A temperature sensing device for a temperature-based tamper detection system includes an integrated circuit (IC) and a logic circuit. The logic circuit sends an enable signal to the IC, causing it to measure the device temperature, and initiates a security timer. In response to not receiving the device temperature before the security timer expires, the logic circuit outputs a tamper event signal and an error code. The logic circuit can disable the enable signal in response to not receiving the device temperature before the timer expires. In some implementations, the logic circuit is a first logic circuit, and the IC includes an analog integrated circuit (AIC) and a second logic circuit. The second logic circuit receives the enable signal from the first logic circuit, causes the AIC to measure the device temperature, and outputs a ready signal and the device temperature to the first logic circuit.

Systems and methods for modernizing workspace and hardware lifecycle management in an enterprise productivity ecosystem are described. In some embodiments, a client Information Handling System (IHS) may include a processor, and a memory coupled to the processor, the memory having program instructions stored thereon that, upon execution by the processor, cause the client IHS to: transmit, by a local management agent to a workspace orchestration service, an access request and context information; receive, at the local management agent from the workspace orchestration service, one or more files or policies configured to enable the local management agent to instantiate a workspace based upon a workspace definition, wherein the workspace orchestration service is configured to: (i) calculate a security target and a productivity target based upon the access request and the context information, and (ii) create the workspace definition based upon the security target and the productivity target; and instantiate the workspace.

A system may include a chassis comprising a plurality of bays, each of the plurality of bays configured to receive a respective modular information handling system, a shared infrastructure comprising a plurality of components which are shared by modular information handling systems received in the plurality of bays, and a chassis management controller communicatively coupled to the plurality of bays and configured to determine a power consumption for each respective modular information handling system and if the power consumption for a respective modular information handling system exceeds a maximum sled connector current limit for the respective modular information handling system, communicate a message to the respective modular information handling system to power down the respective modular information handling system.

An information handling system includes a computing device, a computing component of the computing device that is housed in a chassis, and a chilled air filter that reduces a humidity level of a portion of an airflow when the chilled air filter is in an active state. The portion of the airflow thermally manages the computing component. The airflow is received by the chassis via an air receiving exchange and exhausted by the chassis via an air expelling exchange.

An information handling system includes a computing component that is sensitive to corrosion; and a chassis in which the computing component is disposed. The chassis receives an airflow used to thermally manage the computing component, and expels the airflow after thermally managing the computing component. The information handling system also includes an environmental control component that reduces a condensation formation propensity of a portion of the airflow that traverses the chassis proximate to the computing component.

A server device having a plurality of server modules and a plurality of cooling fans in a chassis includes: a management unit configured to control the server modules; and a temperature measurement part configured to perform measurement of temperatures of the server modules. The management unit is configured to decide a server module to run on a basis of a result of the measurement by the temperature measurement part.

In one or more embodiments, one or more systems, one or more methods, and/or one or more processes may determine an identification of an application executing on an information handling system (IHS); determine a first performance profile based at least on a policy and based at least on the identification of the application; configure a processor to utilize power up to a first power level based at least on the first performance profile; determine that a user physically utilizes at least one human input device of the IHS within an amount of time transpiring; receive information indicating that the user is physically in contact with the IHS; determine a second performance profile based at least on the policy and based at least on the information; and configure the processor to utilize power up to a second power level based at least on the second performance profile.

Live process migration in response to real-time performance-based metrics is disclosed. At least one performance metric value that quantifies a performance metric of a first computing device is obtained. It is determined that the at least one performance metric value has an undesirable value. The initiation of a live migration of a process executing on the first computing device to a second computing device is caused based on determining that the at least one performance metric value has the undesirable value.

Systems and methods for modernizing workspace and hardware lifecycle management in an enterprise productivity ecosystem are described. In some embodiments, a client Information Handling System (IHS) may include a processor, and a memory coupled to the processor, the memory having program instructions stored thereon that, upon execution by the processor, cause the client IHS to: transmit, by a local management agent to a workspace orchestration service, an access request and context information; receive, at the local management agent from the workspace orchestration service, one or more files or policies configured to enable the local management agent to instantiate a workspace based upon a workspace definition, wherein the workspace orchestration service is configured to: (i) calculate a security target and a productivity target based upon the access request and the context information, and (ii) create the workspace definition based upon the security target and the productivity target; and instantiate the workspace.

A computing device of an information handling system includes an environmental control component and an environmental manager. The environmental control components identifies an aggregate amount of corrosion of a component of the information handling system; obtains a rate of corrosion associated with the component; makes a determination that the rate of corrosion indicates that the component will suffer a premature failure; in response to the determination: identifies an environmental control modification that will remediate the premature failure of the component; and updates an operation of the environmental control component based on the environmental control modification.