner that facilitates testing of the system-on-chip. The present invention provides a bottom-up approach to describing a system-on-chip. The present invention supports algorithmic descriptions of each of the components of the system-on-chip, and supports an algorithmic description of interconnections between the components of the system-on-chip, thereby enabling generation of an algorithmic description of the entire system-on-chip or portions of the system-on-chip. | 06-04-2009 |
| 20110314514 | METHOD AND APPARATUS FOR PROVIDING SCAN CHAIN SECURITY - A scan chain security capability is provided herein. The scan chain security capability enables secure control over normal use of a scan chain of a system, e.g., for purposes such as testing prior to deployment or sale of the system, in-field testing after deployment or sale of the system, in-field modification of the system, and the like. The scan chain security capability enables secure control over normal use of a scan chain by enabling control over interruption of a scan chain and re-establishment of an interrupted scan chain. A scan chain security component is configured for removing an open-circuit condition from the scan chain in response to a control signal. The control signal may be generated in response to validation of a security key, in response to successful completion of a challenge-based authentication process, or in response to any other suitable validation or authentication. The scan chain security component also may be configured for creating an open-circuit condition in the scan chain in response to a second control signal. The second control signal may be a scan register value received via the scan chain. | 12-22-2011 |
