In an embodiment, a system on a chip (SOC) comprises a semiconductor die on which circuitry is formed, wherein the circuitry comprises a memory controller circuit and a plurality of networks formed from a plurality of individual network component circuits. The memory controller includes a PIO message control circuit that is configured to receive PIO messages addressed to individual network component circuits and determine whether to send the PIO messages to the individual network component circuits based on determine whether previous PIO messages are pending for the individual network component circuits. The PIO message control circuit is configured to delay a first PIO message at the PIO message control circuit in response to determining that previous PIO message is pending for the addressee of the first PIO message.

An electronic apparatus and a boot method thereof are provided. The electronic apparatus includes a first controller, a basic input output system (BIOS), and a second controller. The first controller is configured to receive a boot code and provides the boot code to the electronic apparatus for performing a boot operation. The BIOS is configured to provide the boot code. The second controller has at least one communication interface. The at least one communication interface is configured to be connected to at least one external apparatus. The at least one external apparatus provides a backup boot code to the second controller. When the boot operation performed by the electronic apparatus according to the boot code provided by the BIOS fails, the second controller replaces the first controller to receive the backup boot code and provides the backup boot code to enable the electronic apparatus to perform the boot operation.

In one or more embodiments, one or more systems, one or more methods, and/or one or more processes may boot an operating system; after booting the operating system, determine that a solid state drive has been hot added to a Peripheral Component Interconnect Express (PCIe) port; suppress discovery of the solid state drive by the operating system; determine a policy associated with the solid state drive; determine that a current configuration associated with the solid state drive does not match a configuration associated with the policy associated with the solid state drive; determine that the configuration associated with the policy can be applied to the solid state drive; apply the configuration associated with the policy to the solid state drive without utilizing the operating system; and inform the operating system that the solid state drive has been communicatively coupled to at least one processor via a PCIe root complex.

A new approach is proposed to support hardware-based PCIe link up based on post silicon characterization of an electronic device. A non-volatile storage medium of a bootup unit on the electronic device maintains an initialization sequence for the physical layer of a PCIe link, and a non-volatile storage medium allows flexible programming. During operation, the bootup unit reads from the non-volatile storage medium instructions to program/override one or more PCIe physical layer settings and controller registers for the PCIe link based on the post silicon characterization of the electronic device. The bootup unit is limited to access and override only to the one or more physical layer settings and controller registers of the PCIe link. The entire process of reading the initialization sequence and programming the one or more PCIe physical layer settings and the controller registers happens within time limit constraints of the PCIe specification for latency reduction.

Technologies for dynamic accelerator selection include a compute sled. The compute sled includes a network interface controller to communicate with a remote accelerator of an accelerator sled over a network, where the network interface controller includes a local accelerator and a compute engine. The compute engine is to obtain network telemetry data indicative of a level of bandwidth saturation of the network. The compute engine is also to determine whether to accelerate a function managed by the compute sled. The compute engine is further to determine, in response to a determination to accelerate the function, whether to offload the function to the remote accelerator of the accelerator sled based on the telemetry data. Also the compute engine is to assign, in response a determination not to offload the function to the remote accelerator, the function to the local accelerator of the network interface controller.

A storage device for booting a host computing device includes a first storage memory region having a first storage memory controller, a second storage memory region having a second storage memory controller, and a resilient boot controller. The resilient boot controller is configured to store boot code in the first storage memory region, prevent write access by the host computing device through the first storage memory controller to the first storage memory region, detect a reset of the host computing device through the input/output interface, copy at least a portion of the boot code from the first storage memory region to the second storage memory region, responsive to detection of the reset of the host computing device, and enable read access of the copied boot code by the host computing device through the second storage memory controller of the second storage memory region, responsive to the copy operation.

A method, a computer program product, and a system for server provisioning and deployment. The method includes receiving a deployment configuration for a server. The deployment configuration includes a requested software build and a requested installation of an application and configuration for the server. The method also includes reconfiguring hardware on the server based on the deployment configuration and via an out-of-band management card on the server and pushing a boot loader on to the server for installation of an operating system. The method further includes performing an installation of the operating system on the server, transmitting an auto configuration file to the server. The auto configuration file provides installation properties relating to the application. The method also includes monitoring a status of the server during the installation of the application using a serial terminal output on the server.

In a mobile device, processes of an application can be monitored and scored for initial data distribution. Specifically, a method can include monitoring processes of an application, and scoring objects or components used by the processes to determine placement of the objects or components in memory during initiation of the application. The method can also include, during initiation of the application, loading, into a first portion of the memory, at least partially, the objects or components scored at a first level. The method can also include, during initiation of the application, loading, into a second portion of the memory, at least partially, the objects or components scored at a second level. The objects or components scored at the second level can be less critical to the application than the objects or components scored at the first level.

An information handling system may include at least one processor; and a non-transitory memory coupled to the at least one processor. The information handling system may be configured to: receive a command associated with an Intelligent Platform Management Interface (IPMI) protocol; package the command for transmission according to a Redfish protocol; and transmit the packaged command to a Redfish interface of a management controller, wherein the management controller is configured to unpackage and execute the command.

Disclosed are various embodiments for a container execution environment. In one embodiment, a container is executed in a virtual machine instance running on a computing device. A container control plane is executed separately from the virtual machine instance in an off-load device operably coupled to the computing device via a hardware interconnect interface. The container is managed using the container control plane executing on the off-load device.