Abstract: An apparatus and method for switching between different types of paging using separate control registers and without disabling paging. For example, one embodiment of a processor comprises: a first control register to store a first base address of a first paging structure associated with a first type of paging having a first number of paging structure levels; a second control register to store a second base address of a second paging structure associated with a first type of paging having a second number of paging structure levels greater than the first number of paging structure levels; page walk circuitry to select either the first base address from the first control register or the second base address from the second control register responsive to a first address translation request, the selection based on a characteristic of program code initiating the address translation request.

Abstract: A chassis platform, such as processor or a system-on-chip (SoC), includes logic to implement a debug chassis security system including a policy generator to control access from a test access port. The policy generator may distribute a debug policy to at least one logic block that locally enforces the debug policy. The debug policy may include a delayed authentication policy in which debug assets are distributed and the chassis platform is initially locked to prevent debug access via the test access port. An authenticated debug user may unlock the chassis platform at a later time to enable debugging operations. The debug policy may also include a live execution policy and an immediate debug policy.

Abstract: A chassis platform, such as processor or a system-on-chip (SoC), includes logic to implement a debug chassis security system including a policy generator to control access from a test access port. The policy generator may distribute a debug policy to at least one logic block that locally enforces the debug policy. The debug policy may include a delayed authentication policy in which debug assets are distributed and the chassis platform is initially locked to prevent debug access via the test access port. An authenticated debug user may unlock the chassis platform at a later time to enable debugging operations. The debug policy may also include a live execution policy and an immediate debug policy.

Abstract: A chassis platform, such as processor or a system-on-chip (SoC), includes logic to implement a debug chassis security system including a policy generator to control access from a test access port. The policy generator may distribute a debug policy to at least one logic block that locally enforces the debug policy. The debug policy may include a delayed authentication policy in which debug assets are distributed and the chassis platform is initially locked to prevent debug access via the test access port. An authenticated debug user may unlock the chassis platform at a later time to enable debugging operations. The debug policy may also include a live execution policy and an immediate debug policy.

Abstract: A chassis platform, such as processor or a system-on-chip (SoC), includes logic to implement a debug chassis security system including a policy generator to control access from a test access port. The policy generator may distribute a debug policy to at least one logic block that locally enforces the debug policy. The debug policy may include a delayed authentication policy in which debug assets are distributed and the chassis platform is initially locked to prevent debug access via the test access port. An authenticated debug user may unlock the chassis platform at a later time to enable debugging operations. The debug policy may also include a live execution policy and an immediate debug policy.

Abstract: In one embodiment, the present invention includes a method for identifying a termination sequence for an atomic memory operation executed by a first thread, associating a timer with the first thread, and preventing the first thread from execution of a memory cluster operation after completion of the atomic memory operation until a prevention window has passed. This method may be executed by regulation logic associated with a memory execution unit of a processor, in some embodiments. Other embodiments are described and claimed.

Abstract: In one embodiment, the present invention includes a method for identifying a termination sequence for an atomic memory operation executed by a first thread, associating a timer with the first thread, and preventing the first thread from execution of a memory cluster operation after completion of the atomic memory operation until a prevention window has passed. This method may be executed by regulation logic associated with a memory execution unit of a processor, in some embodiments. Other embodiments are described and claimed.