초록 ▼

A system for factory installation of software that configures the storage resources in one or more file servers as a "cache." The factory installation system includes at least one file server coupled to a storage management engine (SME) which is coupled to a library server. A target customer system

A system for factory installation of software that configures the storage resources in one or more file servers as a "cache." The factory installation system includes at least one file server coupled to a storage management engine (SME) which is coupled to a library server. A target customer system being loaded with software is coupled to the file servers and library server. The library server will have sufficient storage capacity to maintain all of the software that may be requested by a target customer system. The storage management engine will determine which software programs included on the file server memory have been the least recently used and delete those files, thus causing the remaining files on the server memory to be the most recently used. When a target customer computer is being loaded, a request is first made to the file severs for the desired software. If the desired programs are located on the file servers, then a download to the customer computer is implemented. However, if the requested software is not present, the customer computer then sends a request to the library server for the desired software and a download from the library server to the customer computer occurs. When the target customer system requests the file from the library server, the request is logged in a directory in the library server. Periodically, the SME will read the logged requests and then update the file server memories with software which has been requested by the customer computers.

대표청구항 ▼

A system for factory installation of software that configures the storage resources in one or more file servers as a "cache." The factory installation system includes at least one file server coupled to a storage management engine (SME) which is coupled to a library server. A target customer system

