Abstract: One embodiment of an apparatus includes a semiconductor chip having a processor and an on-die non-volatile storage resource. The on-die non-volatile storage may store different, appropriate performance related information for different configurations and usage cases of the processor for a same performance state of the processor.

Abstract: Systems and methods of implementing server architectures that can facilitate the servicing of memory components in computer systems. The systems and methods employ nonvolatile memory/storage modules that include nonvolatile memory (NVM) that can be used for system memory and mass storage, as well as firmware memory. The respective NVM/storage modules can be received in front or rear-loading bays of the computer systems. The systems and methods further employ single, dual, or quad socket processors, in which each processor is communicably coupled to at least some of the NVM/storage modules disposed in the front or rear-loading bays by one or more memory and/or input/output (I/O) channels. By employing NVM/storage modules that can be received in front or rear-loading bays of computer systems, the systems and methods provide memory component serviceability heretofore unachievable in computer systems implementing conventional server architectures.

Abstract: One embodiment of an apparatus includes a semiconductor chip having a processor and an on-die non-volatile storage resource. The on-die non-volatile storage may store different, appropriate performance related information for different configurations and usage cases of the processor for a same performance state of the processor.

Abstract: Methods, apparatuses, and systems may provide a sensor to monitor a power consumption of a non-volatile random access memory (RAM) and a volatile RAM. A switch, connected to an output of the sensor, controls power to the non-volatile RAM, and a voltage regulator regulates a voltage of the non-volatile RAM and the volatile RAM. One or more memory slots receive the non-volatile RAM and the volatile RAM, and a processor receives information from the sensor, and controls the voltage regulator based on the received information. The voltage regulator comprises a plurality of registers to store power consumption information of the non-volatile RAM and the volatile RAM.

Abstract: Systems and methods of implementing server architectures that can facilitate the servicing of memory components in computer systems. The systems and methods employ nonvolatile memory/storage modules that include nonvolatile memory (NVM) that can be used for system memory and mass storage, as well as firmware memory. The respective NVM/storage modules can be received in front or rear-loading bays of the computer systems. The systems and methods further employ single, dual, or quad socket processors, in which each processor is communicably coupled to at least some of the NVM/storage modules disposed in the front or rear-loading bays by one or more memory and/or input/output (I/O) channels. By employing NVM/storage modules that can be received in front or rear-loading bays of computer systems, the systems and methods provide memory component serviceability heretofore unachievable in computer systems implementing conventional server architectures.

Abstract: One embodiment of an apparatus includes a semiconductor chip having a processor and an on-die non-volatile storage resource. The on-die non-volatile storage may store different, appropriate performance related information for different configurations and usage cases of the processor for a same performance state of the processor.

Abstract: One embodiment of an apparatus includes a semiconductor chip having a processor and an on-die non-volatile storage resource. The on-die non-volatile storage may store different, appropriate performance related information for different configurations and usage cases of the processor for a same performance state of the processor.

Abstract: An apparatus that includes a semiconductor chip having a processor and an on-die non-volatile storage resource is described. The on-die non volatile storage is to store different, appropriate performance related information for different configurations and/or usage cases of the processor for a same performance state of the processor.

Abstract: An apparatus that includes a semiconductor chip having a processor and an on-die non-volatile storage resource is described. The on-die non volatile storage is to store different, appropriate performance related information for different configurations and/or usage cases of the processor for a same performance state of the processor.