A method includes protecting a boot sequence of a processing device by incrementing a counting value generated by a monotonic counter, then a first time period after the beginning of the boot sequence, comparing, by the protection circuit, the counting value with a first reference value, and, if the counting value is smaller than the first reference value, changing, by the protection circuit, the counting value to the first reference value.

Embodiments of an invention related to compacted context state management are disclosed. In one embodiment, a processor includes instruction hardware and state management logic. The instruction hardware is to receive a first save instruction and a second save instruction. The state management logic is to, in response to the first save instruction, save context state in an un-compacted format in a first save area. The state management logic is also to, in response to the second save instruction, save a compaction mask and context state in a compacted format in a second save area and set a compacted-save indicator in the second save area. The state management logic is also to, in response to a single restore instruction, determine, based on the compacted-save indicator, whether to restore context from the un-compacted format in the first save area or from the compacted format in the second save area.

A system in package platform includes a processor chip having a runtime processor core, an accelerator core and a processor-memory interface exposed on a chip-to-chip bonding surface, a first memory chip such as 3D NAND flash memory storing a collection of executable models of inference engines, and a second memory chip storing weights of a selected executable model. The second memory chip can comprise a nonvolatile, random access memory, such as phase change memory. Direct vertical connections such as via-to-via connections, are provided between the processor chip and the second memory chip.

Satellites having autonomously deployable solar arrays are disclosed. A disclosed example satellite includes a solar array, a sensor to detect that the satellite has exited a launch vehicle, a processor to, based on the satellite exiting the launch vehicle, enable release of magnets or locks of an array, a release controller to control the release of the magnets or the locks of the array based on a release sequence to autonomously deploy the solar array, and a sequence analyzer to adapt the release sequence during execution of the release sequence, wherein adapting the release sequence includes changing an order in which the magnets or the locks of the array are released based on a degree to which the solar array is unfolded.

A variety of applications can include apparatus and/or methods of controlling a secure boot mode for a memory system. In an embodiment, a system includes a memory component and a processing device, where the processing device is configured to control a boot process for the system to operate the memory component and perform a cryptographic verification with a host to conduct an authentication of the host. The processing device can interact with the host, in response to the authentication, to receive a setting to control the boot process in a secure boot mode. The processing can interact with another processing device of the system to store the setting and to receive a secure boot signal from the other processing device, where the secure boot signal is a signal to assert or de-assert the secure boot mode depending on a value of the setting. Additional apparatus, systems, and methods are disclosed.

Detection of whether a result of a floating point operation is safe. Characteristics of the result are examined to determine whether the result is safe or potentially unsafe, as defined by the user. An instruction is provided to facilitate detection of safe or potentially unsafe results.

A medical system suitable for delivering a fluid to a patient according to multiple modes of operation, including a safety mode that additionally enables the delivery or the treatment to continue even when a probable anomaly is detected.

A facility and cache machine instruction of a computer architecture for specifying a target cache cache-level and a target cache attribute of interest for obtaining a cache attribute of one or more target caches. The requested cache attribute of the target cache(s) is saved in a register.

Selected installed function of a multi-function instruction is hidden such that even though a processor is capable of performing the hidden installed function, the availability of the hidden function is hidden such that responsive to the multi-function instruction querying the availability of functions, only functions not hidden are reported as installed.

Systems, methods, and software are disclosed herein to execute functionalities of a blockchain operating system. A transactional request for an operating system instruction is received from a user device in a distributed network of nodes. The transactional request is authenticated in the distributed network of nodes based on data associated with the transactional request. A blockchain is then evaluated for one or more scripts associated with the transactional request. In response, the operating system instruction is generated based on the one or more scripts. The operating system instruction is then transferred to the user device in the distributed network or nodes.