A system for factory installation of software that configures the storage resources in one or more file servers as a "cache." The factory installation system includes at least one file server coupled to a storage management engine (SME) which is coupled to a library server. A target customer system being loaded with software is coupled to the file servers and library server. The library server will have sufficient storage capacity to maintain all of the software that may be requested by a target customer system. The storage management engine will determine which software programs included on the file server memory have been the least recently used and delete those files, thus causing the remaining files on the server memory to be the most recently used. When a target customer computer is being loaded, a request is first made to the file severs for the desired software. If the desired programs are located on the file servers, then a download to the customer computer is implemented. However, if the requested software is not present, the customer computer then sends a request to the library server for the desired software and a download from the library server to the customer computer occurs. When the target customer system requests the file from the library server, the request is logged in a directory in the library server. Periodically, the SME will read the logged requests and then update the file server memories with software which has been requested by the customer computers. disable in wake up LAN enable from the system setup state during booting of the computer; and powering on the predetermined peripheral apparatuses if a system is set to power on enable, and powering off said devices other than predetermined peripheral apparatuses sensible to power on/off when the wake up LAN signal is sensed in the power-off state of the computer system if a system is not set to power on enable. 2. The method of claim 1, said system setup state being BIOS in said computer system. 3. The method of claim 1, said predetermined peripheral apparatuses being only a hard disk drive in said computer system. 4. The method of claim 1, said method being proceeded by a user programming said power on enable or disable in said system setup followed by powering down said computer system prior said sensing of said wake up LAN signal. 5. An apparatus for controlling power of a computer system using a wake up LAN signal, comprising: a power controlling unit generating a first control signal when the wake up LAN signal is sensed, and generating a second control signal in accordance with the setup state of the system; a first switch connected to a predetermined power supply, and supplying the power to devices of the system other than predetermined peripheral apparatuses sensible to powering on and off in response to the first control signal; and a second switch supplying power to the peripheral apparatuses in response to the second control signal. 6. The apparatus of claim 5, wherein the power controlling unit receives a power on enable/disable command with respect to the wake up LAN signal set in accordance with setup state of the system from the CPU before powering the system off, and regards the system to be power on enable to generate the first control signal when it doesn't receive information on the wake up LAN, and generates the second control signal when the power on enable is checked from the system setup state during booting of the computer. 7. The apparatus of claim 5, said second switch supplying power to all remaining peripheral apparatuses not powered on by said first switch. 8. The apparatus of claim 7, said first switch and said second switch both being controlled by a microcomputer that can detect the sensing of said wake up LAN signal, said microcomputer and also can detect said setup state of the system. 9. The apparatus of claim 5, said second switch supplying power only to said hard disk drive, said first switch not supplying power to said hard disk drive. 10. The apparatus of claim 5, said second switch supplying power to all remaining peripheral apparatuses not powered on by said first switch only when said wake up LAN signal is sensed and only when said setup state of the system is set to power on all peripheral apparatuses in response to said sensing of said wake up LAN signal. 11. The apparatus of claim 5, said setup state of the system being a flag stored in BIOS that determines whether to power up all peripheral apparatuses in response to the sensing of the wake up LAN signal or not to power up all the peripheral apparatuses in response to the sensing of the wake up LAN signal. 12. A method for controlling power in a user's computer connected to a network of computers via a LAN cable, said method comprising the steps of: programming a power on enable/disable flag in said user's computer by a user when said user's computer is powered on; powering down said user's computer; sensing, by said user's computer, a wake up LAN signal sent from another computer in said network via said LAN cable to said user's computer; powering on only certain predetermined peripheral devices in said user's computer; checking a status of said power on enable/disable flag; powering on all peripherals in said user's computer when said flag is set to enable; and powering off said certain predetermined peripheral devices when said flag is set to disable. 13. The method of claim 12, said powering down said use r's computer step being powering down of all peripherals in said user's computer but still having some power being applied to a network adapter card and a microcomputer for sensing said wake up LAN signal and for powering on only said certain predetermined peripheral devices in said user's computer upon said sensing of said wake up LAN signal. 14. The method of claim 12, said programming by said user being in said BIOS of said user's computer. 15. The method of claim 12, said certain predetermined peripheral devices in said user's computer comprising said BIOS and a CPU in said user's computer. 16. The method of claim 12, said certain predetermined peripheral devices in said user's computer not including a hard disk drive in said user's computer. 17. A method for controlling power in a user's computer connected to a network of computers via a LAN cable, said method comprising the steps of: programming said user's computer by said user as to whether or not said user's computer is to power on upon a sensing, by said user's computer, a wake up LAN signal sent from another computer in said network over said LAN cable to said user's computer; powering down said user's computer; sensing, by said user's computer, a wake up LAN signal sent from another computer in said network to said user's computer; determining whether said user had previously programmed said user's computer to respond to said wake up LAN signal; booting up said computer and powering on all peripherals when said user had previously programmed said computer to respond to said wake up LAN signal; and not responding to said wake up LAN signal when said user had previously programmed said computer not to respond to said wake up LAN signal. 18. The method of claim 17, said powering down steps being placing said user's computer in a standby state where said user's computer can sense said wake up LAN signal, can determine whether said user had programmed said computer to respond to said wake up LAN signal and can power on all peripheral devices in said user's computer and boot up said user's computer in response to said sensing of said wake up LAN signal when said user had previously programmed said user's computer to do so. 19. The method of claim 17, said programming being in a CPU and microcomputer in said user's computer, said microcomputer receiving power even when said user's computer is powered down. 20. A method for controlling power in a user's computer connected to a network of computers via a LAN cable, said method comprising the steps of: powering down said user's computer to a standby state where all peripheral devices of said user's computer are without power, said peripheral devices comprising a CPU, a system BIOS, and various memories comprising a hard disk drive; sensing, by said user's computer, a wake up LAN signal sent from another computer in said network via said LAN cable to said user's computer; checking whether a microcomputer in said user's computer is programmed as to whether or not said user's computer is to respond to said wake up LAN signal; powering on all peripheral devices and booting up said user's computer when said microcomputer is programmed to respond to said wake up LAN signal; disregarding said wake up LAN signal when said microcomputer is programmed to ignore said wake up LAN signal; applying power only to certain predetermined peripheral devices when said microcomputer is not programmed to either respond to or ignore said wake up LAN signal; checking said BIOS in said user's computer as to whether or not to respond to or ignore said wake up LAN signal when said microcomputer is not programmed to either respond to or ignore said wake up LAN signal; applying power to all remaining peripheral devices that are currently powered down when said BIOS is programmed to respond to said wake up LAN signal and when said microcomputer is not programmed to either respond to or ignore said wake up LAN signal; and powering dow n said user's computer to said standby state where all peripheral devices of said user's computer are without power when said BIOS is programmed to ignore said wake up LAN signal and when said microcomputer is not programmed to either respond to or ignore said wake up LAN signal. 21. The method of claim 20, said certain predetermined peripheral devices comprises said system BIOS. 22. The method of claim 20, said certain predetermined peripheral devices does not comprise said hard disk drive. 23. The method of claim 20, said standby state having some power applied to said microcomputer to detect said programming. 24. The method of claim 20, said standby state having some power applied to a network adaptor card to sense said wake up LAN signal when said user's computer is in said standby state. 25. The method of claim 20, said method being proceeded by a step of a user programming said CPU as to whether or not said user's computer is to respond to or ignore said wake up LAN signal when said wake up LAN signal is sensed by said user's computer, said CPU informing said microcomputer of said programming, said programming taking place when said user's computer is fully powered on and booted up. 26. The method of claim 20, said method being proceeded by a user programming said BIOS as to whether or not to respond to or ignore said wake up LAN signal when said wake up LAN signal is sensed by said user's computer, said CPU informing said microcomputer of said programming, said programming taking place when said user's computer is fully powered and booted up. 27. The method of claim 26, said programming by a user of said BIOS being setting a flag in said BIOS in said user's computer as to whether said user's computer is to respond to or ignore said wake up LAN signal when said user's computer senses said wake up LAN signal. 28. A user's computer connected to a computer network via a LAN cable, said computer comprising: a network adapter card interfacing said user's computer to said network and receiving commands from said network via said LAN cable whether to power up said user's computer from a standby state, said network adapter card receiving some power when said computer is in said standby state; a microcomputer connected to said network adapter card; said microcomputer receiving some power when said user's computer is in said standby state; a first switch connected to said microcomputer and connecting only certain predetermined peripheral devices in said computer to a power supply when said user's computer receives a command from said computer network via said LAN cable to power up said user's computer, said first switch being set not to deliver power when said user's computer is in said standby state; a second switch connected to said microcomputer and connecting all peripheral devices in said user's computer to a power supply, said second switch being set not to deliver power when said computer is in said standby state; and a power converter providing power only to said microcomputer and said network adapter card when said user's computer is in said standby state and providing power to all peripherals when said user's computer is powered on. 29. The computer of claim 28, said microcomputer being programmed to either respond to or ignore a command received from said network via said LAN cable to power up said user's computer. 30. The computer of claim 28, said first switch being set to deliver power to only said certain predetermined peripheral devices and said second switch not being set to deliver power only when said microcomputer is not programmed to either respond to or ignore a received command from said network over said LAN cable to power up said user's computer. 31. The computer of claim 28, said BIOS being programmed to either respond to or ignore a command received from said network via said LAN cable to power up said user's computer. 32. The computer of claim 28, said certain predetermined peripheral devices