Thresholding system power loss notifications in a data processing system based on vital product data
First Claim
1. A computer program product comprising a computer useable storage medium having a computer readable program, wherein the computer readable program, when executed on a data processing system, causes the data processing system to:
- access vital product data (VPD) information for each of a plurality of data processing devices within the data processing system;
identify one or more data processing devices of the plurality of data processing devices that are powered-on to a fully functional state;
measure an actual holdup capacitance time for a power supply module asserting an Early Power Off Warning (EPOW) signal;
store the actual holdup capacitance time in a vital product data (VPD) storage device associated with the power supply module;
determine a current power distribution network configuration relative to the one or more data processing devices based on the identified one or more data processing devices that are powered-on to a fully functional state, in response to the power supply module of the data processing system asserting the EPOW signal; and
assert a power loss notification signal, indicative of an imminent power loss to the data processing device, to logic of the data processing system based on the determined current power distribution network configuration relative to the one or more data processing devices, wherein the current power distribution network configuration is determined based on the actual holdup capacitance time stored in the VPD storage device associated with the power supply module.
2 Assignments
0 Petitions
Accused Products
Abstract
Mechanisms for thresholding system power loss notifications in a data processing system are provided. Power loss detection modules are provided in a data processing system having one or more data processing devices, such as blades in an IBM BladeCenter® chassis. The power loss detection modules detect the type of infrastructure of the data processing system, a position of a corresponding data processing device within the data processing system, and a capability of the data processing system to provide power during a power loss scenario. The detection module detects various inputs identifying these types of data processing system and power system characteristics and provides logic for defining a set of behaviors during a power loss scenario, e.g., behaviors for sending system notifications of imminent power loss. The detection of the various inputs and the defining of a set of behaviors may be performed statically and/or dynamically.
55 Citations
9 Claims
-
1. A computer program product comprising a computer useable storage medium having a computer readable program, wherein the computer readable program, when executed on a data processing system, causes the data processing system to:
-
access vital product data (VPD) information for each of a plurality of data processing devices within the data processing system; identify one or more data processing devices of the plurality of data processing devices that are powered-on to a fully functional state; measure an actual holdup capacitance time for a power supply module asserting an Early Power Off Warning (EPOW) signal; store the actual holdup capacitance time in a vital product data (VPD) storage device associated with the power supply module; determine a current power distribution network configuration relative to the one or more data processing devices based on the identified one or more data processing devices that are powered-on to a fully functional state, in response to the power supply module of the data processing system asserting the EPOW signal; and assert a power loss notification signal, indicative of an imminent power loss to the data processing device, to logic of the data processing system based on the determined current power distribution network configuration relative to the one or more data processing devices, wherein the current power distribution network configuration is determined based on the actual holdup capacitance time stored in the VPD storage device associated with the power supply module. - View Dependent Claims (2, 3, 4, 5, 6)
-
-
7. A data processing system, comprising:
-
at least one data processing device; at least one power supply module coupled to the at least one data processing device; and power loss detection logic coupled to at least one of the at least one data processing device or the at least one power supply module, wherein the power loss detection logic; accesses vital product data (VPD) information for each of a plurality of data processing devices within the data processing system; identifies one or more data processing devices of the plurality of data processing devices that are powered-on to a fully functional state; determines a current power distribution network configuration relative to the one or more data processing devices based on the identified one or more data processing devices that are powered-on to a fully functional state, in response to a power supply module of the data processing system asserting an Early Power Off Warning (EPOW) signal; and asserts a power loss notification signal, indicative of an imminent power loss to the data processing device, to logic of the data processing system based on the determined current power distribution network configuration relative to the one or more data processing devices, wherein logic of the power supply module; measures an actual holdup capacitance time for the power supply module; and stores the actual holdup capacitance time in a vital product data (VPD) storage device associated with the power supply module, and wherein the current power distribution network configuration is determined based on the actual holdup capacitance time stored in the VPD storage device associated with the power supply module. - View Dependent Claims (8, 9)
-
Specification